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Generate a FGDC (Federal Geographic Data Committee) XML from following description of datarelease: | [Skip to main content](#sb-container-body)
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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3. [Video data files to accompany USGS OFR 2015-1142--Assessment of existing and potential landslide hazards resulting from the April 25, 2015 Gorkha, Nepal earthquake sequence](/catalog/item/55b24f7ee4b09a3b01b5361e)
4. [Video data files to accompany USGS OFR 2015-1142--Assessment of existing and potential landslide hazards resulting from the April 25, 2015 Gorkha, Nepal earthquake sequence: USGS\_Nepal\_05302015-E](/catalog/folder/55e781efe4b0dacf699dd392)
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## Dates
Publication Date2015-07-24Start Date2015-05-27End Date2015-06-01
## Citation
Collins, B.D., 2015, Video data files to accompany USGS OFR 2015-1142--Assessment of existing and potential landslide hazards resulting from the April 25, 2015 Gorkha, Nepal earthquake sequence: U.S. Geological Survey Data Release, http://dx.doi.org/10.5066/F7X928BN.
## Summary
On April 25, 2015, a large ( M7.8) earthquake shook much of central Nepal and was followed by a series of M>6 aftershocks, including a M7.3 event on May 12, 2015. This earthquake and aftershocks, referred to as the Gorkha earthquake sequence, caused thousands of fatalities, damaged and destroyed entire villages, and displaced millions of residents. The earthquakes also triggered thousands of landslides in the exceedingly steep topography of Nepal; these landslides were responsible for hundreds of fatalities, and blocked vital roads and trails to affected villages. With the support of the United States Agency for International Development (USAID), Office of Foreign Disaster Assistance (OFDA), and in collaboration with earthquake-hazard \[...\]
## Summary
On April 25, 2015, a large ( M7.8) earthquake shook much of central Nepal and was followed by a series of M>6 aftershocks, including a M7.3 event on May 12, 2015. This earthquake and aftershocks, referred to as the Gorkha earthquake sequence, caused thousands of fatalities, damaged and destroyed entire villages, and displaced millions of residents. The earthquakes also triggered thousands of landslides in the exceedingly steep topography of Nepal; these landslides were responsible for hundreds of fatalities, and blocked vital roads and trails to affected villages. With the support of the United States Agency for International Development (USAID), Office of Foreign Disaster Assistance (OFDA), and in collaboration with earthquake-hazard organizations from both the United States and Nepal, the U.S. Geological Survey (USGS) responded to this crisis by providing landslide-hazard expertise to Nepalese agencies and affected villages. During these assessments, over 11 hours of helicopter-based video coverage of earthquake-affected areas was collected. A report available on-line provides a report on landslide assessments conducted by the USGS. The video resources contained herein provide high resolution coverage of approximately 1,000 kilometers (km) of river valleys and surrounding terrain affected by the Gorkha earthquake sequence.
## Contacts
Point of Contact
:
[Brian Collins](/catalog/catalogParty/show?partyId=Brian+Collins)
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Metadata Contact
:
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Originator
:
[Brian Collins](/catalog/catalogParty/show?partyId=Brian+Collins)
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:
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| --- | --- | --- | --- |
| Metadata\_video\_files\_for\_USGS\_OFR\_2015\_1142.xml<br>_Original FGDC Metadata_ | View | 8.04 KB | application/fgdc+xml |
| USGS\_Nepal\_05302015-E.mp4 | | 2.78 GB | video/mp4 |
## Related External Resources
Type: Online Link
| | |
| --- | --- |
| Sciencebase catalog parent item | [https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e](https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e "https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e") |
Type: browseImage
| | |
| --- | --- |
| Thumbnail image of a clip from the USGS\_Nepal\_05272015-K.mp4 video file at 31 seconds from the beginning of the video. | [https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=\_\_disk\_\_3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true](https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=__disk__3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true "https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=__disk__3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true") |
Type: YouTube Video
| | |
| --- | --- |
| USGS\_Nepal\_05302015-E | [https://www.sciencebase.gov/data/videos/youtube.html?id=55b24f7ee4b09a3b01b5361e&videoid=9iL-9eSG\_oE](https://www.sciencebase.gov/data/videos/youtube.html?id=55b24f7ee4b09a3b01b5361e&videoid=9iL-9eSG_oE "https://www.sciencebase.gov/data/videos/youtube.html?id=55b24f7ee4b09a3b01b5361e&videoid=9iL-9eSG_oE") |
## Purpose
Video data was collected to record earthquake-affected river valleys and surrounding terrain from the April 25, 2015 Gorkha, Nepal earthquake sequence.
## Preview Image
![Thumbnail image of a clip from the USGS_Nepal_05272015-K.mp4 video file at 31 seconds from the beginning of the video.](https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=__disk__3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true)
Thumbnail image of a clip from the USGS\_Nepal\_05272015-K.mp4 video file at 31 seconds from the beginning of the video.
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## Tags
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- [Nepal](/catalog/items?q=&filter=tags%3DNepal "Nepal (Nepal, Place, Geographic Names Information System)")
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Brian Collins</origin>\n <pubdate>20150724</pubdate>\n <title>Video data files to accompany USGS OFR 2015-1142--Assessment of existing and potential landslide hazards resulting from the April 25, 2015 Gorkha, Nepal earthquake sequence</title>\n <geoform>.mp4 and .kmz</geoform>\n <pubinfo>\n <pubplace>ScienceBase</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.5066/F7X928BN</onlink>\n <onlink>https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>On April 25, 2015, a large ( M7.8) earthquake shook much of central Nepal and was followed by a series of M>6 aftershocks, including a M7.3 event on May 12, 2015. This earthquake and aftershocks, referred to as the Gorkha earthquake sequence, caused thousands of fatalities, damaged and destroyed entire villages, and displaced millions of residents. The earthquakes also triggered thousands of landslides in the exceedingly steep topography of Nepal; these landslides were responsible for hundreds of fatalities, and blocked vital roads and trails to affected villages. With the support of the United States Agency for International Development (USAID), Office of Foreign Disaster Assistance (OFDA), and in collaboration with earthquake-hazard organizations from both the United States and Nepal, the U.S. Geological Survey (USGS) responded to this crisis by providing landslide-hazard expertise to Nepalese agencies and affected villages. During these assessments, over 11 hours of helicopter-based video coverage of earthquake-affected areas was collected. A report available on-line provides a report on landslide assessments conducted by the USGS. The video resources contained herein provide high resolution coverage of approximately 1,000 kilometers (km) of river valleys and surrounding terrain affected by the Gorkha earthquake sequence.</abstract>\n <purpose>Video data was collected to record earthquake-affected river valleys and surrounding terrain from the April 25, 2015 Gorkha, Nepal earthquake sequence.</purpose>\n <supplinf>This data accompanies U.S. Geological Survey Open File Report 2015-1142. The appendix of this report provides additional information on the video files.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20150527</begdate>\n <enddate>20150601</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>83.322502852018</westbc>\n <eastbc>86.8205499951</eastbc>\n <northbc>29.293696635832</northbc>\n <southbc>27.242534198561</southbc>\n </bounding>\n <descgeog>Central Nepal</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Nepal</themekey>\n <themekey>earthquake</themekey>\n <themekey>landslide</themekey>\n <themekey>helicopter</themekey>\n <themekey>video</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:55e781efe4b0dacf699dd392</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Nepal</placekey>\n <placekey>Gorkha</placekey>\n <placekey>Kathmandu</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Brian Collins</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing</addrtype>\n <address>345 Middlefield Road, MS973</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>650-329-5466</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=__disk__3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true</browsen>\n <browsed>Thumbnail image of a clip from the USGS_Nepal_05272015-K.mp4 video file at 31 seconds from the beginning of the video.</browsed>\n <browset>PNG</browset>\n </browse>\n <datacred>U.S. Department of State, USAID Office of Foreign Disaster Assistance</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>Start and end of video files were checked for consistency with geographic locations in KMZ files.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Video files were organized by date and titled accordingly.</procdesc>\n <procdate>2015</procdate>\n </procstep>\n </lineage>\n <cloud>0</cloud>\n </dataqual>\n <spdoinfo>\n <indspref>See KMZ file that accompanies the video files.</indspref>\n <direct>Raster</direct>\n </spdoinfo>\n <eainfo>\n <overview>\n <eaover>Video data</eaover>\n <eadetcit>https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>This database has been approved for release and publication by the U.S. Geological Survey (USGS). Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, it is released on condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from its authorized or unauthorized use.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Geospatial Datasets</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F7X928BN</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200818</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Brian Collins</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>345 Middlefield Road, MS973</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>650-329-5466</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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3. [Oxide and Cation Compositions of Pyroxene Grains from Drill Core of the Duluth Complex, Minnesota](/catalog/folder/59dcd057e4b05fe04ccbd536)
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## Dates
Publication Date2017-12-18Time Period2014-04-23Time Period2014-04-24Time Period2014-04-25Time Period2015-03-03Time Period2015-03-04Time Period2017-07-10Time Period2017-07-11
## Citation
Schulte, R.F., Seal, R.R., Piatak, N.M., and Woodruff, L.G., 2017, Oxide and cation compositions of pyroxene grains from drill core of the Duluth Complex, Minnesota: U.S. Geological Survey data release, https://doi.org/10.5066/F73N21XC.
## Summary
The table contains oxide and cation compositions of pyroxene grains from drill core in the Duluth Complex. The oxides were determined by electron probe microanalysis (EPMA) and are reported in weight percent (we%). The cations were calculated from the oxide concentrations and are reported in mole percent (mol%). Pyroxene minerals are a group of rock-forming inosilicate minerals with calcium (Ca), iron (Fe), and magnesium (Mg) endmembers. Wollastonite (Wo) is the Ca-endmember with the formula Ca2Si2O6. Ferrosilite (Fs) is the Fe-endmember with the formula Fe2Si2O6, and enstatite (En) is the Mg-endmember with the formula Mg2Si2O6. In order to better understand the chemical compositions of the pyroxenes, the percent of Wo, Fs, and En \[...\]
## Summary
The table contains oxide and cation compositions of pyroxene grains from drill core in the Duluth Complex. The oxides were determined by electron probe microanalysis (EPMA) and are reported in weight percent (we%). The cations were calculated from the oxide concentrations and are reported in mole percent (mol%). Pyroxene minerals are a group of rock-forming inosilicate minerals with calcium (Ca), iron (Fe), and magnesium (Mg) endmembers. Wollastonite (Wo) is the Ca-endmember with the formula Ca2Si2O6. Ferrosilite (Fs) is the Fe-endmember with the formula Fe2Si2O6, and enstatite (En) is the Mg-endmember with the formula Mg2Si2O6. In order to better understand the chemical compositions of the pyroxenes, the percent of Wo, Fs, and En were also determined using the cation compositions Ca, Fe, and Mg.
## Contacts
Point of Contact
:
[Nadine Piatak](/catalog/catalogParty/show?partyId=Nadine+Piatak)
Originator
:
[Ruth F. Schulte](/catalog/catalogParty/show?partyId=Ruth+F.+Schulte),
[Robert R. Seal, II](/catalog/catalogParty/show?partyId=Robert+R.+Seal%2C+II),
[Nadine M. Piatak](/catalog/catalogParty/show?partyId=Nadine+M.+Piatak),
[Laurel G. Woodruff](/catalog/catalogParty/show?partyId=Laurel+G.+Woodruff)
Metadata Contact
:
[Peter N Schweitzer](/catalog/catalogParty/show?partyId=Peter+N+Schweitzer)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
Distributor
:
[GS ScienceBase](/catalog/catalogParty/show?partyId=GS+ScienceBase)
USGS Mission Area
:
[Energy and Minerals](/catalog/catalogParty/show?partyId=Energy+and+Minerals)
SDC Data Owner
:
[Mineral Resources Program](/catalog/catalogParty/show?partyId=17162)
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| Oxide and Cation Compositions of Pyroxene Grains from Drill Core of the Duluth Complex, Minnesota.xml<br>_Original FGDC Metadata_ | View | 32.85 KB | application/fgdc+xml |
| Pyroxene Compositions.csv<br>“Pyroxene Compositions” | | 63.32 KB | text/csv |
## Purpose
Data were collected in order to determine the chemical composition of pyroxene grains found in drill cores from the Duluth Complex.
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## Associated Items
- _related to_ [Oxide and Cation Compositions of Olivine Grains from Drill Core in the Duluth Complex, Minnesota](/catalog/item/59dcd0e3e4b05fe04ccbd53d "Compositions of olivine grains from drill core of the Duluth Complex, Minnesota")
- _related_ [Oxide and Cation Compositions of Olivine Grains from Drill Core in the Duluth Complex, Minnesota](/catalog/item/59dcd0e3e4b05fe04ccbd53d "Compositions of pyroxene grains from drill core of the Duluth Complex, Minnesota")
- _related_ [Oxide and Cation Compositions of Feldspar Grains from Drill Core of the Duluth Complex, Minnesota](/catalog/item/59dcd1a3e4b05fe04ccbd549 "Compositions of pyroxene grains from drill core of the Duluth Complex, Minnesota")
- _related_ [Major, Minor, and Trace Element Compositions of Bulk Drill Core Samples from the Duluth Complex, Minnesota](/catalog/item/59dcd146e4b05fe04ccbd543 "Compositions of pyroxene grains from drill core of the Duluth Complex, Minnesota")
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- [Geochemistry](/catalog/items?q=&filter=tags%3DGeochemistry "Geochemistry (Geochemistry, USGS Scientific Topic Keyword, )")
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Ruth F. Schulte</origin>\n <origin>Robert R. Seal, II</origin>\n <origin>Nadine M. Piatak</origin>\n <origin>Laurel G. Woodruff</origin>\n <pubdate>2017</pubdate>\n <title>Oxide and Cation Compositions of Pyroxene Grains from Drill Core of the Duluth Complex, Minnesota</title>\n <geoform>tabular data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F73N21XC</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Ruth F. Schulte</origin>\n <origin>Nadine M. Piatak</origin>\n <origin>Robert R. Seal, II</origin>\n <origin>Laurel G. Woodruff</origin>\n <pubdate>2017</pubdate>\n <title>Acid-Generating and Acid-Neutralizing Potential of Silicate Rocks from the Basal Mineralized Zones of the Duluth Complex, Minnesota</title>\n <geoform>scientific report</geoform>\n <pubinfo>\n <pubplace>Heidelberg, Germany</pubplace>\n <publish>Springer Verlag</publish>\n </pubinfo>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The table contains oxide and cation compositions of pyroxene grains from drill core in the Duluth Complex. The oxides were determined by electron probe microanalysis (EPMA) and are reported in weight percent (we%). The cations were calculated from the oxide concentrations and are reported in mole percent (mol%). Pyroxene minerals are a group of rock-forming inosilicate minerals with calcium (Ca), iron (Fe), and magnesium (Mg) endmembers. Wollastonite (Wo) is the Ca-endmember with the formula Ca2Si2O6. Ferrosilite (Fs) is the Fe-endmember with the formula Fe2Si2O6, and enstatite (En) is the Mg-endmember with the formula Mg2Si2O6. In order to better understand the chemical compositions of the pyroxenes, the percent of Wo, Fs, and En were also determined using the cation compositions Ca, Fe, and Mg.</abstract>\n <purpose>Data were collected in order to determine the chemical composition of pyroxene grains found in drill cores from the Duluth Complex.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>20140423</caldate>\n </sngdate>\n <sngdate>\n <caldate>20140424</caldate>\n </sngdate>\n <sngdate>\n <caldate>20140425</caldate>\n </sngdate>\n <sngdate>\n <caldate>20150303</caldate>\n </sngdate>\n <sngdate>\n <caldate>20150304</caldate>\n </sngdate>\n <sngdate>\n <caldate>20170710</caldate>\n </sngdate>\n <sngdate>\n <caldate>20170711</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-92.936096188011</westbc>\n <eastbc>-89.81597900064</eastbc>\n <northbc>48.202710287247</northbc>\n <southbc>46.50595444409</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>mineralogy</themekey>\n <themekey>electron microscopy</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:59dcd057e4b05fe04ccbd536</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Minnesota</placekey>\n <placekey>Lake County</placekey>\n <placekey>St. Louis County</placekey>\n <placekey>Cook County</placekey>\n <placekey>Duluth</placekey>\n </place>\n <temporal>\n <tempkt>USGS Thesaurus: Time Periods</tempkt>\n <tempkey>Middle Proterozoic</tempkey>\n </temporal>\n </keywords>\n <accconst>none</accconst>\n <useconst>The USGS shall not be held liable for improper or incorrect use of the data retrieved from the system.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Nadine Piatak</cntper>\n <cntorg>Midwest Region</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 954, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-6254</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>A ZAF correction was applied to the analyses using the electron microprobe software. Standard reference materials used to calculate the instrument for quantitative analysis include natural and synthetic oxides. In general, precision for microprobe analyses is \xc2\xb1 1% of the amount present or better for major and minor elements. Detection limits (in weight percent oxide) for pyroxene are 0.025 for Al2O3, 0.036 for MnO, 0.075 for SiO2, 0.077 for FeO, 0.028 for CaO, 0.020 for Na2O, 0.037 for Cr2O3, 0.041 for MgO, 0.066 for NiO, 0.0193 for K2O, and 0.042 for TiO2.</attraccr>\n </attracc>\n <logic>The values fall within the expected ranges for pyroxene grains. Data points that were not consistent with pyroxene chemical composition were removed from the dataset and notes were added to the original spreadsheet as to the correct mineralogy and reason for omission. The rest of the data was checked for duplication and omission.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Drill core samples were collected from the Minnesota Department of Natural Resources Drill Core Library in Hibbing, Minnesota, in June 2013.</procdesc>\n <procdate>2013</procdate>\n </procstep>\n <procstep>\n <procdesc>Slices of rock samples were sent to Wagner Petrographic to be made into double polished thin sections (standard size) for microprobe analysis. Thin sections were impregnated with clear epoxy where necessary. The samples were not covered with glass slides.</procdesc>\n <procdate>2013</procdate>\n </procstep>\n <procstep>\n <procdesc>Thin sections were returned to the USGS and then examined with petrographic microscope to identify the and evaluate the pyroxene grains for analysis by the electron probe microanalyzer.</procdesc>\n <procdate>2014</procdate>\n </procstep>\n <procstep>\n <procdesc>Polished thin section were carbon coated in order to be analyzed in the electron probe microanalyzer at the U.S. Geological Survey laboratories in Reston, Virginia.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n <procstep>\n <procdesc>An analytical package was created to measure major, minor, and trace elements in pyroxene grains. Standard reference materials were selected based on the documented reliability for measuring pyroxene grains. Selected thin sections were then analysed using electron microprobe. Analyses started in April 2014 and ended in July 2017.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n <procstep>\n <procdesc>Data was downloaded from the electron microprobe and reviewed using Microsoft Excel software.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n <procstep>\n <procdesc>Values below detection were identified as below detection (b.d.). The Fe2O3 concentrations were calculated from the FeO concentrations assuming FeO is FeO (total), such that Fe3+ can be calculated based on stoichiometry and charge balance. Cation proportions were calculated from the reported oxides based on the molecular weight of the oxide and the number of cation present in the mineral formula. The number of oxygen anions in each oxide was determined based on the molecular weight of the oxide and the number of anions present in the mineral formula. The sum of the anions was corrected by a factor of six based on the assumption that six oxygen anions are present in the pyroxene formula. The cations were then calculated based on the oxygen factor.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n <procstep>\n <procdesc>Using the sum of magnesium (Mg), iron (Fe), and calcium (Ca) cations, the percent enstatite (En), ferrosilite (Fs) and wollastonite (Wo) were determined.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spref>\n <vertdef>\n <depthsys>\n <depthdn>Depth below surface</depthdn>\n <depthres>1.0</depthres>\n <depthdu>feet</depthdu>\n <depthem>Attribute values</depthem>\n </depthsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Pyroxene Compositions</enttypl>\n <enttypd>Oxide and cation compositions of pyroxene grains from drill core of the Duluth Complex</enttypd>\n <enttypds>Multiple sources, including mining companies and producer defined. Values produced by electron microprobe analysis.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample</attrlabl>\n <attrdef>The identification of a sample by drill core ID and depth of occurrence.</attrdef>\n <attrdefs>Defined by companies that obtained the drill core.</attrdefs>\n <attrdomv>\n <udom>The first numeric value or text and numeric value correlates to the drill core ID. There is a space that follows the drill core ID. The second numeric value corresponds to the depth (in feet) at which the sample was taken. The value 26075 represents drill core from the NorthMet deposit. B1-95 is a drill core from the Mesaba deposit; 10089 and 10107 correlate to drill core from the Local Boy deposit.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comment</attrlabl>\n <attrdef>A textual description of the type of point selected on the thin section to be analyzed by the electron probe microanalyzer.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Comments refer to the type of point analyzed by the electron microprobe. For traverses across pyroxene grains, each point was identified as a traverse followed by an underscore and then the number associated with the point along the traverse. Generally, ten points were taken along each traverse to determine if zoning was present. An additional 10 to 25 points were selected at random to get an average representative mineral composition and assess homogeneity of mineral composition within the sample. Some of these points are identified as cpx_#; the rest of the points were given a number. Gaps in a numerical sequence are due to an error in the position that the microprobe took the data or are associated with a different mineral (such as olivine, feldspar, mica, or amphibole).</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SiO2 (wt%)</attrlabl>\n <attrdef>The concentration of silicon dioxide (SiO2) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.075</rdommin>\n <rdommax>80.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TiO2 (wt%)</attrlabl>\n <attrdef>The concentration of titanium dioxide (TiO2) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.040</rdommin>\n <rdommax>5.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Al2O3 (wt%)</attrlabl>\n <attrdef>The concentration of aluminum oxide (Al2O3) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.040</rdommin>\n <rdommax>10.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cr2O3 (wt%)</attrlabl>\n <attrdef>The concentration of chromium oxide (Cr2O3) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.040</rdommin>\n <rdommax>10.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>The abbreviation b.d. means the measurement was below the detection limit of the electron microprobe.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fe2O3 (wt%)</attrlabl>\n <attrdef>The concentration of iron (III) oxide (Fe2O3) calculated from the concentration of iron (II) oxide (FeO) determined by the electron microprobe, assuming FeO is FeO total. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.065</rdommin>\n <rdommax>10.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>FeO (wt%)</attrlabl>\n <attrdef>The concentration of iron (II) oxide (FeO) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.065</rdommin>\n <rdommax>50.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MnO (wt%)</attrlabl>\n <attrdef>The concentration of manganese oxide (MnO) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.030</rdommin>\n <rdommax>10.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MgO (wt%)</attrlabl>\n <attrdef>The concentration of magnesium oxide (MgO) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.040</rdommin>\n <rdommax>50.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CaO (wt%)</attrlabl>\n <attrdef>The concentration of calcium oxide (CaO) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.030</rdommin>\n <rdommax>50.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>The abbreviation b.d. means the measurement was below the detection limit of the electron microprobe.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Na2O (wt%)</attrlabl>\n <attrdef>The concentration of sodium oxide (Na2O) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.030</rdommin>\n <rdommax>2.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>The abbreviation b.d. means the measurement was below the detection limit of the electron microprobe.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>K2O (wt%)</attrlabl>\n <attrdef>The concentration of potassium oxide (K2O) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.025</rdommin>\n <rdommax>2.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>The abbreviation b.d. means the measurement was below the detection limit of the electron microprobe.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NiO (wt%)</attrlabl>\n <attrdef>The concentration of nickel oxide (NiO) measured by the electron microprobe. Concentration values are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.035</rdommin>\n <rdommax>2.000</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>The abbreviation b.d. means the measurement was below the detection limit of the electron microprobe.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Total (wt%)</attrlabl>\n <attrdef>The total oxide concentrations measured by the electron microprobe. Concentrations are reported in weight percent (wt%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>97</rdommin>\n <rdommax>103</rdommax>\n <attrunit>weight percent (wt%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Si (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of silicon (Si) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ti (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of titanium (Ti) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Al (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of aluminum (Al) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cr (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of chromium (Cr) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>The abbreviation b.d. means the oxide measurement was below the detection limit of the electron microprobe.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fe3+ (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of iron (III) (Fe3+) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fe2+ (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of iron (II) (Fe2+) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mn (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of manganese (Mn) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mg (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of magnesium (Mg) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ca (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of calcium (Ca) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Na (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of sodium (Na) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>The abbreviation b.d. means the oxide measurement was below the detection limit of the electron microprobe.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>K (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of potassium (K) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>The abbreviation b.d. means the oxide measurement was below the detection limit of the electron microprobe.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ni (mol%)</attrlabl>\n <attrdef>The calculated mole percent (mol%) of nickel (Ni) based on the concentration data obtained by electron probe microanalysis.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>The abbreviation b.d. means the oxide measurement was below the detection limit of the electron microprobe.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Si +Ti (T)</attrlabl>\n <attrdef>The sum of silicon (Si) and titanium (Ti) in mole percent (mol%) that occupy the tetrahedral (T) site in the pyroxene chemical formula.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Al (T)</attrlabl>\n <attrdef>The contribution of aluminum (Al) cation to the tetrahedral (T) site in the pyroxene chemical formula.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>T site total</attrlabl>\n <attrdef>The total cations present in the tetrahedral (T) site of the pyroxene chemical formula.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.00</rdommin>\n <rdommax>2.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Al (M2)</attrlabl>\n <attrdef>The contribution of the aluminum (Al) cation to the cubic (M2) site in the pyroxene chemical formula. The M2 site can be coordinated with 6 to 8 oxygen atoms, depending on the cation size.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fe3+Cr+Fe2+Mn (M2)</attrlabl>\n <attrdef>The contribution of the iron III (Fe3), chromium (Cr), iron II (Fe2), and manganese cations to the cubic (M2) site in the pyroxene chemical formula. The M2 site can be coordinated with 6 to 8 oxygen atoms, depending on the cation size.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mg (M2)</attrlabl>\n <attrdef>The contribution of the magnesium (Mg) cation to the cubic (M2) site in the pyroxene chemical formula. The M2 site can be coordinated with 6 to 8 oxygen atoms, depending on the cation size.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>M2 site total</attrlabl>\n <attrdef>The total number of cations present in the cubic (M2) site of the pyroxene chemical formula. Total cations are reported in mole percent (mol%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mg (M1)</attrlabl>\n <attrdef>The contribution of the magnesium (Mg) cation to the octahedral (M1) site in the pyroxene chemical formula.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ca+Na (M1)</attrlabl>\n <attrdef>The contribution of the calcium (Ca) and sodium (Na) cations to the octahedral (M1) site in the pyroxene chemical formula.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>M1 site total</attrlabl>\n <attrdef>The total number of cations in the octahedral (M1) site. Total cations are reported in mole percent (mol%).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2.00</rdommax>\n <attrunit>mole percent (mol%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>En%</attrlabl>\n <attrdef>Pyroxene minerals can have compositions between magnesium (Mg), calcium (Ca), and iron (Fe) endmembers. The Mg endmember is enstatite (En) and the percent (%) En is determined by dividing Mg cations by the sum of Ca, Mg, and Fe cations and multiplying times 100.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100.0</rdommax>\n <attrunit>percent (%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fs%</attrlabl>\n <attrdef>Pyroxene minerals can have compositions between magnesium (Mg), calcium (Ca), and iron (Fe) endmembers. The Fe endmember is ferrosilite (Fs) and the percent (%) Fs is determined by dividing Fe cations by the sum of Ca, Mg, and Fe cations and multiplying times 100.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100.0</rdommax>\n <attrunit>percent (%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wo%</attrlabl>\n <attrdef>Pyroxene minerals can have compositions between magnesium (Mg), calcium (Ca), and iron (Fe) endmembers. The Ca endmember is wollastonite (Wo) and the percent (%) Wo is determined by dividing Ca cations by the sum of Ca, Mg, and Fe cations and multiplying times 100.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100.0</rdommax>\n <attrunit>percent (%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>This database has been approved for release by the U.S. Geological Survey (USGS). Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the database is released on the condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from its authorized or unauthorized use.</distliab>\n <techpreq>This file contains data in a comma separated values format (csv). The user must have software capable of opening and reading the csv file format.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Peter N Schweitzer</cntper>\n <cntorg>Midwest Region</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 954, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-6533</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2019-03-08Start Date2012End Date2014
## Citation
Vandever, M., and Cade, B., 2019, Native Bee Genera in Colorado Conservation Reserve Program Fields, Collected from 2012-2014: U.S. Geological Survey data release, https://doi.org/10.5066/P9BVVHVB.
## Summary
Data included in this data set are for blue vane trap captured native bees from Logan County, Colorado starting in 2012 and ending in 2014. Data collected were the number of bees captured per date, per field, and identified to genus. Net level data contains 16,229 records.
## Summary
Data included in this data set are for blue vane trap captured native bees from Logan County, Colorado starting in 2012 and ending in 2014. Data collected were the number of bees captured per date, per field, and identified to genus. Net level data contains 16,229 records.
## Contacts
Point of Contact
:
[Mark Vandever](/catalog/catalogParty/show?partyId=10687),
[U.S. Geological Survey, Southwest Region](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Southwest+Region)
Process Contact
:
[Brian S Cade](/catalog/catalogParty/show?partyId=1467),
[U.S. Geological Survey, Southwest Region](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Southwest+Region)
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:
[Mark Vandever](/catalog/catalogParty/show?partyId=10687),
[Brian S Cade](/catalog/catalogParty/show?partyId=1467)
Metadata Contact
:
[Mark Vandever](/catalog/catalogParty/show?partyId=10687),
[U.S. Geological Survey, Southwest Region](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Southwest+Region)
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:
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:
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:
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## Purpose
To our knowledge this is the first examination of the effect of USDA pollinator habitat plantings on pollinator abundance and diversity that has been done. Data should be used to continue to estimate whether planting pollinator habitat in grasslands is an impactful way to support native bees populations.
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## Communities
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## Tags
Categories
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Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
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- [Colorado](/catalog/items?q=&filter=tags%3DColorado "Colorado (Colorado, Place, None)")
- [Logan County](/catalog/items?q=&filter=tags%3DLogan+County "Logan County (Logan County, Place, None)")
## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9BVVHVB |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Mark Vandever</origin>\n <origin>Brian Cade</origin>\n <pubdate>2019</pubdate>\n <title>Native Bee Genera in Colorado Conservation Reserve Program Fields, Collected from 2012-2014</title>\n <geoform>spreadsheet</geoform>\n <onlink>https://doi.org/10.5066/P9BVVHVB</onlink>\n <lworkcit>\n <citeinfo>\n <origin>H. S. Arathi</origin>\n <origin>Mark W. Vandever</origin>\n <origin>Brian S. Cade</origin>\n <pubdate>20190222</pubdate>\n <title>Diversity and abundance of wild bees in an agriculturally dominated landscape of eastern Colorado</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Journal of Insect Conservation</sername>\n <issue>vol. 23, issue 1</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Springer Science and Business Media LLC</publish>\n </pubinfo>\n <othercit>ppg. 187-197</othercit>\n <onlink>https://doi.org/10.1007/s10841-019-00125-1</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Data included in this data set are for blue vane trap captured native bees from Logan County, Colorado starting in 2012 and ending in 2014. Data were collected the number of bees captured per date, per field, and identified to genus. Net level data contains 16,229 records.</abstract>\n <purpose>To our knowledge this is the first examination of the effect of USDA pollinator habitat plantings on pollinator abundance and diversity that has been done. Data should be used to continue to estimate whether planting pollinator habitat in grasslands is an impactful way to support native bees populations.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2012</begdate>\n <enddate>2014</enddate>\n </rngdates>\n </timeinfo>\n <current>Field collection/sampling</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-103.5626</westbc>\n <eastbc>-102.6500</eastbc>\n <northbc>40.6536</northbc>\n <southbc>40.4200</southbc>\n </bounding>\n <descgeog>Logan County, Colorado</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>Bees</themekey>\n <themekey>Conservation Reserve Program</themekey>\n </theme>\n <theme>\n <themekt>Alexandria Digital Library Feature Type Thesaurus</themekt>\n <themekey>grasslands</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>pollinators</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5c819e86e4b0938824476639</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Logan County</placekey>\n <placekey>Colorado</placekey>\n </place>\n </keywords>\n <accconst>None. Please see \'Distribution Info\' for details.</accconst>\n <useconst>None. Users are advised to read the data set\'s metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Mark Vandever</cntper>\n <cntorg>U.S. Geological Survey, Southwest Region</cntorg>\n </cntperp>\n <cntpos>Rangeland Management Specialist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2150 Centre Avenue Bldg C</address>\n <city>Fort Collins</city>\n <state>CO</state>\n <postal>80526</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>970-226-9264</cntvoice>\n <cntfax>970-226-9230</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Dataset values are believed to be true values reflecting specimens collected in the field. Bees were numbered, pinned and assigned barcodes containing date and field location the day after field collection. Bees were then identified to genus by a taxonomist and their associated barcodes were scanned into an .xls file and labeled. A general tabular summary of counts per day/field was done to assure accuracy of specimen numbers. An additional taxonomic review of specimens was done in the Gillette Museum at Colorado State University in 2017.</attraccr>\n </attracc>\n <logic>All data values fall within expected range and field/lab/taxonomic data were a match in the final dataset. Preliminary field collection numbers were often not accurate as some specimens escaped. A potential shortcoming could be a small percentage of misidentified bees but precautions were taken and the taxonomist who authored "The Bees of Colorado" identified all specimens.</logic>\n <complete>Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No spatial aspect to this data</horizpar>\n </horizpa>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Data collected were recorded as tabular data. Tabular data were organized by paired fields, per season, and per year and statistically analyzed using a multi-response permutation procedure for randomized blocks. Adjustments were made to account for trapping efficiency by using a sample-based rarefaction for each identified time period of collection.</procdesc>\n <procdate>Unknown</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Brian S Cade</cntper>\n <cntorg>U.S. Geological Survey, Southwest Region</cntorg>\n </cntperp>\n <cntpos>Research Statistician (Biology)</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2150 Centre Avenue Bldg C</address>\n <city>Fort Collins</city>\n <state>CO</state>\n <postal>80526</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>970-226-9326</cntvoice>\n <cntfax>970-226-9230</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Bees 2012-2014 data.xlsx (Sheet1)</enttypl>\n <enttypd>Excel Worksheet</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>Date of field sampling</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2012-05-31 00:00:00</rdommin>\n <rdommax>2014-10-04 00:00:00</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Treatment</attrlabl>\n <attrdef>Defines design of experiment. Control fields were not planted to pollinator pollinator habitat. Pollinator (treated) fields were planted to pollinator habitat</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Control</edomv>\n <edomvd>General sign-up Conservation Reserve Program Fields not planted to pollinator habitat</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Pollinator</edomv>\n <edomvd>Conservation Reserve Program fields enrolled in the pollinator habitat initiative and planted to pollinator habitat</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Site #</attrlabl>\n <attrdef>Unique identifier of field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>5</rdommax>\n <attrunit>1</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Method</attrlabl>\n <attrdef>Identifies type of trap used to collect bees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>BVT</edomv>\n <edomvd>blue vane trap</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl># Traps</attrlabl>\n <attrdef>Count of traps used per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>8</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Agapostemon</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>80</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Andrena</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Anthidium</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>6</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Anthophora</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>21</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Apis</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>5</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ashmeadiella</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Augochlora</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Augochlorella</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>9</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Augochloropsis</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>9</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Bombus</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>18</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calliopsis</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>4</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ceratina</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Coelioxys</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>4</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Colletes</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>5</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Diadasia</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>373</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dianthidium</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>4</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dieunomia</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Doeringiella</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dufourea</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Epeolus</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Eucera</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>90</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Exomalopsis</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Florilegus</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>6</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Habropoda</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Halictus</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>9</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hesperapis</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Holcopasites</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hoplitis</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>7</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hylaeus</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lasioglossum</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>72</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lithurgopsis</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>15</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lithurgus</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>16</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Megachile</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>11</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Melecta</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Melissodes</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>321</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Melitoma</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Neolarra</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nomada</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>5</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nomia</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Osmia</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>8</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Panurginus</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>12</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Peponapis</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>4</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Perdita</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>21</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Protandrena</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pseudopanurgus</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sphecodes</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>32</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Svastra</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>164</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tetraloniella</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>6</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Triepeolus</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>10</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Xenoglossa</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Xeromelecta</attrlabl>\n <attrdef>Count of bees associated with this genus trapped per field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>9</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9BVVHVB</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20220203</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Mark Vandever</cntper>\n <cntorg>U.S. Geological Survey, Southwest Region</cntorg>\n </cntperp>\n <cntpos>Rangeland Management Specialist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2150 Centre Avenue Bldg C</address>\n <city>Fort Collins</city>\n <state>CO</state>\n <postal>80526</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>970-226-9264</cntvoice>\n <cntfax>970-226-9230</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2021-02-22Start Date2020-11-02End Date2020-11-02
## Citation
Plampin, M.R., Blondes, M.S., Sonnenthal, E.L., and Craddock, W.H., 2021, Model of groundwater flow, gas migration, and reactive transport in the Virgin River Basin, SW Utah: U.S. Geological Survey data release, https://doi.org/10.5066/P9ZSPA9D.
## Summary
To better understand the possible risks posed to shallow groundwater resources by geologic carbon sequestration (GCS), a multi-scale numerical modeling approach was invoked using the TOUGHREACT code from Lawrence Berkeley National Laboratory. The code solves coupled equations representing conservation of mass and energy on a finite difference grid to simulate multiphase, multicomponent, non-isothermal heat and mass transport in porous media. Two different two-dimensional cross-section modeling domains were constructed to improve understanding of groundwater flow and contaminant transport processes at a field site in soutwestern Utah. The site represents a natural analogue for leakage from a GCS site because water with elevated concentrations \[...\]
## Summary
To better understand the possible risks posed to shallow groundwater resources by geologic carbon sequestration (GCS), a multi-scale numerical modeling approach was invoked using the TOUGHREACT code from Lawrence Berkeley National Laboratory. The code solves coupled equations representing conservation of mass and energy on a finite difference grid to simulate multiphase, multicomponent, non-isothermal heat and mass transport in porous media. Two different two-dimensional cross-section modeling domains were constructed to improve understanding of groundwater flow and contaminant transport processes at a field site in soutwestern Utah. The site represents a natural analogue for leakage from a GCS site because water with elevated concentrations of salt and CO2 are migrating upward into a shallow aquifer system. The first modeling domain was designed to improve understanding of long-term hydrological leakage and conservative transport processes at the regional scale, while the second was designed to investigate site-scale reactive transport processes that could occur if the leaking fluids, or those with higher carbon dioxide (CO2) concentrations, were to interact with a potential source of contamination along their flow path toward the ground surface. Lead (Pb+2) was used as an example heavy metal contaminant and was incorporated into a region of iron oxide representing concretion zones that are common in the geographic area. Results indicate that the initial state of potential heavy metal contaminant (i.e., sorbed onto the surface of the iron oxide or in an oxide mineral assemblage as PbO, litharge), exerts strong control on the amount of contamination that may occur, and that precipitation readily sequesters mobilized Pb+2. This USGS data release contains all of the input and output files for the simulations described in the associated journal article. Descriptions of the data in each subdirectory are given to facilitate understanding of this model archive. File descriptions are provided for select files to provide additional information that may be of use for understanding this model archive. Support is provided for correcting errors in the data release and clarification of the modeling conducted by the U.S. Geological Survey. Users are encouraged to review the complete journal article (See 'Related External Resources' section below) to understand the purpose, report construction, and limitations of this model.
## Contacts
Point of Contact
:
[Michelle R Plampin](/catalog/catalogParty/show?partyId=71418)
Originator
:
[Michelle R Plampin](/catalog/catalogParty/show?partyId=71418),
[Madalyn S Blondes](/catalog/catalogParty/show?partyId=23335),
[Eric L Sonnenthal](/catalog/catalogParty/show?partyId=Eric+L+Sonnenthal),
[William H Craddock](/catalog/catalogParty/show?partyId=23462)
Metadata Contact
:
[Eric A Morrissey](/catalog/catalogParty/show?partyId=7209)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
USGS Mission Area
:
[Energy and Minerals](/catalog/catalogParty/show?partyId=Energy+and+Minerals)
SDC Data Owner
:
[Geology, Energy & Minerals Science Center](/catalog/catalogParty/show?partyId=17290)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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| Product\_10.5066P9ZSPA9D\_METADATA.xml<br>_Original FGDC Metadata_ | View | 18.45 KB | application/fgdc+xml |
| plampin2021\_GSLThumbnail.png | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5fa2ab1ad34e198cb7960970?f=__disk__02%2Fbe%2F80%2F02be80ab60a23c27a2169a29f38c4e06165685f7&width=150&height=113) | 12.41 MB | image/png |
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## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Plampin, M.R., Blondes, M.S., Sonnenthal, E.L., Craddock; W.H., 2021, Potential Pb+2 mobilization, transport, and sequestration in shallow aquifers impacted by multiphase CO2 leakage: a natural analogue study from the Virgin River Basin in Southwest Utah: Petroleum Geoscience, https://doi.org/10.1144/petgeo2020-109. | [https://doi.org/10.1144/petgeo2020-109](https://doi.org/10.1144/petgeo2020-109 "https://doi.org/10.1144/petgeo2020-109") |
## Purpose
This groundwater model was created to examine possible multiphase flow and reactive transport processes that may occur in shallow aquifers if CO2 were to leak from a deep geologic sequestration site. A site in southwestern Utah was analyzed as a natural analogue in this study because water with moderately elevated salt and CO2 concentrations is upwelling into shallow aquifers at the site. A model was built to better understand the upwelling process, and then a hypothetical contamination source was incorporated in a smaller-scale reactive transport model. The development of the model input and output files included in this data release is documented in the article published in Petroleum Geoscience (See 'Related External Resources' section above).
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- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
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USGS Scientific Topic Keyword
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## Provenance
Please see attached metadata record for full dataset provenance.
## Additional Information
### Identifiers
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| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9ZSPA9D |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Plampin, Michelle R.</origin>\n <origin>Blondes, Madalyn S.</origin>\n <origin>Sonnenthal, Eric L.</origin>\n <origin>Craddock, William H.</origin>\n <pubdate>20210222</pubdate>\n <title>Model of groundwater flow, gas migration, and reactive transport in the Virgin River Basin, SW Utah</title>\n <edition>Version 1.0</edition>\n <geoform>groundwater model</geoform>\n <pubinfo>\n <pubplace>Reston, VA, USA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9ZSPA9D</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Plampin, Michelle R.</origin>\n <origin>Blondes, Madalyn S.</origin>\n <origin>Sonnenthal, Eric L.</origin>\n <origin>Craddock, William H.</origin>\n <pubdate>2021</pubdate>\n <title>Potential Pb+2 mobilization, transport, and sequestration in shallow aquifers impacted by multiphase CO2 leakage: a natural analogue study from the Virgin River Basin in SW Utah</title>\n <geoform>Journal article</geoform>\n <serinfo>\n <sername>Petroleum Geocience</sername>\n <issue>Geoscience for CO2 Storage</issue>\n </serinfo>\n <pubinfo>\n <pubplace>London, United Kingdom</pubplace>\n <publish>Geological Society of London</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1144/petgeo2020-109</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>To better understand the possible risks posed to shallow groundwater resources by geologic carbon sequestration (GCS), a multi-scale numerical modeling approach was invoked using the TOUGHREACT code from Lawrence Berkeley National Laboratory. The code solves coupled equations representing conservation of mass and energy on a finite difference grid to simulate multiphase, multicomponent, non-isothermal heat and mass transport in porous media. Two different two-dimensional cross-section modeling domains were constructed to improve understanding of groundwater flow and contaminant transport processes at a field site in soutwestern Utah. The site represents a natural analogue for leakage from a GCS site because water with elevated concentrations of salt and CO2 are migrating upward into a shallow aquifer system. The first modeling domain was designed to improve understanding of long-term hydrological leakage and conservative transport processes at the regional scale, while the second was designed for investigation of site-scale reactive transport processes that could occur if the leaking fluids, or those with higher carbon dioxide (CO2) concentrations, were to interact with a potential source of contamination along their flow path toward the ground surface. Lead (Pb+2) was used as an example heavy metal contaminant and was incorporated into a region of iron oxide representing concretion zones that are common in the geographic area. Results indicate that the initial state of potential heavy metal contaminant (i.e., sorbed onto the surface of the iron oxide or in an oxide mineral assemblage as PbO, litharge), exerts strong control on the amount of contamination that may occur, and that precipitation readily sequesters mobilized Pb+2. This USGS data release contains all of the input and output files for the simulations described in the associated journal article. \n\nDescriptions of the data in each subdirectory are given to facilitate understanding of this model archive. File descriptions are provided for select files to provide additional information that may be of use for understanding this model archive. Support is provided for correcting errors in the data release and clarification of the modeling conducted by the U.S. Geological Survey. Users are encouraged to review the complete journal article (https://doi.org/10.1144/petgeo2020-109) to understand the purpose, documentation report construction, and limitations of this model.</abstract>\n <purpose>This groundwater model was created to examine possible multiphase flow and reactive transport processes that may occur in shallow aquifers if CO2 were to leak from a deep geologic sequestration site. A site in southwestern Utah was analyzed as a natural analogue in this study because water with moderately elevated salt and CO2 concentrations is upwelling into shallow aquifers at the site. A model was built to better understand the upwelling process, and then a hypothetical contamination source was incorporated in a smaller-scale reactive transport model. The development of the model input and output files included in this data release is documented in the article published in Petroleum Geoscience (https://doi.org/1144/petgeo2020-109).</purpose>\n <supplinf>Support is provided for correcting errors in the data release and clarification of the modeling conducted by the U.S. Geological Survey. Users are encouraged to review the journal article (https://doi.org/1144/petgeo2020-109) to understand the purpose, construction, and limitations of this model. The models, along with pre- and post-processing tools, will run successfully only if the original directory structure is correctly restored. Instructions for reconstructing the original directory structure and running the models included in this data release and described in the journal article can be found in the readme.txt ASCII file which can be downloaded as part of this data release.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20201102</begdate>\n <enddate>20201102</enddate>\n </rngdates>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-113.6676598</westbc>\n <eastbc>-113.5389137</eastbc>\n <northbc>37.262223</northbc>\n <southbc>37.1216461</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>usgsgroundwatermodel</themekey>\n <themekey>TOUGHREACT</themekey>\n <themekey>Groundwater</themekey>\n <themekey>Reactive Transport</themekey>\n <themekey>Groundwater Model</themekey>\n <themekey>Multiphase Flow</themekey>\n <themekey>CO2 Sequestration</themekey>\n </theme>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>geoscientificInformation</themekey>\n <themekey>inlandWaters</themekey>\n <themekey>environment</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5fa2ab1ad34e198cb7960970</themekey>\n </theme>\n <place>\n <placekt>Geographic Information Names System</placekt>\n <placekey>Utah</placekey>\n <placekey>Virgin River Basin</placekey>\n <placekey>St. George</placekey>\n <placekey>Washington County</placekey>\n </place>\n <stratum>\n <stratkt>None</stratkt>\n <stratkey>None</stratkey>\n </stratum>\n <temporal>\n <tempkt>None</tempkt>\n <tempkey>None</tempkey>\n </temporal>\n </keywords>\n <accconst>None. Acknowledgement of the U.S. Geological Survey would be appreciated in products derived from this data release.</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Michelle R Plampin</cntper>\n <cntorg>NORTHEAST REGION: GEOLOGY, ENERGY&MINERALS SC</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 954, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>703-648-5841</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://gcc02.safelinks.protection.outlook.com/?url=https%3A%2F%2Fwww.sciencebase.gov%2Fcatalog%2Ffile%2Fget%2F5fa2ab1ad34e198cb7960970%3Fname%3Dplampin2021_GSLThumbnail.png%26allowOpen%3Dtrue&data=04%7C01%7Cmplampin%40usgs.gov%7Ca02597b2c7354d7322b308d8c797e808%7C0693b5ba4b184d7b9341f32f400a5494%7C0%7C0%7C637478802527215190%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C1000&sdata=iBAEgq62wg7JTbSNdCjIez1YUAXEwJuHO35iTh2oDlE%3D&reserved=0</browsen>\n <browsed>Image of the model location.</browsed>\n <browset>jpg</browset>\n </browse>\n <datacred>U.S. Geological Survey</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>The simulation in the larger of the two model domains simulated groundwater flow and conservative transport for a period of 10,000 years, ending at the present day. The simulations on the smaller domain simulated groundwater flow, multiphase CO2 evolution, and reactive metal transport during a hypothetical 100-year period.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record and the associated journal article (https://doi.org/10.1144/petgeo2020-109) for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>The processes used to develop, calibrate, and apply the multiphase flow and reactive transport models are fully described in the journal article (https://doi.org/10.1144/petgeo2020-109).</procdesc>\n <procdate>2020</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>None</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <local>\n <localdes>Two cross-sectional models were constructed, one of which constitutes a portion of the other.</localdes>\n <localgeo>The larger model domain is a cross-section, the projection of which onto the land surface extends from the northwest corner given in the "Spatial Domain" section ( -113.6676598, 37.262223) to the southeast corner (-113.5389137, 37.1216461).</localgeo>\n </local>\n </horizsys>\n <vertdef>\n <depthsys>\n <depthdn>Distance from top of model domain, which is the ground level at the discharge end of the regional model.</depthdn>\n <depthres>4.0</depthres>\n <depthdu>meters</depthdu>\n <depthem>Explicit depth coordinate included with horizontal coordinates</depthem>\n </depthsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>plampin2021_GSL.zip</enttypl>\n <enttypd>Model archive, containing simulation input and output files, georeferencing information, and instructions for use.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>webrelease</attrlabl>\n <attrdef>Folder</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A thumbnail image of the study site and this .xml metadata file.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>bin.zip</attrlabl>\n <attrdef>A zip folder for numerical modeling software</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A readme text file describing the modeling software.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>georef.zip</attrlabl>\n <attrdef>Zip folder for georeferencing information</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>GIS shape files and a readme file describing them</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>model.zip</attrlabl>\n <attrdef>A zip folder containing model input files</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Subdirectories for each simulation in the journal article, each of which contains ASCII text files for running the simulations, and a usgs.model.reference file describing the model</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>modelgeoref.txt</attrlabl>\n <attrdef>Text file for georeferencing information</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Coordinates of the modeling domain</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>output.zip</attrlabl>\n <attrdef>Zip folder containing model output files</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Subdirectories for each simulation in the journal article, each of which contains ASCII text files produced from running the simulations</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>readme.txt</attrlabl>\n <attrdef>Text file describing the model archive</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A description of the model archive purpose, structure, contents, and usage</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>source.zip</attrlabl>\n <attrdef>Zip folder for the numerical modeling source code</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A readme text file containing information about the numerical modeling source code</udom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>The data are described in the accompanying journal article.</eaover>\n <eadetcit>Plampin, Michelle R., Madalyn S. Blondes, Eric L. Sonnenthal and William H. Craddock, 2021, Potential Pb+2 mobilization, \ntransport, and sequestration in shallow aquifers impacted by multiphase CO2 leakage: a natural analogue study from the Virgin \nRiver Basin in SW Utah, In: Geoscience for CO2 Storage, Petroleum Geoscience. https://doi.org/10.1144/petgeo2020-109.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>The data have been approved for release by the U.S. Geological Survey (USGS). Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>readme.txt</formname>\n <formvern>Version 1.0</formvern>\n <formspec>ASCII text file</formspec>\n <formcont>ASCII text file describing the model data release, including descriptions of the model input and output files and instructions on how to run the models contained in the data release.</formcont>\n <transize>0.021</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9ZSPA9D</networkr>\n </networka>\n </computer>\n <accinstr>None</accinstr>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n <techpreq>This zip file contains model input and output files from simulations conducted using the TOUGH family of numerical modeling tools from Lawrence Berkeley National Laboratory. The user must obtain the TOUGH modeling software (specific modules used in this study were iTOUGH2 and TOUGHREACT) from http://esd1.lbl.gov/research/projects/tough/. More details on software acquisition, installation, and use are given in the file readme.txt. The zip file also contains data available in ESRI shapefile format. The user must have software capable of uncompressing the WinZip file and displaying the shapefile. In lieu of ArcView or ArcGIS, the user may utilize another GIS application package capable of importing the data. A free data viewer, ArcExplorer, capable of displaying the data is available from ESRI at www.esri.com</techpreq>\n </distinfo>\n <metainfo>\n <metd>20210316</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Eric A Morrissey</cntper>\n <cntorg>NORTHEAST REGION: GEOLOGY, ENERGY, & MINERALS SC</cntorg>\n </cntperp>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntorgp>\n <cntpos>Info Tech Spec (Internet)</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 954, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>703-648-6409</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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3. [Stable isotopic ratios of hydrogen and oxygen in groundwater and calculated fraction of recharge from winter precipitation, South Rim Grand Canyon, Arizona](/catalog/folder/5e862421e4b01d50927fb774)
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## Dates
Publication Date2020-04-10Start Date1992-09-01End Date2019-05-09
## Citation
Solder, J.E., 2020, Stable isotopic ratios of hydrogen and oxygen in groundwater and calculated fraction of recharge from winter precipitation, South Rim Grand Canyon, Arizona: U.S. Geological Survey data release, https://doi.org/10.5066/P9G7INFB.
## Summary
Dataset provides inputs and model results of a stable isotope-based mixing model for estimating the relative contribution of seasonal recharge sources to the South Rim groundwater flow system, Grand Canyon, Arizona, USA.
## Summary
Dataset provides inputs and model results of a stable isotope-based mixing model for estimating the relative contribution of seasonal recharge sources to the South Rim groundwater flow system, Grand Canyon, Arizona, USA.
## Contacts
Point of Contact
:
[John E Solder](/catalog/catalogParty/show?partyId=59762)
Originator
:
[John E Solder](/catalog/catalogParty/show?partyId=59762)
Metadata Contact
:
[John E Solder](/catalog/catalogParty/show?partyId=59762)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
SDC Data Owner
:
[Utah Water Science Center](/catalog/catalogParty/show?partyId=17454)
USGS Mission Area
:
[Water Resources](/catalog/catalogParty/show?partyId=Water+Resources)
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| | | | |
| --- | --- | --- | --- |
| StableIso\_Metadata.xml<br>_Original FGDC Metadata_ | View | 18.65 KB | application/fgdc+xml |
| Table1\_GroundwaterData\_CalculatedFractionWinter.xlsx | | 43.87 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Solder, J.E., and Beisner, K.R., 2020, Critical evaluation of stable isotope mixing end-members for estimating groundwater recharge sources: case study from the South Rim of the Grand Canyon, Arizona, USA: Hydrogeology Journal, v. 28, no. 5, p. 1575–1591, https://doi.org/10.1007/s10040-020-02194-y. | [https://doi.org/10.1007/s10040-020-02194-y](https://doi.org/10.1007/s10040-020-02194-y "https://doi.org/10.1007/s10040-020-02194-y") |
## Purpose
Groundwater data was collected and compiled from published literature to evaluate the source and flow paths of groundwater. Stable isotopic ratios of hydrogen and oxygen in water were used to evaluate the seasonal precipitation source of groundwater recharge. The mixing model is described in Solder and Beisner (2020), which estimates mixing end-members from precipitation and surface water data. The final calculated value is the fraction of recharge from winter precipitation as reported here.
Solder, J.E., and Beisner, K.R., 2020, Critical evaluation of stable isotope mixing end-members for estimating groundwater recharge sources: case study from the South Rim of the Grand Canyon, Arizona, USA, Hydrogeology Journal
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(2024-08-29 17:07) | b"<metadata><idinfo><citation><citeinfo><origin>John E. Solder</origin><pubdate>20200410</pubdate><title>Stable isotopic ratios of hydrogen and oxygen in groundwater and calculated fraction of recharge from winter precipitation, South Rim Grand Canyon, Arizona</title><geoform>spreadsheet</geoform><onlink>https://doi.org/10.5066/P9G7INFB</onlink><lworkcit><citeinfo><origin>John E. Solder</origin><origin>Kimberly R. Beisner</origin><pubdate>20200501</pubdate><title>Critical evaluation of stable isotope mixing end-members for estimating groundwater recharge sources: case study from the South Rim of the Grand Canyon, Arizona, USA</title><geoform>publication</geoform><othercit>Solder, J..E, and Beisner, K.R., 2020, Critical evaluation of stable isotope mixing end-members for estimating groundwater recharge sources: case study from the South Rim of the Grand Canyon, Arizona, USA, Hydrogeology Journal</othercit></citeinfo></lworkcit></citeinfo></citation><descript><abstract>Dataset provides inputs and model results of a stable isotope-based mixing model for estimating the relative contribution of seasonal recharge sources to the South Rim groundwater flow system, Grand Canyon, Arizona, USA.</abstract><purpose>Groundwater data was collected and compiled from published literature to evaluate the source and flow paths of groundwater. Stable isotopic ratios of hydrogen and oxygen in water were used to evaluate the seasonal precipitation source of groundwater recharge. The mixing model is described in Solder and Beisner (2020), which estimates mixing end-members from precipitation and surface water data. The final calculated value is the fraction of recharge from winter precipitation as reported here.\n\nSolder, J.E., and Beisner, K.R., 2020, Critical evaluation of stable isotope mixing end-members for estimating groundwater recharge sources: case study from the South Rim of the Grand Canyon, Arizona, USA, Hydrogeology Journal</purpose></descript><timeperd><timeinfo><rngdates><begdate>19920901</begdate><enddate>20190509</enddate></rngdates></timeinfo><current>ground condition</current></timeperd><status><progress>Complete</progress><update>None planned</update></status><spdom><bounding><westbc>-112.9504</westbc><eastbc>-111.3794</eastbc><northbc>36.4301</northbc><southbc>35.1558</southbc></bounding></spdom><keywords><theme><themekt>ISO 19115 Topic Category</themekt><themekey>climatologyMeteorologyAtmosphere</themekey><themekey>geoscientificInformation</themekey><themekey>environment</themekey><themekey>biota</themekey></theme><theme><themekt>USGSThesaurus</themekt><themekey>earth sciences</themekey><themekey>atmospheric sciences</themekey><themekey>hydrology</themekey><themekey>hydrogeology</themekey><themekey>groundwater</themekey><themekey>groundwater flow</themekey><themekey>water cycle</themekey><themekey>precipitation (atmospheric)</themekey><themekey>runoff</themekey><themekey>recharge</themekey><themekey>mathematical modeling</themekey><themekey>scientific interpretation</themekey><themekey>geospatial dataset</themekey><themekey>water chemistry</themekey><themekey>light stable isotope analysis</themekey></theme><theme><themekt>USGS Metadata Identifier</themekt><themekey>USGS:5e862421e4b01d50927fb774</themekey></theme><place><placekt>CommonGeographicAreas</placekt><placekey>North America</placekey><placekey>Arizona</placekey><placekey>Coconino</placekey><placekey>Grand Canyon</placekey></place></keywords><accconst>None. Please see 'Distribution Info' for details.</accconst><useconst>None. Users are advised to read the dataset's metadata thoroughly to understand appropriate use and data limitations.</useconst><ptcontac><cntinfo><cntperp><cntper>John E Solder</cntper></cntperp><cntaddr><addrtype /><address>2329 West Orton Cr.</address><city>West Valley City</city><state>Utah</state><postal>84119</postal></cntaddr><cntvoice>8019085000</cntvoice></cntinfo></ptcontac><datacred>Analysis and parts of data collection supported by funding from the National Park Service Water Resources Division.</datacred></idinfo><dataqual><attracc><attraccr>No tests to evaluate the accuracy of data performed.</attraccr></attracc><logic>Data reviewed for consistency by peer-review.</logic><complete>Data are discrete samples of hydrogen and oxygen in groundwater and associated model results.</complete><posacc><horizpa><horizpar>None</horizpar></horizpa><vertacc><vertaccr>None</vertaccr></vertacc></posacc><lineage><srcinfo><srccite><citeinfo><origin>Donald J. Bills</origin><origin>Marilyn E. Flynn</origin><origin>Stephen A. Monroe</origin><pubdate>2007</pubdate><title>Hydrogeology of the Coconino Plateau and adjacent areas, Coconino and Yavapai Counties, Arizona</title><geoform>publication</geoform><pubinfo><pubplace>n/a</pubplace><publish>US Geological Survey</publish></pubinfo><onlink>https://doi.org/10.3133/sir20055222</onlink></citeinfo></srccite><typesrc>Digital and/or Hardcopy</typesrc><srctime><timeinfo><rngdates><begdate>19942308</begdate><enddate>20040413</enddate></rngdates></timeinfo><srccurr>publication date</srccurr></srctime><srccitea>Bills, 2007</srccitea><srccontr>Groundwater chemistry.</srccontr></srcinfo><srcinfo><srccite><citeinfo><origin>Stephen A. Monroe</origin><origin>Ronald C. Antweiler</origin><origin>Robert J. Hart</origin><origin>Howard E. Taylor</origin><origin>Margot Truini</origin><origin>John R. Rihs</origin><origin>Tracey J. Felger</origin><pubdate>2005</pubdate><title>Chemical characteristics of ground-water discharge along the south rim of Grand Canyon in Grand Canyon National Park, Arizona, 2000-2001</title><geoform>publication</geoform><pubinfo><pubplace>n/a</pubplace><publish>US Geological Survey</publish></pubinfo><onlink>https://doi.org/10.3133/sir20045146</onlink></citeinfo></srccite><typesrc>Digital and/or Hardcopy</typesrc><srctime><timeinfo><rngdates><begdate>20000522</begdate><enddate>20010926</enddate></rngdates></timeinfo><srccurr>publication date</srccurr></srctime><srccitea>Monroe, 2005</srccitea><srccontr>Groundwater chemistry.</srccontr></srcinfo><srcinfo><srccite><citeinfo><origin>U.S. Geological Survey</origin><pubdate>20190710</pubdate><title>U.S. Geological Survey National Water Information System data available on the World Wide Web (USGS Water Data for the Nation)</title><geoform>application/service</geoform><onlink>http://waterdata.usgs.gov/nwis/</onlink></citeinfo></srccite><typesrc>Digital and/or Hardcopy</typesrc><srctime><timeinfo><rngdates><begdate>19960611</begdate><enddate>20190509</enddate></rngdates></timeinfo><srccurr>Date accessed</srccurr></srctime><srccitea>NWIS</srccitea><srccontr>Groundwater chemistry</srccontr></srcinfo><srcinfo><srccite><citeinfo><origin>KA Zukowsky</origin><pubdate>19950501</pubdate><title>An assessment of the potential to use water chemistry parameters to define groundwater flow pathways at Grand Canyon National Park, Arizona, M.S. Thesis University of Nevada, Las Vegas.</title><geoform>publication</geoform><onlink>https://digitalscholarship.unlv.edu/cgi/viewcontent.cgi?article=1492&context=rtds</onlink></citeinfo></srccite><typesrc>Digital and/or Hardcopy</typesrc><srctime><timeinfo><rngdates><begdate>19920901</begdate><enddate>19930901</enddate></rngdates></timeinfo><srccurr>publication date</srccurr></srctime><srccitea>Zukowsky, 1995</srccitea><srccontr>Groundwater chemistry</srccontr></srcinfo><srcinfo><srccite><citeinfo><origin>John E. Solder</origin><origin>Kimberly R. Beisner</origin><pubdate>20200501</pubdate><title>Critical evaluation of stable isotope mixing end-members for estimating groundwater recharge sources: case study from the South Rim of the Grand Canyon, Arizona, USA</title><geoform>publication</geoform></citeinfo></srccite><typesrc>Digital and/or Hardcopy</typesrc><srctime><timeinfo><rngdates><begdate>19920901</begdate><enddate>20190509</enddate></rngdates></timeinfo><srccurr>publication date</srccurr></srctime><srccitea>Solder and Besiner, 2020</srccitea><srccontr>Model description.</srccontr></srcinfo><procstep><procdesc>Data of stable isotopic ratios of hydrogen and oxygen compiled from primary sources.</procdesc><srcused>NWIS</srcused><srcused>Zukowsky, 1995</srcused><srcused>Monroe, 2005</srcused><srcused>Bills, 2007</srcused><procdate>20190301</procdate></procstep><procstep><procdesc>See description of modeling in associated journal article by Solder and Beisner (2020).</procdesc><procdate>20190125</procdate></procstep></lineage></dataqual><spref><horizsys><geograph><latres>.0000001</latres><longres>.0000001</longres><geogunit>Decimal degrees</geogunit></geograph><geodetic><horizdn>World Geodetic System 1984 (WGS 84)</horizdn><ellips /><semiaxis /><denflat /></geodetic></horizsys><vertdef><altsys><altdatum>North American Vertical Datum of 1988</altdatum><altres>.1</altres><altunits>meters</altunits><altenc>Attribute values</altenc></altsys></vertdef></spref><eainfo><detailed><enttyp><enttypl>Table1_GroundwaterData_CalculatedFractionWinter.xlsx</enttypl><enttypd>Excel data table (XLSX) describing site attributes (station ID, latitude, longitude, altitude), isotopic ratios of hydrogen (d2H) and oxygen (d18O) in groundwater, and calculated fraction of winter recharge as described in associated journal article (Solder and Beisner, 2020). Values of d-excess calculated following Dansgaard (1964).</enttypd><enttypds>Producer Defined</enttypds></enttyp><attr><attrlabl>USGS Station ID</attrlabl><attrdef>15-digit U.S. Geological survey station identification number.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><edom><edomv>\xe2\x80\x94</edomv><edomvd>Site not in National Water Information System. See Data Source portion of this metadata for additional information on the sample site.</edomvd><edomvds>Producer defined</edomvds></edom></attrdomv><attrdomv><udom>15-digit U.S. Geological survey station identification number.</udom></attrdomv></attr><attr><attrlabl>Lat.</attrlabl><attrdef>Site latitude (WGS83)</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>35.28223276</rdommin><rdommax>36.398111</rdommax><attrunit>decimal degrees</attrunit></rdom></attrdomv></attr><attr><attrlabl>Lon.</attrlabl><attrdef>Site longitude (WGS83).</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>-112.9699222</rdommin><rdommax>-111.3723718</rdommax><attrunit>decimal degrees</attrunit></rdom></attrdomv></attr><attr><attrlabl>Alt.</attrlabl><attrdef>Site altitude in meters (NAVD88).</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><edom><edomv>\xe2\x80\x94</edomv><edomvd>Altitude not recorded for this site.</edomvd><edomvds>Producer defined</edomvds></edom></attrdomv><attrdomv><udom>Meters altitude (NAVD88).</udom></attrdomv></attr><attr><attrlabl>Map ID</attrlabl><attrdef>Map ID for reference to associated journal article (Solder and Beisner, 2020).</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>1</rdommin><rdommax>49</rdommax></rdom></attrdomv></attr><attr><attrlabl>Site Name</attrlabl><attrdef>Common name</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><udom /></attrdomv></attr><attr><attrlabl>Date</attrlabl><attrdef>Date of sample collection.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><udom>Date of sample collection in mm/dd/yyyy.</udom></attrdomv></attr><attr><attrlabl>\xce\xb42H</attrlabl><attrdef>Measured groundwater isotopic ratio of hydrogen-1/hydrogen-2 in water.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>-15.94</rdommin><rdommax>-8.5</rdommax><attrunit>permil</attrunit></rdom></attrdomv></attr><attr><attrlabl>\xce\xb418O</attrlabl><attrdef>Measured groundwater isotopic ratio of oxygen-16/oxygen-18 in water.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>-114.0</rdommin><rdommax>-71.0</rdommax><attrunit>permil</attrunit></rdom></attrdomv></attr><attr><attrlabl>d-excess</attrlabl><attrdef>Excess d2H relative to the global meteoric water line.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>-3.5999999999999943</rdommin><rdommax>14.519999999999996</rdommax><attrunit>unitless</attrunit></rdom></attrdomv></attr><attr><attrlabl>Data Source</attrlabl><attrdef>Original data source of groundwater isotopic data.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><edom><edomv>Bills, 2007</edomv><edomvd>Data from Bills and others (2007).</edomvd><edomvds>Producer defined</edomvds></edom></attrdomv><attrdomv><edom><edomv>NWIS</edomv><edomvd>Data from U.S. Geological Survey National Water Information System.</edomvd><edomvds>Producer defined</edomvds></edom></attrdomv><attrdomv><edom><edomv>Monroe, 2005</edomv><edomvd>Data from Monroe and others (2005).</edomvd><edomvds>Producer defined</edomvds></edom></attrdomv><attrdomv><edom><edomv>Zukosky, 1995</edomv><edomvd>Data from Zukosky (1995).</edomvd><edomvds>Producer defined</edomvds></edom></attrdomv></attr><attr><attrlabl>Fwin (\xce\xb418O precip)</attrlabl><attrdef>Calculated fraction of winter recharge using d18O end-members in precipitation.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>0.251284891851412</rdommin><rdommax>1.7714582995817565</rdommax><attrunit>unitless</attrunit></rdom></attrdomv></attr><attr><attrlabl>SD (\xce\xb418O precip)</attrlabl><attrdef>Standard deviation (SD) of fraction of winter recharge using d18O end-members in precipitation.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>0.3367913319798289</rdommin><rdommax>0.6020772052697546</rdommax><attrunit>unitless</attrunit></rdom></attrdomv></attr><attr><attrlabl>Fwin (\xce\xb42H precip)</attrlabl><attrdef>Calculated fraction of winter recharge using d12H end-members in precipitation.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>0.3791595990440156</rdommin><rdommax>1.4894773674848125</rdommax><attrunit>unitless</attrunit></rdom></attrdomv></attr><attr><attrlabl>SD (\xce\xb42H precip)</attrlabl><attrdef>Standard deviation (SD) of fraction of winter recharge using d2H end-members in precipitation.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>0.3567737749129118</rdommin><rdommax>0.5887479002400832</rdommax><attrunit>unitless</attrunit></rdom></attrdomv></attr><attr><attrlabl>Fwin (\xce\xb418O SW)</attrlabl><attrdef>Calculated fraction of winter recharge using d18O end-members in surface water (SW).</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>0.6239229528558501</rdommin><rdommax>1.3875008746904784</rdommax><attrunit>unitless</attrunit></rdom></attrdomv></attr><attr><attrlabl>SD (\xce\xb418O SW)</attrlabl><attrdef>Standard deviation (SD) of fraction of winter recharge using d18O end-members in surface water.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>0.16474602767073315</rdommin><rdommax>0.240481188597589</rdommax><attrunit>unitless</attrunit></rdom></attrdomv></attr><attr><attrlabl>Fwin (\xce\xb42H SW)</attrlabl><attrdef>Calculated fraction of winter recharge using d2H end-members in surface water (SW).</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>0.5763895289023165</rdommin><rdommax>1.333979132016242</rdommax><attrunit>unitless</attrunit></rdom></attrdomv></attr><attr><attrlabl>SD (\xce\xb42H SW)</attrlabl><attrdef>Standard deviation (SD) of fraction of winter recharge using d2H end-members in surface water.</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><rdom><rdommin>0.2749961751113878</rdommin><rdommax>0.37940468512169906</rdommax><attrunit>unitless</attrunit></rdom></attrdomv></attr></detailed><overview><eaover>Excel data table (XLSX) describing site attributes (latitude, longitude, altitude), isotopic ratios of hydrogen (d2H) and oxygen (d18O) in groundwater, and calculated fraction of winter recharge as described in associated journal article (Solder and Beisner, 2020).</eaover><eadetcit>Bills DJ, Flynn M, Monroe S (2007) Hydrogeology of the Coconino Plateau and adjacent areas, Coconino and Yavapai Counties, Arizona (ver. 1.1, March 2016): U.S. Geological Survey Scientific Investigations Report 2005\xe2\x80\x93 5222, http://dx.doi.org/10.3133/sir20055222. \n\nDansgaard W (1964), Stable isotopes in precipitation. Tellus, v. 16, pp. 436-468, doi:10.1111/j.2153-3490.1964.tb00181.x.\n\nMonroe SA, Antweiler RC, Hart RJ, Taylor HE, Truini M, Rihs JR, Felger TJ (2005) Chemical characteristics of ground-water discharge along the South Rim of Grand Canyon in Grand Canyon National Park, Arizona, 2000\xe2\x80\x932001: U.S. Geological Survey Scientific Investigations Report 2004\xe2\x80\x935146, 59 p.\n\nU.S. Geological Survey (2018) National Water Information System data available on the World Wide Web (USGS Water Data for the Nation), http://waterdata.usgs.gov/nwis/. Cited September 10, 2019\n\nZukosky KA (1995) An assessment of the potential to use water chemistry parameters to define groundwater flow pathways at Grand Canyon National Park, Arizona, M.S. Thesis University of Nevada, Las Vegas. https://digitalscholarship.unlv.edu/cgi/viewcontent.cgi?article=1492&context=rtds. Cited Sep. 11, 2018</eadetcit></overview></eainfo><distinfo><distrib><cntinfo><cntorgp><cntorg>U.S. Geological Survey</cntorg><cntper>GS ScienceBase</cntper></cntorgp><cntaddr><addrtype>mailing address</addrtype><address>Denver Federal Center, Building 810, Mail Stop 302</address><city>Denver</city><state>CO</state><postal>80225</postal><country>United States</country></cntaddr><cntvoice>1-888-275-8747</cntvoice><cntemail>[email protected]</cntemail></cntinfo></distrib><distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab><stdorder><digform><digtinfo><formname>Digital Data</formname></digtinfo><digtopt><onlinopt><computer><networka><networkr>https://doi.org/10.5066/P9G7INFB</networkr></networka></computer></onlinopt></digtopt></digform><fees>None</fees></stdorder></distinfo><metainfo><metd>20220824</metd><metc><cntinfo><cntperp><cntper>John E Solder</cntper><cntorg>SOUTHWEST REGION: UTAH WATER SCI CTR</cntorg></cntperp><cntaddr><addrtype>mailing and physical</addrtype><address>2329 West Orton Cr.</address><city>West Valley City</city><state>Utah</state><postal>84119</postal><country>USA</country></cntaddr><cntvoice>8019085000</cntvoice><cntemail>[email protected]</cntemail></cntinfo></metc><metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn><metstdv>FGDC-STD-001-1998</metstdv></metainfo></metadata>" |
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## Dates
Publication Date2020-11-09Start Date2011-01-01End Date2017-12-01
## Citation
Nevada Department of Wildlife, 2020, Winter Ranges of Mule Deer in the Sheep Creek Range in Nevada in Kauffman, M.J., Copeland, H.E., Cole, E., Cuzzocreo, M., Dewey, S., Fattebert, J., Gagnon, J., Gelzer, E., Graves, T.A., Hersey, K., Kaiser, R., Meacham, J., Merkle, J., Middleton, A., Nunez, T., Oates, B., Olson, D., Olson, L., Sawyer, H., Schroeder, C., Sprague, S., Steingisser, A., and Thonhoff, M., 2020, Ungulate Migrations of the Western United States, Volume 1: U.S. Geological Survey data release, https://doi.org/10.5066/P9O2YM6I.
## Summary
Mule deer in the Sheep Creek sub herd are part of the larger Area 6 herd that occupies portions of Elko, Lander, and Eureka counties. The primary winter range of this population is located along the eastern flank of the Sheep Creek Range and the west side of Boulder Valley. Most deer migrate approximately 30 miles from winter ranges in upper Boulder Creek and Antelope Creek drainages to summer ranges on the west side of the Tuscarora Mountains. However, some deer in this population migrate much farther – approximately 80 miles – and connect with mule deer that summer east of the Humboldt River. This deer herd faces several challenges, including migration routes that pass through increased mineral extraction activities in the Carlin \[...\]
## Summary
Mule deer in the Sheep Creek sub herd are part of the larger Area 6 herd that occupies portions of Elko, Lander, and Eureka counties. The primary winter range of this population is located along the eastern flank of the Sheep Creek Range and the west side of Boulder Valley. Most deer migrate approximately 30 miles from winter ranges in upper Boulder Creek and Antelope Creek drainages to summer ranges on the west side of the Tuscarora Mountains. However, some deer in this population migrate much farther – approximately 80 miles – and connect with mule deer that summer east of the Humboldt River. This deer herd faces several challenges, including migration routes that pass through increased mineral extraction activities in the Carlin Mine area, invasion of exotic annual grasses on winter range, increased wildfires on winter range, and deteriorated range conditions on many stopover sites and winter range due to overgrazing by livestock. These data provide the location of winter ranges for mule deer (Odocoileus hemionus) in the Sheep Creek Range, Nevada. They were developed from Brownian bridge movement models (Sawyer et al. 2009) using 58 migration sequences collected from a sample size of 34 animals comprising GPS locations collected every 1-25 hours.
## Contacts
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[Cody Schroeder](/catalog/catalogParty/show?partyId=Cody+Schroeder),
[Nevada Department of Wildlife](/catalog/catalogParty/show?partyId=Nevada+Department+of+Wildlife)
Originator
:
[Cody Schroeder](/catalog/catalogParty/show?partyId=Cody+Schroeder),
[Hall Sawyer](/catalog/catalogParty/show?partyId=Hall+Sawyer)
Metadata Contact
:
[US Geological Survey, Wyoming Cooperative Fish and Wildlife Research Unit, University of Wyoming](/catalog/catalogParty/show?partyId=US+Geological+Survey%2C+Wyoming+Cooperative+Fish+and+Wildlife+Research+Unit%2C+University+of+Wyoming),
[Matthew Kauffman](/catalog/catalogParty/show?partyId=Matthew+Kauffman)
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| NV\_MD\_Area6\_SheepCreek\_WinterRange30\_Ver1\_2019.xml<br>_Original FGDC Metadata_ | View | 13.19 KB |
| NV\_MD\_Area6\_SheepCreek\_WinterRange30\_Ver1\_2019.cpg | | 5 Bytes |
| NV\_MD\_Area6\_SheepCreek\_WinterRange30\_Ver1\_2019.dbf | | 406 Bytes |
| NV\_MD\_Area6\_SheepCreek\_WinterRange30\_Ver1\_2019.prj | | 435 Bytes |
| NV\_MD\_Area6\_SheepCreek\_WinterRange30\_Ver1\_2019.sbn | | 292 Bytes |
| NV\_MD\_Area6\_SheepCreek\_WinterRange30\_Ver1\_2019.sbx | | 132 Bytes |
| NV\_MD\_Area6\_SheepCreek\_WinterRange30\_Ver1\_2019.shp | | 56.34 KB |
| NV\_MD\_Area6\_SheepCreek\_WinterRange30\_Ver1\_2019.shx | | 236 Bytes |
Shapefile:
NV\_MD\_Area6\_SheepCreek\_WinterRange30\_Ver1\_2019.zip
## Related External Resources
Type: Map Viewer
| | |
| --- | --- |
| Western Migrations Data Viewer | [https://westernmigrations.net](https://westernmigrations.net "https://westernmigrations.net") |
Type: Related Primary Publication
| | |
| --- | --- |
| Ungulate Migrations of the Western United States | [https://doi.org/10.3133/sir20205101](https://doi.org/10.3133/sir20205101 "https://doi.org/10.3133/sir20205101") |
## Purpose
Across the western United States, many ungulate herds must migrate seasonally to access resources and avoid harsh winter conditions. Because these corridors traverse vast landscapes (i.e., up to 150 miles), they are increasingly threatened by roads, fencing, subdivisions and other development. Over the last decade, many new tracking studies have been conducted on migratory herds, and analytical methods have been developed that allow for population-level corridors and stopovers to be mapped and prioritized. In 2018, the U.S. Geological Survey assembled a Corridor Mapping Team to provide technical assistance to western states working to map bison, elk, moose, mule deer, and pronghorn corridors using existing GPS data. Based out of the Wyoming Cooperative Fish and Wildlife Research Unit, the team consists of federal scientists, university researchers, and biologists and analysts from participating state agencies. In its first year, the team has worked to develop a standardized analytical and computational methods and a workflow applicable to data sets typically collected by state agencies. In 2019, the team completed analyses necessary to map corridors, stopovers, and winter ranges in Arizona, Idaho, Nevada, Utah, and Wyoming. A total of 26 corridors, 16 migration routes, 25 stopovers, and 9 winter ranges, were mapped across these states and are included in this project. The Ungulate Migrations of the Western United States report and associated map archive provides the means for corridors to be taken into account by state and federal transportation officials, land and wildlife managers, planners, and other conservationists working to maintain big game corridors in the western states.
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## Provenance
## Additional Information
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(2024-08-29 17:07) | b"<metadata><idinfo><citation><citeinfo><origin>Cody Schroeder</origin><origin>Hall Sawyer</origin><pubdate>20201109</pubdate><title>Winter ranges of mule deer in the Sheep Creek Range, Nevada</title><edition>Version 1.0</edition><geoform>vector digital data</geoform><onlink>https://doi.org/10.5066/P9O2YM6I</onlink><lworkcit><citeinfo><origin>Matthew Kauffman</origin><origin>Holly Copeland</origin><origin>Jodi Berg</origin><origin>Scott Bergen</origin><origin>Eric K. Cole</origin><origin>Matthew Cuzzocreo</origin><origin>Sarah Dewey</origin><origin>Julien Fattebert</origin><origin>Jeff Gagnon</origin><origin>Emily Gelzer</origin><origin>Chris Geremia</origin><origin>Tabitha Graves</origin><origin>Kent Hersey</origin><origin>Mark Hurley</origin><origin>Rusty Kaiser</origin><origin>James Meacham</origin><origin>Jerod Merkle</origin><origin>Arthur Middleton</origin><origin>Tristan Nunez</origin><origin>Brendan Oates</origin><origin>Daniel Olson</origin><origin>Lucas Olson</origin><origin>Hall Sawyer</origin><origin>Cody Schroeder</origin><origin>Scott Sprague</origin><origin>Alethea Steingisser</origin><origin>Mark Thonhoff</origin><pubdate>20201001</pubdate><title>Ungulate Migrations of the Western United States</title><geoform>publication</geoform><onlink>https://doi.org/10.3133/sir20205101</onlink></citeinfo></lworkcit></citeinfo></citation><descript><abstract>Mule deer in the Sheep Creek sub herd are part of the larger Area 6 herd that occupies portions of Elko, Lander, and Eureka counties. The primary winter range of this population is located along the eastern flank of the Sheep Creek Range and the west side of Boulder Valley. Most deer migrate approximately 30 miles from winter ranges in upper Boulder Creek and Antelope Creek drainages to summer ranges on the west side of the Tuscarora Mountains. However, some deer in this population migrate much farther \xe2\x80\x93 approximately 80 miles \xe2\x80\x93 and connect with mule deer that summer east of the Humboldt River. This deer herd faces several challenges, including migration routes that pass through increased mineral extraction activities in the Carlin Mine area, invasion of exotic annual grasses on winter range, increased wildfires on winter range, and deteriorated range conditions on many stopover sites and winter range due to overgrazing by livestock.\n\nThese data provide the location of winter ranges for mule deer (Odocoileus hemionus) in the Sheep Creek Range, Nevada. They were developed from Brownian bridge movement models (Sawyer et al. 2009) using 58 migration sequences collected from a sample size of 34 animals comprising GPS locations collected every 1-25 hours.</abstract><purpose>Across the western United States, many ungulate herds must migrate seasonally to access resources and avoid harsh winter conditions. Because these corridors traverse vast landscapes (i.e., up to 150 miles), they are increasingly threatened by roads, fencing, subdivisions and other development. Over the last decade, many new tracking studies have been conducted on migratory herds, and analytical methods have been developed that allow for population-level corridors and stopovers to be mapped and prioritized. In 2018, the U.S. Geological Survey assembled a Corridor Mapping Team to provide technical assistance to western states working to map bison, elk, moose, mule deer, and pronghorn corridors using existing GPS data. Based out of the Wyoming Cooperative Fish and Wildlife Research Unit, the team consists of federal scientists, university researchers, and biologists and analysts from participating state agencies. In its first year, the team has worked to develop a standardized analytical and computational methods and a workflow applicable to data sets typically collected by state agencies. In 2019, the team completed analyses necessary to map corridors, stopovers, and winter ranges in Arizona, Idaho, Nevada, Utah, and Wyoming. A total of 26 corridors, 16 migration routes, 25 stopovers, and 9 winter ranges, were mapped across these states and are included in this project. The Ungulate Migrations of the Western United States report and associated map archive provides the means for corridors to be taken into account by state and federal transportation officials, land and wildlife managers, planners, and other conservationists working to maintain big game corridors in the western states.</purpose></descript><timeperd><timeinfo><rngdates><begdate>20110101</begdate><enddate>20171201</enddate></rngdates></timeinfo><current>observed</current></timeperd><status><progress>Complete</progress><update>As needed</update></status><spdom><bounding><westbc>-117.0492</westbc><eastbc>-116.1302</eastbc><northbc>41.3496</northbc><southbc>40.6388</southbc></bounding><descgeog>Battle Mountain</descgeog></spdom><keywords><theme><themekt>ISO 19115 Topic Category</themekt><themekey>biota</themekey></theme><theme><themekt>USGS Thesaurus</themekt><themekey>migration (organisms)</themekey><themekey>migratory species</themekey><themekey>animal behavior</themekey><themekey>winter range</themekey></theme><theme><themekt>USGS Metadata Identifier</themekt><themekey>USGS:5f8db57b82ce32418791d542</themekey></theme><place><placekt>Common geographic areas</placekt><placekey>Carlin</placekey><placekey>Nevada</placekey><placekey>USA</placekey></place></keywords><accconst>None. Please see 'Distribution Info' for details.</accconst><useconst>Users are required to properly attribute this dataset. Users are advised to read the dataset's metadata thoroughly to understand appropriate use and data limitations.</useconst><ptcontac><cntinfo><cntperp><cntper>Cody Schroeder</cntper><cntorg>Nevada Department of Wildlife</cntorg></cntperp><cntpos>Mule Deer Staff Specialist</cntpos><cntaddr><addrtype>mailing and physical</addrtype><address>6980 Sierra Center Pkwy Suite 120</address><city>Reno</city><state>Nevada</state><postal>89509</postal><country>USA</country></cntaddr><cntvoice>775-688-1659</cntvoice><cntemail>[email protected]</cntemail></cntinfo></ptcontac><datacred>Nevada Department of Wildlife, Wildlife Heritage Trust Account, University of Nevada Reno</datacred><crossref><citeinfo><origin>Hall Sawyer</origin><origin>Matthew J. Kauffman</origin><origin>Ryan M. Nielson</origin><origin>Jon S. Horne</origin><pubdate>200912</pubdate><title>Identifying and prioritizing ungulate migration routes for landscape-level conservation</title><geoform>publication</geoform><serinfo><sername>Ecological Applications</sername><issue>vol. 19, issue 8</issue></serinfo><pubinfo><pubplace>n/a</pubplace><publish>Wiley</publish></pubinfo><othercit>ppg. 2016-2025</othercit><onlink>https://doi.org/10.1890/08-2034.1</onlink></citeinfo></crossref><taxonomy><keywtax><taxonkt>None</taxonkt><taxonkey>Odocoileus hemionus</taxonkey></keywtax><taxoncl><taxonrn>Kingdom</taxonrn><taxonrv>Animalia</taxonrv><taxoncl><taxonrn>Subkingdom</taxonrn><taxonrv>Bilateria</taxonrv><taxoncl><taxonrn>Infrakingdom</taxonrn><taxonrv>Deuterostomia</taxonrv><taxoncl><taxonrn>Phylum</taxonrn><taxonrv>Chordata</taxonrv><taxoncl><taxonrn>Subphylum</taxonrn><taxonrv>Vertebrata</taxonrv><taxoncl><taxonrn>Infraphylum</taxonrn><taxonrv>Gnathostomata</taxonrv><taxoncl><taxonrn>Superclass</taxonrn><taxonrv>Tetrapoda</taxonrv><taxoncl><taxonrn>Class</taxonrn><taxonrv>Mammalia</taxonrv><taxoncl><taxonrn>Subclass</taxonrn><taxonrv>Theria</taxonrv><taxoncl><taxonrn>Infraclass</taxonrn><taxonrv>Eutheria</taxonrv><taxoncl><taxonrn>Order</taxonrn><taxonrv>Artiodactyla</taxonrv><taxoncl><taxonrn>Family</taxonrn><taxonrv>Cervidae</taxonrv><taxoncl><taxonrn>Subfamily</taxonrn><taxonrv>Capreolinae</taxonrv><taxoncl><taxonrn>Genus</taxonrn><taxonrv>Odocoileus</taxonrv><common>mule deer</common><taxoncl><taxonrn>Species</taxonrn><taxonrv>Odocoileus hemionus</taxonrv><common>TSN: 180698</common></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxoncl></taxonomy></idinfo><dataqual><attracc><attraccr>We checked to ensure values were in expected ranges (e.g. locations of corridors were as expected, and dates of GPS observations were consistent with the project time period), completeness, and there were no errors of omission.</attraccr></attracc><logic>We checked to ensure values were in expected ranges and locations (e.g. locations of corridors were as expected, and dates of GPS observations were consistent with the project time period).</logic><complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete><posacc><horizpa><horizpar>We checked to ensure there were no locations outside of the expected regions.</horizpar></horizpa><vertacc><vertaccr>We checked to ensure there were no locations outside of the expected regions.</vertaccr></vertacc></posacc><lineage><procstep><procdesc>We applied a three-step process to calculate population-level corridors and to identify stopovers, which generally followed the approach outlined by Sawyer et al. (2009). First, we averaged the utilization distribution (UD) for a given individual\xe2\x80\x99s spring and fall migration sequences across all years to produce a single, individual-level migration UD. We rescaled this averaged UD to sum to one. We then defined a migration footprint for each individual as the 99% isopleth of this UD. We stacked up all the individual footprints for a given population, and defined different levels of corridor use based on the number of individuals using a given pixel. We defined low-use corridors as areas traversed by \xe2\x89\xa51 individual during migration, medium-use corridors were used by \xe2\x89\xa510% of individuals within the population, and high-use corridors were used by \xe2\x89\xa520% individuals within the population. We then converted these corridors from a raster format to a polygon/vector format. Furthermore, we removed polygons of less than 20,000 m2 (i.e., less than approximately 5 acres), which can represent spatially isolated use by just a single animal and do not meet the definition of a corridor.</procdesc><procdate>20200518</procdate></procstep></lineage></dataqual><spdoinfo><direct>Vector</direct><ptvctinf><sdtsterm><sdtstype>G-polygon</sdtstype><ptvctcnt>17</ptvctcnt></sdtsterm></ptvctinf></spdoinfo><spref><horizsys><planar><mapproj><mapprojn>Albers Conical Equal Area</mapprojn><albers><stdparll>29.5</stdparll><stdparll>45.5</stdparll><longcm>-96.0</longcm><latprjo>23.0</latprjo><feast>0.0</feast><fnorth>0.0</fnorth></albers></mapproj><planci><plance>coordinate pair</plance><coordrep><absres>0.6096</absres><ordres>0.6096</ordres></coordrep><plandu>meters</plandu></planci></planar><geodetic><horizdn>North_American_Datum_1983</horizdn><ellips>GRS_1980</ellips><semiaxis>6378137.0</semiaxis><denflat>298.257222101</denflat></geodetic></horizsys></spref><eainfo><detailed><enttyp><enttypl>NV_MD_Area6_SheepCreek_WinterRange_Ver1_2019.shp Attribute Table</enttypl><enttypd>Table containing attribute information associated with the data set.</enttypd><enttypds>Producer Defined</enttypds></enttyp><attr><attrlabl>FID</attrlabl><attrdef>Internal feature number.</attrdef><attrdefs>ESRI</attrdefs><attrdomv><udom>Sequential unique whole numbers that are automatically generated.</udom></attrdomv></attr><attr><attrlabl>Shape</attrlabl><attrdef>Feature geometry.</attrdef><attrdefs>ESRI</attrdefs><attrdomv><udom>Coordinates defining the features.</udom></attrdomv></attr><attr><attrlabl>GRIDCODE</attrlabl><attrdef>Percent of the winter range of the population</attrdef><attrdefs>Producer Defined</attrdefs><attrdomv><udom>30% winter range</udom></attrdomv></attr></detailed></eainfo><distinfo><distrib><cntinfo><cntorgp><cntorg>U.S. Geological Survey - ScienceBase</cntorg></cntorgp><cntaddr><addrtype>mailing and physical</addrtype><address>Denver Federal Center, Building 810, Mail Stop 302</address><city>Denver</city><state>CO</state><postal>80225</postal><country>USA</country></cntaddr><cntvoice>1-888-275-8747</cntvoice><cntemail>[email protected]</cntemail></cntinfo></distrib><distliab>The Nevada Department of Wildlife will retain ownership of the data provided and must approve of any additional use before other analyses, research, or publications are initiated. The burden for determining fitness for use lies entirely with the user. For purposes of publication or dissemination, citations, or credit should be given to the Nevada Department of Wildlife.</distliab><stdorder><digform><digtinfo><formname>Digital Data</formname></digtinfo><digtopt><onlinopt><computer><networka><networkr>https://doi.org/10.5066/P9O2YM6I</networkr></networka></computer></onlinopt></digtopt></digform><fees>none</fees></stdorder></distinfo><metainfo><metd>20220824</metd><metc><cntinfo><cntorgp><cntorg>US Geological Survey, Wyoming Cooperative Fish and Wildlife Research Unit, University of Wyoming</cntorg><cntper>Matthew Kauffman</cntper></cntorgp><cntaddr><addrtype>mailing and physical</addrtype><address>1000 E University Ave, Dept 3166</address><city>Laramie</city><state>WY</state><postal>82071</postal></cntaddr><cntvoice>307-766-6404</cntvoice><cntemail>[email protected]</cntemail></cntinfo></metc><metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn><metstdv>FGDC-STD-001.1-1999</metstdv></metainfo></metadata>" |
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## Dates
Publication Date2020-11-03Start Date1993End Date1997
## Citation
Schueck, L.S., Zarriello, T.J., Fuller, M.R., Bates, K., Craig, E., Craig, T., Falvo, C.I.P., Enns, K.D., Bell, T.M., and Everette, A.L., 2020, Golden Eagle (Aquila chrysaetos) Satellite Telemetry and Observational Data, Western North America, 1993-1997: U.S. Geological Survey data release, https://doi.org/10.5066/P9QP0TDH.
## Summary
The satellite data consist of 9,253 estimated locations of 21 golden eagles (Aquila chrysaetos) that were satellite-tagged in either east-central Idaho (Salmon, Idaho) or southwestern Idaho (Snake River National Conservation Area) and tracked between 1993 and 1997 via the Argos satellite system. The raw eagle tracking data provided by Argos were filtered one time using a version of the Douglas Argos-Filter Algorithm and converted into XLS spreadsheet form. This preservation project preserved the geospatial and satellite information from the XLS spreadsheet and released it in shapefile format (Satellite\_Data.shp) and CSV format (Satellite\_Data.csv). Each tagged bird in this dataset has a unique PTT number that is consistent across the \[...\]
## Summary
The satellite data consist of 9,253 estimated locations of 21 golden eagles ( _Aquila chrysaetos_)that were satellite-tagged in either east-central Idaho (Salmon, Idaho) or southwestern Idaho (Snake River National Conservation Area) and tracked between 1993 and 1997 via the Argos satellite system. The raw eagle tracking data provided by Argos were filtered one time using a version of the Douglas Argos-Filter Algorithm and converted into XLS spreadsheet form. This preservation project preserved the geospatial and satellite information from the XLS spreadsheet and released it in shapefile format (Satellite\_Data.shp) and CSV format (Satellite\_Data.csv). Each tagged bird in this dataset has a unique PTT number that is consistent across the three datasets in this release. Each of the 21 golden eagles (with 23 total PTT IDs, due to recaptures) have satellite location information (provided in the Satellite\_Data shapefile and CSV) and 11 of these birds have behavioral observations taken from the ground (see CSV on Observational Data landing page located here: [https://www.sciencebase.gov/catalog/item/5ae8c2c0e4b06d9233b8a874](https://www.sciencebase.gov/catalog/item/5ae8c2c0e4b06d9233b8a874)). The banding data spreadsheet (see Banding Data landing page located here: [https://www.sciencebase.gov/catalog/item/5c48bd17e4b0708288f25795](https://www.sciencebase.gov/catalog/item/5c48bd17e4b0708288f25795)) indicates which of the 21 satellite-tagged birds have associated observation data.
## Contacts
Point of Contact
:
[Linda Schueck](/catalog/catalogParty/show?partyId=9185)
Process Contact
:
[Linda Schueck](/catalog/catalogParty/show?partyId=9185),
[Cristiana I Falvo](/catalog/catalogParty/show?partyId=73080)
Originator
:
[Linda Schueck](/catalog/catalogParty/show?partyId=9185),
[Thomas J Zarriello](/catalog/catalogParty/show?partyId=11601),
[Mark R Fuller](/catalog/catalogParty/show?partyId=3466),
[Kirk Bates](/catalog/catalogParty/show?partyId=75208),
[Erica H Craig](/catalog/catalogParty/show?partyId=54204),
[Timothy H Craig](/catalog/catalogParty/show?partyId=54206),
[Cristiana I Falvo](/catalog/catalogParty/show?partyId=73080),
[Kyle D Enns](/catalog/catalogParty/show?partyId=74763),
[Tara M Bell](/catalog/catalogParty/show?partyId=65390),
[Anthony L Everette](/catalog/catalogParty/show?partyId=3032)
Metadata Contact
:
[Linda Schueck](/catalog/catalogParty/show?partyId=9185)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| Golden-Eagle-Telemetry\_Satellite-Metadata\_20201021.xml<br>_Original FGDC Metadata_ | View | 62.79 KB | application/fgdc+xml |
| | | |
| --- | --- | --- |
| Satellite\_Data.csv<br>“Satellite Data (CSV)” | | 2.94 MB |
| Satellite\_Data.cpg<br>“Satellite Data (CPG)” | | 5 Bytes |
| Satellite\_Data.dbf<br>“Satellite Data (DBF)” | | 26.82 MB |
| Satellite\_Data.prj<br>“Satellite Data (PRJ)” | | 145 Bytes |
| Satellite\_Data.sbn<br>“Satellite Data (SBN)” | | 88.18 KB |
| Satellite\_Data.sbx<br>“Satellite Data (SBX)” | | 2.64 KB |
| Satellite\_Data.shp<br>“Satellite Data (SHP)” | | 253.11 KB |
| Satellite\_Data.shx<br>“Satellite Data (SHX)” | | 72.39 KB |
Shapefile:
Satellite\_Data.zip
## Purpose
The primary purpose of these field observations was to get an idea of how the birds were using the Orchard Training Area (an area within the Snake River National Conservation Area) during the winter. After getting satellite data for the same individuals the researchers were able to associate observed behaviors with satellite data as well as compare radio tracking methods in the military training area.
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## Provenance
Data sourceInput directly
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | 10.5066/P9QP0TDH |
### Shapefile Extension
| boundingBox | | minY | 35.625 |
| minX | -156.43 |
| maxY | 65.425 |
| maxX | -106.298 | |
| files | | name | Satellite\_Data.csv |
| title | Satellite Data (CSV) |
| contentType | text/csv |
| pathOnDisk | \_\_disk\_\_5b/0f/eb/5b0feb9d272f37e594bfdd761ca2f63afc32e1a3 |
| imageWidth | 580 |
| imageHeight | 435 |
| size | 3085236 |
| dateUploaded | Fri Jun 28 16:42:23 MDT 2019 |
| name | Satellite\_Data.cpg |
| title | Satellite Data (CPG) |
| contentType | text/plain |
| pathOnDisk | \_\_disk\_\_56/22/f9/5622f967f32c18e7720fc66e63d8e92951d4a7e8 |
| imageWidth | 580 |
| imageHeight | 435 |
| size | 5 |
| dateUploaded | Fri Jun 28 16:42:46 MDT 2019 |
| name | Satellite\_Data.dbf |
| title | Satellite Data (DBF) |
| contentType | text/plain |
| pathOnDisk | \_\_disk\_\_d2/d4/c5/d2d4c5d8b0ded198d3e001ed3afaf9a934321276 |
| imageWidth | 580 |
| imageHeight | 435 |
| size | 28121469 |
| dateUploaded | Fri Jun 28 16:42:46 MDT 2019 |
| name | Satellite\_Data.prj |
| title | Satellite Data (PRJ) |
| contentType | text/plain |
| pathOnDisk | \_\_disk\_\_1b/74/57/1b7457e9f17122857a1ad3c06ba347f9eabbf99a |
| imageWidth | 580 |
| imageHeight | 435 |
| size | 145 |
| dateUploaded | Fri Jun 28 16:42:46 MDT 2019 |
| name | Satellite\_Data.sbn |
| title | Satellite Data (SBN) |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_60/05/aa/6005aadb059a807fe9abbc3e3cc71795ac55cfd1 |
| size | 90300 |
| dateUploaded | Fri Jun 28 16:42:46 MDT 2019 |
| name | Satellite\_Data.sbx |
| title | Satellite Data (SBX) |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_bf/10/a0/bf10a067adca8bb7bae9ec46ec17aebf1c9c67bc |
| size | 2700 |
| dateUploaded | Fri Jun 28 16:42:46 MDT 2019 |
| name | Satellite\_Data.shp |
| title | Satellite Data (SHP) |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_b8/69/a1/b869a15b5bf3995ed29747bb4981603b7ade1333 |
| size | 259184 |
| dateUploaded | Fri Jun 28 16:42:46 MDT 2019 |
| name | Satellite\_Data.shx |
| title | Satellite Data (SHX) |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_54/98/37/5498377ed2ccf4197ac69de0b883c447c1443b78 |
| size | 74124 |
| dateUploaded | Fri Jun 28 16:42:46 MDT 2019 | |
| geometryType | Point |
| name | Satellite\_Data |
| nativeCrs | EPSG:4326 |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Linda S. Schueck</origin>\n <origin>Thomas J. Zarriello</origin>\n <origin>Mark R. Fuller</origin>\n <origin>Kirk Bates</origin>\n <origin>Erica Craig</origin>\n <origin>Tim Craig</origin>\n <origin>Cristiana I.P. Falvo</origin>\n <origin>Kyle D. Enns</origin>\n <origin>Tara M. Bell</origin>\n <origin>Anthony L. Everette</origin>\n <origin>USGS Forest and Rangeland Ecosystem Science Center (FRESC)</origin>\n <origin>Aquila Environmental</origin>\n <origin>Boise State University (BSU)</origin>\n <pubdate>20201103</pubdate>\n <title>Satellite Data, Golden Eagles (Aquila chrysaetos), Western North America, 1993-1997</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9QP0TDH</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The satellite data consist of 9,253 estimated locations of 21 golden eagles that were satellite-tagged in either east-central Idaho (Salmon, Idaho) or southwestern Idaho (Snake River National Conservation Area) and tracked between 1993 and 1997 via the Argos satellite system. The raw eagle tracking data provided by Argos were filtered one time using a version of the Douglas Argos-Filter Algorithm and converted into XLS spreadsheet form. This preservation project preserved the geospatial and satellite information from the XLS spreadsheet and released it in shapefile format (Satellite_Data.shp) and CSV format (Satellite_Data.csv). Each tagged bird in this dataset has a unique PTT number that is consistent across the three datasets in this release. Each of the 21 golden eagles (with 23 total PTT IDs, due to recaptures) have satellite location information (provided in the Satellite_Data shapefile and CSV) and 11 of these birds have behavioral observations taken from the ground (see CSV on Observational Data landing page located here: https://www.sciencebase.gov/catalog/item/5ae8c2c0e4b06d9233b8a874). The banding data spreadsheet (see Banding Data landing page located here: https://www.sciencebase.gov/catalog/item/5c48bd17e4b0708288f25795) indicates which of the 21 satellite-tagged birds have associated observation data.</abstract>\n <purpose>The primary purpose of these field observations was to get an idea of how the birds were using the Orchard Training Area (an area within the Snake River National Conservation Area) during the winter. After getting satellite data for the same individuals the researchers were able to associate observed behaviors with satellite data as well as compare radio tracking methods in the military training area.</purpose>\n <supplinf>The location estimates of golden eagles are based on use of the Argos Data Collection and Location System (http://www.argos-system.org/), now managed by The Woods Hole Group Inc. (http://www.woodsholegroup.com/).The transmitters attached to the eagles were Platform Transmitter Terminals that transmitted digitally encoded radio signals to Argos low, polar orbiting satellites. The data from the satellites are then transmitted to Argos processing centers where they were managed and analyzed to produce estimates of the locations of the transmitters and associated information. Subsequently files of the data were distributed to the end-users of the Argos System. The Argos System continuously develops and revises technology and methodology to meet users\xe2\x80\x99 needs.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>1993</begdate>\n <enddate>1997</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-156.43</westbc>\n <eastbc>-106.298</eastbc>\n <northbc>65.425</northbc>\n <southbc>35.625</southbc>\n </bounding>\n <descgeog>The bounding box covers the geographic extent of the location estimates transmitted from the 21 golden eagles satellite-tagged in and subsequently tracked from east-central and southwestern Idaho.</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>National Agricultural Library Thesaurus</themekt>\n <themekey>Aquila chrysaetos</themekey>\n <themekey>birds of prey</themekey>\n <themekey>eagles</themekey>\n <themekey>breeding</themekey>\n <themekey>habitat connectivity</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>migration (organisms)</themekey>\n <themekey>telemetry</themekey>\n <themekey>plant and animal tagging</themekey>\n <themekey>birds</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>Argos System</themekey>\n <themekey>VHF radio tags</themekey>\n <themekey>satellite telemetry</themekey>\n <themekey>radio telemetry</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5aaa9566e4b09e9cadb733e8</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>North America</placekey>\n <placekey>United States of America</placekey>\n <placekey>Canada</placekey>\n <placekey>Idaho</placekey>\n </place>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Snake River Bird of Prey Natural Area</placekey>\n </place>\n </keywords>\n <accconst>No access constraints. Please see 'Distribution Info' for details.</accconst>\n <useconst>Public domain data from the U.S. Government are freely redistributable with proper metadata and source attribution. The U.S. Geological Survey requests to be acknowledged as originator of these data in future products or derivative research.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Linda S. Schueck</cntper>\n <cntorg>U.S. Geological Survey, NORTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Information Technology Specialist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>970 Lusk Street</address>\n <city>Boise</city>\n <state>ID</state>\n <postal>83706</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>208-426-5211</cntvoice>\n <cntfax>208-426-5210</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>The original data were provided by the USGS Forest and Rangeland Ecosystem Science Center (FRESC), the Raptor Research Center (RRC) at Boise State University (BSU), and Aquila Environmental. The Data at Risk project is USGS Community for Data Integration (CDI) funded and operated out of the Fort Collins Science Center and Great Lakes Science Center.</datacred>\n <native>Windows 10 OS used for all preservation work\nPython 3.6 with Jupyter Notebook IDE and ArcMap 10.3.1 were used for data processing and quality control</native>\n <crossref>\n <citeinfo>\n <origin>U.S. Department of Interior</origin>\n <pubdate>1996</pubdate>\n <title>Effects of military training and fire in the Snake River Birds of Prey National Conservation Area</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Snake River Field Station, Boise, ID</pubplace>\n <publish>USGS, Biological Resources Division</publish>\n </pubinfo>\n <othercit>BLM/IDARNG Research Project Final report. 130pp\nThis report provides contextual information about the project that produced these data.</othercit>\n <onlink>https://hdl.handle.net/2027/coo.31924080037009</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>CLS (Collecte Localisation satellite)</origin>\n <pubdate>2007</pubdate>\n <title>Argos User's Manual</title>\n <geoform>publication</geoform>\n <othercit>The Argos manual originally used in this study is no longer readily available. This citation is for the current version of Argos, as of 2019.</othercit>\n <onlink>http://www.argos-system.org/manual/</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Davd C. Douglas</origin>\n <pubdate>2012</pubdate>\n <title>Douglas Argos-Filter Algorithm</title>\n <geoform>application/service</geoform>\n <othercit>The Douglas Argos-Filter Algorithm software was revised in 2012 to this current 8.5 version, however, the author has noted that the primary functionality is the same as v.7.03 used to process this original data.</othercit>\n <onlink>https://www.usgs.gov/software/douglas-argos-filter-algorithm</onlink>\n </citeinfo>\n </crossref>\n <taxonomy>\n <keywtax>\n <taxonkt>None</taxonkt>\n <taxonkey>Aquila chrysaetos</taxonkey>\n </keywtax>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <common>animals</common>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <common>chordates</common>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <common>vertebrates</common>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Aves</taxonrv>\n <common>Birds</common>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Accipitriformes</taxonrv>\n <common>Hawks</common>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Accipitridae</taxonrv>\n <common>Eagles</common>\n <common>Hawks</common>\n <common>Kites</common>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Aquila</taxonrv>\n <common>Golden Eagles</common>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Aquila chrysaetos</taxonrv>\n <common>Golden Eagle</common>\n <common>TSN: 175407</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>To estimate the locations of a transmitter, the Argos System analyzes the radio frequency transmissions from the transmitter to receivers aboard the satellites. Location estimates of a transmitter are computed on the basis of Doppler effect measurements and other factors. The accuracy of estimated locations varies because many factors affect Doppler effect measurements. Each estimate is assigned to a location class. The seven location classes and associated estimated error radius are: class 3, <250m; class 2, 250 \xe2\x80\x93 500 m; class 1, 500 \xe2\x80\x93 1500m; class 0, >1500m; class A, no estimate; class B, no estimate; class Z, invalid. These golden eagle data were received from Argos in the Argos DIAG format that includes two location estimate sets, a primary location and an alternative location, which result from analyzing Doppler effect measurements. Those primary and alternative estimates are represented as \xe2\x80\x9clat_p\xe2\x80\x9d / \xe2\x80\x9clon_p\xe2\x80\x9d and \xe2\x80\x9clat_a\xe2\x80\x9d / \xe2\x80\x9clon_a\xe2\x80\x9d in the Satellite_Data shapefile.To create these golden eagle data, the Douglas Argos-Filter Algorithm (PC-SAS Argos Filter v7.03, https://www.usgs.gov/software/douglas-argos-filter-algorithm) was used to consistently choose the most plausible location between the ARGOS primary and alternative locations from each eagle\xe2\x80\x99s entire record based on minimum distance from the previous chosen location. The Douglas Argos-Filter Algorithm program includes default parameter values which can be changed based on the user\xe2\x80\x99s objectives. Three user defined default values were replaced and included these, which were judged conservative: a 5 km minimum-redundant-distance, a maximum sustainable rate of movement of 60 km/hr, and an Argos location class value of LC3, which establishes the minimum Argos location class that will never be filtered. Although the only objective was to select the most plausible locations, the Douglas Argos-Filter Algorithm automatically displays values and calculates results for all outputs of the program. Thus, many columns in the original output spreadsheet were not relevant to the selection of the most plausible latitude and longitude and were removed. Note that the Satellite_Data shapefile includes all location points, flagged and unflagged. Points in the Satellite_Data shapefile are of varying quality.</attraccr>\n </attracc>\n <logic>Location estimate accuracy is provided by Argos. Persons considering use of these data can determine the usefulness of the data for their specific objectives and use them at their own discretion. These golden eagle locations estimates have only been screened once to select the most likely \xe2\x80\x9cbest\xe2\x80\x9d estimate from the two alternatives initially provided by Argos. The location accuracy class of each location is listed with the data.</logic>\n <complete>Receptions of radio transmissions from satellite-tagged golden eagles depended on satellites being in receiving range during suitable conditions. During some transmitter transmission cycles atmospheric conditions or local conditions (e.g., topography, vegetation cover) could have interfered with radio telemetry transmission and precluded signal reception at the satellite. This leads to fewer location estimates compared to the number of transmissions from the transmitters.\nRecapture notes -- Bird 629-26704 had two recaptures (was captured a total of three times) and thus was tagged with three different PTTs between 1993 and 1995. This individual's PTT numbers in 1993, 1994 and 1995 were 5735, 5722 and 11975, respectively. \n\nMortality notes -- Bird 629-18121 was found dead (poisoned) on 2/26/1996. The same PTT (5728) was put on a new bird (bird 629-18126) on 3/5/1996. To distinguish the two individuals tagged with the same PTT, bird 629-18121 is identified as PTT 5728a and bird 629-18126 is identified as PTT 5728b.</complete>\n <posacc>\n <horizpa>\n <horizpar>The accuracy of estimated horizontal eagle locations is variable because many factors affect measurement of the Doppler shift. The Argos System methodology assigns location estimates to a location class with an associated estimated error radius: class 3, <250m; class 2, 250 \xe2\x80\x93 500 m; class 1, 500 \xe2\x80\x93 1500m; class 0, >1500m;, class A, no estimate; class B, no estimate; class Z, invalid.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>Not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>David C. Douglas</origin>\n <origin>Rolf Weinzierl</origin>\n <origin>Sarah C. Davidson</origin>\n <origin>Roland Kays</origin>\n <origin>Martin Wikelski</origin>\n <origin>Gil Bohrer</origin>\n <pubdate>20121010</pubdate>\n <title>Moderating Argos location errors in animal tracking data</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Methods in Ecology and Evolution</sername>\n <issue>vol. 3, issue 6</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Wiley-Blackwell</publish>\n </pubinfo>\n <othercit>ppg. 999-1007</othercit>\n <onlink>http://dx.doi.org/10.1111/j.2041-210X.2012.00245.x</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2012</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Moderating argos location errors</srccitea>\n <srccontr>Filter system used for Argos data</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Gap Analysis Project</origin>\n <pubdate>2016</pubdate>\n <title>Protected Areas Database of the United States (PAD-US): Version 1.4</title>\n <geoform>dataset</geoform>\n <pubinfo>\n <pubplace>https://www.sciencebase.gov</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/f7g73bsz</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2016</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Protected Areas Database of the United States (PAD-US)</srccitea>\n <srccontr>Combined feature class used for quality control</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>David Douglas</origin>\n <pubdate>20061208</pubdate>\n <title>The Douglas Argos-Filter Algorithm, Version 7.03</title>\n <geoform>publication</geoform>\n <onlink>https://www.usgs.gov/software/douglas-argos-filter-algorithm</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2006</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>The Douglas Argos-Filter Algorithm</srccitea>\n <srccontr>This algorithm was used to convert the raw Argos satellite data (text files) into XLS format.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>General Process for Salmon Snake River Data\n\xe2\x80\xa221 golden eagles were captured and satellite-tagged in the east-central and southwestern Idaho areas with transmitters (Platform Transmitter Terminals) which periodically transmitted location information of the individuals between 1993 and 1997\n\xe2\x80\xa2Banding record data were recorded in an excel spreadsheet for each individual tagged in the east-central and southwestern Idaho areas (data included as attachment on ScienceBase page: \xe2\x80\x98Banding_Records.csv\xe2\x80\x99)\n\xe2\x80\xa2Capture data were recorded on physical data sheets (scanned as PDFs) for the 15 individuals tagged in the southwestern Idaho area (data included as attachments on ScienceBase page: \xe2\x80\x98Capture_Sheets.pdf\xe2\x80\x99)\n\xe2\x80\xa2The FRESC/BSU team obtained the raw Argos satellite data for east-central and southwestern Idaho captures in text file format\n\xe2\x80\xa2The raw Argos satellite data (text files) were filtered once using the Douglas Filter System and converted into XLS format\n\nProcessing steps for Data at Risk project (2018)\n\xe2\x80\xa2The FRESC/BSU/Aquila Environmental team shared the Salmon and Snake River XLS files, the banding record spreadsheet and the capture data PDF documents with the DaR team\n\xe2\x80\xa2The DaR team checked in and quality controlled all tabular data before processing the files (see tabular data QC step below for more details)\n\xe2\x80\xa2The DaR team transformed the Salmon and Snake River XLS files into a consolidated CSV file\n\xe2\x80\xa2The DaR team created the Salmon Snake River shapefile in ArcMap 10.3.1 using the combined Salmon and Snake River CSV data\n\xe2\x80\xa2The DaR team quality controlled the locations mapped in the shapefile (see geospatial QC step below for more details)\n\xe2\x80\xa2The DaR team documented the process and attributes of the shapefiles in the CSDGM metadata record\n\xe2\x80\xa2The DaR team coordinated with the FRESC/BSU/Aquila Environmental team throughout the process to ensure accuracy of information\n\xe2\x80\xa2The data package was released on the project\xe2\x80\x99s ScienceBase page</procdesc>\n <srcused>Moderating argos location errors</srcused>\n <srcused>The Douglas Argos-Filter Algorithm</srcused>\n <procdate>2018</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Linda S. Schueck</cntper>\n <cntorg>U.S. Geological Survey, NORTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Information Technology Specialist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>970 Lusk Street</address>\n <city>Boise</city>\n <state>ID</state>\n <postal>83706</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>208-426-5211</cntvoice>\n <cntfax>208-426-5210</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Quality Control Process for Tabular Data:\n(For Douglas Filtered XLS files)\n\xe2\x80\xa2Checked in each XLS file by ensuring the expected scope of data was present (species, locations, years, number of individuals)\n\xe2\x80\xa2Verified that all fields were complete, had a logical range of values, were relevant for the release and field formatting was consistent\n\xe2\x80\xa2Converted XLS files to CSV format \n\xe2\x80\xa2Recorded process in CSDGM metadata record\n(For banding record XLS file)\n\xe2\x80\xa2Checked in the spreadsheet by ensuring the expected scope of data was present (species, locations, years, number of individuals)\n\xe2\x80\xa2Ensured that all USGS band numbers recorded on capture sheets (PDFs) corresponded to a USGS band number in the banding record spreadsheet\n\xe2\x80\xa2Reformatted the excel spreadsheet by consolidating the Salmon and Snake River data, thus eliminating blank cells\n\xe2\x80\xa2Filled in blank cells with NULL values\n\xe2\x80\xa2Converted XLS file to CSV format and attached to project\xe2\x80\x99s ScienceBase page \n\xe2\x80\xa2Recorded process and defined all attributes in CSDGM metadata record</procdesc>\n <procdate>2018</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Cristiana I Falvo</cntper>\n <cntorg>U.S. Geological Survey, SOUTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Technical Support</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2150 Centre Avenue Bldg C</address>\n <city>Fort Collins</city>\n <state>CO</state>\n <postal>80526</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>970-226-9473</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Quality Control Process for Geospatial Data:\n\xe2\x80\xa2Opened the Salmon Snake River shapefile in ArcMap 10.3.1 and identified any visual outliers (outliers in this case are points that lie far outside the clustered area of points\xe2\x80\x94clustered points span from the capture sites in central Idaho and trail up the northwest coast of North America into Alaska)\n\xe2\x80\xa2Verified that the farthest outliers (points in the eastern US, central Canada and far off the pacific coast--more than 3.5 degrees outside the area of clustered points) had \xe2\x80\x98pick\xe2\x80\x99 values of 1, which indicated the point was labeled by the Douglas Filter system as less probable or less accurate\n\xe2\x80\xa2In order to assess whether PII rules were violated, we checked to see if any shapefile points overlapped private land using ArcGIS PAD US layer (USGS protected areas database from May, 2016) that includes a private land layer; found some points that overlapped private land layer.\n\xe2\x80\xa2Released all outlier and private land overlap points due to the confidence levels and lack of elevation data associated with the points, see data use constraints section above for more details.</procdesc>\n <srcused>Protected Areas Database of the United States (PAD-US)</srcused>\n <procdate>2018</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Cristiana I Falvo</cntper>\n <cntorg>U.S. Geological Survey, SOUTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Technical Support</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2150 Centre Avenue Bldg C</address>\n <city>Fort Collins</city>\n <state>CO</state>\n <postal>80526</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>970-226-9473</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>Entity point</sdtstype>\n <ptvctcnt>9253</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.0197009219</latres>\n <longres>0.0307631853</longres>\n <geogunit>Decimal seconds</geogunit>\n </geograph>\n <geodetic>\n <horizdn>WGS_1984</horizdn>\n <ellips>WGS_84</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>SalmonSnakeData.shp Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the Argos satellite data. Note that a value of '-9999' or 'Null' indicate there are no data available for a particular field.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>The spatial entity type of the features.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PTT</attrlabl>\n <attrdef>Argos satellite transmitter, one tagged to each individual bird</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>5699</edomv>\n <edomvd>PTT 5699</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5707</edomv>\n <edomvd>PTT 5707</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5709</edomv>\n <edomvd>PTT 5709</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5726</edomv>\n <edomvd>PTT 5726</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5727</edomv>\n <edomvd>PTT 5727</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5738</edomv>\n <edomvd>PTT 5738</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5720</edomv>\n <edomvd>PTT 5720</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5721</edomv>\n <edomvd>PTT 5721</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5722</edomv>\n <edomvd>PTT 5722 (2nd capture of bird 629-26704 in 1994, this individual had three total captures (see PTT # 5735 and #11975))</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5723</edomv>\n <edomvd>PTT 5723</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5724</edomv>\n <edomvd>PTT 5724</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5725</edomv>\n <edomvd>PTT 5725</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5728a</edomv>\n <edomvd>PTT 5728a (first bird marked with PTT 5728, found dead on 2/26/1996, second bird marked with same PTT (see PTT 5728b))</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5728b</edomv>\n <edomvd>PTT 5728b (second bird marked with PTT 5728 on 3/5/1996 after first was found dead on 2/26/1996 (see PTT 5728a))</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5729</edomv>\n <edomvd>PTT 5729</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5730</edomv>\n <edomvd>PTT 5730</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5731</edomv>\n <edomvd>PTT 5731</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5733</edomv>\n <edomvd>PTT 5733</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5734</edomv>\n <edomvd>PTT 5734</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5735</edomv>\n <edomvd>PTT 5735 (1st capture of bird 629-26704 in 1993, this individual had three total captures (see PTT # 5722 and #11975))</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5736</edomv>\n <edomvd>PTT 5736</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5737</edomv>\n <edomvd>PTT 5737</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>11975</edomv>\n <edomvd>PTT 11975 (3rd capture of bird 629-26704 in 1995, this individual had three total captures (see PTT # 5722 and #5735))</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>date</attrlabl>\n <attrdef>Date of overpass/location (GMT + (GMTOFFSET))</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1/7/1993</rdommin>\n <rdommax>10/24/1997</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>latitude</attrlabl>\n <attrdef>The latitude chosen as more accurate (out of the two given) based on Douglas Argos-Filter Algorithm calculation</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>35.625</rdommin>\n <rdommax>65.425</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>longitude</attrlabl>\n <attrdef>The longitude chosen as more accurate(out of the two given) based on Douglas Argos-Filter Algorithm calculation</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-156.43</rdommin>\n <rdommax>-106.298</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>lc94</attrlabl>\n <attrdef>Argos location class. The location class is a rating allocated to every location computed depending on the error estimation. The error estimation depends on the geometrical conditions of the satellite pass at the time of receiving messages and on the stability of transmitter frequency.</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>L3</edomv>\n <edomvd>Has an estimated 1-sigma error radius8 of 250</edomvd>\n <edomvds>Douglas Argos-Filter Algorithm User Manual</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>L2</edomv>\n <edomvd>Has an estimated 1-sigma error radius8 of 500</edomvd>\n <edomvds>Douglas Argos-Filter Algorithm User Manual</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>L1</edomv>\n <edomvd>Has an estimated 1-sigma error radius8 of 1500</edomvd>\n <edomvds>Douglas Argos-Filter Algorithm User Manual</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>L0</edomv>\n <edomvd>Auxiliary location that is highly variable and undocumented by Service Argos. Auxiliary locations are largely\nunsuitable for interpreting animal movements without first addressing accuracy\nissues.</edomvd>\n <edomvds>Douglas Argos-Filter Algorithm User Manual</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LA</edomv>\n <edomvd>Auxiliary location that is highly variable and undocumented by Service Argos. Auxiliary locations are largely\nunsuitable for interpreting animal movements without first addressing accuracy\nissues.</edomvd>\n <edomvds>Douglas Argos-Filter Algorithm User Manual</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LB</edomv>\n <edomvd>Auxiliary location that is highly variable and undocumented by Service Argos. Auxiliary locations are largely\nunsuitable for interpreting animal movements without first addressing accuracy\nissues.</edomvd>\n <edomvds>Douglas Argos-Filter Algorithm User Manual</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LZ</edomv>\n <edomvd>Auxiliary location that is highly variable and undocumented by Service Argos. Auxiliary locations are largely\nunsuitable for interpreting animal movements without first addressing accuracy\nissues.</edomvd>\n <edomvds>Douglas Argos-Filter Algorithm User Manual</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>nmess</attrlabl>\n <attrdef>Number of messages received during overpass (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>15</rdommax>\n <attrunit>Number of messages</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>weeddist</attrlabl>\n <attrdef>Boolean value that indicates whether measurement was accepted or rejected based on amount of redundancy</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>Accept based on minimum redundancy (MRD)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Reject based on minimum redundancy (MRD)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>weedrate</attrlabl>\n <attrdef>Boolean value that indicates whether measurement was accepted or rejected based on amount of redundancy</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>accept based on distance-angle-rate (DAR)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>reject based on distance-angle-rate (DAR)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>weedboth</attrlabl>\n <attrdef>Boolean value that indicates whether measurement was accepted or rejected based on amount of redundancy</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>accept amending distance-angle rate (DAR) location with minimum redundancy (MRD) anchors</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>reject amending distance-angle rate (DAR) location with minimum redundancy (MRD) anchors</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>bothtest</attrlabl>\n <attrdef>Which 3 directionality tests - direction, angle, percent distance from distance-angle-rate (DAR) filter- passed in \xe2\x80\x98Best Hybrid\xe2\x80\x99</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>_MRD-ANCHOR</edomv>\n <edomvd>location was retained by the redundancy filter</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>_NO-MIRGRATE</edomv>\n <edomvd>original MRD base-distance is not indicative of migration</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>_DAR_OMITTED</edomv>\n <edomvd>the DAR location failed all tests</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>_--------PCT</edomv>\n <edomvd>passed percent distance test in DAR filter</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>_----DIR-PCT</edomv>\n <edomvd>passed direction and percent distance tests in DAR filter</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>_DAR-OVERRUN</edomv>\n <edomvd>the DAR vector is longer than the MRD vector, e.g., overshoots</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>_ANG-DIR-PCT</edomv>\n <edomvd>passed angle, direction, and percent distance tests in DAR filter</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PREFILTERED</edomv>\n <edomvd>rejected by both MRD and DAR filters</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>_----DIR----</edomv>\n <edomvd>passed direction test in DAR filter</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>_ANG-----PCT</edomv>\n <edomvd>passed angle and percent distance tests in DAR filter</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>MRD_FAILRATE</edomv>\n <edomvd>rejected based on rate, overriding the MRD anchor</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pick</attrlabl>\n <attrdef>1/0 flag denoting best LC94 within duty cycle</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>Indicates location with the best Argos class within a duty cycle</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Indicates location of lesser accuracy confidence</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>duty</attrlabl>\n <attrdef>Unique number for all records within a duty cycle</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>213</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dutylocs</attrlabl>\n <attrdef>Total number of passes/locations within duty cycle</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>127</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>deltahr</attrlabl>\n <attrdef>Number of elapsed hours since previous pass</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0</rdommin>\n <rdommax>1582.06</rdommax>\n <attrunit>hours</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>nopc</attrlabl>\n <attrdef>Number of plausibility checks passed (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>4</rdommax>\n <attrunit>count</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>iqx</attrlabl>\n <attrdef>IQX value (DIAG): residual error on the frequency calculation (from IQ information in Argos manual, split by Douglas filter into the 2 parts (X and Y), see sections 6.3.6.1 and 6.3.6.3)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>-9999</edomv>\n <edomvd>No data available</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>X = 0</edomv>\n <edomvd>No calculation of residual frequency error (fewer than four messages received)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>X = 1, 2, 3</edomv>\n <edomvd>Unsatisfactory convergence of calculation</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>X = 4</edomv>\n <edomvd>Residual frequency error > 1.5 Hz</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>X = 5</edomv>\n <edomvd>0.15 Hz < residual frequency error < 1.5 Hz</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>X = 6</edomv>\n <edomvd>Residual frequency error < 0.15 Hz</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>iqy</attrlabl>\n <attrdef>IQY value (DIAG): transmitter oscillator frequency drift between two satellite passes</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>-9999</edomv>\n <edomvd>No data available</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Y = 0</edomv>\n <edomvd>No check on transmit frequency drift, as the two results are more than 12 hours apart</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Y = 1</edomv>\n <edomvd>Frequency discrepancy > 400 Hz\nProbably due to transmit frequency discrepancy, change of oscillator, etc</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Y = 2</edomv>\n <edomvd>Previous location is less than 1/2 hour old.\nFrequency discrepancy > 30 Hz, i.e. F/F (over 10 min) >2.5 E-8</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Y = 3</edomv>\n <edomvd>Frequency drift > 4 Hz/minute, i.e. F/F (10 min) > 1.10-7</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Y = 4</edomv>\n <edomvd>Frequency drift < 4 Hz / minute, i.e. F/F (10 min) < 1.10-7</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Y = 5</edomv>\n <edomvd>Frequency drift < 2 Hz/minute, i.e. F/F (10 min) < 5.10-8</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Y = 6</edomv>\n <edomvd>Frequency drift < 1 Hz/minute, i.e. F/F (10 min) < 2.5 . 10-8</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Y = 7</edomv>\n <edomvd>Frequency drift < 0.4 Hz/minute, i.e. F/F (10 min) < 1.10-8</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Y = 8</edomv>\n <edomvd>Frequency drift < 0.2 Hz/minute, i.e. F/F (10 min) < 5.10-9</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>nlocrank</attrlabl>\n <attrdef>Weighting for best LC94 within duty cycle</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1002</rdommin>\n <rdommax>30610</rdommax>\n <attrunit>weighting</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>distance</attrlabl>\n <attrdef>Great-circle distance (km) from previous location</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11</rdommin>\n <rdommax>2914.46</rdommax>\n <attrunit>kilometers</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>rate</attrlabl>\n <attrdef>Rate of movement (km/hr) from previous loc</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0</rdommin>\n <rdommax>999.0</rdommax>\n <attrunit>kilometers per hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>azimuth</attrlabl>\n <attrdef>Great-circle compass bearing (degrees) to next location</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0</rdommin>\n <rdommax>359.87</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>month</attrlabl>\n <attrdef>Month of overpass/location (GMT + (GMTOFFSET)) (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>12</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>day</attrlabl>\n <attrdef>Calendar day of overpass/location (GMT + (GMTOFFSET))</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>31</rdommax>\n <attrunit>calendar day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>year</attrlabl>\n <attrdef>Year of overpass/location (GMT + (GMTOFFSET)) (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1993</rdommin>\n <rdommax>1997</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>hour</attrlabl>\n <attrdef>Hour of overpass/location (GMT + (GMTOFFSET))</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>23</rdommax>\n <attrunit>hours</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>minute</attrlabl>\n <attrdef>Minute of overpass/location (GMT + (GMTOFFSET)) (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minutes</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>second</attrlabl>\n <attrdef>Second of overpass/location (GMT + (GMTOFFSET)) (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>seconds</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>jday</attrlabl>\n <attrdef>Julian day DDD (GMT + (GMTOFFSET))</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>366</rdommax>\n <attrunit>julian day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>lat_p</attrlabl>\n <attrdef>Primary latitude (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>27.65</rdommin>\n <rdommax>82.941</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>lon_p</attrlabl>\n <attrdef>Primary longitude (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-179.718</rdommin>\n <rdommax>179.905</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>lat_a</attrlabl>\n <attrdef>Alternate latitude (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-19.439</rdommin>\n <rdommax>84.598</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>lon_a</attrlabl>\n <attrdef>Alternate longitude (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-179.965</rdommin>\n <rdommax>179.996</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>switch</attrlabl>\n <attrdef>Location Choice</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>primary</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>alternate</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>latest</attrlabl>\n <attrdef>1/0 flag for most recent data record for an animal</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>Not the most recent data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>The most recent data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>apbest</attrlabl>\n <attrdef>Best signal strength during pass (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-136</rdommin>\n <rdommax>-115</rdommax>\n <attrunit>dB</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>apfreq</attrlabl>\n <attrdef>Interpolated freq at Doppler inflection (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>47651.5</rdommin>\n <rdommax>652058.5</rdommax>\n <attrunit>Hz</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>gt120</attrlabl>\n <attrdef>Number of messages with signal strength <120dB (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>4</rdommax>\n <attrunit>number of messages</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dur</attrlabl>\n <attrdef>Duration (sec) between first and last message (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>893</rdommax>\n <attrunit>seconds</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>altitude</attrlabl>\n <attrdef>Estimated Argos ptt reference altitude (DIAG) is a user-defined value that the Argos algorithm uses to calculate the location. It\xe2\x80\x99s important because it might inform any error a user perceives in the location estimate.</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2000</rdommax>\n <attrunit>m</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>gmt_date</attrlabl>\n <attrdef>GMT date appearing in the raw Argos data (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1/7/1993</rdommin>\n <rdommax>10/24/1997</rdommax>\n <attrunit>date</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>gmt_hour</attrlabl>\n <attrdef>GMT hour appearing in the raw Argos data (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>23</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>gmt_min</attrlabl>\n <attrdef>GMT minute appearing in the raw Argos data (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>gmt_sec</attrlabl>\n <attrdef>GMT second appearing in the raw Argos data (DIAG)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>sen1</attrlabl>\n <attrdef>First sensor entry from first line of data (DIAG): transmitter temperature (hexadecimal)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <udom>Values are transmitter temperature values (hexadecimal)</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>sen2</attrlabl>\n <attrdef>Second sensor entry from first line of data (DIAG): transmitter battery voltage (hexadecimal)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <udom>Values are transmitter battery voltage values (hexadecimal)</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>sen3</attrlabl>\n <attrdef>Third sensor entry from first line of data (DIAG): transmitter season (hexadecimal): indicates which duty cycle (hours the unit is transmitting vs idle ie: 4 hours on/24 hours off)</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <udom>Hexadecimal values indicating duty cycle</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>sen4</attrlabl>\n <attrdef>Fourth sensor entry from first line of data (DIAG): transmitter activity (hexadecimal). Increments by 1 each time a mercury switch in the transmitter is triggered by animal movement.</attrdef>\n <attrdefs>Douglas Argos-Filter Algorithm User Manual</attrdefs>\n <attrdomv>\n <udom>Hexadecimal values indicating number of times mercury switch was triggered by animal movement.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9QP0TDH</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20201103</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Linda Schueck</cntper>\n <cntorg>U.S. Geological Survey, NW-PACIFIC ISLAND REG</cntorg>\n </cntperp>\n <cntpos>Information Technology Specialist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>970 Lusk Street</address>\n <city>Boise</city>\n <state>ID</state>\n <postal>83706</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>208-426-5211</cntvoice>\n <cntfax>208-426-5210</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>" |
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3. [Magnetotelluric data from Mountain Pass, California, 2015](/catalog/item/5b4008bfe4b060350a10c69e)
4. [station mp354](/catalog/folder/5c81b2fde4b09388244766da)
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## Dates
Publication Date2019-03-26Start Date2017-03-12End Date2017-03-13
## Citation
Peacock, J.R, Denton, K.M., and Ponce, D.A., 2019, Magnetotelluric data from Mountain Pass, California, 2015: U.S. Geological Survey data release, https://doi.org/10.5066/P9JNPLPJ.
## Summary
This dataset consists of 65 magnetotelluric (MT) stations collected in 2015 near Mountain Pass, California. The U.S. Geological Survey acquired these data to create a regional conductivity model near the Mountain Pass mine. This work is in support of characterizing mineral deposits.
## Summary
This dataset consists of 65 magnetotelluric (MT) stations collected in 2015 near Mountain Pass, California. The U.S. Geological Survey acquired these data to create a regional conductivity model near the Mountain Pass mine. This work is in support of characterizing mineral deposits.
## Contacts
Point of Contact
:
[Jared R Peacock](/catalog/catalogParty/show?partyId=62618)
Originator
:
[Jared R Peacock](/catalog/catalogParty/show?partyId=62618),
[Kevin M Denton](/catalog/catalogParty/show?partyId=14901),
[David A Ponce](/catalog/catalogParty/show?partyId=8193)
Metadata Contact
:
[Jared R Peacock](/catalog/catalogParty/show?partyId=62618)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Data Owner
:
[Geology, Minerals, Energy, and Geophysics Science Center](/catalog/catalogParty/show?partyId=17468)
USGS Mission Area
:
[Energy and Minerals](/catalog/catalogParty/show?partyId=64232)
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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| mp354\_meta.xml<br>_Original FGDC Metadata_ | View | 13.51 KB | application/fgdc+xml |
| mp354.edi | | 16.55 KB | text/plain |
| mp354.png | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5c81b2fde4b09388244766da?f=__disk__d1%2F40%2F3d%2Fd1403d41cfc1c61493007b7e9ba0f41482056c15&width=150&height=113) | 285.63 KB | image/png |
| mp354.mth5 | | 281.73 MB | application/x-hdf |
## Purpose
The purpose of this data release is to provide MT station locations, time-series data, and processed transfer functions to the public.
## Preview Image
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## Communities
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## Tags
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- [Apparent Resistivity](/catalog/items?q=&filter=tags%3DApparent+Resistivity "Apparent Resistivity (Apparent Resistivity, Theme, None)")
- [Earth Magnetic Field](/catalog/items?q=&filter=tags%3DEarth+Magnetic+Field "Earth Magnetic Field (Earth Magnetic Field, Theme, None)")
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Jared R. Peacock</origin>\n <origin>Kevin M. Denton</origin>\n <origin>David A. Ponce</origin>\n <pubdate>2019</pubdate>\n <title>Magnetotelluric data from Mountain Pass, CA, 2015, station mp354</title>\n <geoform>ASCII data, shapefile, image</geoform>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <othercit>Additional information about Originator: Jared R. Peacock, https://orcid.org/0000-0002-0439-0224, Kevin M. Denton, https://orcid.org/0000-0001-9604-4021, David A. Ponce, https://orcid.org/0000-0003-4785-7354</othercit>\n <onlink>https://doi.org/10.5066/P9JNPLPJ</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Kevin M. Denton</origin>\n <origin>David A. Ponce</origin>\n <origin>Jared R. Peacock</origin>\n <origin>David M. Miller</origin>\n <pubdate>20190307</pubdate>\n <title>Geophysical characterization of a Proterozoic REE terrane at Mountain Pass, eastern Mojave Desert California</title>\n <geoform>Publication</geoform>\n <serinfo>\n <sername>Geosphere</sername>\n <issue>na</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>doi:xx.xxxx/xxxxxxxxx.x</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset consists of 65 magnetotelluric (MT) stations collected in 2015 near Mountain Pass, California. The U.S. Geological Survey acquired these data to create a regional conductivity model near the Mountain Pass mine. This work is in support of characterizing mineral deposits.</abstract>\n <purpose>The purpose of this data release is to provide MT station locations, time-series data, and processed transfer functions to the public.</purpose>\n <supplinf>This data product contains raw time-series data (*.mth5 files) and remote-referenced magnetotelluric (MT) transfer functions (TFs), which define the frequency dependent linear relations between components of electromagnetic (EM) field variations measured at a single site (*.edi files). Two types of TF are provided for most sites, impedance data relating horizontal electric and magnetic fields and tipper data, relating vertical and horizontal magnetic fields. All of the TFs provide input data for subsequent MT inversion and interpretation. They are estimated from the raw EM time series by (a) Fourier transforming data in a series of short overlapping time windows, and (b) applying robust regression methods to calculate TFs from the resulting spectral field estimates. For remote reference processing, data from one or more synchronously recording sites are used for more effective signal/noise separation. The supplied TFs are calculated for a range of periods (which may vary, depending on instrumentation and deployment time), as well as estimation error covariances. \nReferences relevant to this release include: Chave, A.D. and D. J. Thompson, 2004, Bounded influence estimation of magnetotelluric response functions, Geophysical Journal International, 157, pp. 988-1006. \nDocumentation for robust MT data processing program BIRRP by Dr. Alan Chave http://www.whoi.edu/science/AOPE/people/achave/Site/Next1.html \nThis metadata documents the full suite of MT data for this site and includes the files below. Their contents are described in the PDF Guide_to_MT_Data_Types.pdf and an accompanying data dictionary (see entities and attributes for more information).\nFile List:\nmp354.edi\nmp354.png\nmp354.mth5</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20170312</begdate>\n <begtime>1530000000Z</begtime>\n <enddate>20170313</enddate>\n <endtime>1057059921Z</endtime>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>As needed</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-115.46588</westbc>\n <eastbc>-115.46588</eastbc>\n <northbc>35.50167</northbc>\n <southbc>35.50167</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>Geology, Minerals, Energy, and Geophysics Science Center</themekey>\n <themekey>GMEGSC</themekey>\n <themekey>Mineral Resources Program</themekey>\n <themekey>MRP</themekey>\n <themekey>Magnetotellurics</themekey>\n <themekey>MT</themekey>\n <themekey>Time Series</themekey>\n <themekey>Impedance</themekey>\n <themekey>Apparent Resistivity</themekey>\n <themekey>Phase</themekey>\n <themekey>Tipper</themekey>\n <themekey>Earth Magnetic Field</themekey>\n </theme>\n <theme>\n <themekt>ISO 19115 Topic Categories</themekt>\n <themekey>GeoscientificInformation</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>geophysics</themekey>\n <themekey>electromagnetic surveying</themekey>\n <themekey>magnetotelluric surveying</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5c81b2fde4b09388244766da</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Mojave</placekey>\n <placekey>Ivanpah</placekey>\n <placekey>Mountain Pass</placekey>\n <placekey>Clark Mountain</placekey>\n <placekey>San Bernardino County</placekey>\n </place>\n <place>\n <placekt>Common Geographic Areas</placekt>\n <placekey>California</placekey>\n <placekey>Mescal Ranges</placekey>\n </place>\n <temporal>\n <tempkt>USGS Thesaurus</tempkt>\n <tempkey>Proterozoic</tempkey>\n <tempkey>Paleozoic</tempkey>\n <tempkey>Mesozoic</tempkey>\n <tempkey>Cenozoic</tempkey>\n </temporal>\n </keywords>\n <accconst>None</accconst>\n <useconst>There is no guarantee concerning the accuracy of the data. Any user who modifies the data is obligated to describe the types of modifications they perform. Data have been checked to ensure the accuracy. If any errors are detected, please notify the originating office. The U.S. Geological Survey strongly recommends that careful attention be paid to the metadata file associated with these data. Acknowledgement of the U.S. Geological Survey would be appreciated in products derived from these data. User specifically agrees not to misrepresent the data, nor to imply that changes made were approved or endorsed by the U.S. Geological Survey. Please refer to https://www2.usgs.gov/laws/privacy.html for the USGS disclaimer</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Jared R. Peacock</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and physical</addrtype>\n <address>MS989 345 Middlefield Rd.</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>650-329-4833</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Mineral Resources Program</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>Spatial locations were determined from hand-held global positioning system (GPS) devices. In general, the GPS units used by field scientists recorded sample locations to within 100 feet (30 meters) of the true location. The locations were verified using a geographic information system (GIS) and digital topographic maps.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>Elevations were determined from USGS, The National Map, Bulk Point Query Service based on the USGS 3DEP (3D elevation program) 1/3 arc-second layer (10-meter). Vertical accuracy was not assessed for this specific dataset. The overall absolute vertical accuracy of the seamless DEMs within the conterminous United States (2013), expressed as the root mean square error (RMSE) of 25,310 reference points, was 1.55 meters (USGS, 2014 - http://dx.doi.org/10.3133/ofr20141008). The vertical accuracy varies across the U.S. as a result of differences in source DEM quality, terrain relief, land cover, and other factors.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Time-series electric and magnetic field data were collected using wideband magnetotelluric instrumentation at each site location. These data are provided in HDf5 format (*.mth5 files) for all stations.</procdesc>\n <procdate>20170312</procdate>\n </procstep>\n <procstep>\n <procdesc>Fourier spectra were calculated for windowed time-series data (*.mth5 files) and used to calculate cross- and auto-power spectra. Impedance and tipper transfer functions (see *.edi files) were calculated at each station. System and sensor responses (in *.mth5 files) were deconvolved during this process. By this process, transfer function estimates were made for particular frequency bandwidths for each data run (4096 and 256 Hz sampling frequencies).</procdesc>\n <procdate>20161010</procdate>\n </procstep>\n <procstep>\n <procdesc>The transfer function estimates provided in the *.edi files and displayed in the *.png files were constructed by selecting optimal TF estimates at each period from a suite of data runs. High (4096 Hz sampling rate) and low (256 Hz sampling rate) frequency wideband recordings provided TF estimates for 1000-1 Hz and 0.001-1 Hz, respectively. Optimal TFs were selected based on examination of phase slope, smooth curve assumptions, and operator discretion.</procdesc>\n <procdate>20161010</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.0197305745</latres>\n <longres>0.0273088247</longres>\n <geogunit>Decimal seconds</geogunit>\n </geograph>\n <geodetic>\n <horizdn>D_WGS_1984</horizdn>\n <ellips>WGS_1984</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <overview>\n <eaover>Guide_MT_Data.pdf</eaover>\n <eadetcit>The file, Guide_MT_Data.pdf, describes available magnetotelluric data types from the USGS. This report describes typical magnetotelluric instrumentation and the various data types required in MT processing and data quality assessment (including electric and magnetic field time-series, instrument response files, MT HDF5 format (MTH5), and transfer functions), accessible at, https://www.sciencebase.gov/catalog/item/5b4008bfe4b060350a10c69e?name=Guide_to_Magnetotelluric_Data_Types.pdf.</eadetcit>\n </overview>\n <overview>\n <eaover>MT_Dictionary.csv</eaover>\n <eadetcit>A data dictionary describing attributes is accessible at, https://www.sciencebase.gov/catalog/item/5b4008bfe4b060350a10c69e?name=MT_DataDictionary.csv.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Jared R. Peacock</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Geophysicist</cntpos>\n <cntaddr>\n <addrtype>Mailing and physical</addrtype>\n <address>MS989 345 Middlefield Rd.</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>650-329-4833</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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3. [Geochemical and Geophysical Characteristics of the Conterminous United States](/catalog/item/53481333e4b06f6ce034aae7)
4. [Geochemical Characteristics of the Conterminous United States: % K2O](/catalog/folder/552eec97e4b0b22a1580310e)
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## Dates
Publication Date2014-07-23Time Period2014-07-23
## Citation
Olson, J.R. and Hawkins, C.P., 2014, Geochemical Characteristics of the Conterminous United States: U.S. Geological Survey data release, http://dx.doi.org/10.5066/F7X0653P.
## Summary
This raster depicts the percentage of lithological potassium oxide (K2O) content in surface or near surface geology. We derived these rasters by calculating the average percent K2O content for each map unit in combined surficial-bedrock geologic maps. We used state geologic maps (Preliminary Integrated Geologic Map Databases for the United States, Open File Reports 2004-1355, 2005-1305, 2005-1323, 2005-1324, 2005-1325, 2005-1351, and 2006-1272), which depict surficial geology instead of bedrock when the surficial layers are sufficiently deep. For the state maps that do not incorporate surficial geology (i.e., midwestern states), we overlaid surficial geologic map units with thicknesses greater than 100 feet (from Soller et al. \[2009\]) \[...\]
## Summary
This raster depicts the percentage of lithological potassium oxide (K2O) content in surface or near surface geology. We derived these rasters by calculating the average percent K2O content for each map unit in combined surficial-bedrock geologic maps. We used state geologic maps (Preliminary Integrated Geologic Map Databases for the United States, Open File Reports 2004-1355, 2005-1305, 2005-1323, 2005-1324, 2005-1325, 2005-1351, and 2006-1272), which depict surficial geology instead of bedrock when the surficial layers are sufficiently deep. For the state maps that do not incorporate surficial geology (i.e., midwestern states), we overlaid surficial geologic map units with thicknesses greater than 100 feet (from Soller et al. \[2009\]) to produce combined surficial-bedrock geologic maps that were similar to other states. We characterized geology based on the 201 different lithologies that the Geologic Map Database lists as occurring in the conterminous United States. Because some of these lithologies are known to have chemical attributes that vary widely, we created an additional 78 lithologic classes based on the common modifiers used in the geologic unit descriptions to better parse chemical variability within the lithologies (e.g., calcareous and noncalcareous sandstone). Modifiers were assigned base on descriptions of geologic formations obtained through either the Lexicon of Geologic Names of the United States or literature searches. Fifteen lithologic classes were not characterized because the class was not a specific rock type (e.g., mélange, water, and landslide). These classes were characterized as no data. We translated each state’s combined surficial-bedrock geologic maps into characteristics following the methods in Olson and Hawkins (2012) by assigning an estimate of each map unit’s percent K2O content to every occurrence of that map unit in the combined surficial-bedrock geologic map. This estimate was calculated as the average of literature or database values of the respective property for each lithological class contained within the map unit weighted by the prevalence of each lithological class within the map unit. The accompanying Excel workbook (Lith-MajorOxides.xls) contains a summary of all of the average geochemical characteristics for each lithology (“Lith Summary” tab) and tabs for each individual lithology that include the source of each record (e.g., originating from the Earth Chem Database or the specific literature reference), as well as the calculations used to determine the measure of central tendency (mean or median depending on the data). The final national raster was created by merging each of the individual state rasters. Users should be cognizant that some differences will exist in chemical and physical characterizations across state lines that are caused by unreconciled differences in lithologic descriptions or mapping scales used among the underlying state source maps.
References:
Olson, J.R., and Hawkins, C.P., 2012, Predicting natural base-flow stream water chemistry in the western United States, Water Resources Research, 48, W02504.
Soller, D.R., Reheis, M.C., Garrity, C.P., and Van Sistine, D.R., 2009, Map database for surficial materials in the conterminous United States: U.S. Geological Survey Data Series 425, scale 1:5,000,000 \[http://pubs.usgs.gov/ds/425/\].
## Contacts
Point of Contact
:
[Desert Research Institute](/catalog/catalogParty/show?partyId=65433)
Metadata Contact
:
[John R Olson](/catalog/catalogParty/show?partyId=50516)
Originator
:
[John R Olson](/catalog/catalogParty/show?partyId=50516),
[Charles P Hawkins](/catalog/catalogParty/show?partyId=50412)
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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| | | |
| --- | --- | --- |
| K2O\_raster.sd | | 137.56 MB |
| thumbnail.png | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/552eec97e4b0b22a1580310e?f=__disk__af%2F09%2F27%2Faf09278c93560b5506d64ba4d421372b3f934ec5&width=150&height=100) | 25.26 KB |
Extension:
K2O\_raster.zip
## Purpose
These rasters were created to quantify the influence of geology on surface and critical zone processes like stream water chemistry, soil formation, ecologic processes, and species distributions by providing estimates of spatial variability in current geochemical and geophysical conditions occurring at or near the surface.
## Preview Image
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## [Map](/catalog/item/imap/552eec97e4b0b22a1580310e)
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## Provenance
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## Additional Information
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>J. R. Olson</origin>\n <origin>C. P. Hawkins</origin>\n <pubdate>20140723</pubdate>\n <title>Geochemical Characteristics of the Conterminous United States: % K2O</title>\n <geoform>Raster Digital Data Set</geoform>\n <onlink>http://dx.doi.org/10.5066/F7X0653P</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This raster depicts the percentage of lithological potassium oxide (K2O) content in surface or near surface geology. We derived these rasters by calculating the average percent K2O content for each map unit in combined surficial-bedrock geologic maps. We used state geologic maps (Preliminary Integrated Geologic Map Databases for the United States, Open File Reports 2004-1355, 2005-1305, 2005-1323, 2005-1324, 2005-1325, 2005-1351, and 2006-1272), which depict surficial geology instead of bedrock when the surficial layers are sufficiently deep. For the state maps that do not incorporate surficial geology (i.e., midwestern states), we overlaid surficial geologic map units with thicknesses greater than 100 feet (from Soller and Reheis [2004]) to produce combined surficial-bedrock geologic maps that were similar to other states. We characterized geology based on the 201 different lithologies that the Geologic Map Database lists as occurring in the conterminous United States. Because some of these lithologies are known to have chemical attributes that vary widely, we created an additional 78 lithologic classes based on the common modifiers used in the geologic unit descriptions to better parse chemical variability within the lithologies (e.g., calcareous and noncalcareous sandstone). Modifiers were assigned base on descriptions of geologic formations obtained through either the Lexicon of Geologic Names of the United States or literature searches. Fifteen lithologic classes were not characterized because the class was not a specific rock type (e.g., m\xc3\xa9lange, water, and landslide). These classes were characterized as no data. We translated each state\xe2\x80\x99s combined surficial-bedrock geologic maps into characteristics following the methods in Olson and Hawkins (2012) by assigning an estimate of each map unit\xe2\x80\x99s percent K2O content to every occurrence of that map unit in the combined surficial-bedrock geologic map. This estimate was calculated as the average of literature or database values of the respective property for each lithological class contained within the map unit weighted by the prevalence of each lithological class within the map unit. The accompanying Excel workbook (Lith-MajorOxides.xls) contains a summary of all of the average geochemical characteristics for each lithology (\xe2\x80\x9cLith Summary\xe2\x80\x9d tab) and tabs for each individual lithology that include the source of each record (e.g., originating from the Earth Chem Database or the specific literature reference), as well as the calculations used to determine the measure of central tendency (mean or median depending on the data). The final national raster was created by merging each of the individual state rasters. Users should be cognizant that some differences will exist in chemical and physical characterizations across state lines that are caused by unreconciled differences in lithologic descriptions or mapping scales used among the underlying state source maps.</abstract>\n <purpose>These rasters were created to quantify the influence of geology on surface and critical zone processes like stream water chemistry, soil formation, ecologic processes, and species distributions by providing estimates of spatial variability in current geochemical and geophysical conditions occurring at or near the surface.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>20140723</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-129.567807626</westbc>\n <eastbc>-64.981807426</eastbc>\n <northbc>50.7850356</northbc>\n <southbc>22.397057588</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>K2O</themekey>\n <themekey>Potassium</themekey>\n <themekey>Bedrock</themekey>\n <themekey>Geology</themekey>\n <themekey>Geochemistry</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:552eec97e4b0b22a1580310e</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Conterminous U.S.</placekey>\n </place>\n </keywords>\n <accconst>None</accconst>\n <useconst>Users should be cognizant that some differences will exist in chemical and physical characterizations across state lines, caused by unreconciled differences in lithologic descriptions or mapping scales used among the underlying state source maps.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>Desert Research Institute</cntorg>\n <cntper>John Olson</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>755 E. Flamingo Rd.</address>\n <city>Las Vegas</city>\n <state>NV</state>\n <postal>89119</postal>\n </cntaddr>\n <cntvoice>435-770-4533</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Olson, J.R. and C.P. Hawkins</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.1 (Build 3143) Service Pack 1 (Build 10.1.1.3143)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Suzanne W. Nicholson, Connie L. Dicken, Michael P. Foose, Julia A.L. Mueller</origin>\n <pubdate>20071106</pubdate>\n <title>Preliminary integrated geologic map databases for the United States: Minnesota, Wisconsin, Michigan, Illinois, and Indiana</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/of/2004/1355/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20120928</begdate>\n <enddate>20140624</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 1</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Connie L. Dicken, Suzanne W. Nicholson, John D. Horton, Scott A. Kinney, Gregory Gunther, Michael P. Foose, and Julia A.L. Mueller</origin>\n <pubdate>20080822</pubdate>\n <title>Preliminary integrated geologic map databases for the United States: Delaware, Maryland, New York, Pennsylvania, and Virginia</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/of/2005/1325/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20120928</begdate>\n <enddate>20140624</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 2</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Suzanne W. Nicholson, Connie L. Dicken, John D. Horton, Michael P. Foose, Julia A.L. Mueller, and Rudi Hon</origin>\n <pubdate>20071106</pubdate>\n <title>Preliminary integrated geologic map databases for the United States: Connecticut, Maine, Massachusetts, New Hampshire, New Jersey, Rhode Island and Vermont</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/of/2006/1272/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20120928</begdate>\n <enddate>20140624</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 3</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Suzanne W. Nicholson, Connie L. Dicken, John D. Horton, Keith A. Labay, Michael P. Foose, and Julia A.L. Mueller</origin>\n <pubdate>20071106</pubdate>\n <title>Preliminary integrated geologic map databases for the United States: Kentucky, Ohio, Tennessee, and West Virginia</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/of/2005/1324/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20120928</begdate>\n <enddate>20140624</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 4</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Connie L. Dicken, Suzanne W. Nicholson, John D. Horton, Michael P. Foose, and Julia A.L. Mueller</origin>\n <pubdate>20071106</pubdate>\n <title>Preliminary integrated geologic map databases for the United States: Alabama, Florida, Georgia, Mississippi, North Carolina, and South Carolina</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/of/2005/1323/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20120928</begdate>\n <enddate>20140624</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 5</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Douglas B. Stoeser, Gregory N. Green, Laurie C. Morath, William D. Heran, Anna B. Wilson, David W. Moore, and Bradley S. Van Gosen</origin>\n <pubdate>20070926</pubdate>\n <title>Preliminary integrated geologic map databases for the United States: Central States: Montana, Wyoming, Colorado, New Mexico, North Dakota, South Dakota, Nebraska, Kansas, Oklahoma, Texas, Iowa, Missouri, Arkansas, and Louisiana</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/of/2005/1351/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20120928</begdate>\n <enddate>20140624</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 6</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Steve Ludington, Barry C. Moring, Robert J. Miller, Paul A. Stone, Arthur A. Bookstrom, David R. Bedford, James G. Evans, Gordon A. Haxel, Contstance J. Nutt, Kathryn S. Flyn and Melanie J. Hopkins</origin>\n <pubdate>20071201</pubdate>\n <title>Preliminary integrated geologic map databases for the United States: Western States: California, Nevada, Arizona, Washington, Oregon, Idaho, and Utah</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/of/2005/1305/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20120928</begdate>\n <enddate>20140624</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 7</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>David R. Soller, Marith C. Reheis, Christopher P. Garrity, and D.R. Van Sistine</origin>\n <pubdate>20090806</pubdate>\n <title>Map Database for Surficial Materials in the Conterminous United States</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/ds/425/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20131101</begdate>\n <enddate>20140224</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 8</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Lamont-Doherty Earth Observatory of Columbia University</origin>\n <pubdate>20140303</pubdate>\n <title>EarthChem Portal</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>Palisades, NY</pubplace>\n <publish>EarthChem</publish>\n </pubinfo>\n <onlink>http://www.earthchem.org</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20090307</begdate>\n <enddate>20140303</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 9</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>John R. Olson, Charles P. Hawkins</origin>\n <pubdate>20120204</pubdate>\n <title>Predicting natural base-flow stream water chemistry in the western United States</title>\n <geoform>Publication (Journal Article)</geoform>\n <pubinfo>\n <pubplace>Hoboken, NJ</pubplace>\n <publish>Water Resources Research</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20120204</begdate>\n <enddate>20140303</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 10</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>We added \xe2\x80\x9cMajorOxide\xe2\x80\x9d, \xe2\x80\x9cPhysical\xe2\x80\x9d, and \xe2\x80\x9cNutrient\xe2\x80\x9d columns to lithology table accompanying each state geologic map (e.g., ALlith.csv) of the Preliminary Integrated Geologic Map Databases for the United States (USGS Open File Reports 2004-1355, 2005-1305, 2005-1323, 2005-1324, 2005-1325, 2005-1351, and 2006-1272). For each lithology listed in the table, we assigned modifiers to the most resolved lithology (i.e., \xe2\x80\x9cLOW_LITH\xe2\x80\x9d) as needed. \xe2\x80\x9cMajorOxide\xe2\x80\x9d modifiers include: alluvial, lacustrine, landslide, eolian/loess, non-calcareous/siliceous, calcareous, dolomitic, blueschist, and greenschist. \xe2\x80\x9cPhysical\xe2\x80\x9d modifiers include: alluvial, lacustrine, landslide, eolian/loess, till, tuff, blueschist, and greenschist. \xe2\x80\x9cNutrient\xe2\x80\x9d modifiers include: alluvial, lacustrine, landslide, eolian/loess, pre-Cambrian, carbonaceous, blueschist, and greenschist. Because the number of modifiers varied among the three attribute types, \xe2\x80\x9cMajorOxide\xe2\x80\x9d had a total of 279 lithologies, \xe2\x80\x9cPhysical\xe2\x80\x9d had a total of 251 lithologies, and \xe2\x80\x9cNutrient\xe2\x80\x9d had a total of 284 lithologies. We applied modifiers to particular map units when a modifier (or its synonym) was used in the descriptions of the geologic unit or formation in the accompanying unit table (e.g., ALunits.csv), GeoLex (http://ngmdb.usgs.gov/Geolex/search), or published literature sources. Example: the map unit of the Alabama geologic map identified as Unit_Link \xe2\x80\x9cALNfp;2\xe2\x80\x9d (part of the Fort Payne Chert), is described as having dolomitic siltstones in GeoLex, and so the siltstone portion of the unit lithology is modified to \xe2\x80\x9cdolomitic-Siltstone\xe2\x80\x9d.</procdesc>\n <procdate>Unknown</procdate>\n </procstep>\n <procstep>\n <procdesc>We then added the lithology table with supplementary modifiers to a database that already contained tables of the central tendency values for geologic attributes (i.e., % CaO, % MgO, % P2O5, % SiO2, % Al2O3, % FE2O3T, % NA2O, % K2O, % S, % N, uniaxial compressive strength, and hydraulic conductivity) for all lithologies. These tables accompany this file, one for each attribute type (see Lith-MajorOxides.xls, Lith-Nutrient.xls, and Lith-Physical.xls). They are contained in the \xe2\x80\x9cLith Summary\xe2\x80\x9d sheet in each case, and the \xe2\x80\x9cReadMe\xe2\x80\x9d sheet at the beginning of each describes how centeral tendency values were calculated for each attribute, for each lithology. Using the database which linked the lithology attribute tables, we calculated the average of each attribute for each map unit, weighted by the prevalence of each lithology in each map unit using a database query. Prevalence was derived from that assigned in each lithology table contained in the state geologic maps (e.g., USGS Open File Reports 2004-1355).</procdesc>\n <procdate>Unknown</procdate>\n </procstep>\n <procstep>\n <procdesc>We then joined the query output with the weighted average for each of the 12 attributes for each map unit to the attribute table of the original state geologic map shapefile, using Unit-Link to make a table join. All 48 state maps were then appended into a single shapefile, with the District of Columbia included in the Maryland state geologic map.</procdesc>\n <procdate>Unknown</procdate>\n </procstep>\n <procstep>\n <procdesc>The consolidated map was then converted from a shapefile to rasters, one raster for each of the 12 attributes. A cell size of 90m was used.</procdesc>\n <procdate>Unknown</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Raster</direct>\n <rastinfo>\n <rasttype>Grid Cell</rasttype>\n <rowcount>32998</rowcount>\n <colcount>52750</colcount>\n <vrtcount>1</vrtcount>\n </rastinfo>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <mapproj>\n <mapprojn>NAD 1983 Albers (ESRI Full Name: NAD_1983_Albers)</mapprojn>\n <albers>\n <stdparll>29.5</stdparll>\n <stdparll>45.5</stdparll>\n <longcm>-96.0</longcm>\n <latprjo>23.0</latprjo>\n <feast>0.0</feast>\n <fnorth>0.0</fnorth>\n </albers>\n </mapproj>\n <planci>\n <plance>row and column</plance>\n <coordrep>\n <absres>90.0</absres>\n <ordres>90.0</ordres>\n </coordrep>\n <plandu>Meter</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D_North_American_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Value</attrlabl>\n <attrdef>Percent geologic potassium oxide</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.018500000238419</rdommin>\n <rdommax>12</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>The entity and attribute information provided here describes the tabular data associated with the data set. Please review the detailed descriptions that are provided (the individual attribute descriptions) for information on the values that appear as fields/table entries of the data set.</eaover>\n <eadetcit>The entity and attribute information was generated by the individual and/or agency identified as the originator of the data set. Please review the rest of the metadata record for additional details and information.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Distributor assumes no liability for misuse of data.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Raster Digital Data Set</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F7X0653P</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20220805</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>J.R. Olson</cntper>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>755 E. Flamingo Road</address>\n <city>Las Vegas</city>\n <state>NV</state>\n <postal>89119</postal>\n </cntaddr>\n <cntvoice>435-770-4533</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <mettc>local time</mettc>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Benthic Laboratory](/catalog/item/5d6efc05e4b0c4f70cf6cd4a)
3. [A spatially and temporally intensive sampling study of benthic community and bivalve metrics in the Sacramento-San Joaquin Delta (ver. 2.0, May 2021)](/catalog/folder/5fe575f7d34ea5387deb52ee)
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## Dates
Start Date2007End Date2019Publication Date2021-01-27Last Revision2021-06-04
## Citation
Zierdt Smith, E.L., Shrader, K.H., Parchaso, F., and Thompson, J.K., 2021, A spatially and temporally intensive sampling study of benthic community and bivalve metrics in the Sacramento-San Joaquin Delta (ver. 2.0, May 2021): U.S. Geological Survey data release, https://doi.org/10.5066/P93BAY64.
## Summary
Phytoplankton is an important and limiting food source in the Sacramento-San Joaquin Delta and San Francisco Bay; the decline of phytoplankton biomass is one possible factor in the pelagic organism decline and specifically in the decline of the protected delta smelt. The bivalves Corbicula fluminea and Potamocorbula amurensis (hereafter Corbicula and Potamocorbula, respectively) have been shown to control phytoplankton biomass in several locations throughout the system, and their distribution and population dynamics are therefore of great interest. As one element of the California Department of Water Resources (DWR) and the U.S. Bureau of Reclamation’s (BOR) Environmental Monitoring Program (EMP), the Generalized Random Tessellation \[...\]
## Summary
Phytoplankton is an important and limiting food source in the Sacramento-San Joaquin Delta and San Francisco Bay; the decline of phytoplankton biomass is one possible factor in the pelagic organism decline and specifically in the decline of the protected delta smelt. The bivalves Corbicula fluminea and Potamocorbula amurensis (hereafter Corbicula and Potamocorbula, respectively) have been shown to control phytoplankton biomass in several locations throughout the system, and their distribution and population dynamics are therefore of great interest. As one element of the California Department of Water Resources (DWR) and the U.S. Bureau of Reclamation’s (BOR) Environmental Monitoring Program (EMP), the Generalized Random Tessellation Stratified (GRTS) program examines the spatial and temporal extent of both Corbicula and Potamocorbula control on phytoplankton. The GRTS benthic monitoring program is one element of DWR’s and BOR’s EMP wherein the impact of water project operations on the estuary are determined. These impacts are determined by changes in benthic fauna presence, abundance and distribution of the benthos associated with physical factors in the estuary, and the detection of newly introduced species in the estuary. DWR expanded their benthic monitoring program to include spatially intensive sampling (GRTS) in spring and fall of every year beginning in 2007. The GRTS program samples 175 benthic stations (fifty stations that are monitored every year and 125 randomly selected new stations that are changed yearly) throughout the Delta and northern San Francisco Bay in one week in May and October.
First posted - January 27, 2021 (available from author)
Revised - June 4, 2021 (version 2.0)
## Contacts
Originator
:
[Emily L Zierdt Smith](/catalog/catalogParty/show?partyId=75312),
[Francis Parchaso](/catalog/catalogParty/show?partyId=7849),
[Janet K McHendrie](/catalog/catalogParty/show?partyId=10361),
[Janet K. Thompson](/catalog/catalogParty/show?partyId=Janet+K.+Thompson)
Point of Contact
:
[Emily L Zierdt Smith](/catalog/catalogParty/show?partyId=75312)
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:
[Emily L Zierdt Smith](/catalog/catalogParty/show?partyId=75312)
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[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Water Resources](/catalog/catalogParty/show?partyId=Water+Resources)
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:
[Office of the Chief Operating Officer](/catalog/catalogParty/show?partyId=77215)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5fe575f7d34ea5387deb52ee?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5fe575f7d34ea5387deb52ee?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5fe575f7d34ea5387deb52ee?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| Metadata\_Record\_GRTS (ver. 2.0, May 2021).xml<br>_Original FGDC Metadata_ | View | 21.19 KB | application/fgdc+xml |
| T1\_GRTS\_DataDictionary v2.0.csv | | 10.46 KB | text/csv |
| T1\_GRTS\_DataDictionary v2.0.xlsx | | 14.73 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| T2\_GRTS\_BioRecGR v2.0.csv | | 701.38 KB | text/csv |
| T2\_GRTS\_BioRecGR v2.0.xlsx | | 603.12 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Sacramento-San Joaquin Delta.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5fe575f7d34ea5387deb52ee?f=__disk__a3%2F4f%2Ffa%2Fa34ffaaecb94eed25cdfc9dee1474f26615b6f11&width=150&height=112) | 200.32 KB | image/jpeg |
| Sacramento-San Joaquin Delta GRTS v2.0.txt | | 1.19 KB | text/plain |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Parchaso, F., Zierdt Smith, E.L., and Thompson, J.K., 2021, Effect of the emergency drought barrier on the distribution, biomass, and grazing rate of the bivalves Corbicula fluminea and Potamocorbula amurensis, False River, California: U.S. Geological Survey Open-File Report 2021–1088, 22 p., https://doi.org/10.3133/ofr20211088. | [https://doi.org/10.3133/ofr20211088](https://doi.org/10.3133/ofr20211088 "https://doi.org/10.3133/ofr20211088") |
| Zierdt Smith, E.L., Shrader, K.H., Thompson, J.K., Parchaso, F., Gehrts, K., and Wells, E., 2023, Bivalve effects on the food web supporting delta smelt—A spatially intensive study of bivalve recruitment, biomass, and grazing rate patterns with varying freshwater outflow in 2019: U.S. Geological Survey Open-File Report 2022–1102, 15 p., http://doi.org/10.3133/ofr20221102. | [http://doi.org/10.3133/ofr20221102](http://doi.org/10.3133/ofr20221102 "http://doi.org/10.3133/ofr20221102") |
| Parchaso, F., Zierdt Smith, E.L., and Thompson, J.K., 2021, Effect of the emergency drought barrier on the distribution, biomass, and grazing rate of the bivalves Corbicula fluminea and Potamocorbula amurensis, False River, California: U.S. Geological Survey Open-File Report, https://doi.org/10.3133/OFR20211088. | [https://doi.org/10.3133/OFR20211088](https://doi.org/10.3133/OFR20211088 "https://doi.org/10.3133/OFR20211088") |
## Purpose
Data were collected to examine the spatial and temporal extent of both Corbicula fluminea and Potamocorbula amurensis control on phytoplankton in the Sacramento-San Joaquin Delta and San Francisco Bay.
## Preview Image
![Preview Image](https://www.sciencebase.gov/catalog/file/get/5fe575f7d34ea5387deb52ee?f=__disk__a3%2F4f%2Ffa%2Fa34ffaaecb94eed25cdfc9dee1474f26615b6f11&width=580&height=435)
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## Tags
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- [recruitment](/catalog/items?q=&filter=tags%3Drecruitment "recruitment (recruitment, Theme, )")
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## Provenance
Data sourceInput directly
Revision 2.0 by Emily L Zierdt Smith on June 3, 2021. To review the changes that were made, see “Sacramento-San Joaquin Delta GRTS v2.0.txt” in the attached files section.
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P93BAY64 |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Zierdt Smith, Emily L.</origin>\n <origin>Shrader, Kelly H.</origin>\n <origin>Parchaso, Francis</origin>\n <origin>Thompson, Janet K.</origin>\n <pubdate>20210127</pubdate>\n <title>A spatially and temporally intensive sampling study of benthic community and bivalve metrics in the Sacramento-San Joaquin Delta (ver. 2.0, May 2021)</title>\n <geoform>Excel and CSV spreadsheets</geoform>\n <pubinfo>\n <pubplace>Menlo Park, CA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P93BAY64</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release contains one data table and a data dictionary for the California Department of Water Resources and the United States Bureau of Reclamation\xe2\x80\x99s Environmental Monitoring Program (EMP) Generalized Random Tessellation Stratified (GRTS) program.</abstract>\n <purpose>Data were collected to examine the spatial and temporal extent of both Corbicula fluminea and Potamocorbula amurensis control on phytoplankton in the Sacramento-San Joaquin Delta and San Francisco Bay. These data support the California Department of Water Resources and the United States Bureau of Reclamation\xe2\x80\x99s Environmental Monitoring Program (EMP) Generalized Random Tessellation Stratified (GRTS) program.</purpose>\n <supplinf>Phytoplankton is an important and limiting food source in the Sacramento-San Joaquin Delta and San Francisco Bay; the decline of phytoplankton biomass is one possible factor in the pelagic organism decline and specifically in the decline of the protected delta smelt. The bivalves Corbicula fluminea and Potamocorbula amurensis (hereafter Corbicula and Potamocorbula, respectively) have been shown to control phytoplankton biomass in several locations throughout the system, and their distribution and population dynamics are therefore of great interest. As one element of the California Department of Water Resources (DWR) and the United States Bureau of Reclamation\xe2\x80\x99s (BOR) Environmental Monitoring Program (EMP), the Generalized Random Tessellation Stratified (GRTS) program examines the spatial and temporal extent of both Corbicula and Potamocorbula control on phytoplankton. \n\nThe GRTS benthic monitoring program is one element of DWR\xe2\x80\x99s and BOR\xe2\x80\x99s EMP wherein the impact of water project operations on the estuary are determined. These impacts are determined by changes in benthic fauna presence, abundance and distribution of the benthos associated with physical factors in the estuary, and the detection of newly introduced species in the estuary. DWR expanded their benthic monitoring program to include spatially intensive sampling (GRTS) in spring and fall of every year beginning in 2007. The GRTS program samples 175 benthic stations (fifty stations that are monitored every year and 125 randomly selected new stations that are changed yearly) throughout the Delta and northern San Francisco Bay in one week in May and October. \n\nReferences Cited: \n\nCarlton, J. T. (2007). The Light and Smith Manual: intertidal invertebrates from Central California to Oregon. Berkeley, CA: University of California Press. \n\nCole, B.E., Thompson, J.K., and Cloern, J.E., 1992, Measurement of filtration rates by infaunal bivalves in a recirculating flume: Marine Biology, v. 113, no. 2, p. 219\xe2\x80\x93225, https://doi.org/10.1007/BF00347274. \n\nLopez, C.B., Cloern, J.E., Schraga, T.S., Little, A.J., Lucas, L.V., Thompson, J.K., and Burau, J.R., 2006, Ecological values of shallow-water habitats\xe2\x80\x94Implications for restoration of disturbed ecosystems: Ecosystems, v. 9, no. 3, p. 422\xe2\x80\x93440, https://doi.org/10.1007/s10021-005-0113-7. \n\nO\xe2\x80\x99Riordan, C.A., Monismith, S.G., and Koseff, J.R., 1995, The effect of bivalve excurrent jet dynamics on mass transfer in a benthic boundary layer: Limnology and Oceanography, v. 40, no. 2, p. 330\xe2\x80\x93344, https://doi.org/10.4319/lo.1995.40.2.0330. \n\nStevens Jr, D. L., & Olsen, A. R. (2004). Spatially balanced sampling of natural resources. Journal of the American statistical Association, 99(465), 262-278. \n\nThompson, J.K., Koseff, J.R., Monismith, S.G., and Lucas, L.V., 2008, Shallow water processes govern system-wide phytoplankton bloom dynamics\xe2\x80\x94A field study: Journal of Marine Systems, v. 74, no. 1-2, p. 153\xe2\x80\x93166, https://doi.org/10.1016/j.jmarsys.2007.12.006.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2007</begdate>\n <enddate>2019</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>As needed</update>\n </status>\n <spdom>\n <descgeog>Sacramento-San Joaquin Delta and North San Francisco Bay, California</descgeog>\n <bounding>\n <westbc>-122.4780</westbc>\n <eastbc>-121.3247</eastbc>\n <northbc>38.2437</northbc>\n <southbc>37.8277</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>benthic ecosystems</themekey>\n <themekey>community ecology</themekey>\n <themekey>ecosystem monitoring</themekey>\n <themekey>long-term ecological monitoring</themekey>\n </theme>\n <theme>\n <themekt>Marine Realms Information Bank (MRIB)</themekt>\n <themekey>bivalves</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>bivalve</themekey>\n <themekey>benthic ecology</themekey>\n <themekey>spatial monitoring</themekey>\n <themekey>temporal monitoring</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5fe575f7d34ea5387deb52ee</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>California</placekey>\n <placekey>Sacramento-San Joaquin Delta</placekey>\n <placekey>San Francisco Bay</placekey>\n <placekey>San Pablo Bay</placekey>\n </place>\n <stratum>\n <stratkt>Marine Realms Information Bank (MRIB)</stratkt>\n <stratkey>benthos</stratkey>\n </stratum>\n <temporal>\n <tempkt>USGS Thesaurus</tempkt>\n <tempkey>seasons</tempkey>\n <tempkey>time periods</tempkey>\n </temporal>\n </keywords>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Bivalves</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2020</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Carlton, James T.</origin>\n <pubdate>2007</pubdate>\n <title>The Light and Smith Manual: Intertidal Invertebrates from Central California to Oregon</title>\n <geoform>BOOK</geoform>\n <pubinfo>\n <pubplace>Berkeley and Los Angeles, California</pubplace>\n <publish>University of California Press</publish>\n </pubinfo>\n <onlink>https://www.ucpress.edu/book/9780520239395/the-light-and-smith-manual</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Emily L Zierdt Smith</cntper>\n <cntorg>WMA: Earth System Processes Division.</cntorg>\n </cntperp>\n <cntpos>Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 496, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4574</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>identification keys;;specimen processing</taxonpro>\n <taxoncom>Our identifications were comprehensive and detailed. We encountered no problems because our methods used for identification are standard and the species found in the study area are well-known to this project.</taxoncom>\n </taxonsys>\n <taxongen>All species were identified and enumerated to the lowest taxon possible. All bivalves were identified to the level of Species in the data.</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Lophozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Mollusca</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bivalvia</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Heterodonta</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Myoida</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Myoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Corbulidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Potamocorbula</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Potamocorbula amurensis</taxonrv>\n <common>brackish-water corbula</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Francis Parchaso</cntper>\n <cntorg>U.S. Geological Survey WMA: Earth System Processes Division</cntorg>\n </cntperp>\n <cntpos>Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 496, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4586</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>California Department of Water Resources, U.S. Bureau of Reclamation, and Interagency Ecological Program</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Tables were cross-checked with other documents to make sure each field had the right data. Entered bivalve size frequency data was check with the physical data sheets. Final biomass and grazing rate values were checked against the original calculation sheets.</attraccr>\n </attracc>\n <logic>Data were checked to ensure that the values fell within the expected ranges and were not duplicated or omitted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>Station latitude and longitude coordinates were plotted to verify they were correct for each station.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>Station depth readings were cross-checked with historical depth readings for stations.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <method>\n <methtype>both</methtype>\n <methdesc>Stations were sampled throughout the Sacramento-San Joaquin Delta in specific geographical regions. Samples were collected by the California Department of Water Resources (DWR). DWR used a 0.05m2 Ponar/van Veen grab to take one grab at each station, screened the samples through a 0.5mm screen, preserved in 10-percent buffered formalin, and transferred to 70-percent ethyl alcohol with rose bengal dye. \n\nSamples were sorted by the USGS Benthic Laboratory in Menlo Park. Bivalves were enumerated and identified to the lowest taxon using a USGS benthic invertebrate voucher collection. Biomass estimates were based on relationships between shell length and dry tissue weight that were calculated by the USGS using the standard techniques described in Thompson and others (2008). U.S. Geological Survey personnel measured the bivalves to the nearest millimeters using calipers. \n\nGrazing rates measure the velocity of food particles brought to the bottom, and grazing rate values were calculated using the method described in Thompson and others (2008) for Potamocorbula and in Lopez and others (2006) for Corbicula. Pumping rates were adjusted for temperature and were estimated as conservative rates (using a correction for concentration boundary layer). Species pumping rates (PR) were based on published relationships: Potamocorbula pumping rates (400L/g AFDW/day, where AFDW=dry wt. \xe2\x80\x93 ash wt.) were based on that measured by Cole and others., 1992. Pumping rates were converted to grazing rates by reducing PR to adjust for the presence of a concentration boundary layer. This adjustment is based on O\xe2\x80\x99Riordan\xe2\x80\x99s (1995, Figure 7b) refiltration relationship, where nmax is the maximum refiltration proportion. The refiltration proportion (nmax) is that proportion of water previously filtered by one square meter of bivalves. The distance between siphon pairs, s, is a measure of animal density, and do is the average diameter of the excurrent siphon of the animals collected at each site (a measure of animal size): (GR= PR (1- n_max)); (n_max=2.5(s(d_o )^(-1) )^(-1)). \n\nThe diameter of the excurrent siphon was changed throughout the study to reflect the change in average size of animals as the study progressed, and the distance between siphon pairs was based on the density of animals observed in our benthic sampling, assuming equidistant spacing within the 0.05 m2 grab. Benthic grazing rates calculated in this manner represent the minimum grazing rates, as they assume that the near bottom boundary layer is depleted of phytoplankton and mixing of the water column is inadequate to replenish that lower layer with phytoplankton biomass. We assumed all bivalves grazed continuously. \n\nCorbicula dry weight was used to estimate their temperature corrected pumping rates. Pumping rate expressed relative to dry tissue weight (PRwt) was derived from data published by Foe and Knight (1986) for C. fluminea from the Delta: PRwt (ml (mg AFDM)-1 hr-1) = 0.4307 e 0.1113(temp), valid for temperatures between 16\xcb\x9a and 30\xcb\x9aC. Pumping rate for each individual was calculated as PR (L d-1) = (PRwt) (AFDM). Calculated pumping rates were converted to grazing rates assuming a maximum effect of a concentration boundary layer (CBL) by decreasing pumping rate using the refiltration relationship, ( derived by O\xe2\x80\x99Riordan et al. (1995) for a similar bivalve (Venerupis japonica, a bivalve with similar pumping rates (\xe2\x89\x88 8 ml mg-1 hr-1) as C. fluminea).</methdesc>\n <methcite>\n <citeinfo>\n <origin>Stevens Jr, D. L., & Olsen, A. R.</origin>\n <pubdate>2004</pubdate>\n <title>Spatially balanced sampling of natural resources.</title>\n <geoform>Document</geoform>\n <onlink>https://swap.stanford.edu/20110204152857/http:/www.epa.gov/nheerl/arm/documents/grts_asa.pdf</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>O'Riordan, C.A., Monismith, S.G., and Koseff, J.R.</origin>\n <pubdate>1995</pubdate>\n <title>The effect of bivalve excurrent jet dynamics on mass transfer in a benthic boundary layer</title>\n <geoform>Document</geoform>\n <onlink>https://aslopubs.onlinelibrary.wiley.com/doi/pdf/10.4319/lo.1995.40.2.0330</onlink>\n </citeinfo>\n </methcite>\n </method>\n <procstep>\n <procdesc>Biomass, filtration rate, grazing rate, and recruit values were calculated using appropriate equations from the literature and populated an Excel spreadsheet.</procdesc>\n <procdate>2020</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>1.0E-6</latres>\n <longres>1.0E-6</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>T1_GRTS_DataDictionary (.xlsx and .csv)</enttypl>\n <enttypd>This table defines all terms for T2_GRTS_BioRecGR.xlsx and T2_GRTS_BioRecGR.csv</enttypd>\n <enttypds>Emily L. Zierdt Smith</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Table 1, columns 1-13</attrlabl>\n <attrdef>Table No, Table Name, Table Column, Column heading, Column description, Extended Description, Unit Abbreviation, Unit Definition, Additional Column Note, Analytical Laboratory Name, Analytical Laboratory Location, Method Reference-Primary, Method Reference-Secondary</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>All column headings are defined in the data dictionary for all data tables.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>T2_GRTS_BioRecGR (.xlsx and .csv)</enttypl>\n <enttypd>Biomass, Grazing Rate, and Recruitment Data for A spatially and temporally intensive sampling study of benthic community and bivalve metrics in the Sacramento-San Joaquin Delta, 2007-19</enttypd>\n <enttypds>Emily L. Zierdt Smith</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Table 2, columns 1-15</attrlabl>\n <attrdef>All terms are defined in the data dictionary (T1_GRTS_DataDictionary.xlsx and T1_GRTS_DataDictionary.csv).</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>All column headings are defined in the data dictionary for all data tables.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20221026</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Emily L Zierdt Smith</cntper>\n <cntorg>U.S. Geological Survey WMA: Earth System Processes Division</cntorg>\n </cntperp>\n <cntpos>Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 496, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4574</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Pacific Islands Water Science Center](/catalog/item/5a5696bbe4b01e7be2444d85)
3. [Soil and Vegetation](/catalog/item/5c180daae4b006c4f8557d04)
4. [Vegetation Characteristics](/catalog/item/5db398b0e4b0b0c58b5a1cd1)
5. [Leaf-level gas exchange and leaf-area index measurements collected at four study sites on the island of Maui, Hawai‘i, September 2017 – August 2018](/catalog/folder/5db323efe4b0b0c58b5869e4)
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## Dates
Publication Date2019-10-31Time Period2017-09-19Time Period2018-08-02
## Citation
Miyazawa, Y., Kagawa-Viviani, A., Portner, L., Giambelluca, T.W., and Kennedy, J.J., 2019, Leaf-level gas exchange and leaf-area index measurements collected at four study sites on the island of Maui, Hawaiʻi, September 2017 – August 2018: U.S. Geological Survey data release, https://doi.org/10.5066/P9RS10CR.
## Summary
The University of Hawaiʻi at Mānoa and the U.S. Geological Survey, in cooperation with the County of Maui Department of Water Supply and the State of Hawaiʻi Commission on Water Resource Management, initiated a field data-collection program to provide information for evaluating how rates of water vapor and carbon dioxide exchange are dependent on plant species type within forested areas on the island of Maui. The field data collection is part of a study to quantify the impacts of high-priority non-native and dominant native plant species on freshwater availability throughout the State of Hawaiʻi (https://archive.usgs.gov/archive/sites/hi.water.usgs.gov/studies/maui\_eco/index.html). The overall objective of the study is to provide needed \[...\]
## Summary
The University of Hawaiʻi at Mānoa and the U.S. Geological Survey, in cooperation with the County of Maui Department of Water Supply and the State of Hawaiʻi Commission on Water Resource Management, initiated a field data-collection program to provide information for evaluating how rates of water vapor and carbon dioxide exchange are dependent on plant species type within forested areas on the island of Maui. The field data collection is part of a study to quantify the impacts of high-priority non-native and dominant native plant species on freshwater availability throughout the State of Hawaiʻi (https://archive.usgs.gov/archive/sites/hi.water.usgs.gov/studies/maui\_eco/index.html). The overall objective of the study is to provide needed information for (1) assessing species-specific impacts on freshwater availability and (2) reducing uncertainty in regional recharge estimates associated with forested areas.
This dataset includes a summary of measurements of leaf-level gas exchange characteristics and leaf area index at four study sites on the island of Maui, Hawaiʻi between September 2017 and August 2018.
This data release includes four files: a study site description file, two results files, and a metadata file:
- The study site description file \[Maui\_P1A\_study\_site\_description\_file.pdf\] includes a table and map of the study sites and oblique areal imagery of the measurement plots at each study site.
- The leaf-level gas exchange data file \[Maui\_P1A\_leaf\_level\_gas\_exchange\_data.csv\] contains attributes that describe the study site, dominant vegetation, measurement date, and leaf-level gas exchange measurement results of 10 different plant species.
- The leaf-area index data file \[Maui\_P1A\_leaf\_area\_index\_data.csv\] contains attributes that describe the study site, measurement date, dominant vegetation, target forest layer, measurement position, leaf-area index (LAI) estimate, sample size, and standard deviation of LAI estimate.
- The metadata file \[Maui\_P1A\_gas\_exchange\_leaf\_area\_data\_release\_metadata.xml\] includes explanation of the contents of the two data files and detailed descriptions of the methods used for each measurement.
Measurements were made at four different study sites on the island of Maui: Waikamoi, Maluhia, Kahoma and Waikahi (see Table 1 and Figure 1 in study site description file). Each study site is located in forested land and consisted of one or more plots dominated by a high-priority non-native species and an adjacent or nearby plot dominated by native species.
## Contacts
Point of Contact
:
[Thomas Giambelluca](/catalog/catalogParty/show?partyId=64693)
Originator
:
[Yoshiyuki Miyazawa](/catalog/catalogParty/show?partyId=Yoshiyuki+Miyazawa),
[Aurora Kagawa-Viviani](/catalog/catalogParty/show?partyId=Aurora+Kagawa-Viviani),
[Liat Portner](/catalog/catalogParty/show?partyId=Liat+Portner),
[Thomas Giambelluca](/catalog/catalogParty/show?partyId=64693),
[Joseph J Kennedy](/catalog/catalogParty/show?partyId=72643)
Metadata Contact
:
[Joseph J Kennedy](/catalog/catalogParty/show?partyId=72643)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Ecosystems](/catalog/catalogParty/show?partyId=Ecosystems)
SDC Data Owner
:
[Pacific Islands Water Science Center](/catalog/catalogParty/show?partyId=17447)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5db323efe4b0b0c58b5869e4?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5db323efe4b0b0c58b5869e4?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5db323efe4b0b0c58b5869e4?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| Maui\_P1A\_gas\_exchange\_leaf\_area\_data\_release\_metadata.xml<br>_Original FGDC Metadata_ | View | 40.5 KB | application/fgdc+xml |
| Maui\_P1A\_study\_site\_description\_file.pdf | | 17.41 MB | application/pdf |
| Maui\_P1A\_leaf\_level\_gas\_exchange\_data.csv | | 4.36 KB | text/csv |
| Maui\_P1A\_leaf\_area\_index\_data.csv | | 2.67 KB | text/csv |
## Related External Resources
Type: Web Link
| | |
| --- | --- |
| USGS Pacific Islands Water Science Center study webpage: | [https://archive.usgs.gov/archive/sites/hi.water.usgs.gov/studies/maui\_eco/index.html](https://archive.usgs.gov/archive/sites/hi.water.usgs.gov/studies/maui_eco/index.html "https://archive.usgs.gov/archive/sites/hi.water.usgs.gov/studies/maui_eco/index.html") |
## Purpose
The purpose of this data release is to document the quality-assured results of measurements collected for 10 plant species at four (4) study sites on the island of Maui from September 2017 to August 2018. The data were collected as part of a study to quantify the impacts of high-priority non-native and dominant native plant species on freshwater availability in the State of Hawaiʻi
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## Communities
- USGS Data Release Products
- USGS Pacific Islands Water Science Center
## Tags
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- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Theme
- [Evaporation](/catalog/items?q=&filter=tags%3DEvaporation "Evaporation (Evaporation, Theme, USGS Thesaurus)")
- [Transpiration](/catalog/items?q=&filter=tags%3DTranspiration "Transpiration (Transpiration, Theme, National Agricultural Library Thesaurus)")
- [Transpiration](/catalog/items?q=&filter=tags%3DTranspiration "Transpiration (Transpiration, Theme, USGS Thesaurus)")
- [Vegetation](/catalog/items?q=&filter=tags%3DVegetation "Vegetation (Vegetation, Theme, USGS Thesaurus)")
- [evapotranspiration](/catalog/items?q=&filter=tags%3Devapotranspiration "evapotranspiration (evapotranspiration, Theme, National Agricultural Library Thesaurus)")
- [gas exchange](/catalog/items?q=&filter=tags%3Dgas+exchange "gas exchange (gas exchange, Theme, National Agricultural Library Thesaurus)")
- [invasive species](/catalog/items?q=&filter=tags%3Dinvasive+species "invasive species (invasive species, Theme, National Agricultural Library Thesaurus)")
- [leaf area](/catalog/items?q=&filter=tags%3Dleaf+area "leaf area (leaf area, Theme, National Agricultural Library Thesaurus)")
- [leaf area index](/catalog/items?q=&filter=tags%3Dleaf+area+index "leaf area index (leaf area index, Theme, National Agricultural Library Thesaurus)")
Place
- [Hawaii](/catalog/items?q=&filter=tags%3DHawaii "Hawaii (Hawaii, Place, Geographic Names Information System (GNIS))")
- [Maui](/catalog/items?q=&filter=tags%3DMaui "Maui (Maui, Place, Geographic Names Information System (GNIS))")
Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
## Provenance
Data sourceInput directly
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9RS10CR |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Miyazawa, Yoshiyuki</origin>\n <origin>Kagawa-Viviani, Aurora</origin>\n <origin>Portner, Liat</origin>\n <origin>Giambelluca, Thomas W.</origin>\n <origin>Kennedy, Joseph J.</origin>\n <pubdate>2019</pubdate>\n <title>Leaf-level gas exchange and leaf-area index measurements collected at four study sites on the island of Maui, Hawaii, September 2017 - August 2018</title>\n <geoform>Digital and/or hard-copy resources</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9RS10CR</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The University of Hawaii at Manoa and the U.S. Geological Survey, in cooperation with the County of Maui Department of Water Supply and the State of Hawaii Commission on Water Resource Management, initiated a field data-collection program to measure the transpiration characteristics of native and non-native invasive plants within forested areas on the island of Maui. The field data collection is part of a study to quantify the impacts of high-priority non-native and dominant native plant species on freshwater resources throughout the State of Hawaii (https://archive.usgs.gov/archive/sites/hi.water.usgs.gov/studies/maui_eco/ index.html). The overall objective of the study is to provide needed information for (1) assessing species-specific impacts on freshwater resources and (2) reducing uncertainty in regional recharge estimates associated with forested areas. This dataset includes a summary of measurements of leaf-level gas exchange characteristics and leaf-area index at four study sites on the island of Maui, Hawaii between September 2017 and August 2018.</abstract>\n <purpose>These measurements were collected to provide information for evaluating how transpiration characteristics are dependent on plant species type within forested areas on the island of Maui.</purpose>\n <supplinf>Technical limitations of how this metadata file is sourced for display purposes on other web pages preclude the use of Hawaiian diacritical marks in the Title and Abstract.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>20170919</caldate>\n </sngdate>\n <sngdate>\n <caldate>20180802</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-156.71722411851</westbc>\n <eastbc>-155.94818114979</eastbc>\n <northbc>21.048209606132</northbc>\n <southbc>20.555242729779</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Evaporation</themekey>\n <themekey>Transpiration</themekey>\n <themekey>Vegetation</themekey>\n </theme>\n <theme>\n <themekt>National Agricultural Library Thesaurus</themekt>\n <themekey>Transpiration</themekey>\n <themekey>gas exchange</themekey>\n <themekey>evapotranspiration</themekey>\n <themekey>leaf area</themekey>\n <themekey>leaf area index</themekey>\n <themekey>invasive species</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5db323efe4b0b0c58b5869e4</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Hawai\xca\xbbi</placekey>\n <placekey>Maui</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Thomas W. Giambelluca</cntper>\n <cntorg>Dept of Geography and Environment, University of Hawai\xe2\x80\x98i at M\xc4\x81noa</cntorg>\n </cntperp>\n <cntpos>Professor</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2424 Maile Way, Saunders 445</address>\n <city>Honolulu</city>\n <state>HI</state>\n <postal>96822</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>808-956-8465</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <crossref>\n <citeinfo>\n <origin>Ball, J.Timothy</origin>\n <origin>Woodrow, Ian E.</origin>\n <origin>Berry, Joseph A.</origin>\n <pubdate>1987</pubdate>\n <title>A model predicting stomatal conductance and its contribution to the control of photosynthesis under different environmental conditions</title>\n <serinfo>\n <sername>Progress in Photosynthesis Research</sername>\n <issue>Volume 4, pp. 221-224.</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>Springer-Dordrecht</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1007/978-94-017-0519-6_48</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Bernacchi, C.J.</origin>\n <origin>Singsaas, E.L.</origin>\n <origin>Pimentel, C.</origin>\n <origin>Portis Jr, A.R.</origin>\n <origin>Long, S.P.</origin>\n <pubdate>2001</pubdate>\n <title>Improved temperature response functions for models of Rubisco\xe2\x80\x90limited photosynthesis</title>\n <serinfo>\n <sername>Plant, Cell & Environment</sername>\n <issue>Volume 24 (2), pp. 253-259.</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>Blackwell Science Ltd</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1111/j.1365-3040.2001.00668.x</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Baldocchi, Dennis</origin>\n <origin>Meyers, Tilden</origin>\n <pubdate>1998</pubdate>\n <title>On using eco-physiological, micrometeorological and biogeochemical theory to evaluate carbon dioxide, water vapor and trace gas fluxes over vegetation: a perspective</title>\n <serinfo>\n <sername>Agricultural and Forest Meteorology</sername>\n <issue>Volume 90 (1-2), pp.1-25.</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Online</pubplace>\n <publish>Elsevier Ltd</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/S0168-1923(97)00072-5</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Farquhar, G.D.</origin>\n <origin>von Caemmerer, S.</origin>\n <origin>Berry, J.A.</origin>\n <pubdate>1980</pubdate>\n <title>A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species</title>\n <serinfo>\n <sername>Planta</sername>\n <issue>Voume 149(1), pp. 78-90.</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>Springer-Verlag</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1007/BF00386231</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Jordan, Douglas B.</origin>\n <origin>Ogren, William L.</origin>\n <pubdate>1984</pubdate>\n <title>The CO2/O2 specificity of ribulose 1,5-bisphosphate carboxylase/oxygenase. Dependence on ribulosebisphosphate concentration, pH and temperature</title>\n <serinfo>\n <sername>Planta</sername>\n <issue>Volume 161 (4), pp. 308\xe2\x80\x93313.</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>Springer-Verlag</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1007/BF00398720</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Miyazawa, Yoshiyuki</origin>\n <origin>Kikuzawa, Kihachiro</origin>\n <pubdate>2006</pubdate>\n <title>Physiological basis of seasonal trend in leaf photosynthesis of five evergreen broad-leaved species in a temperate deciduous forest</title>\n <serinfo>\n <sername>Tree Physiology</sername>\n <issue>Volume 26(2), pp. 249\xe2\x80\x93256.</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>Heron Publishing</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1093/treephys/26.2.249</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>von Caemmerer, Susanne</origin>\n <origin>Evans, John R.</origin>\n <origin>Hudson, Graham S.</origin>\n <origin>Andrews, T. John</origin>\n <pubdate>1994</pubdate>\n <title>The kinetics of ribulose-1,5-bisphosphate carboxylase/oxygenase in vivo inferred from measurements of photosynthesis in leaves of transgenic tobacco</title>\n <serinfo>\n <sername>Planta</sername>\n <issue>Volume 195 (1), pp. 88-97.</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>Springer-Verlag</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1007/BF00206296</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>PROCESSING STEP 1: Measurement Location Selection \nEach study site consisted of two or more circular plots with a radius of 13, 16.5, or 21.5 meters. Each plot was dominated by either a native or non-native target plant species. Selection of measurement locations for leaf-level gas exchange and leaf-area index measurements were done in a manner that would best represent the vegetation found at each plot. Leaf-level gas exchange measurements were made using accessible sunlit leaves selected within or as close as possible to each plot. In all cases, selected leaves were representative of sunlit leaves within the plot. Leaf-area index measurements were made in an evenly distributed manner that would best characterize the vegetation at each plot. Patches of Clidemia (Clidemia hirta) were observed adjacent to the staging area for the Maluhia study site, approximately 300 meters away from plot 1 of the Maluhia study site, and were opportunistically sampled for leaf-level gas exchange measurements. The leaf-level measurements of Clidemia, however, were not associated with a specific plot and therefore no leaf-area index measurements were collected.</procdesc>\n <procdate>201903</procdate>\n </procstep>\n <procstep>\n <procdesc>PROCESSING STEP 2: Leaf-Level Gas Exchange Measurements \nOverview: \nAll leaf-level gas exchange field measurements were made using a portable photosynthesis system (PPS) (Model LI-6400XT, LI-COR, Inc., Lincoln, Nebraska). The PPS measures carbon dioxide (CO2) and water vapor partial pressures of an intact leaf blade and calculates gas exchange rates of CO2 assimilation and transpiration. First, measurements were made for constructing plots of CO2 assimilation, A, versus intercellular CO2 concentrations, C_i, hereinafter referred to as A-C_i curves, for each target species. The A-Ci curves were then used to calculate the photosynthetic capacity of each target species as represented by the maximum rate of ribulose-1,5-biphosphate (RuBP) carboxylation normalized for a leaf temperature of 25 degrees Celsius (V_cmax25). V_cmax25 represents the photosynthetic capacity and is used for the model simulations of stand-scale gas exchange rates (e.g., Baldocchi and Meyers 1998). Measurements were then made on the same leaves after they had been blocked from available light and used to determine dark respiration rates, R_d. When possible, measurements were made under varying conditions of ambient light intensity, leaf-surface temperature, and humidity for estimating the stomatal sensitivity to environmental conditions, or Ball-Berry\xe2\x80\x99s m as defined by Ball and others (1987), for each target species. Each set of field measurements was collected and processed as follows: \n(1) At least three individuals of each target species were selected within or as close as possible to each study plot. A total of three to six sunlit leaves were then selected from each of the selected target species for leaf-gas exchange measurements with the PPS. If sunlit leaves were inaccessible, a small branch with sunlit leaves was clipped with a pole pruner. The freshly cut end of the branch was then submerged within a small bucket of water, cut again, and then left in the bucket to ensure that the leaves remained hydrated throughout the measurement process. The bucket was kept in a sunlit location. \n(2) For each set of measurements, the leaf chamber of the PPS was clamped onto a pre-selected representative sunlit leaf on one of the selected individuals or, if applicable, on one of the clipped branches. For each leaf, the PPS measures the following parameters within the leaf chamber under light saturation (photosynthetically active radiation (PAR) > 1000 micro moles per square meter per second) at five to six levels of CO2 concentrations (0, 50, 100, 200, 300, and 400 micromoles per mole): net CO2 assimilation, A (micromoles per square meter per second), intercellular CO2 concentrations, C_i (micromoles per mole), transpiration, E (millimoles per square meter per second), relative humidity, h_s (fraction), and CO2 concentration at the leaf surface, C_s (micromoles per mole). The leaf chamber was kept at ambient air temperature and vapor pressure, which also were measured by the PPS. Care was taken to ensure that measurements were collected when PAR was greater than 1,000 micromoles per square meter per second. For more information on how each parameter is measured and calculated by the PPS see the LI-COR model LI-6400XT user manual (https://www.licor.com/documents/s8zyqu2vwndny903qutg). \n(3) After completing measurements of CO2 assimilation and intercellular CO2 concentrations under light saturation, the sample leaf was then covered with aluminum foil for about 20 minutes and then measured again using the PPS at CO2 concentration of 380 micromoles per mole. This was done to determine dark respiration rates R_d, (micromoles per square meter per second) which was calculated by the PPS. Values of R_d are negative as they indicate a loss of CO2. The mean values of R_d for each target species at each plot were then computed along with the standard deviation and transferred to the data summary table. No measurements of R_d were collected for Uluhe at plot 1 of the Maluhia study site. \n(4) A second set of PPS measurements was collected for Himalayan ginger at plot 2 of the Waikamoi study site and Uluhe at plot 1 of the Maluhia study site by measuring gas exchange rates for varying conditions of ambient light intensity, leaf surface temperature, and humidity. This second set of measurements was collected for estimating another parameter, Ball-Berry\xe2\x80\x99s m (substep 10 below). \n(5) The PPS calculates gas exchange rates on a leaf area basis and assumes that the leaf area completely fills the chamber window (either a 2 centimeter x 3 centimeter rectangle or a 2 square centimeter circle). If a sample leaf did not completely cover the chamber window, a photograph was taken of a white cardstock template of the chamber window positioned under the sample leaf following the leaf gas exchange measurement. The photograph was later analyzed using open source imageJ software (https://imagej.net/Welcome) to calculate the surface area of the portion of the sample leaf that was measured. \n(6) If needed, measurements were taken in the field to account for CO2 leakage from the leaf chamber. Leakage can occur through the gasket and contribute to over/underestimation of CO2 assimilation when the concentration of CO2 in the chamber is largely different from the ambient conditions (typically when lower than 300 micromoles per mole). Using an empty leaf chamber (no leaf), measurements of CO2 concentrations of the airflow before entering the leaf chamber (CO2R) and after leaving the leaf chamber (CO2S) were collected with the PPS. The CO2 leakage (delta CO2) was then calculated as the difference between CO2R and CO2S. These measurements were later used to correct the gas exchange rates (A, g_sw, and E) and C_i concentrations (substep 8b). \n(7) All field measurements were saved on an internal memory device within the PPS and exported to a laptop at the end of each sampling day. \n(8) An R-program script was used to correct the field measurements as follows: \n(a) Measurements collected from leaves smaller than the PPS chamber window were corrected for the actual leaf-surface area measured using the imageJ software area calculations determined in substep 5. \n(b) If applicable, the correction for CO2 leakage discussed in substep 6 was applied following the methods proposed by Bernacchi and others (2001). \n(9) Another R-program script was used to estimate V_cmax25 for each set of measurements as follows: \n(a) An A-C_i curve was constructed by plotting the corrected field measurements of A against the corrected field measurements of C_i. \n(b) Regression analyses were conducted to develop a mathematical relation between A and C_i. \n(c) The maximum rate of RuBP carboxylation, V_cmax, was computed from the A-C_i relation following the approach described by Farquhar and others (1980) with the constants of RuBP carboxylase-oxygenase obtained from Jordan and Ogren (1984) and von Caemmerer and others (1994). \n(d) An estimate of V_cmax25 was computed from calculated values of V_cmax following the approach described by Farquhar and others (1980) and taking into consideration the temperature dependencies of V_cmax obtained using other broadleaved tree species in temperate forests (Miyazawa and Kikuzawa, 2006). \n(e) The above four steps were repeated to estimate a value for V_cmax25 for each set of measurements. \n(f) The mean and standard deviation values of V_cmax25 for each target species at each plot were then computed and transferred to the data summary table. \n(10) An R-program script was used to estimate Ball-Berry\xe2\x80\x99s m for each set of measurements following the procedure described by Ball and others (1987) as follows: \n(a) For measurements collected from accessible sunlit leaves, Ball-Berry\xe2\x80\x99s m was estimated as follows: \n(i) Measurements of E were converted to stomatal conductance, g_sw (moles per square meter per second), by the PPS (see LI-6400XT user manual). \n(ii) The product of A, h_s, and 1/C_s was computed for each value of g_sw, hereinafter referred to as the ecophysiological slope term, E_phys, as follows: \nE_phys = (A) (h_s) / C_s Equation [1] \n(iii) Regression analyses were conducted to develop a mathematical relation between g_sw and E_phys for each set of measurements as follows: \ng_sw = (m) (E_phys) + b Equation [2] \nwhere \nm is the slope of the relation and represents the value of Ball-Berry\xe2\x80\x99s m, \nb is the y-intercept and represents the value of g_sw in the dark. \n(iv) The above four steps were repeated to estimate a value for Ball-Berry\xe2\x80\x99s m for each set of measurements. \n(b) For measurements collected from sample leaves from a branch submerged in a small bucket of water, Ball-Berry\xe2\x80\x99s m was estimated as follows: \n(i) Measurements of E, A, and C_i were screened to select values when CO2R was between 370 and 410 micromoles per mole. Measurements determined as unreliable due to poor stabilization of leaf gas exchange under changing CO2 concentrations were discarded prior to calculation of Ball-Berry\xe2\x80\x99s m because they had relations that deviated strongly from other leaves of the same species within the same field run. \n(ii) The remaining screened measurements of E were converted to stomatal conductance, g_sw, by the PPS (see LI-6400XT user manual). \n(iii) Regression analyses as described in substep 10a(iii) were conducted on the selected measurements to estimate a value for Ball-Berry\xe2\x80\x99s m. \n(iv) When b was higher than 0.01 moles per square meter per second, the y-intercept of the regression model, b, was forced to equal 0.01 moles per square meter per second and then the slope of the regression line, m, was determined. \n(v) The above steps were repeated to estimate a value for Ball-Berry\xe2\x80\x99s m for each set of measurements. \n(c) The mean values of Ball-Berry\xe2\x80\x99s m for each target species at each plot were then computed and transferred to the data summary table.</procdesc>\n <procdate>201903</procdate>\n </procstep>\n <procstep>\n <procdesc>PROCESSING STEP 3: Leaf-Area Index Measurements, Optical Method \nLeaf-area index (LAI) was estimated at each plot using measurements of optical sensors (LAI-2200, LI-COR, Inc., Lincoln, Nebraska), except for plot 3 at the Waikamoi study site (see Processing step 4). All measurements at each plot were conducted under overcast conditions on cloudy days, soon after dawn, or shortly before sunset to measure only the diffuse solar beams as follows: \n(1) The clocks of each optical sensor were synchronized. \n(2) The data logging was set to autonomous mode in one sensor and manual mode in the second sensor. \n(3) Both optical sensors were unmasked for data collection. \n(4) The optical sensor set up in autonomous mode was installed on a tripod and placed in an open area near the plot where light was not intercepted by the canopy. \n(5) The sensor set up in manual mode was used to manually collect below-canopy measurements within each plot. For plot 2 at the Waikamoi study site, four transects were used to collect point measurements within the plot. At all other sites, measurements were collected throughout the plot in a manner that best characterized the vegetation found at that location. \n(6) After the completion of all measurements within a plot, the files from both sensors were saved and exported to a laptop. \n(7) Files from both sensors were analyzed with FV2200 software (LI-COR, Inc., Lincoln, Nebraska) to calculate a mean and standard deviation LAI value for each plot. For the understory at plot 1 of Kahoma and plot 2 of Waikamoi, the mean LAI was computed as the difference between the mean LAI for the canopy and understory layer and the mean LAI for the canopy layer. In these cases, the sample size was not defined and therefore denoted as \xe2\x80\x9cNot applicable.\xe2\x80\x9d However, the standard deviation was computed as the square root of the sum of the estimated variances for the canopy and understory layer and the canopy layer. \n(8) The mean and standard deviation LAI values, and sample size from each plot were then transferred to the data summary table.</procdesc>\n <procdate>201903</procdate>\n </procstep>\n <procstep>\n <procdesc>PROCESSING STEP 4: Leaf-Area Index Measurements, Destructive Harvest Method \nThe LAI of the Himalayan ginger understory at plot 3 of the Waikamoi study site was estimated using the destructive harvest method as follows: \n(1) A representative area of one square meter was marked within the plot. \n(2) All leaves of Himalayan ginger within the marked area were cut and collected. \n(3) All leaves were arranged on a flat, white surface and photographed with a ruler along one edge. \n(4) Each photograph was later analyzed to calculate the surface area of each leaf using open source imageJ software (https://imagej.net/Welcome). \n(5) The LAI of the marked area was then computed by summing the surface area calculated for all the leaves collected from the marked area and dividing the sum by one square meter. \n(6) Substeps 1 through 5 were repeated at two separate locations within the plot. \n(7) The mean and standard deviation LAI values, and sample size were then transferred to the data summary table.</procdesc>\n <procdate>201903</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Maui_P1A_leaf-level_gas_exchange_data.csv</enttypl>\n <enttypd>Data table containing leaf-level gas exchange traits</enttypd>\n <enttypds>Thomas W. Giambelluca</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Study site</attrlabl>\n <attrdef>Name of study site where leaf level measurements were made</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>This field contains the study site name</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plot number</attrlabl>\n <attrdef>Number assigned to a plot in order to distinguish one plot from another within the same study site. This value is not unique to the dataset as a whole and must be paired with the study site name in order to identify a single unique plot.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>This value was assigned to the native vegetation plot within a study site in order to distinguish it from other plots at that study site.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>This value was assigned to the non-native vegetation plot within a study site in order to distinguish it from other plots at that study site.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>This value was assigned to the non-native vegetation plot within a study site in order to distinguish it from other plots at that study site.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>This value was assigned to the non-native vegetation plot within a study site in order to distinguish it from other plots at that study site.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Measurement date</attrlabl>\n <attrdef>Date when CO2 response curve (A-Ci curve) was measured. Formatted as MM/DD/YYYY</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>This field contains the date of when the CO2 response curve (A-Ci curve) was measured.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dominant vegetation type</attrlabl>\n <attrdef>Description of dominant vegetation type found at the study plot</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Native</edomv>\n <edomvd>This field describes the dominant type of vegetation found at the study plot as native</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Non-native</edomv>\n <edomvd>This field describes the dominant type of vegetation found at the study plot as non-native</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dominant vegetation - common name (scientific name)</attrlabl>\n <attrdef>Common name and scientific name of the dominant vegetation found at the study plot</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>This field contains the common name and scientific name of the dominant tree and understory plant species found at the study plot</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species sampled - common name (scientific name)</attrlabl>\n <attrdef>Common name and scientific name of the sampled plant species</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>This field contains the common name and scientific name of the sampled plant species</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ball-Berry's m (unitless)</attrlabl>\n <attrdef>Numerical value representing the stomatal slope parameter in the Ball-Berry stomatal conductance model</attrdef>\n <attrdefs>Ball and others (1987)</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8.06</rdommin>\n <rdommax>21.36</rdommax>\n <attrunit>unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mean V_cmax25 (micromoles per square meter per second)</attrlabl>\n <attrdef>Numerical value representing the mean of V_cmax25 photosynthetic parameter estimates from measurements taken on a sample of sunlit leaves only, corrected for temperature.</attrdef>\n <attrdefs>Farquhar and others (1980)</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>18.9</rdommin>\n <rdommax>56.50</rdommax>\n <attrunit>micromoles per square meter per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample size of V_cmax25 (micromoles per square meter per second)</attrlabl>\n <attrdef>Number of samples used for the calculation of Mean V_cmax25</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>26</rdommax>\n <attrunit>number of samples</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Standard deviation of V_cmax25 (micromoles per square meter per second)</attrlabl>\n <attrdef>Numerical value representing the standard deviation of V_cmax25 photosynthetic parameter estimates from measurements taken on a sample of sun-lit leaves only, corrected for temperature</attrdef>\n <attrdefs>Farquhar and others (1980)</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.37</rdommin>\n <rdommax>20.41</rdommax>\n <attrunit>micromoles per square meter per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mean R_d (micromoles per square meter per second)</attrlabl>\n <attrdef>Numerical value representing the mean of R_d from measurements taken on a sample of non-sunlit leaves only; R_d is the dark respiration rate of leaves after having been blocked from sun light for 20 minutes.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-2.40</rdommin>\n <rdommax>-0.59</rdommax>\n <attrunit>micromoles per square meter per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Standard deviation of R_d</attrlabl>\n <attrdef>Numerical value representing the standard deviation of R_d from measurements taken on a sample of non-sunlit leaves only</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15</rdommin>\n <rdommax>1.26</rdommax>\n <attrunit>micromoles per square meter per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample type</attrlabl>\n <attrdef>Describes whether measurements were done on intact plants or specimens collected from or near the plot</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>This field contains notes describing location of measurements and whether measurements were done on intact plants or specimens collected from or near plot</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Maui_P1A_leaf_area_index_data.csv</enttypl>\n <enttypd>Data table containing leaf gas exchange traits</enttypd>\n <enttypds>Thomas W. Giambelluca</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Study site</attrlabl>\n <attrdef>Name of study site where leaf-level measurements were made</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>This field contains the study site name</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plot number</attrlabl>\n <attrdef>Number assigned to a plot in order to distinguish one plot from another within the same study site. This value is not unique to the dataset as a whole and must be paired with the study site name in order to identify a single unique plot.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>This value was assigned to the native vegetation plot within a study site in order to distinguish it from other plots at that study site.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>This value was assigned to the non-native vegetation plot within a study site in order to distinguish it from other plots at that study site.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>This value was assigned to the non-native vegetation plot within a study site in order to distinguish it from other plots at that study site.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>This value was assigned to the non-native vegetation plot within a study site in order to distinguish it from other plots at that study site.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Measurement date</attrlabl>\n <attrdef>Date when soil sample was collected. Formatted as MM/DD/YYYY</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>This field contains the date of when the soil sample was collected.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dominant vegetation type</attrlabl>\n <attrdef>Description of dominant vegetation type found at the study plot</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Native</edomv>\n <edomvd>This field describes the dominant type of vegetation found at the study plot as native</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Non-native</edomv>\n <edomvd>This field describes the dominant type of vegetation found at the study plot as non-native</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dominant vegetation - common name (scientific name)</attrlabl>\n <attrdef>Common name and scientific name of the dominant vegetation found at the study plot</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>This field contains the common name and scientific name of the dominant vegetation found at the study plot</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Target forest layer</attrlabl>\n <attrdef>Vegetation layer characterized by the leaf-area measurements</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Canopy and understory</edomv>\n <edomvd>This domain value describes the target forest layer as canopy and understory</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Canopy</edomv>\n <edomvd>This domain value describes the target forest layer as canopy</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Understory</edomv>\n <edomvd>This domain value describes the target forest layer as understory</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Method</attrlabl>\n <attrdef>Describes the method used to determine LAI measurement</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Optical</edomv>\n <edomvd>LAI measurement was made using an optical imaging method. See processing step 3.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Destructive harvest</edomv>\n <edomvd>LAI measurement was made using a destructive harvest method. See processing step 4.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Leaf-area index (LAI)</attrlabl>\n <attrdef>Numerical values of leaf area index: the one-sided leaf area divided by ground area</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.51</rdommin>\n <rdommax>5.97</rdommax>\n <attrunit>unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample size</attrlabl>\n <attrdef>Number of observations used to calculate estimate of LAI</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>33</rdommax>\n <attrunit>number of samples</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Standard deviation of LAI</attrlabl>\n <attrdef>Standard deviation of the LAI estimate</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19</rdommin>\n <rdommax>1.67</rdommax>\n <attrunit>unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey \xe2\x80\x93 ScienceBase</cntper>\n <cntorg>U.S. Geological Survey \xe2\x80\x93 ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Joseph J Kennedy</cntper>\n <cntorg>NW-PACIFIC ISLAND REG: PACIFIC ISLANDS WATER SCI CTR</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1845 Wasp Boulevard, Bld 176</address>\n <city>Honolulu</city>\n <state>HI</state>\n <postal>96818</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>808-690-9570</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Missouri Water Science Center](/catalog/item/59dd09cbe4b05fe04ccbd939)
3. [Metals and Other Constituent Concentrations in Sediment of Selected Streams Draining the Tri-State Mining District, Missouri, Oklahoma, and Kansas, 2011–12](/catalog/item/5800f43ae4b0824b2d18bb93)
4. [Stream channel sediment samples locations - Sediment core and sample locations and depth of water from the surface and maximum sample depth at each location for Center Creek, Turkey Creek, Shoal Creek, Tar Creek, and Spring River in the Tri-State Mining District, 2011-12](/catalog/folder/58062b13e4b0824b2d1d3d42)
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## Dates
Publication Date2016-10-11Start Date2011End Date2012
## Citation
Smith, D.C., 2016, Metals and Other Constituent Concentrations in Metals-Contaminated Sediment of Selected Streams Draining the Tri-State Mining District, Missouri, Oklahoma, and Kansas, 2011–12: U.S. Geological Survey data release, https://dx.doi.org/10.5066/F7CZ359X.
## Summary
Sediment core and sample locations and depth of water from the surface and maximum sample depth at each location for Center Creek, Turkey Creek, Shoal Creek, Tar Creek, and Spring River in the Tri-State Mining District, 2011-12. All coordinates are referenced in the Geographic coordinate system, North American Datum 1983. Table Contents: Core\_identifier, Site\_identifier, Name, Latitude, Longitude, Date, Time, Feature, Depth\_w, and Max\_depth which are explained further in the referenced data dictionary.
## Summary
Sediment core and sample locations and depth of water from the surface and maximum sample depth at each location for Center Creek, Turkey Creek, Shoal Creek, Tar Creek, and Spring River in the Tri-State Mining District, 2011-12. All coordinates are referenced in the Geographic coordinate system, North American Datum 1983. Table Contents: Core\_identifier, Site\_identifier, Name, Latitude, Longitude, Date, Time, Feature, Depth\_w, and Max\_depth which are explained further in the referenced data dictionary.
## Contacts
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[David Smith](/catalog/catalogParty/show?partyId=David+Smith)
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:
[David Smith](/catalog/catalogParty/show?partyId=David+Smith)
Metadata Contact
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[David Smith](/catalog/catalogParty/show?partyId=David+Smith)
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[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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| Stream\_channel\_sediment\_samples\_locations.csv | | 6.68 KB | text/csv |
## Purpose
The U.S. Geological Survey, in cooperation with U.S. Fish and Wildlife service, collected channel-sediment samples at depth for subsequent analyses that would allow attainment of the following goals: (1) determination of the relation between concentration and depth for lead, zinc and cadmium in channel sediments and flood plain sediments, and (2) determination of the volume of stream-channel sediment from the surface to the maximum depth with concentrations of these metals that exceeded sediment-quality guidelines.
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## Communities
- USGS Missouri Water Science Center
## Tags
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>David Smith</origin>\n <pubdate>20161011</pubdate>\n <title>Stream channel sediment samples locations - Sediment core and sample locations and depth of water from the surface and maximum sample depth at each location for Center Creek, Turkey Creek, Shoal Creek, Tar Creek, and Spring River in the Tri-State Mining District, 2011-12</title>\n <geoform>Table</geoform>\n <pubinfo>\n <pubplace>Rolla, MO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://dx.doi.org/10.5066/F7CZ359X</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Sediment core and sample locations and depth of water from the surface and maximum sample depth at each location for Center Creek, Turkey Creek, Shoal Creek, Tar Creek, and Spring River in the Tri-State Mining District, 2011-12. All coordinates are referenced in the Geographic coordinate system, North American Datum 1983. \n\nTable Contents: Core_identifier, Site_identifier, Name, Latitude, Longitude, Date, Time, Feature, Depth_w, and Max_depth which are explained further in the referenced data dictionary.</abstract>\n <purpose>The U.S. Geological Survey, in cooperation with U.S. Fish and Wildlife service, collected channel-sediment samples at depth for subsequent analyses that would allow attainment of the following goals: (1) determination of the relation between concentration and depth for lead, zinc and cadmium in channel sediments and flood plain sediments, and (2) determination of the volume of stream-channel sediment from the surface to the maximum depth with concentrations of these metals that exceeded sediment-quality guidelines.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2011</begdate>\n <enddate>2012</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-94.95758056618</westbc>\n <eastbc>-94.226989745896</eastbc>\n <northbc>37.247472915062</northbc>\n <southbc>36.822127368867</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>Tri-State Mining District, mining, mine waste, sediment,contamination, freeze-core</themekt>\n <themekey>mine waste, lead and zinc mining</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:58062b13e4b0824b2d1d3d42</themekey>\n </theme>\n <place>\n <placekt>Getty Thesaurus of Geographic Names\xc2\xae Online</placekt>\n <placekey>Jasper County, Missouri</placekey>\n <placekey>Newton County, Missouri</placekey>\n <placekey>Ottawa County, Oklahoma</placekey>\n <placekey>Cherokee County, Kansas</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>David Smith</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1400 Independence Rd.</address>\n <city>Rolla</city>\n <state>Missouri</state>\n <postal>65401</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>573-308-3675</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>U.S. Fish and Wildlife Service</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>To efficiently analyze the large number of samples collected (357 stream channel samples and 379 flood-plain samples) in this study, all samples were analyzed using the X-ray fluorescence . Several quality control and quality assurance procedures were implemented to ensure the quality of the data acquired using the X-ray fluorescence . A series of standards and blanks were analyzed at the beginning, end, and several times throughout the day when environmental samples were analyzed. In addition to standards, triplicate and septuplet analyses of the selected flood-plain cores were done during the analysis. The results of the X-ray fluorescence instrument\xe2\x80\x99s analysis of 85 split samples (76 stream channel-sediment samples and 9 flood-plain samples) collected during this study were compared to the laboratory results as a quality check on the accuracy of the X-ray fluorescence results and to determine the comparability of X-ray fluorescence to laboratory results.</attraccr>\n </attracc>\n <logic>The data and interpretation of the data was reviewed multiple times by the author and other reviewers to ensure logical accuracy.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>Assessment of the horizontal positional accuracy was done by comparing the location of the features to the corresponding location to the aerial imagery using field notes.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>The data presented is the arithmetic mean of the three individual analyses is reported as the concentration in the sample for each constituent.</procdesc>\n <procdate>20130601</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Handheld global positioning system (GPS) device</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>1.0</latres>\n <longres>1.0</longres>\n <geogunit>Degrees, minutes, and decimal seconds</geogunit>\n </geograph>\n <geodetic>\n <horizdn>North American Datum 1983</horizdn>\n <ellips>GRS 80</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <overview>\n <eaover>Data Dictionary for data from the Scientific Investigations Report, Occurrence, Distribution, and Volume of Metals-Contaminated Sediment of Selected Streams Draining the Tri-State Mining District, Missouri, Oklahoma, and Kansas, 2011\xe2\x80\x9312 was used to describe the column headers in the file. \nCore_identifier \nCore Identifier \nSite_identifier \nSite identifier \nDepth_1 \nDepth of the top interval of the sample from the ground surface \nDepth_2 \nDepth of the bottom interval of the sample from the ground surface \nAve_depth \nAverage of Depth_1 and Depth_2 of the sample \nAve_depth_below_water \nAverage of depth of the sample below the local water surface \nArsenic \nConcentration of Arsenic in milligrams per kilogram \nCadmium \nConcentration of Cadmium in milligrams per kilogram \nBarium \nConcentration of Barium in milligrams per kilogram \nCobalt \nConcentration of Cobalt in milligrams per kilogram \nCopper \nConcentration of Copper in milligrams per kilogram \nManganese \nConcentration of Manganese in milligrams per kilogram \nNickel \nConcentration of Nickel in milligrams per kilogram \nLead \nConcentration of Lead in milligrams per kilogram \nZinc \nConcentration of Zinc in milligrams per kilogram \nTotal_dry_weight \nTotal dry weight of sample \nWeight_retained_2mm \nTotal weight of sample passed through a 2 millimeter sieve \nWeight_passed_2mm \nTotal weight of sample retained by a 2 millimeter sieve \nMagnesium \nConcentration of Magnesium in milligrams per kilogram \nAluminum \nThe percent of Aluminum by weight \nAntimony \nConcentration of Antimony in milligrams per kilogram \nBeryllium \nConcentration of Beryllium in milligrams per kilogram \nBismuth \nConcentration of Bismuth in milligrams per kilogram \nCalcium \nThe percent of Calcium by weight \nCerium \nConcentration of Cerium in milligrams per kilogram \nCesium \nConcentration of Cesium in milligrams per kilogram \nChromium \nConcentration of Chromium in milligrams per kilogram \nGallium \nConcentration of Gallium in milligrams per kilogram \nIndium \nConcentration of Indium in milligrams per kilogram \nIron \nThe percent of Iron by weight \nLanthanum \nConcentration of Lanthanum in milligrams per kilogram \nLithium \nConcentration of Lithium in milligrams per kilogram \nMolybdenum \nConcentration of Molybdenum in milligrams per kilogram \nNiobium \nConcentration of Niobium in milligrams per kilogram \nPhosphorus \nConcentration of Phosphorus in milligrams per kilogram \nPotassium \nThe percent of Potassium by weight \nRubidium \nConcentration of Rubidium in milligrams per kilogram \nScandium \nConcentration of Scandium in milligrams per kilogram \nSilver \nConcentration of Silver in milligrams per kilogram \nSodium \nThe percent of Sodium by weight \nStrontium \nConcentration of Strontium in milligrams per kilogram \nSulfur \nThe percent of Sulfur by weight \nTellurium \nConcentration of Tellurium in milligrams per kilogram \nThallium \nConcentration of Thallium in milligrams per kilogram \nThorium \nConcentration of Thorium in milligrams per kilogram \nTin \nConcentration of Tin in milligrams per kilogram \nTitanium \nThe percent of Titanium by weight \nTungsten \nConcentration of Tungsten in milligrams per kilogram \nUranium \nConcentration of Uranium in milligrams per kilogram \nVanadium \nConcentration of Vanadium in milligrams per kilogram \nYttrium \nConcentration of Yttrium in milligrams per kilogram \nZirconium \nConcentration of Zirconium in milligrams per kilogram \nName \nName of stream or river associated with the core \nLatitude \nThe latitude of the x, y coordinates for the core in decimal degrees \nLongitude \nThe longitude of the x, y coordinates for the core in decimal degrees \nDate \nDate that the core was drilled, dd/mm/yyyy \nTime \nTime that the core was drilled, hhmm \nFeature \nIdentifies that the core was drilled on a gravel bar (GB) or the wetted channel \n(WC) \nDepth_w \nDepth of water below the surface at the core location \nMax_depth \nMaximum depth of the core</eaover>\n <eadetcit>Data Dictionary for data from the Scientific Investigations Report, Occurrence, Distribution, and Volume of Metals-Contaminated Sediment of Selected Streams Draining the Tri-State Mining District, Missouri, Oklahoma, and Kansas, 2011\xe2\x80\x9312. Version 1 (October 3, 2016)</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>David Smith</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200814</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>David Smith</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1400 Independence Rd.</address>\n <city>Rolla</city>\n <state>Missouri</state>\n <postal>65401</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>573-308-3675</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2020-09-16Start Date2019-12-17End Date2020-01-30
## Citation
Lankton, J.S., Karouna-Renier, N., and Henry, P., 2020, Immunological histopathology of American kestrels (Falco sparverius) exposed in ovo to two persistent organic pollutants -- SCCPs and TBBPA-BDBPE: U.S. Geological Survey data release, https://doi.org/10.5066/P9JA1Y7X.
## Summary
This work is part of a study of the immunological effects of exposure to alternative flame retardants in avian species. For the pathology portion of the study, spleens and bursas from American kestrels (Falco sparverius) exposed by egg injection to varying doses of short-chain chlorinated paraffins (SCCPs) and the flame retardant TBBPA-BDBPE were examined microscopically for architectural and cellular abnormalities. At euthanasia, spleen and bursa of Fabricius were collected and fixed in 10% neutral buffered formalin for histopathological assessment. Slides were processed and stained with hematoxalin and eosin as per standard procedure (Luna 1968). Quantitative and qualitative B and T cell parameters were assessed by light microscopy. \[...\]
## Summary
This work is part of a study of the immunological effects of exposure to alternative flame retardants in avian species. For the pathology portion of the study, spleens and bursas from American kestrels (Falco sparverius) exposed by egg injection to varying doses of short-chain chlorinated paraffins (SCCPs) and the flame retardant TBBPA-BDBPE were examined microscopically for architectural and cellular abnormalities. At euthanasia, spleen and bursa of Fabricius were collected and fixed in 10% neutral buffered formalin for histopathological assessment. Slides were processed and stained with hematoxalin and eosin as per standard procedure (Luna 1968). Quantitative and qualitative B and T cell parameters were assessed by light microscopy. Specifically, variables assessed included the following: spleen: total area; number, thickness and area of peri-arteriolar lymphoid sheaths; number and diameter of lymphoid follicles; bursa: follicular and medullary area; cellular density; apoptosis; heterophil infiltration; presence of follicular cysts. Evaluation of the architecture and cellular population of immune organs will shed light on potential functional immunological effects of exposure that may lead to increased susceptibility to infectious disease or affect normal growth and development of the chick. (Luna LG. 1968. Manual of histologic staining methods of the armed forces institute of pathology, 3rd edn. McGraw-Hill, New York, NY.)
## Contacts
Point of Contact
:
[Julia S Lankton](/catalog/catalogParty/show?partyId=64179)
Originator
:
[Julia S Lankton](/catalog/catalogParty/show?partyId=64179),
[Natalie Karouna-Renier](/catalog/catalogParty/show?partyId=Natalie+Karouna-Renier),
[Paula F Henry](/catalog/catalogParty/show?partyId=4474)
Metadata Contact
:
[Julia S Lankton](/catalog/catalogParty/show?partyId=64179)
SDC Data Owner
:
[National Wildlife Health Center](/catalog/catalogParty/show?partyId=17262)
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:
[Environmental Health](/catalog/catalogParty/show?partyId=Environmental+Health)
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| --- | --- | --- | --- |
| Lankton\_SCCP kestrel\_metadata.xml<br>_Original FGDC Metadata_ | View | 32.04 KB | application/fgdc+xml |
| Bursa cyst.csv | | 889 Bytes | text/csv |
| Bursa.csv | | 8.63 KB | text/csv |
| Spleen PALS thickness.csv | | 901 Bytes | text/csv |
| Spleen PALS number and size.csv | | 4.57 KB | text/csv |
| Spleen area.csv | | 848 Bytes | text/csv |
| Spleen lymphoid follicles.csv | | 704 Bytes | text/csv |
## Purpose
Histological parameters will be used in conjunction with physiologic markers such as indicators of oxidative stress and gene expression to assess the immunomodulatory effects of these compounds.
## Communities
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## Tags
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## Additional Information
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| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9JA1Y7X |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Julia S. Lankton</origin>\n <origin>Natalie Karouna-Renier</origin>\n <origin>Paula Henry</origin>\n <pubdate>20200916</pubdate>\n <title>Immunological histopathology of American kestrels (Falco sparverius) exposed in ovo to two persistent organic pollutants -- SCCPs and TBBPA-BDBPE</title>\n <geoform>spreadsheet</geoform>\n <onlink>https://doi.org/10.5066/P9JA1Y7X</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This work is part of a study of the immunological effects of exposure to alternative flame retardants in avian species. For the pathology portion of the study, spleens and bursas from American kestrels (Falco sparverius) exposed by egg injection to varying doses of short-chain chlorinated paraffins (SCCPs) and the flame retardant TBBPA-BDBPE were examined microscopically for architectural and cellular abnormalities. At euthanasia, spleen and bursa of Fabricius were collected and fixed in 10% neutral buffered formalin for histopathological assessment. Slides were processed and stained with hematoxalin and eosin as per standard procedure (Luna 1968). Quantitative and qualitative B and T cell parameters were assessed by light microscopy. Specifically, variables assessed included the following: spleen: total area; number, thickness and area of peri-arteriolar lymphoid sheaths; number and diameter of lymphoid follicles; bursa: follicular and medullary area; cellular density; apoptosis; heterophil infiltration; presence of follicular cysts. Evaluation of the architecture and cellular population of immune organs will shed light on potential functional immunological effects of exposure that may lead to increased susceptibility to infectious disease or affect normal growth and development of the chick. \n(Luna LG. 1968. Manual of histologic staining methods of the armed forces institute of pathology, 3rd edn. McGraw-Hill, New York, NY.)</abstract>\n <purpose>Histological parameters will be used in conjunction with physiologic markers such as indicators of oxidative stress and gene expression to assess the immunomodulatory effects of these compounds.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20191217</begdate>\n <enddate>20200130</enddate>\n </rngdates>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-89.485745</westbc>\n <eastbc>-89.483213</eastbc>\n <northbc>43.050639</northbc>\n <southbc>43.046342</southbc>\n </bounding>\n <descgeog>USGS National Wildlife Health Center</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>American kestrel</themekey>\n <themekey>falco sparverius</themekey>\n <themekey>immune response</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>wildlife disease</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5f4e66df82ce4c3d1233c91f</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>USGS Patuxent Wildlife Research Center</placekey>\n <placekey>USGS National Wildlife Health Center</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>None. Users are advised to read the dataset's metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Julia S Lankton</cntper>\n <cntorg>U.S. Geological Survey,</cntorg>\n </cntperp>\n <cntpos>Veterinary Pathologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>6006 Schroeder Road</address>\n <city>Madison</city>\n <state>WI</state>\n <postal>53711</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>608-270-2459</cntvoice>\n <cntfax>608-270-2415</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <taxonomy>\n <keywtax>\n <taxonkt>None</taxonkt>\n <taxonkey>Falco sparverius</taxonkey>\n </keywtax>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Aves</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Falconiformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Falconidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Falconinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Falco</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Falco sparverius</taxonrv>\n <common>TSN: 175622</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Spot checked selected measurements for accuracy.</attraccr>\n </attracc>\n <logic>Yes</logic>\n <complete>All data represented.</complete>\n <lineage>\n <procstep>\n <procdesc>Formalin-fixed samples were routinely processed for light microscopy and stained with hematoxylin and eosin (Luna 1968). \n(Luna LG. 1968. Manual of histologic staining methods of the armed forces institute of pathology, 3rd edn. McGraw-Hill, New York, NY.)</procdesc>\n <procdate>20190130</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Spleen area.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Bird ID</attrlabl>\n <attrdef>Sample ID number</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>numberic ID number</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TRT</attrlabl>\n <attrdef>Treatment group</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10 SCCP</edomv>\n <edomvd>In-ovo inoculation of 10ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 SCCP</edomv>\n <edomvd>In-ovo inoculation of 100ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 10ng TBBPA-BDBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 100ng TBBPA-BPBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Control: Safflower oil inoculation</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sex</attrlabl>\n <attrdef>Sex of bird</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>female</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>M</edomv>\n <edomvd>male</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Spleen area</attrlabl>\n <attrdef>Area of section of spleen (mm^2) Measured area of each spleen section using Olympus cellSens standard</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NP</edomv>\n <edomvd>Not present on slide</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>1.11</rdommin>\n <rdommax>6.70</rdommax>\n <attrunit>mm^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Spleen PALS thickness.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Bird ID</attrlabl>\n <attrdef>Sample ID number</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Numeric ID</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TRT</attrlabl>\n <attrdef>Treatment group</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10 SCCP</edomv>\n <edomvd>In-ovo inoculation of 10ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 SCCP</edomv>\n <edomvd>In-ovo inoculation of 100ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 10ng TBBPA-BDBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 100ng TBBPA-BPBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Control: Safflower oil inoculation</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sex</attrlabl>\n <attrdef>Sex of bird</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>female</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>M</edomv>\n <edomvd>male</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PALS thickness</attrlabl>\n <attrdef>Thickness of PALS (absent, thin, moderate, thick)\nPALS was defined as a collection (either distinct or indistinct) of small lymphocytes with a central arteriole.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Thin</edomv>\n <edomvd>PALS few layers thick</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Absent</edomv>\n <edomvd>No lymphocytes in PALS</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Moderate</edomv>\n <edomvd>PALS several layers thick</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NP</edomv>\n <edomvd>Not present on slide</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Thick</edomv>\n <edomvd>PALS prominent and many layers thick</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Spleen PALS number and size.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Bird ID</attrlabl>\n <attrdef>Sample ID number</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Numeric ID</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TRT</attrlabl>\n <attrdef>Treatment group</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10 SCCP</edomv>\n <edomvd>In-ovo inoculation of 10ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 SCCP</edomv>\n <edomvd>In-ovo inoculation of 100ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 10ng TBBPA-BDBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 100ng TBBPA-BPBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Control: Safflower oil inoculation</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sex</attrlabl>\n <attrdef>Sex of bird</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>female</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>M</edomv>\n <edomvd>male</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PALS number</attrlabl>\n <attrdef>number of PALS from sample being measured</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NP</edomv>\n <edomvd>Not present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>17</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Size PALS</attrlabl>\n <attrdef>Area of PALS (um^2) Measured area of each PALS present using Olympus cellSens standard</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv><< empty cell >></edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>1888.09</rdommin>\n <rdommax>30345.92</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Spleen lymphoid follicles.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Bird ID</attrlabl>\n <attrdef>Sample ID number</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Numeric ID</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TRT</attrlabl>\n <attrdef>Treatment group</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10 SCCP</edomv>\n <edomvd>In-ovo inoculation of 10ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 SCCP</edomv>\n <edomvd>In-ovo inoculation of 100ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 10ng TBBPA-BDBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 100ng TBBPA-BPBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Control: Safflower oil inoculation</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sex</attrlabl>\n <attrdef>Sex of bird</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>female</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>M</edomv>\n <edomvd>male</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Number of lymphoid follicles</attrlabl>\n <attrdef>The number of lymphoid follicles in the section. Lymphoid follicle was defined as a distinct collection of variably-sized lymphocytes with a peripheral arteriole. Count includes all sections of spleen on the slide. If the follicle was not round, the largest diameter was measured. NP: Not present on slide</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Bursa.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Bird ID</attrlabl>\n <attrdef>Sample ID number</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Numeric ID</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TRT</attrlabl>\n <attrdef>Treatment group</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10 SCCP</edomv>\n <edomvd>In-ovo inoculation of 10ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 SCCP</edomv>\n <edomvd>In-ovo inoculation of 100ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 10ng TBBPA-BDBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 100ng TBBPA-BPBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Control: Safflower oil inoculation</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sex</attrlabl>\n <attrdef>Sex of bird</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>female</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>M</edomv>\n <edomvd>male</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Follicle number</attrlabl>\n <attrdef>ID number for one randomly chosen prominent follicle.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>5</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Follicle total area</attrlabl>\n <attrdef>Area of follicle (mm^2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Not present on slide</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.00547</rdommin>\n <rdommax>0.316</rdommax>\n <attrunit>mm^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Follicle medulla</attrlabl>\n <attrdef>Area of follicle medulla only (mm^2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Not present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.000868</rdommin>\n <rdommax>0.0999</rdommax>\n <attrunit>mm^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Follicle Density</attrlabl>\n <attrdef>Cellular density of follicle (low, moderate, high)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Not present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>high</edomv>\n <edomvd>densely packed lymphosytes</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>mod</edomv>\n <edomvd>lymphocytes interspersed by some clear space</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>low</edomv>\n <edomvd>few lymphocytes with an abundance of clear space</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Apoptosis Follicle</attrlabl>\n <attrdef>Degree of apoptosis (low, moderate, high)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Not present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>low</edomv>\n <edomvd>1-2 apoptotic bodies</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>mod</edomv>\n <edomvd>1-2 clusters of apoptotic bodies</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>high</edomv>\n <edomvd>multifocal clusters of apoptotic bodies</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heterophils Follicle</attrlabl>\n <attrdef>Heterophil infiltration (absent, low, moderate, high)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Not present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>low</edomv>\n <edomvd>1-2 heterophils per field of view</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>absent</edomv>\n <edomvd>no heterophils present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>high</edomv>\n <edomvd>>11 heterophils per field of view</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>mod</edomv>\n <edomvd>2-10 heterophils per field of view</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Bursa cyst.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Bird ID</attrlabl>\n <attrdef>Sample ID number</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Numeric ID</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TRT</attrlabl>\n <attrdef>Treatment group</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10 SCCP</edomv>\n <edomvd>In-ovo inoculation of 10ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 SCCP</edomv>\n <edomvd>100 SCCP: In-ovo inoculation of 100ng SCCP/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10 TBBPA</edomv>\n <edomvd>10 TBBPA: In-ovo inoculation of 10ng TBBPA-BDBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>100 TBBPA</edomv>\n <edomvd>In-ovo inoculation of 100ng TBBPA-BPBPE/g egg wet weight</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Control: Safflower oil inoculation</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sex</attrlabl>\n <attrdef>Sex of bird</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>female</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>M</edomv>\n <edomvd>male</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Bursal follicular cyst</attrlabl>\n <attrdef>Follicular cysts (present, absent; follicular cyst was defined as an acellular cavity lined by epithelial cells</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>absent</edomv>\n <edomvd>no follicular cysts present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NP</edomv>\n <edomvd>Not present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9JA1Y7X</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200916</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Julia S Lankton</cntper>\n <cntorg>U.S. Geological Survey,</cntorg>\n </cntperp>\n <cntpos>Veterinary Pathologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>6006 Schroeder Road</address>\n <city>Madison</city>\n <state>WI</state>\n <postal>53711</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>608-270-2459</cntvoice>\n <cntfax>608-270-2415</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>" |
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3. [Pedestrian tsunami evacuation results for two tsunami-inundation zones (2009 and probable maximum tsunami (PMT)) and four travel speeds (slow walk, fast walk, slow run, and fast run) for American Samoa](/catalog/item/5b7dd82be4b045b1dc7bee39)
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## Dates
Publication Date2018-10-02Time Period2018
## Citation
Jones, J.L., Jones, J.M., and Wood, N.J., 2018, Pedestrian tsunami evacuation results for two tsunami-inundation zones (2009 and probable maximum tsunami (PMT)) and four travel speeds (slow walk, fast walk, slow run, and fast run) for American Samoa: U.S. Geological Survey data release, https://doi.org/10.5066/P9USLV20.
## Summary
The travel time map was generated using the Pedestrian Evacuation Analyst model (version 1.0.1 for ArcGIS 10.5) from the USGS (https://geography.wr.usgs.gov/science/vulnerability/tools.html). The travel time analysis uses ESRI's Path Distance tool to find the shortest distance across a cost surface from any point in the hazard zone to a safe zone. This cost analysis considers the direction of movement and assigns a higher cost to steeper slopes, based on a table contained within the model. The analysis also adds in the energy costs of crossing different types of land cover, assuming that less energy is expended walking along a road than walking across a sandy beach. To produce the time map, the evacuation surface output from the model \[...\]
## Summary
The travel time map was generated using the Pedestrian Evacuation Analyst model (version 1.0.1 for ArcGIS 10.5) from the USGS (https://geography.wr.usgs.gov/science/vulnerability/tools.html). The travel time analysis uses ESRI's Path Distance tool to find the shortest distance across a cost surface from any point in the hazard zone to a safe zone. This cost analysis considers the direction of movement and assigns a higher cost to steeper slopes, based on a table contained within the model. The analysis also adds in the energy costs of crossing different types of land cover, assuming that less energy is expended walking along a road than walking across a sandy beach. To produce the time map, the evacuation surface output from the model is grouped into 1-minute increments for easier visualization. The times in the attribute table represent the estimated time to travel on foot to the nearest safe zone at the speed designated in the map title. The file name indicates whether the map is of the recreated tsunami inundation zone for the 2009 Mw 8.1 Samoa earthquake or a probable maximum tsunami (PMT) inundation zone for American Samoa and which travel speed was used in the modelling (slow walk, fast walk, slow run, or fast run). These data, in polygon shapefile format, are intended for use in GIS software applications.
These data support the following publication: Wood, N.J., Jones, J.M., Yamazaki, Y., Cheung, K-F., Brown, J., Jones, J.L., and Abdollahian, N., 2018, Population vulnerability to tsunami hazards informed by previous and projected disasters—a case study of American Samoa: Natural Hazards, 24 p., https://doi.org/10.1007/s11069-018-3493-7.
## Contacts
Point of Contact
:
[Jamie L Jones](/catalog/catalogParty/show?partyId=Jamie+L+Jones),
[U.S. Geological Survey, PACIFIC REGION](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+PACIFIC+REGION)
Originator
:
[Jamie L. Jones](/catalog/catalogParty/show?partyId=Jamie+L.+Jones),
[Jeanne M. Jones](/catalog/catalogParty/show?partyId=Jeanne+M.+Jones),
[Nathan J. Wood](/catalog/catalogParty/show?partyId=Nathan+J.+Wood)
Metadata Contact
:
[Jamie L Jones](/catalog/catalogParty/show?partyId=Jamie+L+Jones),
[U.S. Geological Survey, PACIFIC REGION](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+PACIFIC+REGION)
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:
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| --- | --- | --- |
| AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.shp.xml<br>_Original FGDC Metadata_ | View | 23.05 KB |
| AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.CPG | | 5 Bytes |
| AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.dbf | | 319 Bytes |
| AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.prj | | 424 Bytes |
| AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.sbn | | 332 Bytes |
| AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.sbx | | 124 Bytes |
| AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.shp | | 3.35 MB |
| AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.shx | | 284 Bytes |
Shapefile:
AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.zip
## Related External Resources
Type: Online Link
| | |
| --- | --- |
| Web Link | [https://doi.org/10.1007/s11069-018-3493-7](https://doi.org/10.1007/s11069-018-3493-7 "https://doi.org/10.1007/s11069-018-3493-7") |
## Purpose
The objective of these data is to aid in characterizing population vulnerability to tsunami hazards in American Samoa based on fatality demographics and observations of evacuee behavior from the 2009 disaster, projection of probable maximum tsunami hazards in the area, and pedestrian evacuation modeling. This information provides direct assistance to tsunami-planning efforts in American Samoa but also provides insight on evacuation behavior and population vulnerability to other coastal communities throughout the world that are threatened by local tsunami hazards.
## [Map](/catalog/item/imap/5b7deb0ce4b045b1dc7bee78)
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## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Theme
- [evacuation](/catalog/items?q=&filter=tags%3Devacuation "evacuation (evacuation, Theme, None)")
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- [pedestrian](/catalog/items?q=&filter=tags%3Dpedestrian "pedestrian (pedestrian, Theme, None)")
- [tsunamis](/catalog/items?q=&filter=tags%3Dtsunamis "tsunamis (tsunamis, Theme, USGS Thesaurus)")
Place
- [American Samoa](/catalog/items?q=&filter=tags%3DAmerican+Samoa "American Samoa (American Samoa, Place, Common geographic areas)")
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## Provenance
Data sourceInput directly
## Additional Information
### Shapefile Extension
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| dateUploaded | Sun Aug 30 19:03:50 MDT 2020 |
| originalMetadata | true |
| name | AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap.shx |
| contentType | x-gis/x-shapefile |
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| geometryType | MultiPolygon |
| name | AmericanSamoa\_PMTInundationZone\_fastWalk\_152\_timeMap |
| nativeCrs | EPSG:26902 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Jamie L. Jones</origin>\n <origin>Jeanne M. Jones</origin>\n <origin>Nathan J. Wood</origin>\n <pubdate>20180820</pubdate>\n <title>Tsunami evacuation time map for American Samoa predicted maximum tsunami (PMT) inundation zone and fast walk speed</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9USLV20</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Nathan Wood</origin>\n <origin>Jeanne M. Jones</origin>\n <origin>Yoshiki Yamazaki</origin>\n <origin>Kwok-Fai Cheung</origin>\n <origin>Jacinta Brown</origin>\n <origin>Jamie L. Jones</origin>\n <origin>Nina Abdollahian</origin>\n <pubdate>20181001</pubdate>\n <title>Population vulnerability to tsunami hazards informed by previous and projected disasters: a case study of American Samoa</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Springer Nature America, Inc</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1007/s11069-018-3493-7</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The travel time map was generated using the Pedestrian Evacuation Analyst model (version 1.0.1 for ArcGIS 10.5) from the USGS (https://geography.wr.usgs.gov/science/vulnerability/tools.html). The travel time analysis uses ESRI\'s Path Distance tool to find the shortest distance across a cost surface from any point in the hazard zone to a safe zone. This cost analysis considers the direction of movement and assigns a higher cost to steeper slopes, based on a table contained within the model. The analysis also adds in the energy costs of crossing different types of land cover, assuming that less energy is expended walking along a road than walking across a sandy beach. To produce the time map, the evacuation surface output from the model is grouped into 1-minute increments for easier visualization. The times in the attribute table represent the estimated time to travel on foot to the nearest safe zone at the speed designated in the map title. The file name indicates whether the map is of the recreated tsunami inundation zone for the 2009 Mw 8.1 Samoa earthquake or a probable maximum tsunami (PMT) inundation zone for American Samoa and which travel speed was used in the modelling (slow walk, fast walk, slow run, or fast run). These data, in polygon shapefile format, are intended for use in GIS software applications.\n\nThese data support the following publication: Wood, N.J., Jones, J.M., Yamazaki, Y., Cheung, K-F., Brown, J., Jones, J.L., and Abdollahian, N., 2018, Population vulnerability to tsunami hazards informed by previous and projected disasters\xe2\x80\x94a case study of American Samoa: Natural Hazards, 24 p., https://doi.org/10.1007/s11069-018-3493-7.</abstract>\n <purpose>The objective of these data is to aid in characterizing population vulnerability to tsunami hazards in American Samoa based on fatality demographics and observations of evacuee behavior from the 2009 disaster, projection of probable maximum tsunami hazards in the area, and pedestrian evacuation modeling. This information provides direct assistance to tsunami-planning efforts in American Samoa but also provides insight on evacuation behavior and population vulnerability to other coastal communities throughout the world that are threatened by local tsunami hazards.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2018</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-170.8371</westbc>\n <eastbc>-169.4305</eastbc>\n <northbc>-14.1599</northbc>\n <southbc>-14.3615</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>tsunamis</themekey>\n <themekey>hazards</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>evacuation</themekey>\n <themekey>pedestrian</themekey>\n <themekey>modeling</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5b7deb0ce4b045b1dc7bee78</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>American Samoa</placekey>\n </place>\n </keywords>\n <accconst>None. Please see \'Distribution Info\' for details.</accconst>\n <useconst>None. Users are advised to read the data set\'s metadata thoroughly to understand appropriate use and data limitations. Data are provided "as is" without any representations or warranties as to their accuracy, completeness, performance, merchantability, or fitness for a particular purpose. The entire risk associated with the results and performance of the data is assumed by the user. The U.S. Geological Survey, and all their partners shall not be responsible or liable to you for any loss or damage of any sort incurred in connection with your use of the data. Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the US Government.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Jamie L Jones</cntper>\n <cntorg>U.S. Geological Survey, PACIFIC REGION</cntorg>\n </cntperp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 531, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4125</cntvoice>\n <cntfax>650-329-5546</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Formal attribute accuracy tests were conducted by two qualified GIS experts and the Principal Investigator of the project.</attraccr>\n </attracc>\n <logic>No formal logical consistency tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>American Samoa Department of Commerce</origin>\n <pubdate>2016</pubdate>\n <title>American Samoa 2016 roads shapefile</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Utulei, American Samoa</pubplace>\n <publish>American Samoa Department of Commerce</publish>\n </pubinfo>\n <othercit>Unpublished data</othercit>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2016</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Roads</srccitea>\n <srccontr>Roads layer for land cover</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>American Samoa Department of Commerce</origin>\n <pubdate>2009</pubdate>\n <title>American Samoa 2009 buildings shapefile</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Utulei, American Samoa</pubplace>\n <publish>American Samoa Department of Commerce</publish>\n </pubinfo>\n <othercit>Unpublished data</othercit>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2009</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Buildings</srccitea>\n <srccontr>Building footprints as barriers to travel in the model</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>American Samoa Department of Commerce</origin>\n <pubdate>2016</pubdate>\n <title>American Samoa 2016 fences shapefile</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Utulei, American Samoa</pubplace>\n <publish>American Samoa Department of Commerce</publish>\n </pubinfo>\n <othercit>Unpublished data</othercit>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2016</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Fences</srccitea>\n <srccontr>Fences as barriers to travel in the model</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>American Samoa Department of Commerce</origin>\n <pubdate>2016</pubdate>\n <title>American Samoa 2015 probable maximum tsunami (PMT) inundation zone</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Utulei, American Samoa</pubplace>\n <publish>American Samoa Department of Commerce</publish>\n </pubinfo>\n <othercit>Unpublished data</othercit>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2015</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Inundation zone</srccitea>\n <srccontr>Inundation zone defining areas people need to evacuate from</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>National Oceanic and Atmospheric Administration</origin>\n <pubdate>20100211</pubdate>\n <title>American Samoa 2010 2.4-m Coastal Change Analysis Program (C-CAP) land cover data</title>\n <geoform>raster digital data</geoform>\n <pubinfo>\n <pubplace>Charleston, SC</pubplace>\n <publish>National Oceanic and Atmospheric Administration</publish>\n </pubinfo>\n <onlink>https://coast.noaa.gov/digitalcoast/tools/lca.html</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20100211</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Land cover</srccitea>\n <srccontr>Source data used for land cover creation</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>U.S. Department of Agriculture, Natural Resources Conservation Service, National Geospatial Center of Excellence</origin>\n <pubdate>2009</pubdate>\n <title>American Samoa 2009-2015 1-meter resolution, red-green-blue (RGB)-band orthorectified imagery</title>\n <geoform>raster digital data</geoform>\n <pubinfo>\n <pubplace>Fort Worth, TX</pubplace>\n <publish>U.S. Department of Agriculture, Natural Resources Conservation Service, National Geospatial Center of Excellence</publish>\n </pubinfo>\n <onlink>https://gdg.sc.egov.usda.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>2009</begdate>\n <enddate>2015</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Imagery</srccitea>\n <srccontr>Used for digitizing</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>U.S. Department of Agriculture, Natural Resources Conservation Service, National Geospatial Center of Excellence</origin>\n <pubdate>2017</pubdate>\n <title>American Samoa 2017 1-meter resolution, LiDAR-derived elevation data</title>\n <geoform>raster digital data</geoform>\n <pubinfo>\n <pubplace>Fort Worth, TX</pubplace>\n <publish>U.S. Department of Agriculture, Natural Resources Conservation Service, National Geospatial Center of Excellence</publish>\n </pubinfo>\n <onlink>https://gdg.sc.egov.usda.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2017</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Digital elevation model</srccitea>\n <srccontr>Used to calculate slope in the model</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>U.S. Geological Survey</origin>\n <pubdate>2017</pubdate>\n <title>American Samoa 2010 travel barrier shapefile</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Menlo Park, CA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20100211</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Travel barrier</srccitea>\n <srccontr>The travel barrier helps to restrict the extent of the safe zone by removing areas of natural vegetation from the area that can be traveled to.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Run the modeling step to pre-process the digital elevation information and create the study area outline.</procdesc>\n <procdate>20180816</procdate>\n </procstep>\n <procstep>\n <procdesc>Run the modeling step to preprocess the land cover, using the land cover layer extracted from the C-CAP imagery as the base layer. The land cover base layer will be first in the list followed by the ancillary layers: a secondary bare land dataset to allow differentiation between beach sand and other bare land, a travel barrier added to tie evacuation times to specific paths outside of the tsunami inundation zone, buildings, fences, roads, and driveways. The tool will merge the layers in the list order from top to bottom; for example, layers such as water bodies should be added to the land cover output before a roads layer so any bridges in the roads layer will not be overwritten by a polygon in the water layer. In addition, the ancillary layers must be assigned a specific speed-conservation value (SCV), which represents the fraction of a maximum speed that could be achieved across the given land-cover type. If a standard LULC type is selected, its default SCV value will appear in the corresponding Default SCV Value field and can be edited, if desired. Local American Samoa emergency managers requested that any land cover areas considered natural uses (not used for human purposes, such as agriculture) be blocked for travel in the model. This decision was made due to the thickness of the local vegetation along with documentation showing that people used roads to evacuate during the 2009 tsunami, so forests, wetlands, grasslands, and scrub/shrub land cover classes were assigned an SCV value of 0.</procdesc>\n <procdate>20180816</procdate>\n </procstep>\n <procstep>\n <procdesc>Run the modeling step to create the safe zone by extracting the probable maximum tsunami (PMT) hazard zone from the study area. Manually verify and edit the results to remove artifacts left over from the tsunami modeling. The safe zone was modified to prevent traveling to safety through natural vegetation unless a road was present by erasing the travel barrier created for the land cover preprocessing from the safe zone, then restoring the portions of the original safe zone which overlap roads or driveways to the safe zone with barriers removed.</procdesc>\n <procdate>20180816</procdate>\n </procstep>\n <procstep>\n <procdesc>Run the path distance modeling tool using the pre-processed elevation and land cover and the safe zone.</procdesc>\n <procdate>20180816</procdate>\n </procstep>\n <procstep>\n <procdesc>Run the modeling step to create the evacuation surface with the specified travel speed of 1.52 meters/second (fast walk).</procdesc>\n <procdate>20180816</procdate>\n </procstep>\n <procstep>\n <procdesc>Run the modeling step to create the travel time map rasters and accompanying travel time shapefiles.</procdesc>\n <procdate>20180816</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>G-polygon</sdtstype>\n <ptvctcnt>23</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>2</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-171.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.6096</absres>\n <ordres>0.6096</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North_American_Datum_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>AmericanSamoa_PMTInundationZone_fastWalk_152_timeMap.shp Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>gridcode</attrlabl>\n <attrdef>The gridcode field represents the number of minutes of travel time to exit the hazard zone from the given location on the map. Time was determined by running the Pedestrian Evacuation Analyst tool (https://geography.wr.usgs.gov/science/vulnerability/tools.html), which determines the travel time to safety from every location in the hazard zone to the safe zone based on optimal routes of least costs (lowest amount of time in our case). The value 0 represents less than 1 minute of travel time to safety.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>22</rdommax>\n <attrunit>Minutes</attrunit>\n <attrmres>1</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9USLV20</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200830</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Jamie L Jones</cntper>\n <cntorg>U.S. Geological Survey, PACIFIC REGION</cntorg>\n </cntperp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 531, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4125</cntvoice>\n <cntfax>650-329-5546</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2020-01-03Start Date2007End Date2019
## Citation
Green, C.J., Seal, R.R., II, and Piatak, N.M., 2020, Estimates of mineral abundances based on Rietveld refinement of X-ray diffraction data from mill tailings and other ore processing materials: U.S. Geological Survey data release, https://doi.org/10.5066/P9IWPGM7.
## Summary
This worksheet displays the results of mineral abundance estimates based on Rietveld refinement of X-ray diffraction (XRD) analyses of mill tailings and other ore processing materials from worldwide localities. Data are also provided to show variation in mineral abundance estimates for subsplits in individual samples. Samples were analyzed using a PANalytical X'Pert Pro diffractometer using Cu radiation and the results interpreted using Highscore Plus v.4.7.
## Summary
This worksheet displays the results of mineral abundance estimates based on Rietveld refinement of X-ray diffraction (XRD) analyses of mill tailings and other ore processing materials from worldwide localities. Data are also provided to show variation in mineral abundance estimates for subsplits in individual samples. Samples were analyzed using a PANalytical X'Pert Pro diffractometer using Cu radiation and the results interpreted using Highscore Plus v.4.7.
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| Estimates\_mineral\_abundances\_metadata.xml<br>_Original FGDC Metadata_ | View | 84.93 KB | application/fgdc+xml |
| Estimates\_mineral\_abundances\_data\_dictionary.csv | | 45.45 KB | text/csv |
| Estimates\_mineral\_abundance\_datasheet\_split\_variation.csv | | 3.45 KB | text/csv |
| Estimates\_mineral\_abundance\_datasheet\_non-tailings\_samples.csv | | 7.23 KB | text/csv |
| Estimates\_mineral\_abundance\_datasheet\_tailings\_samples.csv | | 19.18 KB | text/csv |
## Related External Resources
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| CSV | [https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates\_mineral\_abundance\_datasheet\_tailings\_samples.csv](https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates_mineral_abundance_datasheet_tailings_samples.csv "https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates_mineral_abundance_datasheet_tailings_samples.csv") |
| CSV | [https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates\_mineral\_abundance\_datasheet\_non-tailings\_samples.csv](https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates_mineral_abundance_datasheet_non-tailings_samples.csv "https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates_mineral_abundance_datasheet_non-tailings_samples.csv") |
| CSV | [https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates\_mineral\_abundance\_datasheet\_split\_variation.csv](https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates_mineral_abundance_datasheet_split_variation.csv "https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates_mineral_abundance_datasheet_split_variation.csv") |
## Purpose
To determine the mineralogy and mineral abundances of mill tailings and other ore processing materials from worldwide localities. This information is useful for understanding environmental and leaching properties, acid/base accounting, bulk concentrations for soil and sediment guidelines, and resource potential.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Green, Carlin J.</origin>\n <origin>Seal, Robert R., II</origin>\n <origin>Piatak, Nadine M.</origin>\n <pubdate>20200103</pubdate>\n <title>Estimates of mineral abundances based on Rietveld refinement of X-ray diffraction data from mill tailings and other ore processing materials</title>\n <geoform>Tabular data</geoform>\n <serinfo>\n <sername>Data release</sername>\n <issue>DOI:10.5066/P9IWPGM7</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9IWPGM7</onlink>\n <onlink>https://www.sciencebase.gov/catalog/item/5bec30d2e4b0b3fc5cf913e0</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This worksheet displays the results of mineral abundance estimates based on Rietveld refinement of X-ray diffraction (XRD) analyses of mill tailings and other ore processing materials from worldwide localities. Data are also provided to show variation in mineral abundance estimates for subsplits in individual samples. Samples were analyzed using a PANalytical X\'Pert Pro diffractometer using Cu radiation and the results interpreted using Highscore Plus v.4.7.</abstract>\n <purpose>To determine the mineralogy and mineral abundances of mill tailings and other ore processing materials from worldwide localities. This information is useful for understanding environmental and leaching properties, acid/base accounting, bulk concentrations for soil and sediment guidelines, and resource potential.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2007</begdate>\n <enddate>2019</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-169.013</westbc>\n <eastbc>179.736</eastbc>\n <northbc>78.690</northbc>\n <southbc>-59.018</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>mine waste</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5bec30d2e4b0b3fc5cf913e0</themekey>\n </theme>\n <place>\n <placekt>GNIS; Gerry Thesaurus of Geographic Names</placekt>\n <placekey>Sweden</placekey>\n <placekey>Canada</placekey>\n <placekey>New Zealand</placekey>\n <placekey>Colorado</placekey>\n <placekey>Alaska</placekey>\n <placekey>Idaho</placekey>\n <placekey>Peru</placekey>\n <placekey>Slovakia</placekey>\n <placekey>Illinois</placekey>\n <placekey>Tenneessee</placekey>\n <placekey>Maine</placekey>\n <placekey>Virginia</placekey>\n <placekey>Vermont</placekey>\n <placekey>Finland</placekey>\n <placekey>Minnesota</placekey>\n <placekey>California</placekey>\n <placekey>China</placekey>\n <placekey>Utah</placekey>\n <placekey>Missouri</placekey>\n <placekey>Minnesota</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Carlin J Green</cntper>\n <cntorg>NORTHEAST REGION: EASTERN MINERAL & ENVIRON RES SC</cntorg>\n </cntperp>\n <cntpos>Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 954, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>703-648-6331</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Based on in-house testing and results from Smith et al., 2013, the accuracy of the values calculated by Rietveld refinement are within \xc2\xb13% of actual values, but may vary based on the relative weight percent of various phases, the nature of the material being analyzed, and the analytical conditions. Values may have higher uncertainties for less crystalline and/or more disordered phases including clays and Fe-hydroxides. The minimum detection limit for an individual phase was determined to be approximately 1%, however this may vary for other phases particularly if peak overlap occurs. Amorphous material was not quantified; some samples may contain amorphous material, the exclusion of which affects the quantification of other identified phases. Missing phases may affect semiquantitative results.\n\nReference: Smith, D.B., Cannon, W.F., Woodruff, L.G., Solano, Federico, Kilburn, J.E., and Fey, D.L., 2013, Geochemical and mineralogical data for soils of the conterminous United States: U.S. Geological Survey Data Series 801, 19 p., https://pubs.usgs.gov/ds/801/</attraccr>\n </attracc>\n <logic>Dataset contains calculated results for various worldwide mill tailings samples.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>Sample coordinates were measured with handheld GPS or provided by sample donor.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>Sample coordinates were measured with handheld GPS or provided by sample donor.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Mill tailings samples from worldwide localities were collected.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Splits of approximately 2 grams were taken from each sample, micronized in isopropyl alcohol for 5 minutes, and sieved through a 425 micrometer sieve.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Powdered samples were placed in side-loaded mounts and analyzed by X-ray diffraction (XRD) on a PANalytical X\xe2\x80\x99Pert Pro diffractometer, utilizing copper K\xce\xb1 radiation to collect digital data continuously from 3\xc2\xb0 to 80\xc2\xb0 2\xce\xb8 (scan speed=0.0567\xc2\xb0 2\xce\xb8/s) at the U.S. Geological Survey in Reston, VA.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>PANalytical Highscore Plus software version 4.7 was used for pattern processing and semi-quantitative mineralogical analyses by Rietveld refinement. Reitveld refinement steps were conducted by varying the following parameters for each sample in the following order:\n1) Scale factors\n2) Flat background\n3) 2 additional background parameters\n4) Specimen displacement\n5) Lattice parameters\n6) Caglioti W\n\nAdditional profile variable parameters and preferred orientation parameters were varied where needed to achieve a good quality fit.</procdesc>\n <procdate>2019</procdate>\n </procstep>\n <procstep>\n <procdesc>CSV file was generated.</procdesc>\n <procdate>2019</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Tailings samples</enttypl>\n <enttypd>Estimates of mineral abundances based on Rietveld refinement of X-ray\ndiffraction data from mill tailings samples</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>The sample identifier.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The sample identifier.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample location</attrlabl>\n <attrdef>The name of the mine or deposit from which the sample originates.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The name of the mine or deposit from which the sample originates.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample type</attrlabl>\n <attrdef>Indicates the sample material type.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Indicates the sample material type.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Deposit type</attrlabl>\n <attrdef>Indicates the geologic deposit type from which the sample originates.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Indicates the geologic deposit type from which the sample originates.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat_WGS84</attrlabl>\n <attrdef>Latitude in decimal degrees of the approximate sample location using\nWGS84 geodetic datum. NP indicates that coordinates were not provided.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-45.3658</rdommin>\n <rdommax>68.069</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lon_WGS84</attrlabl>\n <attrdef>Longitude in decimal degrees of the approximate sample location using\nWGS84 geodetic datum. NP indicates that coordinates were not provided.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-162.8333</rdommin>\n <rdommax>175.8429</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Quartz</attrlabl>\n <attrdef>Weight percent of quartz calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>87</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plagioclase</attrlabl>\n <attrdef>Weight percent of minerals in the albite-anorthite-solid-solution series\ncalculated by Rietveld refinement. Dashed cells indicate absence of\nmineral in sample. Cells with value 0 indicate trace (less than 0.5\nweight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>52</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>K-feldpsar</attrlabl>\n <attrdef>Weight percent of alkali feldspar minerals (excluding albite) calculated\nby Rietveld refinement. Dashed cells indicate absence of mineral in\nsample. Cells with value 0 indicate trace (less than 0.5 weight\npercent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>94</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Amphibole</attrlabl>\n <attrdef>Weight percent of minerals within the amphibole supergroup calculated by\nRietveld refinement. Dashed cells indicate absence of mineral in sample.\nCells with value 0 indicate trace (less than 0.5 weight percent)\namounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>48</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pyroxene</attrlabl>\n <attrdef>Weight percent of pyroxene minerals calculated by Rietveld refinement.\nDashed cells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>39</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Olivine</attrlabl>\n <attrdef>Weight percent of olivine calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>11</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Garnet</attrlabl>\n <attrdef>Weight percent of garnet-group minerals calculated by Rietveld\nrefinement. Dashed cells indicate absence of mineral in sample. Cells\nwith value 0 indicate trace (less than 0.5 weight percent) amounts of\nmineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>2</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Serpentine</attrlabl>\n <attrdef>Weight percent of serpentine-group minerals calculated by Rietveld\nrefinement. Dashed cells indicate absence of mineral in sample. Cells\nwith value 0 indicate trace (less than 0.5 weight percent) amounts of\nmineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>6</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hemimorphite</attrlabl>\n <attrdef>Weight percent of hemimorphite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>2</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stilpnomelane</attrlabl>\n <attrdef>Weight percent of stilpnomelane calculated by Rietveld refinement.\nDashed cells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>2</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mica</attrlabl>\n <attrdef>Weight percent of di- and tri-octahedral mica minerals characterized by\nthe presence of a 10 Angstrom peak calculated by Rietveld refinement.\nDashed cells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>38</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chlorite</attrlabl>\n <attrdef>Weight percent of the chlorite-group minerals calculated by Rietveld\nrefinement. Dashed cells indicate absence of mineral in sample. Cells\nwith value 0 indicate trace (less than 0.5 weight percent) amounts of\nmineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>49</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Kaolinite</attrlabl>\n <attrdef>Weight percent of kaolinite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>10</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Talc</attrlabl>\n <attrdef>Weight percent of talc calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>62</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Unidentified clay mineral (12 Angstrom)</attrlabl>\n <attrdef>Weight percent of unidentified clay minerals characterized by a 12\nAngstrom peak calculated by Rietveld refinement. Dashed cells indicate\nabsence of mineral in sample. Cells with value 0 indicate trace (less\nthan 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>7</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Unidentified clay mineral (10.9 Angstrom)</attrlabl>\n <attrdef>Weight percent of unidentified clay minerals characterized by a 10.9\nAngstrom peak calculated by Rietveld refinement. Dashed cells indicate\nabsence of mineral in sample. Cells with value 0 indicate trace (less\nthan 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hematite</attrlabl>\n <attrdef>Weight percent of hematite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>21</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnetite</attrlabl>\n <attrdef>Weight percent of magnetite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>6</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rutile</attrlabl>\n <attrdef>Weight percent of rutile calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ilmenite</attrlabl>\n <attrdef>Weight percent of ilmenite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Goethite</attrlabl>\n <attrdef>Weight percent of goethite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>32</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Brucite</attrlabl>\n <attrdef>Weight percent of brucite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pyrite</attrlabl>\n <attrdef>Weight percent of pyrite calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>34</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chalcopyrite</attrlabl>\n <attrdef>Weight percent of chalcopyrite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>85</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pyrrhotite</attrlabl>\n <attrdef>Weight percent of pyrrhotite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>25</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Marcasite</attrlabl>\n <attrdef>Weight percent of marcasite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Molybdenite</attrlabl>\n <attrdef>Weight percent of molybdenite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stibnite</attrlabl>\n <attrdef>Weight percent of stibnite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Galena</attrlabl>\n <attrdef>Weight percent of galena calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenopyrite</attrlabl>\n <attrdef>Weight percent of arsenopyrite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>5</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sphalerite</attrlabl>\n <attrdef>Weight percent of sphalerite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>4</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tennantite</attrlabl>\n <attrdef>Weight percent of tennantite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pentlandite</attrlabl>\n <attrdef>Weight percent of pentlandite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stannite</attrlabl>\n <attrdef>Weight percent of stannite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Gypsum</attrlabl>\n <attrdef>Weight percent of gypsum calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>26</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Jarosite</attrlabl>\n <attrdef>Weight percent of jarosite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>27</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Barite</attrlabl>\n <attrdef>Weight percent of barite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>24</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Anglesite</attrlabl>\n <attrdef>Weight percent of anglesite calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Anhydrite</attrlabl>\n <attrdef>Weight percent of anhydrite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Butlerite</attrlabl>\n <attrdef>Weight percent of butlerite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>6</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Melanterite</attrlabl>\n <attrdef>Weight percent of melanterite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calcite</attrlabl>\n <attrdef>Weight percent of calcite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>22</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Siderite</attrlabl>\n <attrdef>Weight percent of siderite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>37</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dolomite</attrlabl>\n <attrdef>Weight percent of dolomite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>87</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnesite</attrlabl>\n <attrdef>Weight percent of magnesite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>26</rdommin>\n <rdommax>61</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ankerite</attrlabl>\n <attrdef>Weight percent of ankerite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Strontianite</attrlabl>\n <attrdef>Weight percent of strontianite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Bastn\xc3\xa4site</attrlabl>\n <attrdef>Weight percent of bastn\xc3\xa4site calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>2</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cerussite</attrlabl>\n <attrdef>Weight percent of cerussite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hydrotalcite</attrlabl>\n <attrdef>Weight percent of hydrotalcite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Apatite</attrlabl>\n <attrdef>Weight percent of apatite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>11</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fluorite</attrlabl>\n <attrdef>Weight percent of fluorite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sulfur</attrlabl>\n <attrdef>Weight percent of sulfur calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>28</rdommin>\n <rdommax>28</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Weighted-R</attrlabl>\n <attrdef>An agreement index that measures the overall fit quality of the Reitveld\nrefinement. Weighted R-value (Rwp) is calculated according to the\nequation: Rwp = [?wi(yio-yib)2/?wiy2io]1/2 *100 where wi (weight factor at point i) is 1/ESD2 (estimated standard deviation), yio is the net intensity calculated at point i, and yib is the background intensity at point i. Values under 10 are considered to reflect a good quality fit.</attrdef>\n <attrdefs>Malvern Panalytical</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.3</rdommin>\n <rdommax>20.5</rdommax>\n <attrunit>Unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Goodness of Fit</attrlabl>\n <attrdef>An agreement index calculated by dividing the weighted R-value by the\nexpected R-value.</attrdef>\n <attrdefs>Malvern Panalytical</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.5</rdommin>\n <rdommax>10.7</rdommax>\n <attrunit>unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Notes</attrlabl>\n <attrdef>Indicates the d-spacing values of unmatched peaks, instances where minerals were used as a proxy for unidentified clays, and other sample preperation details.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Indicates the d-spacing values of unmatched peaks, instances where minerals were used as a proxy for unidentified clays, and other sample preperation details.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Non-tailings samples</enttypl>\n <enttypd>Estimates of mineral abundances based on Rietveld refinement of X-ray\ndiffraction data from composites</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>The sample identifier.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The sample identifier.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample location</attrlabl>\n <attrdef>The name of the mine or deposit from which the sample originates.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The name of the mine or deposit from which the sample originates.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample type</attrlabl>\n <attrdef>Indicates the sample material type.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Indicates the sample material type.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Deposit type</attrlabl>\n <attrdef>Indicates the geologic deposit type from which the sample originates.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Indicates the geologic deposit type from which the sample originates.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat_WGS84</attrlabl>\n <attrdef>Latitude in decimal degrees of the approximate sample location using\nWGS84 geodetic datum. NP indicates that coordinates were not provided.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-45.3658</rdommin>\n <rdommax>68.069</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lon_WGS84</attrlabl>\n <attrdef>Longitude in decimal degrees of the approximate sample location using\nWGS84 geodetic datum. NP indicates that coordinates were not provided.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-162.8333</rdommin>\n <rdommax>175.8429</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Quartz</attrlabl>\n <attrdef>Weight percent of quartz calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>30</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plagioclase</attrlabl>\n <attrdef>Weight percent of minerals in the albite-anorthite-solid-solution series\ncalculated by Rietveld refinement. Dashed cells indicate absence of\nmineral in sample. Cells with value 0 indicate trace (less than 0.5\nweight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>27</rdommin>\n <rdommax>80</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>K-feldpsar</attrlabl>\n <attrdef>Weight percent of alkali feldspar minerals (excluding albite) calculated\nby Rietveld refinement. Dashed cells indicate absence of mineral in\nsample. Cells with value 0 indicate trace (less than 0.5 weight\npercent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>35</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Amphibole</attrlabl>\n <attrdef>Weight percent of minerals within the amphibole supergroup calculated by\nRietveld refinement. Dashed cells indicate absence of mineral in sample.\nCells with value 0 indicate trace (less than 0.5 weight percent)\namounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>3</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pyroxene</attrlabl>\n <attrdef>Weight percent of pyroxene minerals calculated by Rietveld refinement.\nDashed cells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>14</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Olivine</attrlabl>\n <attrdef>Weight percent of olivine calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>19</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Garnet</attrlabl>\n <attrdef>Weight percent of garnet-group minerals calculated by Rietveld\nrefinement. Dashed cells indicate absence of mineral in sample. Cells\nwith value 0 indicate trace (less than 0.5 weight percent) amounts of\nmineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Serpentine</attrlabl>\n <attrdef>Weight percent of serpentine-group minerals calculated by Rietveld\nrefinement. Dashed cells indicate absence of mineral in sample. Cells\nwith value 0 indicate trace (less than 0.5 weight percent) amounts of\nmineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>40</rdommin>\n <rdommax>56</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hemimorphite</attrlabl>\n <attrdef>Weight percent of hemimorphite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stilpnomelane</attrlabl>\n <attrdef>Weight percent of stilpnomelane calculated by Rietveld refinement.\nDashed cells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mica</attrlabl>\n <attrdef>Weight percent of di- and tri-octahedral mica minerals characterized by\nthe presence of a 10 Angstrom peak calculated by Rietveld refinement.\nDashed cells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>19</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chlorite</attrlabl>\n <attrdef>Weight percent of the chlorite-group minerals calculated by Rietveld\nrefinement. Dashed cells indicate absence of mineral in sample. Cells\nwith value 0 indicate trace (less than 0.5 weight percent) amounts of\nmineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>42</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Kaolinite</attrlabl>\n <attrdef>Weight percent of kaolinite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Talc</attrlabl>\n <attrdef>Weight percent of talc calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Unidentified clay mineral (12 Angstrom)</attrlabl>\n <attrdef>Weight percent of unidentified clay minerals characterized by a 12\nAngstrom peak calculated by Rietveld refinement. Dashed cells indicate\nabsence of mineral in sample. Cells with value 0 indicate trace (less\nthan 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Unidentified clay mineral (10.9 Angstrom)</attrlabl>\n <attrdef>Weight percent of unidentified clay minerals characterized by a 10.9\nAngstrom peak calculated by Rietveld refinement. Dashed cells indicate\nabsence of mineral in sample. Cells with value 0 indicate trace (less\nthan 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hematite</attrlabl>\n <attrdef>Weight percent of hematite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnetite</attrlabl>\n <attrdef>Weight percent of magnetite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>14</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rutile</attrlabl>\n <attrdef>Weight percent of rutile calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ilmenite</attrlabl>\n <attrdef>Weight percent of ilmenite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>2</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Goethite</attrlabl>\n <attrdef>Weight percent of goethite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>12</rdommin>\n <rdommax>12</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Brucite</attrlabl>\n <attrdef>Weight percent of brucite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>3</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pyrite</attrlabl>\n <attrdef>Weight percent of pyrite calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>34</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chalcopyrite</attrlabl>\n <attrdef>Weight percent of chalcopyrite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pyrrhotite</attrlabl>\n <attrdef>Weight percent of pyrrhotite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Marcasite</attrlabl>\n <attrdef>Weight percent of marcasite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Molybdenite</attrlabl>\n <attrdef>Weight percent of molybdenite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stibnite</attrlabl>\n <attrdef>Weight percent of stibnite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Galena</attrlabl>\n <attrdef>Weight percent of galena calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenopyrite</attrlabl>\n <attrdef>Weight percent of arsenopyrite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>14</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sphalerite</attrlabl>\n <attrdef>Weight percent of sphalerite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tennantite</attrlabl>\n <attrdef>Weight percent of tennantite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pentlandite</attrlabl>\n <attrdef>Weight percent of pentlandite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stannite</attrlabl>\n <attrdef>Weight percent of stannite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Gypsum</attrlabl>\n <attrdef>Weight percent of gypsum calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>84</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Jarosite</attrlabl>\n <attrdef>Weight percent of jarosite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Barite</attrlabl>\n <attrdef>Weight percent of barite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>21</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Anglesite</attrlabl>\n <attrdef>Weight percent of anglesite calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Anhydrite</attrlabl>\n <attrdef>Weight percent of anhydrite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Butlerite</attrlabl>\n <attrdef>Weight percent of butlerite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Melanterite</attrlabl>\n <attrdef>Weight percent of melanterite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calcite</attrlabl>\n <attrdef>Weight percent of calcite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>28</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Siderite</attrlabl>\n <attrdef>Weight percent of siderite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>2</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dolomite</attrlabl>\n <attrdef>Weight percent of dolomite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>67</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnesite</attrlabl>\n <attrdef>Weight percent of magnesite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ankerite</attrlabl>\n <attrdef>Weight percent of ankerite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Strontianite</attrlabl>\n <attrdef>Weight percent of strontianite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>5</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Bastn\xc3\xa4site</attrlabl>\n <attrdef>Weight percent of bastn\xc3\xa4site calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>57</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cerussite</attrlabl>\n <attrdef>Weight percent of cerussite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hydrotalcite</attrlabl>\n <attrdef>Weight percent of hydrotalcite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>24</rdommin>\n <rdommax>24</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Apatite</attrlabl>\n <attrdef>Weight percent of apatite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>8</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fluorite</attrlabl>\n <attrdef>Weight percent of fluorite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sulfur</attrlabl>\n <attrdef>Weight percent of sulfur calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Weighted-R</attrlabl>\n <attrdef>An agreement index that measures the overall fit quality of the Reitveld\nrefinement. Weighted R-value (Rwp) is calculated according to the\nequation: Rwp = [?wi(yio-yib)2/?wiy2io]1/2 *100, where wi (weight factor at point i) is 1/ESD2 (estimated standard deviation), yio is the net intensity calculated at point i, and yib is the background intensity at point i. Values under 10 are considered to reflect a good quality fit.</attrdef>\n <attrdefs>Malvern Panalytical</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.8</rdommin>\n <rdommax>11.8</rdommax>\n <attrunit>Unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Goodness of Fit</attrlabl>\n <attrdef>An agreement index calculated by dividing the weighted R-value by the\nexpected R-value.</attrdef>\n <attrdefs>Malvern Panalytical</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.3</rdommin>\n <rdommax>4.4</rdommax>\n <attrunit>unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Notes</attrlabl>\n <attrdef>Indicates the d-spacing values of unmatched peaks, instances where minerals were used as a proxy for unidentified clays, and other sample preperation details.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Indicates the d-spacing values of unmatched peaks, instances where minerals were used as a proxy for unidentified clays, and other sample preperation details.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Split variation</enttypl>\n <enttypd>Estimates of mineral abundances based on Rietveld refinement of X-ray\ndiffraction data from various sample subsplits. These data are provided\nto show variation in mineral abundance estimates for subsplits of\nindividual samples.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>The sample identifier. Four samples of varying composition were\nchosen to observe variation in mineral abundance estimation between subsplits. Three subsplits from each sample were analyzed (Indicated by "Split 1, Split 2, and Split 3"). Additionally the IL-BG-6_Split3 sample was analyzed three additional times (indicated by "_1, _2, and _3").</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The sample identifier.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Quartz</attrlabl>\n <attrdef>Weight percent of quartz calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>23</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>K-feldpsar</attrlabl>\n <attrdef>Weight percent of alkali feldspar minerals (excluding albite) calculated\nby Rietveld refinement. Dashed cells indicate absence of mineral in\nsample. Cells with value 0 indicate trace (less than 0.5 weight\npercent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>13</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Amphibole</attrlabl>\n <attrdef>Weight percent of minerals within the amphibole supergroup calculated by\nRietveld refinement. Dashed cells indicate absence of mineral in sample.\nCells with value 0 indicate trace (less than 0.5 weight percent)\namounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>35</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mica</attrlabl>\n <attrdef>Weight percent of di- and tri-octahedral mica minerals characterized by\nthe presence of a 10Angstrom peak calculated by Rietveld refinement.\nDashed cells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>12</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chlorite</attrlabl>\n <attrdef>Weight percent of the chlorite-group minerals calculated by Rietveld\nrefinement. Dashed cells indicate absence of mineral in sample. Cells\nwith value 0 indicate trace (less than 0.5 weight percent) amounts of\nmineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>18</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Talc</attrlabl>\n <attrdef>Weight percent of talc calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>11</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hematite</attrlabl>\n <attrdef>Weight percent of hematite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>26</rdommin>\n <rdommax>28</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnetite</attrlabl>\n <attrdef>Weight percent of magnetite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>6</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pyrite</attrlabl>\n <attrdef>Weight percent of pyrite calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>12</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pyrrhotite</attrlabl>\n <attrdef>Weight percent of pyrrhotite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>5</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Gypsum</attrlabl>\n <attrdef>Weight percent of gypsum calculated by Rietveld refinement. Dashed cells\nindicate absence of mineral in sample. Cells with value 0 indicate\ntrace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>60</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Jarosite</attrlabl>\n <attrdef>Weight percent of jarosite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>12</rdommin>\n <rdommax>18</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calcite</attrlabl>\n <attrdef>Weight percent of calcite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>48</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Siderite</attrlabl>\n <attrdef>Weight percent of siderite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dolomite</attrlabl>\n <attrdef>Weight percent of dolomite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Apatite</attrlabl>\n <attrdef>Weight percent of apatite calculated by Rietveld refinement. Dashed\ncells indicate absence of mineral in sample. Cells with value 0\nindicate trace (less than 0.5 weight percent) amounts of mineral.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>86</rdommin>\n <rdommax>90</rdommax>\n <attrunit>weight percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Weighted-R</attrlabl>\n <attrdef>An agreement index that measures the overall fit quality of the Reitveld\nrefinement. Weighted R-value (Rwp) is calculated according to the\nequation: Rwp = [?wi(yio-yib)2/?wiy2io]1/2 *100, where wi (weight factor at point i) is 1/ESD2 (estimated standard deviation), yio is the net intensity calculated at point i, and yib is the background intensity at point i. Values under 10 are considered to reflect a good quality fit.</attrdef>\n <attrdefs>Malvern Panalytical</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.9</rdommin>\n <rdommax>9.6</rdommax>\n <attrunit>Unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Goodness of Fit</attrlabl>\n <attrdef>An agreement index calculated by dividing the weighted R-value by the\nexpected R-value.</attrdef>\n <attrdefs>Malvern Panalytical</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.7</rdommin>\n <rdommax>5.4</rdommax>\n <attrunit>Unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>USGS data release 10.5066/P9IWPGM7</resdesc>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>CSV</formname>\n <formvern>Excel 2016</formvern>\n <transize>23</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates_mineral_abundance_datasheet_tailings_samples.csv</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <digform>\n <digtinfo>\n <formname>CSV</formname>\n <formvern>Excel 2016</formvern>\n <transize>8</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates_mineral_abundance_datasheet_non-tailings_samples.csv</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <digform>\n <digtinfo>\n <formname>CSV</formname>\n <formvern>Excel 2016</formvern>\n <transize>4</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://www.sciencebase.gov/catalog/file/get/5bec30d2e4b0b3fc5cf913e0?name=Estimates_mineral_abundance_datasheet_split_variation.csv</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>Not applicable</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200819</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Carlin J Green</cntper>\n <cntorg>NORTHEAST REGION: EASTERN MINERAL & ENVIRON RES SC</cntorg>\n </cntperp>\n <cntpos>Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 954, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>703-648-6331</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Data Release Products](/catalog/item/5474ec49e4b04d7459a7eab2)
3. [2012 Geomagnetic Repeat Station Data](/catalog/folder/5dbb5ef7e4b06957974eda12)
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## Dates
Publication Date2020-07-27
## Citation
Worthington, E.W., and Morris, J.R., 2020, 2012 Geomagnetic Repeat Station Data: U.S. Geological Survey data release, https://doi.org/10.5066/P9UR3KWX.
## Summary
This data release consists of Magnetic Repeat Station data collected at three different sites in the central United States. One site is in Fremont, NE, the other two are in Hereford and Del Rio, TX. Repeat Stations are temporary magnetic installations, where the Earth’s magnetic field, or geomagnetic field, is measured for several days, with the goal of producing mean values of the vector components of the field, when the geomagnetic field is in a quiescent state. The data consist of approximately 72 hours of the vector magnetic field variations at each site plus calibration data measured periodically during the collection of the time series data. The time series data were digitally recorded using a 3-axis Narod fluxgate magnetometer \[...\]
## Summary
This data release consists of Magnetic Repeat Station data collected at three different sites in the central United States. One site is in Fremont, NE, the other two are in Hereford and Del Rio, TX. Repeat Stations are temporary magnetic installations, where the Earth’s magnetic field, or geomagnetic field, is measured for several days, with the goal of producing mean values of the vector components of the field, when the geomagnetic field is in a quiescent state. The data consist of approximately 72 hours of the vector magnetic field variations at each site plus calibration data measured periodically during the collection of the time series data. The time series data were digitally recorded using a 3-axis Narod fluxgate magnetometer and GEM GSM-19 overhauser magnetometer. The data were stored in files that could be used in a spreadsheet. The calibration data needed to derive absolute data were recorded manually using a Declination-Inclination magnetometer. Absolute and baseline values were computed using spreadsheets.
## Contacts
Point of Contact
:
[Edward W Worthington](/catalog/catalogParty/show?partyId=45373)
Originator
:
[Edward W Worthington](/catalog/catalogParty/show?partyId=45373),
[Jacob R Morris](/catalog/catalogParty/show?partyId=7198)
Metadata Contact
:
[Edward W Worthington](/catalog/catalogParty/show?partyId=45373)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Natural Hazards](/catalog/catalogParty/show?partyId=Natural+Hazards)
SDC Data Owner
:
[Geomagnetism Program](/catalog/catalogParty/show?partyId=64243)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5dbb5ef7e4b06957974eda12?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5dbb5ef7e4b06957974eda12?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5dbb5ef7e4b06957974eda12?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
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| | | | |
| --- | --- | --- | --- |
| 2012 Geomagnetic Repeat Station Data.xml<br>_Original FGDC Metadata_ | View | 9.98 KB | application/fgdc+xml |
| DelRio\_2012\_minute\_data.csv | | 100.04 KB | text/csv |
| DelRio\_2012\_baselines.csv | | 460 Bytes | text/csv |
| DelRio\_means.csv | | 449 Bytes | text/csv |
| Hereford\_2012\_minute\_data.csv | | 122.86 KB | text/csv |
| Hereford\_2012\_baselines.csv | | 569 Bytes | text/csv |
| Hereford\_means.csv | | 487 Bytes | text/csv |
| Fremont\_2012\_minute\_data.csv | | 177.19 KB | text/csv |
| Fremont\_2012\_baselines.csv | | 634 Bytes | text/csv |
| Fremont\_means.csv | | 487 Bytes | text/csv |
## Purpose
Repeat stations are usually re-occupied on average every 3 to 5 years. Mean values for the vector components of Earth's magnetic field are used to estimate the secular variation change at points between U. S. geomagnetic observatories. Traditionally, Repeat Station data are used to fill in gaps between observatories in the computation of magnetic models of the geomagnetic field. Two established repeat stations were occupied in Fremont, NE and Hereford, TX. These two stations were last occupied in 2001. A third station was established at the site of the Del Rio, TX magnetic observatory which had been shut down in 2009.
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## Communities
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## Provenance
Data sourceInput directly
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9UR3KWX |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Edward W. Worthington</origin>\n <origin>Jacob R. Morris</origin>\n <pubdate>20200727</pubdate>\n <title>2012 Geomagnetic Repeat Station Data</title>\n <geoform>The data are arranged in csv files of the magnetic vector data.</geoform>\n <pubinfo>\n <pubplace>Golden, CO</pubplace>\n <publish>U. S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9UR3KWX</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Repeat Stations are temporary magnetic installations, where the Earth\xe2\x80\x99s magnetic field, or geomagnetic field, is measured for several days, with the goal of producing mean values of the vector components of the field, when the geomagnetic field is in a quiescent state. The data consist of approximately 72 hours of the vector magnetic field variations at each site plus calibration data measured periodically during the collection of the time series data. The time series data were digitally recorded using a 3-axis Narod fluxgate magnetometer and GEM GSM-19 overhauser magnetometer. The data were stored in files that could be used in a spreadsheet. The calibration or Absolute data were recorded manually using a Declination-Inclination magnetometer. The data were entered into a spreadsheet to compute the Absolute and baseline values.</abstract>\n <purpose>Repeat stations are usually re-occupied on average every 3 to 5 years. Mean values for the vector components of Earth's magnetic field are used to estimate the secular variation change at points between U. S. geomagnetic observatories. Traditionally, Repeat Station data are used to fill in gaps between observatories in the computation of magnetic models of the geomagnetic field. Two established repeat stations were occupied in Fremont, NE and Hereford, TX. These two stations were last occupied in 2001. A third station was established at the site of the Del Rio, TX magnetic observatory which had been shut down in 2009.</purpose>\n <supplinf>USGS repeat station surveys are categorized as \xe2\x80\x9cfirst order surveys\xe2\x80\x9d using the variometer method as described in Newitt et al. (1996). In this type of survey, magnetic variations for Horizontal Intensity (H), Declination (D), Vertical Intensity (Z), and Total Field Intensity (F) are continuously recorded for 2 to 4 days of low magnetic activity. Standard practice for repeat station data is to compute a \xe2\x80\x9cmidnight mean\xe2\x80\x9d using the variation or fluxgate data recorded overnight. Local midnight for the station is determined for the date of occupation. This can usually be determined from sunrise and sunset times provided by the local weather service. In the case of the three sites the times were Central Standard Time. The variation data from the fluxgate are corrected using the baseline data from absolute observations performed the afternoon/evening prior to midnight and the following morning. Usually an average of the pre- and post-midnight results is used for the baseline correction. Additionally, the F data are corrected using the F pier correction. Once the corrections have been made, the midnight average is computed for a 4 hour period of data centered on midnight.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>20121019,20121023</caldate>\n </sngdate>\n <sngdate>\n <caldate>20121024,20121027</caldate>\n </sngdate>\n <sngdate>\n <caldate>20121028,20121030</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-103.55712890571</westbc>\n <eastbc>-95.47119140603</eastbc>\n <northbc>41.508249648439</northbc>\n <southbc>27.458648360414</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Magnetic Field (Earth)</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5dbb5ef7e4b06957974eda12</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Amistad National Recreation Area, Val Verde County, TX</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Edward W. Worthington</cntper>\n <cntorg>U. S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Geophysicist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>PO Box 25048 MS 966</address>\n <city>Denver</city>\n <state>Colorado</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-273-8472</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>All time series data were calibrated using Absolute measurements recorded at each site. A Declination-Inclination Magnetometer, mounted on a tripod, was set up over each station marker. Measurements were performed early in the morning and late afternoon, each day the recording system was operating. The instrument used was calibrated to achieve an accuracy of +/- 5.0 nT.</attraccr>\n </attracc>\n <logic>The Fremont and Hereford time series data were compared with Observatory recordings at Boulder, CO observatory to detect artificial disturbances (there were none) and similarity. The Del Rio time series was compared with recordings from Stennis Observatory located in western Mississippi.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>A midnight mean was computed for each night the systems were operating. The midnight mean is defined as 2 hours before and after local midnight. An average baseline value was computed for the three vector components using the absolute values from before and after midnight. This baseline value was used to determine a mean value of H, D, and Z. The mean value for F was computed using a F correction measured the first day.</procdesc>\n <procdate>20141230</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Fremont Municipal Airport, Fremont, NE. Hereford Municipal Airport, Hereford, TX. Del Rio Magnetic Observatory, Del Rio, TX.</indspref>\n <direct>Vector</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>29.4945</latres>\n <longres>-100.9152</longres>\n <geogunit>Degrees and decimal minutes</geogunit>\n </geograph>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>DelRio_2012_minute_data.csv</enttypl>\n <enttypd>The spreadsheet contains 6 columns of data, with minute values of magnetic field data recorded 10/28/2012 to 10/30/2012.</enttypd>\n <enttypds>Primary author</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Day number; Minute number; H; E; Z; F</attrlabl>\n <attrdef>Day number - number of days since January 1\nMinute number - number of minutes since 00:00 UT\nH - Horizontal component of the Magnetic field, measured in nT\nE - Declination component measured in nT\nZ - Vertical component of the magnetic field, measured in nT\nF - Total Tield Intensity or magnitude of the magnetic field, measured in nT</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0 for the magnetic field values</rdommin>\n <rdommax>480000</rdommax>\n <attrunit>nanoTeslas (nT)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>Edward W. Worthington</cntper>\n <cntorg>U. S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Geophysicist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>PO Box 25046 MS 966</address>\n <city>Denver</city>\n <state>Colorado</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-273-8472</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n <techpreq>These data files are in csv files. The files can be read into any spreadsheet, including Excel or other freeware spreadsheets.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200831</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Edward W. Worthington</cntper>\n <cntorg>U. S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Geophysicist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>PO Box 25046, MS 966</address>\n <city>Denver</city>\n <state>Colorado</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-273-8472</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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## Dates
Publication Date2019-06-26Start Date2016-12-01End Date2017-03-31
## Citation
Opatz, C.C., Curran, C.A., Tecca A.E., and Grossman, E.E., 2019, Stage, water velocity and water quality data collected in the Lower Nisqually River, McAllister Creek and tidal channels of the Nisqually River Delta, Thurston County, Washington, February 11, 2016 to September 18, 2017: U.S. Geological Survey data release, https://doi.org/10.5066/F7GF0SG7.
## Summary
Two sensors, a vented conductivity, temperature and depth sensor (CTD) and a turbidity meter, were installed on a piling at the mouth of McAllister Creek at site MC3 (N 47° 06’ 01”/W 122° 43’ 36”) and connected to a telemetered data collection platform that was used to program, power, and log data for each sensor. Timing of the 15-minute sampling interval was synched among both sensors. The site is tidally influenced. The CTD (InSitu Aqua Troll) measured water temperature, water depth, specific conductance, and salinity from December 24, 2016 to February 17, 2017 (55 days). Water depth ranged from 0.52 to 5.49 meters. Temperature ranged from 1.1 to 9.8 degrees C. Specific conductance ranged from 5,500 to 43,100 uS/cm. Salinity ranged \[...\]
## Summary
Two sensors, a vented conductivity, temperature and depth sensor (CTD) and a turbidity meter, were installed on a piling at the mouth of McAllister Creek at site MC3 (N 47° 06’ 01”/W 122° 43’ 36”) and connected to a telemetered data collection platform that was used to program, power, and log data for each sensor. Timing of the 15-minute sampling interval was synched among both sensors. The site is tidally influenced. The CTD (InSitu Aqua Troll) measured water temperature, water depth, specific conductance, and salinity from December 24, 2016 to February 17, 2017 (55 days). Water depth ranged from 0.52 to 5.49 meters. Temperature ranged from 1.1 to 9.8 degrees C. Specific conductance ranged from 5,500 to 43,100 uS/cm. Salinity ranged from 3.4 to 31.5 PSU. The turbidity meter (FTS DTS-12) measured turbidity and temperature from December 1, 2016 to March 31, 2017 (120 days). Turbidity ranged from 0.6 to 103.6 FNU. Temperature ranged from 1.3 to 13.1 degrees C. Data gaps of 15-minutes or more were reported as “NA” and occurred when either: the variance of turbidity measurements exceeded twice the measured value, or when the turbidity sensor was out of water. This site is also referenced as NWIS Site ID 1208151620 McAllister Creek Estuary at Mouth near Olympia, WA.
## Contacts
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[Chad C. Opatz](/catalog/catalogParty/show?partyId=Chad+C.+Opatz),
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[US Geological Survey](/catalog/catalogParty/show?partyId=US+Geological+Survey)
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| Water Data for McAllister Creek at Site MC3.xml<br>_Original FGDC Metadata_ | View | 11.66 KB | application/fgdc+xml |
| 20161201\_130228.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/59f8d9a9e4b063d5d309f243?f=__disk__2e%2F32%2F59%2F2e3259df8a6b76ba092be0084512190c75ad98e2&width=150&height=84) | 4.45 MB | image/jpeg |
| MC3\_CTD\_15min.csv | | 186.3 KB | text/csv |
| MC3\_DTS12\_15min.csv | | 267.97 KB | text/csv |
| | | |
| --- | --- | --- |
| MC3.zip | | 4.11 KB |
Shapefile:
MC3.zip
## Purpose
Data were obtained to support hydrodynamic modeling efforts for informing adaptive management scenarios to improve delta restoration outcomes.
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## Provenance
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## Additional Information
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Chad C. Opatz</origin>\n <origin>Christopher A. Curran</origin>\n <origin>Allison E. Tecca</origin>\n <pubdate>2019</pubdate>\n <title>Water Data for McAllister Creek at Site MC3</title>\n <geoform>time series</geoform>\n <pubinfo>\n <pubplace>Tacoma, WA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7GF0SG7</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Two sensors, a vented conductivity, temperature and depth sensor (CTD) and a turbidity meter, were installed on a piling at the mouth of McAllister Creek at site MC3 (N 47o 06\xe2\x80\x99 01\xe2\x80\x9d/W 122o 43\xe2\x80\x99 36\xe2\x80\x9d) and connected to a telemetered data collection platform that was used to program, power, and log data for each sensor. Timing of the 15-minute sampling interval was synched among both sensors. The site is tidally influenced. The CTD (InSitu Aqua Troll) measured water temperature, water depth, specific conductance, and salinity from December 24, 2016 to February 17, 2017 (55 days). Water depth ranged from 0.52 to 5.49 meters. Temperature ranged from 1.1 to 9.8 degrees C. Specific conductance ranged from 5,500 to 43,100 uS/cm. Salinity ranged from 3.4 to 31.5 PSU. The turbidity meter (FTS DTS-12) measured turbidity and temperature from December 1, 2016 to March 31, 2017 (120 days). Turbidity ranged from 0.6 to 103.6 FNU. Temperature ranged from 1.3 to 13.1 degrees C. Data gaps of 15-minutes or more were reported as \xe2\x80\x9cNA\xe2\x80\x9d and occurred when either: the variance of turbidity measurements exceeded twice the measured value, or when the turbidity sensor was out of water. NWIS Site ID 1208151620 McAllister Creek Estuary at Mouth near Olympia, WA.</abstract>\n <purpose>Data were obtained to support hydrodynamic modeling efforts for informing adaptive management scenarios to improve delta restoration outcomes.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20161201</begdate>\n <enddate>20170331</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-122.7267</westbc>\n <eastbc>-122.7266</eastbc>\n <northbc>47.1004</northbc>\n <southbc>47.10039</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Sediment</themekey>\n <themekey>Hydrodynamics</themekey>\n <themekey>stream stage</themekey>\n <themekey>temperature</themekey>\n <themekey>salinity</themekey>\n <themekey>specific conductance</themekey>\n <themekey>time series data</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:59f8d9a9e4b063d5d309f243</themekey>\n </theme>\n <place>\n <placekt>Nisqually River</placekt>\n <placekey>Billy Frank Jr. Nisqually National Wildlife Refuge</placekey>\n <placekey>Thurston County</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Chad C. Opatz</cntper>\n <cntorg>USGS</cntorg>\n </cntperp>\n <cntpos>Hydrologic Technician</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>934 Broadway Ave. Suite 300</address>\n <city>Tacoma</city>\n <state>Washington</state>\n <postal>98405</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>253-552-1668</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>The sensor recorded 15-minute values for water depth and temperature. A survey grade GPS was used to establish water surface elevation during the sensor deployment and on this basis, water depth was converted to water surface elevation and referenced to NAVD88 datum.</procdesc>\n <procdate>20180501</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Chad Opatz</cntper>\n <cntorg>USGS/Washington Water Science Center</cntorg>\n </cntperp>\n <cntpos>Hydrologic Technician</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>934 Broadway Ave. Suite 300</address>\n <city>Tacoma</city>\n <state>WA</state>\n <postal>98402</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>253-552-1668</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>GNIS placename</indspref>\n </spdoinfo>\n <spref>\n <horizsys>\n <local>\n <localdes>MCALLISTER CREEK AT MOUTH NEAR OLYMPIA, WA</localdes>\n <localgeo>Nisqually Reach Nature Center. NWIS ID 1208151620.</localgeo>\n </local>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>MC3_CTD_15min.csv</enttypl>\n <enttypd>A .csv file containing 15 minute time-series data measured by a vented CTD logger (InSitu Aqua Troll)</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>DateTime_UTC</attrlabl>\n <attrdef>MM/DD/YYYY HH:MM</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>12/24/2016</rdommin>\n <rdommax>02/17/2017</rdommax>\n <attrunit>55 days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Depth_m</attrlabl>\n <attrdef>Depth of sensor below water surface</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.52</rdommin>\n <rdommax>5.49</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Temp_C</attrlabl>\n <attrdef>Water temperature in degrees Celsius</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1</rdommin>\n <rdommax>9.8</rdommax>\n <attrunit>Degree Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SpCond_uS/cm</attrlabl>\n <attrdef>Specific conductance at 25 degrees Celsius in microSeimens per centimeter</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5500</rdommin>\n <rdommax>43100</rdommax>\n <attrunit>micro-Seimens per centimeter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Salinity_PSU</attrlabl>\n <attrdef>A measure of dissolved salts in water.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.4</rdommin>\n <rdommax>31.5</rdommax>\n <attrunit>practical salinity units (PSU)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>MC3_Turbidity_15min.csv</enttypl>\n <enttypd>A .csv file containing turbidity and temperature data measured by a DTS-12 sensor (Forest Technology Services).</enttypd>\n <enttypds>producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>DateTime_UTC</attrlabl>\n <attrdef>MM/DD/YYYY HH;MM in Universal Coordinated Time Zone</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>12/1/2016</rdommin>\n <rdommax>3/31/2017</rdommax>\n <attrunit>120 days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Turbidity_FNU</attrlabl>\n <attrdef>A measure of water turbidity in formazin nephelometric units</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.6</rdommin>\n <rdommax>103.6</rdommax>\n <attrunit>Formazin nephelometric units (FNU)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Temp_C</attrlabl>\n <attrdef>Water temperature in degrees Celsius</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.3</rdommin>\n <rdommax>11.7</rdommax>\n <attrunit>Degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Although these data have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the accuracy or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. This disclaimer applies both to individual use of the data and aggregate use with other data. It is strongly recommended that these data are directly acquired from a U.S. Geological Survey server, and not indirectly through other sources which may have changed the data in some way. It is also strongly recommended that careful attention be paid to the contents of the metadata file associated with these data. The U.S. Geological Survey shall not be held liable for improper or incorrect use of the data described and/or contained herein</distliab>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Chad C. Opatz</cntper>\n <cntorg>US Geological Survey</cntorg>\n </cntperp>\n <cntpos>Hydrologic Technician</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>934 Broadway Ave Suite 300</address>\n <city>Tacoma</city>\n <state>Washington</state>\n <postal>98405</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>253-552-1668</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2016Start Date1989-01-01End Date2089-12-31
## Citation
Hansen,G.J.A., Read, J.S., Hansen, J.F., Winslow, L.A., 2016, Projected shifts in fish species dominance in Wisconsin lakes under climate change: U.S. Geological Survey data release, https://doi.org/10.5066/F7X0655K.
## Summary
Temperate lakes may contain both coolwater fish species such as walleye (Sander vitreus) and warmwater species such as largemouth bass (Micropterus salmoides). Recent declines in walleye and increases in largemouth bass populations have raised questions regarding the future trajectories and appropriate management actions for these important species. We developed a thermodynamic model of water temperatures driven by downscaled climate data and lake specific characteristics to estimate daily water temperature profiles for 2148 lakes in Wisconsin, USA under contemporary (1989-2014) and future (2040-2064 and 2065-2089) conditions. We correlated contemporary walleye recruitment success and largemouth bass relative abundance to modeled water \[...\]
## Summary
Temperate lakes may contain both coolwater fish species such as walleye (Sander vitreus) and warmwater species such as largemouth bass (Micropterus salmoides). Recent declines in walleye and increases in largemouth bass populations have raised questions regarding the future trajectories and appropriate management actions for these important species. We developed a thermodynamic model of water temperatures driven by downscaled climate data and lake specific characteristics to estimate daily water temperature profiles for 2148 lakes in Wisconsin, USA under contemporary (1989-2014) and future (2040-2064 and 2065-2089) conditions. We correlated contemporary walleye recruitment success and largemouth bass relative abundance to modeled water temperature, lake morphometry, and lake productivity, and projected lake specific changes in each species under future climate conditions. Walleye recruitment success was negatively related and largemouth bass abundance was positively related to water temperature degree days. Both species exhibited a threshold response at the same degree day value, albeit in opposite directions. Degree days were predicted to increase in the future, although the magnitude of increase varied among lakes, time periods, and global circulation models (GCMs). Under future conditions, we predicted a loss of walleye recruitment in 30-70% of lakes, and an increase to high largemouth bass relative abundance in 17-55% of additional lakes. The percentage of lakes with abundant largemouth bass and failed walleye recruitment was predicted to increase from 59% in contemporary conditions to 86% of lakes by mid-century and to 91% of lakes by late century, based on median projections across GCMs. Conversely, the number of lakes with successful walleye recruitment and low largemouth bass abundance was predicted to decline from 8.5% of lakes in contemporary conditions to only 38 1% of lakes in both future periods. Importantly, we identify nearly 100 resilient lakes predicted to continue to support walleye recruitment. Management resources could target preserving these resilient walleye populations. This data set contains the following parameters: year, WBDY\_WBIC, days\_12\_28, height\_12\_28, vol\_12\_28, days\_10.6\_11.2, height\_10.6\_11.2, vol\_10.6\_11.2, days\_18.2\_28.2, height\_18.2\_28.2, vol\_18.2\_28.2, days\_18\_22, height\_18\_22, vol\_18\_22, days\_19.3\_23.3, height\_19.3\_23.3, vol\_19.3\_23.3, days\_19\_23, height\_19\_23, vol\_19\_23, days\_20.6\_23.2, height\_20.6\_23.2, vol\_20.6\_23.2, days\_20\_30, height\_20\_30, vol\_20\_30, days\_21\_100, days\_22\_23, height\_22\_23, vol\_22\_23, days\_23\_31, height\_23\_31, vol\_23\_31, days\_25\_29, height\_25\_29, vol\_25\_29, days\_26.2\_32, height\_26.2\_32, vol\_26.2\_32, days\_26\_28, height\_26\_28, vol\_26\_28, days\_26\_30, height\_26\_30, vol\_26\_30, days\_28\_29, height\_28\_29, vol\_28\_29, days\_28\_32, height\_28\_32, vol\_28\_32, days\_29\_100, height\_29\_100, vol\_29\_100, days\_30\_31, height\_30\_31, vol\_30\_31, durStrat, winter\_dur\_0-4, spring\_days\_in\_10.5\_15.5, mean\_surf\_jul, mean\_surf\_JAS, peak\_temp, post\_ice\_warm\_rate, SthermoD\_mean, dateOver21, dateOver18, , dateOver8.9, SmetaTopD\_mean, SmetaBotD\_mean, coef\_var\_30\_60, coef\_var\_0\_30, mean\_epi\_hypo\_ratio, mean\_epi\_vol, mean\_hyp\_vol, simulation\_length\_days, volume\_mean\_m\_3, volume\_sum\_m\_3\_day, GDD\_wtr\_10c, GDD\_wtr\_5c, optic\_hab\_8\_64, thermal\_hab\_11\_25, optic\_thermal\_hab, optic\_hab\_8\_64\_surf, thermal\_hab\_11\_25\_surf, optic\_thermal\_hab\_surf calculated for 2148 lakes
## Contacts
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## Purpose
Fisheries biology, limnological research, and climate science.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Gretchen J.A. Hansen</origin>\n <origin>Jordan S. Read</origin>\n <origin>Jonathan F. Hansen</origin>\n <origin>Luke A. Winslow</origin>\n <pubdate>2016</pubdate>\n <title>ECHAM5.0 model: Projected shifts in fish species dominance in Wisconsin lakes under climate change</title>\n <geoform>text files</geoform>\n <onlink>http://dx.doi.org/10.5066/F7X0655K</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Gretchen J.A. Hansen</origin>\n <origin>Jordan S. Read</origin>\n <origin>Jonathan F. Hansen</origin>\n <origin>Luke A. Winslow</origin>\n <pubdate>2016</pubdate>\n <title>Projected shifts in fish species dominance in Wisconsin lakes under climate change</title>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Temperate lakes may contain both coolwater fish species such as walleye (Sander vitreus) and warmwater species such as largemouth bass (Micropterus salmoides). Recent declines in walleye and increases in largemouth bass populations have raised questions regarding the future trajectories and appropriate management actions for these important species. We developed a thermodynamic model of water temperatures driven by downscaled climate data and lake specific characteristics to estimate daily water temperature profiles for 2148 lakes in Wisconsin, USA under contemporary (1989-2014) and future (2040-2064 and 2065-2089) conditions. We correlated contemporary walleye recruitment success and largemouth bass relative abundance to modeled water temperature, lake morphometry, and lake productivity, and projected lake specific changes in each species under future climate conditions. Walleye recruitment success was negatively related and largemouth bass abundance was positively related to water temperature degree days. Both species exhibited a threshold response at the same degree day value, albeit in opposite directions. Degree days were predicted to increase in the future, although the magnitude of increase varied among lakes, time periods, and global circulation models (GCMs). Under future conditions, we predicted a loss of walleye recruitment in 30-70% of lakes, and an increase to high largemouth bass relative abundance in 17-55% of additional lakes. The percentage of lakes with abundant largemouth bass and failed walleye recruitment was predicted to increase from 59% in contemporary conditions to 86% of lakes by mid-century and to 91% of lakes by late century, based on median projections across GCMs. Conversely, the number of lakes with successful walleye recruitment and low largemouth bass abundance was predicted to decline from 8.5% of lakes in contemporary conditions to only 38 1% of lakes in both future periods. Importantly, we identify nearly 100 resilient lakes predicted to continue to support walleye recruitment. Management resources could target preserving these resilient walleye populations. This data set contains the following parameters: year, WBDY_WBIC, days_12_28, height_12_28, vol_12_28, days_10.6_11.2, height_10.6_11.2, vol_10.6_11.2, days_18.2_28.2, height_18.2_28.2, vol_18.2_28.2, days_18_22, height_18_22, vol_18_22, days_19.3_23.3, height_19.3_23.3, vol_19.3_23.3, days_19_23, height_19_23, vol_19_23, days_20.6_23.2, height_20.6_23.2, vol_20.6_23.2, days_20_30, height_20_30, vol_20_30, days_21_100, days_22_23, height_22_23, vol_22_23, days_23_31, height_23_31, vol_23_31, days_25_29, height_25_29, vol_25_29, days_26.2_32, height_26.2_32, vol_26.2_32, days_26_28, height_26_28, vol_26_28, days_26_30, height_26_30, vol_26_30, days_28_29, height_28_29, vol_28_29, days_28_32, height_28_32, vol_28_32, days_29_100, height_29_100, vol_29_100, days_30_31, height_30_31, vol_30_31, durStrat, winter_dur_0-4, spring_days_in_10.5_15.5, mean_surf_jul, mean_surf_JAS, peak_temp, post_ice_warm_rate, SthermoD_mean, dateOver21, dateOver18, , dateOver8.9, SmetaTopD_mean, SmetaBotD_mean, coef_var_30_60, coef_var_0_30, mean_epi_hypo_ratio, mean_epi_vol, mean_hyp_vol, simulation_length_days, volume_mean_m_3, volume_sum_m_3_day, GDD_wtr_10c, GDD_wtr_5c, optic_hab_8_64, thermal_hab_11_25, optic_thermal_hab, optic_hab_8_64_surf, thermal_hab_11_25_surf, optic_thermal_hab_surf calculated for 2148 lakes</abstract>\n <purpose>Fisheries biology, limnological research, and climate science.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>19890101</begdate>\n <enddate>20891231</enddate>\n </rngdates>\n </timeinfo>\n <current>model estimates</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>none planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-92.814</westbc>\n <eastbc>-86.937</eastbc>\n <northbc>46.853</northbc>\n <southbc>42.489</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>none</themekt>\n <themekey>water</themekey>\n <themekey>temperate lakes</themekey>\n <themekey>reservoirs</themekey>\n <themekey>modeling</themekey>\n <themekey>bass</themekey>\n <themekey>walleye</themekey>\n <themekey>climate change</themekey>\n <themekey>largemouth bass</themekey>\n <themekey>species distribution models</themekey>\n <themekey>thermal profiles</themekey>\n </theme>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>environment</themekey>\n <themekey>inlandWaters</themekey>\n <themekey>007</themekey>\n <themekey>012</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:57a37e48e4b006cb455692ea</themekey>\n </theme>\n <place>\n <placekt>Department of Commerce, 1995, Countries, Dependencies, Areas of Special Sovereignty, and \nTheir Principal Administrative Divisions, Federal Information Processing Standard (FIPS) 10-4, \nWashington, D.C., National Institute of Standards and Technology</placekt>\n <placekey>United States</placekey>\n <placekey>US</placekey>\n </place>\n <place>\n <placekt>U.S. Department of Commerce, 1987, Codes for the identification of the States, the District of Columbia and the outlying areas of the United States, and associated areas (Federal Information Processing Standard 5-2): Washington, D. C., NIST</placekt>\n <placekey>Wisconsin</placekey>\n <placekey>WI</placekey>\n </place>\n <place>\n <placekt>none</placekt>\n <placekey>Wisconsin</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>These data are subject to change and are not citable until reviewed and approved for official publication by the USGS</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Jordan S. Read</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>8551 Research Way</address>\n <city>Middleton</city>\n <state>WI</state>\n <postal>53562</postal>\n <country>U.S.A.</country>\n </cntaddr>\n <cntvoice>608 821-3922</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>This study was funded by the Department of the Interior Northeast Climate Science Center, the United States Geological Survey National Climate Change and Wildlife Science Center grant 10909172 to the University of Wisconsin\xe2\x80\x93Madison, and the WDNR Federal Aid in Sport Fish Restoration (Project F-95-P, study SSBW).</datacred>\n <native>Multiple computer systems were used to generate these data, including linux, OSX. The open source language R was used on all systems, as well as the open-source model GLM.</native>\n <crossref>\n <citeinfo>\n <origin>Matthey R. Hipsey</origin>\n <origin>Louise C. Bruce</origin>\n <origin>David P. Hamilton</origin>\n <pubdate>2013</pubdate>\n <title>GLM General Lake Model: Model Overview and User Information</title>\n <onlink>http://aed.see.uwa.edu.au/research/models/GLM/index.html</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Steven W. Hostetler</origin>\n <origin>Jay R. Adler</origin>\n <origin>Andrea M. Allan</origin>\n <pubdate>2011</pubdate>\n <title>Dynamically downscaled climate simulations over North America: Methods, evaluation and supporting documentation for users</title>\n <onlink>http://pubs.usgs.gov/of/2011/1238/</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Jordan S. Read</origin>\n <origin>Luke A. Winslow</origin>\n <origin>Gretchen J.A. Hansen</origin>\n <origin>Jamon Van Den Hoek</origin>\n <origin>Paul C. Hanson</origin>\n <origin>Louise C. Bruce</origin>\n <origin>Corey D. Markfort</origin>\n <pubdate>2014</pubdate>\n <title>Simulating 2368 temperate lakes reveals weak coherence in stratification phenology</title>\n <onlink>http://dx.doi.org/10.1016/j.ecolmodel.2014.07.029</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>not applicable</logic>\n <complete>not applicable</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Water temperatures were modeled for 2148 lakes across Wisconsin using the General Lake Model (GLM) between 1989 and 2014 under the A2 emissions scenario for future (2040-2064 and 2065-2089) conditions. The ECHAM5.0 GCM was used for this dataset. From these depth-discrete water temperatures, a number of different common metrics of water temperature were calculated at the annual scale.</procdesc>\n <procdate>20160624</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Wisconsin</indspref>\n <direct>Point</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>Point</sdtstype>\n <ptvctcnt>2148</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.1</latres>\n <longres>0.1</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>North American Datum of 1983</horizdn>\n <ellips>Geodetic Reference System 80</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Lake water temperature metrics</enttypl>\n <enttypd>Calculated lake water temperature metrics derived from a series of model scenarios.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>year</attrlabl>\n <attrdef>simulated year</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>WBDY_WBIC</attrlabl>\n <attrdef>Wisconsin Department of Natural Resources Water Body Identification Code (WBIC)</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>nA</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_12_28</attrlabl>\n <attrdef>days in which there is any part of water column between 12-28 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_12_28</attrlabl>\n <attrdef>meters of water between 12-28 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_12_28</attrlabl>\n <attrdef>volume of water between 12-28 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_10.6_11.2</attrlabl>\n <attrdef>days in which there is any part of water column between 10.6-11.2 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_10.6_11.2</attrlabl>\n <attrdef>meters of water between 10.6-11.2 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_10.6_11.2</attrlabl>\n <attrdef>volume of water between 10.6-11.2 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_18.2_28.2</attrlabl>\n <attrdef>days in which there is any part of water column between 18.2-28.2 degrees C</attrdef>\n <attrdefs>Fang et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_18.2_28.2</attrlabl>\n <attrdef>meters of water between 18.2-28.2 degrees C</attrdef>\n <attrdefs>Fang et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_18.2_28.2</attrlabl>\n <attrdef>volume of water between 18.2-28.2 degrees C</attrdef>\n <attrdefs>Fang et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_18_22</attrlabl>\n <attrdef>days in which there is any part of water column between 18-22 degrees C</attrdef>\n <attrdefs>Christie and Regier 1988</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_18_22</attrlabl>\n <attrdef>meters of water between 18-22 degrees C</attrdef>\n <attrdefs>Christie and Regier 1988</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_18_22</attrlabl>\n <attrdef>volumne of water between 18-22 degrees C</attrdef>\n <attrdefs>Christie and Regier 1988</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_19.3_23.3</attrlabl>\n <attrdef>days in which there is any part of water columnbetween 19.3-23.3 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_19.3_23.3</attrlabl>\n <attrdef>meters of water between 19.3-23.3 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_19.3_23.3</attrlabl>\n <attrdef>volume of water between 19.3-23.3 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_19_23</attrlabl>\n <attrdef>days in which there is any part of water column between 19-23 degrees C</attrdef>\n <attrdefs>Cline et al. 2013</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_19_23</attrlabl>\n <attrdef>meters of water between 19-23 degrees C</attrdef>\n <attrdefs>Cline et al. 2013</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_19_23</attrlabl>\n <attrdef>volume of water between 19-23 degrees C</attrdef>\n <attrdefs>Cline et al. 2013</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_20.6_23.2</attrlabl>\n <attrdef>days in which there is any part of water column between 20.6 and 23.2 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_20.6_23.2</attrlabl>\n <attrdef>meters of water between 20.6 and 23.2 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_20.6_23.2</attrlabl>\n <attrdef>volume of water between 20.6 and 23.2 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_20_30</attrlabl>\n <attrdef>days in which there is any part of water column between 20-30 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_20_30</attrlabl>\n <attrdef>meters of water between 20-30 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_20_30</attrlabl>\n <attrdef>volume of water column between 20-30 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_21_100</attrlabl>\n <attrdef>duration of epilimnion temp >21 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_22_23</attrlabl>\n <attrdef>days in which there is any part of water column between 22 and 23 degrees C</attrdef>\n <attrdefs>Casselman 2002</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_22_23</attrlabl>\n <attrdef>meters of water between 22 and 23 degrees C</attrdef>\n <attrdefs>Casselman 2002</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_22_23</attrlabl>\n <attrdef>volume of water between 22 and 23 degrees C</attrdef>\n <attrdefs>Casselman 2002</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_23_31</attrlabl>\n <attrdef>days in which there is any part of water column between 23-31 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_23_31</attrlabl>\n <attrdef>height of water column between 23-31 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_23_31</attrlabl>\n <attrdef>volume of water column between 23-31 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_25_29</attrlabl>\n <attrdef>days in which any part of water column is between 25-29 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_25_29</attrlabl>\n <attrdef>meters of water between 25-29 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_25_29</attrlabl>\n <attrdef>volume of water between 25-29 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_26.2_32</attrlabl>\n <attrdef>days in which there is any part of water column between 26.6-32 degrees C</attrdef>\n <attrdefs>Countant 1977</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_26.2_32</attrlabl>\n <attrdef>meters of water between 26.6-32 degrees C</attrdef>\n <attrdefs>Countant 1977</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_26.2_32</attrlabl>\n <attrdef>volume of water between 26.6-32 degrees C</attrdef>\n <attrdefs>Countant 1977</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_26_28</attrlabl>\n <attrdef>days in which there is any part of water column between 26-28 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_26_28</attrlabl>\n <attrdef>meters of water between 26-28 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_26_28</attrlabl>\n <attrdef>volume of water between 26-28 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_26_30</attrlabl>\n <attrdef>days in which there is any part of water column between 26-30</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_26_30</attrlabl>\n <attrdef>meters of water between 26-30</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_26_30</attrlabl>\n <attrdef>volume of water between 26-30</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_28_29</attrlabl>\n <attrdef>days in which there is any part of water column between 28-29 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_28_29</attrlabl>\n <attrdef>meters of water between 28-29 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_28_29</attrlabl>\n <attrdef>volume of water between 28-29 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_28_32</attrlabl>\n <attrdef>days in which any part of water column is between 28-32 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_28_32</attrlabl>\n <attrdef>meters of water between 28-32 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_28_32</attrlabl>\n <attrdef>volume of water between 28-32 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_29_100</attrlabl>\n <attrdef>days in which there is any part of water column between 29-100 degrees C</attrdef>\n <attrdefs>Fang et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_29_100</attrlabl>\n <attrdef>meters of water between 29-100 degrees C</attrdef>\n <attrdefs>Fang et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_29_100</attrlabl>\n <attrdef>volume of water between 29 and 100 degrees C</attrdef>\n <attrdefs>Fang et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>days_30_31</attrlabl>\n <attrdef>days in which there is any part of water column between 30-31 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height_30_31</attrlabl>\n <attrdef>meters of water between 30-31 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>vol_30_31</attrlabl>\n <attrdef>volume of water between 30-31 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>durStrat</attrlabl>\n <attrdef>Duration of stratified period</attrdef>\n <attrdefs>de Stasio et al 1996</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>winter_dur_0-4</attrlabl>\n <attrdef># of days, beginning October 30 of the previous year and running through June of the given year, that surface water is <4 degrees C</attrdef>\n <attrdefs>Jones et al 2006, Hokanson 1977</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>spring_days_in_10.5_15.5</attrlabl>\n <attrdef>duration of surface temperature between 10.5-15.5 degrees C (Spring only)</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days before June 1 (in spring only)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>mean_surf_jul</attrlabl>\n <attrdef>mean july surface temperature</attrdef>\n <attrdefs>Jones et al 2006</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>degrees C</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>mean_surf_JAS</attrlabl>\n <attrdef>mean of surface tempertaure from July, August, September</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>degrees C</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>peak_temp</attrlabl>\n <attrdef>Maximum observed surface temperature</attrdef>\n <attrdefs>Shuter et al 2002, Shuter and Ing 1997</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>degrees C</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>post_ice_warm_rate</attrlabl>\n <attrdef>average change in surface temp (degrees C per day) 30 days post ice off</attrdef>\n <attrdefs>Busch et al. 1975; Madenijan et al. 1996</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>degrees C per day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SthermoD_mean</attrlabl>\n <attrdef>avg. thermocline depth in stratified period</attrdef>\n <attrdefs>Schindler et al. 1996</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>depth (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dateOver21</attrlabl>\n <attrdef>date where average surface temperature reaches 21 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Julian Day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dateOver18</attrlabl>\n <attrdef>date where average surface temperature reaches 18 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Julian Day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dateOver16.7</attrlabl>\n <attrdef>date at which avg surface temperature > 16.7 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Julian Day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dateOver8.9</attrlabl>\n <attrdef>date where average surface temperature reaches 8.9 degrees C</attrdef>\n <attrdefs>Wismer and Christie 1987</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Julian Day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SmetaTopD_mean</attrlabl>\n <attrdef>mean epilmnion meters during stratified period</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SmetaBotD_mean</attrlabl>\n <attrdef>mean hypolimnion meters during stratified period</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>linear distance (m)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>coef_var_30_60</attrlabl>\n <attrdef>CV of surface temperature from 30-60 days post ice off.</attrdef>\n <attrdefs>Sterns 1982, Hansen et al. 1998</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>unitless (CV)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>coef_var_0_30</attrlabl>\n <attrdef>CV of surface temperature from 0-30 days post ice-off</attrdef>\n <attrdefs>Koonce et al. 1977</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>unitless (CV)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>mean_epi_hypo_ratio</attrlabl>\n <attrdef>mean epilmnion volume/mean hypolimnion volume</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>unitless (ratio)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>mean_epi_vol</attrlabl>\n <attrdef>mean epilmnion volume during stratified period</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>mean_hyp_vol</attrlabl>\n <attrdef>mean hypolimnion volume during stratified period</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>volume (m^3*1000)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>simulation_length_days</attrlabl>\n <attrdef>Number of simulated days. Based on start/end being estimated ice on/off.</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>volume_mean_m_3</attrlabl>\n <attrdef>Average volume of lake</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>m^3</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>volume_sum_m_3_day</attrlabl>\n <attrdef>Daily sum of lake volume. Useful for standardizing Volume-based habitat metrics</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>day * volume (m^3)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GDD_wtr_10c</attrlabl>\n <attrdef>Surface water Growing Degree Days with a 10 deg C base</attrdef>\n <attrdefs>Venturelli et al 2010</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Day * degree (C )</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GDD_wtr_5c</attrlabl>\n <attrdef>Surface water Growing Degree Days with a 5 deg C base</attrdef>\n <attrdefs>Venturelli et al 2010</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Day * degree (C )</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>optic_hab_8_64</attrlabl>\n <attrdef>Area of lake bottom where light falls between 8-64 lux</attrdef>\n <attrdefs>Lester et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Day * m^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>thermal_hab_11_25</attrlabl>\n <attrdef>Area of lake bottom where temperature falls between 11-25 degrees C</attrdef>\n <attrdefs>Lester et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Day * m^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>optic_thermal_hab</attrlabl>\n <attrdef>Area of lake bottom where both light falls between 8-64 lux AND temperature falls between 11-25 degrees C</attrdef>\n <attrdefs>Lester et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Day * m^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>optic_hab_8_64_surf</attrlabl>\n <attrdef>Relative surface area of lake where light falls between 8-64 lux</attrdef>\n <attrdefs>Lester et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Day * m^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>thermal_hab_11_25_surf</attrlabl>\n <attrdef>Relative surface area of lake where temperature falls between 11-25 degrees C</attrdef>\n <attrdefs>Lester et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Day * m^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>optic_thermal_hab_surf</attrlabl>\n <attrdef>Relative surface area of lake where both light falls between 8-64 lux AND temperature falls between 11-25 degrees C</attrdef>\n <attrdefs>Lester et al 2004</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NA</rdommin>\n <rdommax>NA</rdommax>\n <attrunit>Day * m^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>Jordan S. Read</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80255</postal>\n <country>U.S.A.</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Tab-delimited text files</formname>\n <formvern>none</formvern>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F7X0655K</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200820</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Jordan S. Read</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Data Chief</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>8551 Research Way #120</address>\n <city>Middleton</city>\n <state>WI</state>\n <postal>53562</postal>\n <country>U.S.A.</country>\n </cntaddr>\n <cntvoice>608 821-3922</cntvoice>\n <cntfax>608 821-3817</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2020-06-25Start Date2017End Date2019
## Citation
Proctor, B., Lockner, D.A., Kilgore, B.D., Mitchell, T.M., and Beeler, N.M., 2020, Data from the manuscript: Direct evidence for fluid pressure, dilatancy, and compaction affecting slip in isolated faults: U.S. Geological Survey data release, https://doi.org/10.5066/P98U3DZX.
## Summary
Earthquake instability occurs as a result of strength loss during sliding on a fault. It has been known for over 50 years that fault compaction or dilatancy may cause significant weakening or strengthening by dramatically changing the fluid pressure trapped in faults. Despite this fundamental importance, we have no real understanding of the exact conditions that lead to compaction or dilation during nucleation or rupture. To date, no direct measurements of pore pressure changes during slip in hydraulically isolated faults have been reported. We show direct examples of fluid pressure variations during nucleation and rupture using a miniature pressure transducer embedded in an experimental fault. We demonstrate that fluids are not only \[...\]
## Summary
Earthquake instability occurs as a result of strength loss during sliding on a fault. It has been known for over 50 years that fault compaction or dilatancy may cause significant weakening or strengthening by dramatically changing the fluid pressure trapped in faults. Despite this fundamental importance, we have no real understanding of the exact conditions that lead to compaction or dilation during nucleation or rupture. To date, no direct measurements of pore pressure changes during slip in hydraulically isolated faults have been reported. We show direct examples of fluid pressure variations during nucleation and rupture using a miniature pressure transducer embedded in an experimental fault. We demonstrate that fluids are not only significant in controlling fault behavior, but can provide the dominant mechanism controlling fault stability. The effect of fluid pressure changes can exceed frictional variations predicted by rate- and state-dependent friction laws, exerting fundamental controls on earthquake rupture initiation.
## Contacts
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[Brian D Kilgore](/catalog/catalogParty/show?partyId=5465)
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[Brooks P Proctor](/catalog/catalogParty/show?partyId=22557),
[David A Lockner](/catalog/catalogParty/show?partyId=6194),
[Brian D Kilgore](/catalog/catalogParty/show?partyId=5465),
[Thomas M Mitchell](/catalog/catalogParty/show?partyId=Thomas+M+Mitchell),
[Nicholas M Beeler](/catalog/catalogParty/show?partyId=653)
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[Brian D Kilgore](/catalog/catalogParty/show?partyId=5465)
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| Metadata for Direct evidence for fault fluid pressure dilatancy and compaction driving earthquake instability affecting slip in isolated faults.xml<br>_Original FGDC Metadata_ | View | 22.38 KB | application/fgdc+xml |
| Data\_Archive\_Direct\_evidence\_for\_fault\_fluid\_pressure\_dilatancy.zip | | 386.38 KB | application/zip |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Direct evidence for fluid pressure, dilatancy, and compaction affecting slip in isolated faults (in press) | [https://doi.org/10.1029/2019GL086767](https://doi.org/10.1029/2019GL086767 "https://doi.org/10.1029/2019GL086767") |
## Purpose
Data were collected to study the nature of the influence of fluid pressure within a fault zone, and its impact on fault stability.
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## Provenance
This data was generated by the authors during laboratory experiments at the US Geological Survey Rock Physics Lab in Menlo Park, CA
## Additional Information
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| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P98U3DZX |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Proctor, Brooks</origin>\n <origin>Lockner, David A.</origin>\n <origin>Kilgore, Brian D.</origin>\n <origin>Mitchell, Thomas M.</origin>\n <origin>Beeler, Nicholas M.</origin>\n <pubdate>20200625</pubdate>\n <title>Data Release for "Direct evidence for fluid pressure, dilatancy, and compaction affecting slip in isolated faults"</title>\n <geoform>.txt files</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P98U3DZX</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Earthquake instability occurs as a result of strength loss during sliding on a fault. It has been known for over 50 years that fault compaction or dilatancy may cause significant weakening or strengthening by dramatically changing the fluid pressure trapped in faults. Despite this fundamental importance, we have no real understanding of the exact conditions that lead to compaction or dilation during nucleation or rupture. To date, no direct measurements of pore pressure changes during slip in hydraulically isolated faults have been reported. We show direct examples of fluid pressure variations during nucleation and rupture using a miniature pressure transducer embedded in an experimental fault. We demonstrate that fluids are not only significant in controlling fault behavior, but can provide the dominant mechanism controlling fault stability. The effect of fluid pressure changes can exceed frictional variations predicted by rate- and state-dependent friction laws, exerting fundamental controls on earthquake rupture initiation.</abstract>\n <purpose>Data were collected to study the nature of the influence of fluid pressure within a fault zone, and its impact on fault stability.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2017</begdate>\n <enddate>2019</enddate>\n </rngdates>\n </timeinfo>\n <current>consecutive lab tests</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-122.173</westbc>\n <eastbc>-122.1726</eastbc>\n <northbc>37.4558</northbc>\n <southbc>37.4555</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Earthquake</themekey>\n </theme>\n <theme>\n <themekt>NASA Global Change Master Directory</themekt>\n <themekey>earthquake</themekey>\n <themekey>fault zone</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5ea896b182cefae35a1faf3a</themekey>\n </theme>\n <place>\n <placekt>GNIS</placekt>\n <placekey>City of Menlo Park</placekey>\n </place>\n <stratum>\n <stratkt>none</stratkt>\n <stratkey>none</stratkey>\n </stratum>\n <temporal>\n <tempkt>none</tempkt>\n <tempkey>none</tempkey>\n </temporal>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Brian D Kilgore</cntper>\n <cntorg>SOUTHWEST REGION: EARTHQUAKE SCIENCE CENTER</cntorg>\n </cntperp>\n <cntpos>Geophysicist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 977, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4859</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>The methods used to acquire the data reported here are reliable time tested procedures to maximize the integrity of the data. Sensors are routinely checked for accuracy and results are compared for other recorded data to ensure that the data are consistent and high quality.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>All data were collected in a laboratory. All data are either direct digital recordings of physical sensors, or were calculated from the digital recordings of sensors. Data were scaled with calibration records for accuracy.</procdesc>\n <procdate>2019</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>345 Middlefield Road, Menlo Park, CA 94025</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>fig2a-c_and_3a-d_data.txt</enttypl>\n <enttypd>laboratory data used to create the figures in the associated publication</enttypd>\n <enttypds>The authors created and organized the data files</enttypds>\n </enttyp>\n <attr>\n <attrlabl>seconds</attrlabl>\n <attrdef>unit of time spacing the other data</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>529000</rdommin>\n <rdommax>535999</rdommax>\n <attrunit>seconds</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pp_ext_MPa</attrlabl>\n <attrdef>The pressure of the pore fluid (water) generated by the external pore pressure control system. This is measured directly, outside the pressure vessel. This data was not plotted, but is included for reference.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9.85</rdommin>\n <rdommax>10.02</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dz_mm</attrlabl>\n <attrdef>The position of the axial loading piston relative to the pressure vessel, measured directly by a position sensor.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.86</rdommin>\n <rdommax>3.98</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pcon_MPa</attrlabl>\n <attrdef>The pressure of the silicon oil in the pressure vessel applied to the sample assembly. This is measured directly, outside the pressure vessel.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>39.98</rdommin>\n <rdommax>40.64</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DiffStr_MPa</attrlabl>\n <attrdef>The differential stress, a calculated result equal to the applied axial load - the confining pressure \xe2\x80\x9cPcon_MPa\xe2\x80\x9d in the pressure vessel. The applied axial load was recorded, but is not shared here because the \xe2\x80\x9cDiffStr_MPa\xe2\x80\x9d result is most relevant to the presented data and can be used to calculate the \xe2\x80\x9cSjearStr_MPa\xe2\x80\x9d and \xe2\x80\x9cNorStr_MPa\xe2\x80\x9d data.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>38.43</rdommin>\n <rdommax>85.37</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ShearStr_MPa</attrlabl>\n <attrdef>The shear stress applied to the fault. This is not measured directly, but a calculated result.\nShearStr_MPa = (1/2)*(DiffStr_MPa)*(sin(2*fault angle)), fault angle = 30 degrees</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16.64</rdommin>\n <rdommax>36.97</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NorStr_MPa</attrlabl>\n <attrdef>The normal stress applied to the fault. This is not measured directly, but a calculated result.\nNorStr_MPa = Pcon_MPa + (1/2)*(DiffStr_MPa)*(1-(cos(2*fault angle))), fault angle = 30 degrees</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50.02</rdommin>\n <rdommax>61.35</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dS_mm</attrlabl>\n <attrdef>Fault slip. This is a calculated result derived from a two part process:\nFirst, the instrument loading stiffness is removed from \xe2\x80\x9cdz_mm\xe2\x80\x9d data, the position of the axial loading piston.\nSecond, the position of the axial loading piston, with loading stiffness removed, is translated to the motion along the fault plane, fault slip \xe2\x80\x9cdS_mm\xe2\x80\x9d, which is inclined from the loading piston axis by 30 degrees.\n\nThis is approximately calculated as: dS_mm=(dz_mm-(ShearStr_MPa/k))/(cos(fault plane angle)) where k is the loading stiffness, approximately 54 MPa/mm in these tests, and the fault plane angle is 30 degrees. The stiffness used to calculate the \xe2\x80\x9cdS_mm\xe2\x80\x9d data here depends on; the sample dimension, the location of the DCDT position sensor which produces the \xe2\x80\x9cdz_mm\xe2\x80\x9d measurement, the confining pressure \xe2\x80\x9cPcon_MPa\xe2\x80\x9d, and other factors which can vary during a test. Accordingly, the \xe2\x80\x9cdS_mm\xe2\x80\x9d data provided have been carefully adjusted to account for these variables.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.61</rdommin>\n <rdommax>3.52</rdommax>\n <attrunit>millimeter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pp_Int_MPa</attrlabl>\n <attrdef>The pressure of the pore fluid (water) in the fault zone. This is measured directly from a sensor inside the sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>13.08</rdommin>\n <rdommax>15.17</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>friction_eff</attrlabl>\n <attrdef>The effective coefficient of friction. The coefficient of friction is typically defined as (shear stress / normal stress). However, in these tests where there is pressurized fluid on the fault plane, the calculated normal stress \xe2\x80\x9cNorStr_MPa\xe2\x80\x9d must be adjusted to compensate for that fluid pressure which acts to reduce the effective normal stress applied to the fault. The effective normal stress applied to the fault is (NorStr_MPa - Pp_Int_MPa). The effective coefficient of friction is accordingly calculated as: ShearStr_MPa / ( NorStr_MPa - Pp_Int_MPa ).</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.46</rdommin>\n <rdommax>0.77</rdommax>\n <attrunit>unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>fig3e-h_data.txt</enttypl>\n <enttypd>laboratory data used to create the figures in the associated publication</enttypd>\n <enttypds>the authors created and organized the data file</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Seconds</attrlabl>\n <attrdef>the time between each successive data point in the record</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9600</rdommin>\n <rdommax>9849</rdommax>\n <attrunit>seconds</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pcon_MPa</attrlabl>\n <attrdef>The pressure of the silicon oil in the pressure vessel applied to the sample assembly. This is measured directly, outside the pressure vessel.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>44.99</rdommin>\n <rdommax>45.05</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pp_ext_MPa</attrlabl>\n <attrdef>The pressure of the pore fluid (water) generated by the external pore pressure control system. This is measured directly, outside the pressure vessel. This data was not plotted, but is included for reference.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.99</rdommin>\n <rdommax>5.08</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dz_mm</attrlabl>\n <attrdef>The position of the axial loading piston relative to the pressure vessel, measured directly by a position sensor.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.71</rdommin>\n <rdommax>7.09</rdommax>\n <attrunit>millimeter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pp_int_MPa</attrlabl>\n <attrdef>The pressure of the pore fluid (water) in the fault zone. This is measured directly from a sensor inside the sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9.68</rdommin>\n <rdommax>20.23</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DiffStr_MPa</attrlabl>\n <attrdef>The differential stress, a calculated result equal to the applied axial load - the confining pressure \xe2\x80\x9cPcon_MPa\xe2\x80\x9d in the pressure vessel. The applied axial load was recorded, but is not shared here because the \xe2\x80\x9cDiffStr_MPa\xe2\x80\x9d result is most relevant to the presented data and can be used to calculate the \xe2\x80\x9cSjearStr_MPa\xe2\x80\x9d and \xe2\x80\x9cNorStr_MPa\xe2\x80\x9d data.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.92</rdommin>\n <rdommax>90.91</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ShearStr_MPa</attrlabl>\n <attrdef>The shear stress applied to the fault. This is not measured directly, but a calculated result.\nShearStr_MPa = (1/2)*(DiffStr_MPa)*(sin(2*fault angle)), fault angle = 30 degrees</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.82</rdommin>\n <rdommax>39.37</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NorStr_MPa</attrlabl>\n <attrdef>The normal stress applied to the fault. This is not measured directly, but a calculated result.\nNorStr_MPa = Pcon_MPa + (1/2)*(DiffStr_MPa)*(1-(cos(2*fault angle))), fault angle = 30 degrees</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>45.49</rdommin>\n <rdommax>67.74</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>friction_eff</attrlabl>\n <attrdef>The effective coefficient of friction. The coefficient of friction is typically defined as (shear stress / normal stress). However, in these tests where there is pressurized fluid on the fault plane, the calculated normal stress \xe2\x80\x9cNorStr_MPa\xe2\x80\x9d must be adjusted to compensate for that fluid pressure which acts to reduce the effective normal stress applied to the fault. The effective normal stress applied to the fault is (NorStr_MPa - Pp_Int_MPa). The effective coefficient of friction is accordingly calculated as: ShearStr_MPa / ( NorStr_MPa - Pp_Int_MPa ).</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.03</rdommin>\n <rdommax>0.72</rdommax>\n <attrunit>unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dS_mm</attrlabl>\n <attrdef>Fault slip. This is a calculated result derived from a two part process:\nFirst, the instrument loading stiffness is removed from \xe2\x80\x9cdz_mm\xe2\x80\x9d data, the position of the axial loading piston.\nSecond, the position of the axial loading piston, with loading stiffness removed, is translated to the motion along the fault plane, fault slip \xe2\x80\x9cdS_mm\xe2\x80\x9d, which is inclined from the loading piston axis by 30 degrees.\n\nThis is approximately calculated as: dS_mm=(dz_mm-(ShearStr_MPa/k))/(cos(fault plane angle)) where k is the loading stiffness, approximately 54 MPa/mm in these tests, and the fault plane angle is 30 degrees. The stiffness used to calculate the \xe2\x80\x9cdS_mm\xe2\x80\x9d data here depends on; the sample dimension, the location of the DCDT position sensor which produces the \xe2\x80\x9cdz_mm\xe2\x80\x9d measurement, the confining pressure \xe2\x80\x9cPcon_MPa\xe2\x80\x9d, and other factors which can vary during a test. Accordingly, the \xe2\x80\x9cdS_mm\xe2\x80\x9d data provided have been carefully adjusted to account for these variables.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.69</rdommin>\n <rdommax>6.37</rdommax>\n <attrunit>millimeter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>figS1_data.txt</enttypl>\n <enttypd>laboratory data used to create the figures in the associated publication</enttypd>\n <enttypds>the authors created and organized the data file</enttypds>\n </enttyp>\n <attr>\n <attrlabl>seconds</attrlabl>\n <attrdef>the time spacing between each data point</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4400</rdommin>\n <rdommax>4900</rdommax>\n <attrunit>seconds</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ShearStr_MPa</attrlabl>\n <attrdef>The shear stress applied to the fault. This is not measured directly, but a calculated result.\nShearStr_MPa = (1/2)*(DiffStr_MPa)*(sin(2*fault angle)), fault angle = 30 degrees</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>45.58</rdommin>\n <rdommax>50.88</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pp_int_MPa</attrlabl>\n <attrdef>The pressure of the pore fluid (water) in the fault zone. This is measured directly from a sensor inside the sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7.47</rdommin>\n <rdommax>7.91</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>figS4_data.txt</enttypl>\n <enttypd>laboratory data used to create the figures in the associated publication</enttypd>\n <enttypds>the authors created and organized the data file</enttypds>\n </enttyp>\n <attr>\n <attrlabl>seconds</attrlabl>\n <attrdef>the time between each successive data point</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-4.0</rdommin>\n <rdommax>0.5</rdommax>\n <attrunit>seconds</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ShearStr_MPa</attrlabl>\n <attrdef>The shear stress applied to the fault. This is not measured directly, but a calculated result.\nShearStr_MPa = (1/2)*(DiffStr_MPa)*(sin(2*fault angle)), fault angle = 30 degrees</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>13.01</rdommin>\n <rdommax>31.47</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pp_int_MPa</attrlabl>\n <attrdef>The pressure of the pore fluid (water) in the fault zone. This is measured directly from a sensor inside the sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>12.20</rdommin>\n <rdommax>14.62</rdommax>\n <attrunit>megapascal</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>David Lockner</cntper>\n <cntorg>US Geological Survey</cntorg>\n </cntperp>\n <cntpos>Geophysicst</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>345 Middlefield Rd., MS-977</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>650-329-4826</cntvoice>\n <cntemail>dlockner@usgsgov</cntemail>\n </cntinfo>\n </distrib>\n <distliab>none</distliab>\n <techpreq>none</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200818</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Brian D Kilgore</cntper>\n <cntorg>SOUTHWEST REGION: EARTHQUAKE SCIENCE CENTER</cntorg>\n </cntperp>\n <cntpos>Geophysicist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 977, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4859</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Acquisition1940Publication Date2021-05-21
## Citation
Groten, J.T., Wood, M.S., and Leroy, J.Z., 2021, The Vigil Network: long-term, broad spectrum data collected to observe landscape change in drainage basins (ver 2.0, August 2021): U.S. Geological Survey data release, https://doi.org/10.5066/P9V0R02R.
## Summary
Location: Grenada, Calhoun, Chickasaw Counties, Mississippi USA Principal Investigator: S.C. Happ Address: U.S.D.A. Sedimentation Lab, Oxford, Mississippi USA Date of Site Establishment and/or Field Measurements: 1940 Original Date of Submission to the Vigil Network: 3 August 1970 Location at Lower End of Basin Latitude: 33°47'00" N Longitude: 89°59'00" W Purposes (ranked in order of importance) Sedimentation Channel Change Erosion Site Information Annual precipitation: 1340 mm Elevation: 41.1 m Relief: 173.3 m Drainage area: 4439.3 km2 Geology: Coastal plain sand and clay; surficial loess. Hydrology: +/- 500 mm runoff Vegetation: Hardwoods, Scattered Farmlands Photography: High altitude aerial U.S.G.S. 7.5 minute maps: Big Creek, \[...\]
## Summary
Location: Grenada, Calhoun, Chickasaw Counties, Mississippi USA
Principal Investigator: S.C. Happ
Address: U.S.D.A. Sedimentation Lab, Oxford, Mississippi USA
Date of Site Establishment and/or Field Measurements: 1940
Original Date of Submission to the Vigil Network: 3 August 1970
Location at Lower End of Basin
Latitude: 33°47'00" N
Longitude: 89°59'00" W
Purposes
(ranked in order of importance)
Sedimentation
Channel Change
Erosion
Site Information
Annual precipitation: 1340 mm
Elevation: 41.1 m
Relief: 173.3 m
Drainage area: 4439.3 km2
Geology: Coastal plain sand and clay; surficial loess.
Hydrology: +/- 500 mm runoff
Vegetation: Hardwoods, Scattered Farmlands
Photography: High altitude aerial
U.S.G.S. 7.5 minute maps: Big Creek, MISS; Calhoun, MISS; Gore Springs, MISS; Holcomb, MISS
Stream Channels
Channel cross sections: 9
Miscellaneous
Other: Valley Sections: 11
Note: Four sections now within Grenada Reservoir. Other sections in tributaries also other sections established by Army Engineers.
Additional Data
Additional data collected but not submitted with this file: Sheet of valley cross-sections filed in MA-1412.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Groten, Joel T.</origin>\n <origin>Wood, Molly S.</origin>\n <origin>Leroy, Jessica Z.</origin>\n <pubdate>20210802</pubdate>\n <title>The Vigil Network: Yalobusha River, Mississippi</title>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9V0R02R</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Osterkamp, W. R., Emmett, W. W., and Leopold</origin>\n <pubdate>1991</pubdate>\n <title>The Vigil Network: a means of observing landscape change in drainage basins</title>\n <geoform>online</geoform>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>Hydrological Sciences Journal</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1080/02626669109492518</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Long-term monitoring data of geomorphic, hydrological, and biological characteristics of landscapes. This information provides an effective means of relating observed change to possible causes of the change. Identification of changes in basin characteristics, especially in arid areas where the response to altered climate or land use is generally rapid and readily apparent, might provide the initial direct indications that factors such as global warming and cultural impacts have affected the environment. The Vigil Network provides an opportunity for earth and life scientists to participate in a systematic monitoring effort to detect landscape changes over time, and to relate such changes to possible causes. This data release includes 70 sites and basins used to monitor landscape features. This data release includes information for Vigil Network sites monitored in the United States. The data and information in this data release are historical and were obtained from original documents.</abstract>\n <purpose>The Vigil Network was created to address the need for long-term, broad spectrum data collection to facilitate the study of the effects of global climate change. A system of small sites and drainage basins where geomorphic, hydrologic, and biological data were periodically collected. Observation periods are intended to be greater than the life span of a single individual, and data are intended to be archived in a readily retrievable format to allow study by future generations of scientists.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>1940</begdate>\n <enddate>1940</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-90.083333</westbc>\n <eastbc>-89.88333300000001</eastbc>\n <northbc>33.883333</northbc>\n <southbc>33.683333</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>geomorphology</themekey>\n <themekey>land surveying</themekey>\n <themekey>sedimentology</themekey>\n <themekey>vegetation</themekey>\n <themekey>sedimentation</themekey>\n <themekey>streamflow</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5fea14f9d34ea5387ded6b75</themekey>\n </theme>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Joel T Groten</cntper>\n <cntorg>Midcontinent Region</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2280 Woodale Drive</address>\n <city>Mounds View</city>\n <state>MN</state>\n <postal>55112</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>763-783-3149</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the summary. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>The process steps are described in the primary publications.</procdesc>\n <procdate>1991</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Upper Midwest Water Science Center</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>yalobusha_river.zip\\yalobusha_river\\Images</enttypl>\n <enttypd>Five .jpg and five .tif files include maps and an aerial photograph.</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>yalobusha_river.zip\\yalobusha_river\\Text</enttypl>\n <enttypd>Two .txt files include description of files and site information.</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. The language used in the files of this data release may not meet current cultural usage standards.</distliab>\n </distinfo>\n <metainfo>\n <metd>20210802</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Joel T Groten</cntper>\n <cntorg>Midcontinent Region</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2280 Woodale Drive</address>\n <city>Mounds View</city>\n <state>MN</state>\n <postal>55112</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>763-783-3149</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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3. [Video data files to accompany USGS OFR 2015-1142--Assessment of existing and potential landslide hazards resulting from the April 25, 2015 Gorkha, Nepal earthquake sequence](/catalog/item/55b24f7ee4b09a3b01b5361e)
4. [Video data files to accompany USGS OFR 2015-1142--Assessment of existing and potential landslide hazards resulting from the April 25, 2015 Gorkha, Nepal earthquake sequence: USGS\_Nepal\_05282015-F](/catalog/folder/55e77e38e4b0dacf699dd35b)
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## Dates
Publication Date2015-07-24Start Date2015-05-27End Date2015-06-01
## Citation
Collins, B.D., 2015, Video data files to accompany USGS OFR 2015-1142--Assessment of existing and potential landslide hazards resulting from the April 25, 2015 Gorkha, Nepal earthquake sequence: U.S. Geological Survey Data Release, http://dx.doi.org/10.5066/F7X928BN.
## Summary
On April 25, 2015, a large ( M7.8) earthquake shook much of central Nepal and was followed by a series of M>6 aftershocks, including a M7.3 event on May 12, 2015. This earthquake and aftershocks, referred to as the Gorkha earthquake sequence, caused thousands of fatalities, damaged and destroyed entire villages, and displaced millions of residents. The earthquakes also triggered thousands of landslides in the exceedingly steep topography of Nepal; these landslides were responsible for hundreds of fatalities, and blocked vital roads and trails to affected villages. With the support of the United States Agency for International Development (USAID), Office of Foreign Disaster Assistance (OFDA), and in collaboration with earthquake-hazard \[...\]
## Summary
On April 25, 2015, a large ( M7.8) earthquake shook much of central Nepal and was followed by a series of M>6 aftershocks, including a M7.3 event on May 12, 2015. This earthquake and aftershocks, referred to as the Gorkha earthquake sequence, caused thousands of fatalities, damaged and destroyed entire villages, and displaced millions of residents. The earthquakes also triggered thousands of landslides in the exceedingly steep topography of Nepal; these landslides were responsible for hundreds of fatalities, and blocked vital roads and trails to affected villages. With the support of the United States Agency for International Development (USAID), Office of Foreign Disaster Assistance (OFDA), and in collaboration with earthquake-hazard organizations from both the United States and Nepal, the U.S. Geological Survey (USGS) responded to this crisis by providing landslide-hazard expertise to Nepalese agencies and affected villages. During these assessments, over 11 hours of helicopter-based video coverage of earthquake-affected areas was collected. A report available on-line provides a report on landslide assessments conducted by the USGS. The video resources contained herein provide high resolution coverage of approximately 1,000 kilometers (km) of river valleys and surrounding terrain affected by the Gorkha earthquake sequence.
## Contacts
Point of Contact
:
[Brian Collins](/catalog/catalogParty/show?partyId=Brian+Collins)
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:
[Brian Collins](/catalog/catalogParty/show?partyId=Brian+Collins)
Originator
:
[Brian Collins](/catalog/catalogParty/show?partyId=Brian+Collins)
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| --- | --- | --- | --- |
| Metadata\_video\_files\_for\_USGS\_OFR\_2015\_1142.xml<br>_Original FGDC Metadata_ | View | 8.04 KB | application/fgdc+xml |
| USGS\_Nepal\_05282015-F.mp4 | | 2.83 GB | video/mp4 |
## Related External Resources
Type: Online Link
| | |
| --- | --- |
| Sciencebase catalog parent item | [https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e](https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e "https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e") |
Type: browseImage
| | |
| --- | --- |
| Thumbnail image of a clip from the USGS\_Nepal\_05272015-K.mp4 video file at 31 seconds from the beginning of the video. | [https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=\_\_disk\_\_3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true](https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=__disk__3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true "https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=__disk__3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true") |
Type: YouTube Video
| | |
| --- | --- |
| USGS\_Nepal\_05282015-F | [https://www.sciencebase.gov/data/videos/youtube.html?id=55b24f7ee4b09a3b01b5361e&videoid=DYmmS\_y8LAU](https://www.sciencebase.gov/data/videos/youtube.html?id=55b24f7ee4b09a3b01b5361e&videoid=DYmmS_y8LAU "https://www.sciencebase.gov/data/videos/youtube.html?id=55b24f7ee4b09a3b01b5361e&videoid=DYmmS_y8LAU") |
## Purpose
Video data was collected to record earthquake-affected river valleys and surrounding terrain from the April 25, 2015 Gorkha, Nepal earthquake sequence.
## Preview Image
![Thumbnail image of a clip from the USGS_Nepal_05272015-K.mp4 video file at 31 seconds from the beginning of the video.](https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=__disk__3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true)
Thumbnail image of a clip from the USGS\_Nepal\_05272015-K.mp4 video file at 31 seconds from the beginning of the video.
## [Map](/catalog/item/imap/55e77e38e4b0dacf699dd35b)
[![Map Preview](https://www.sciencebase.gov/catalog/file/get/55e77e38e4b0dacf699dd35b?f=__disk__cf%2F85%2F3c%2Fcf853ccc9f6ca333f766ea99e52e84d4ea7bbc0c)](/catalog/item/imap/55e77e38e4b0dacf699dd35b)
## Spatial Services
ScienceBase WMS
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## Tags
Theme
- [Nepal](/catalog/items?q=&filter=tags%3DNepal "Nepal (Nepal, Theme, USGS Thesaurus)")
- [earthquake](/catalog/items?q=&filter=tags%3Dearthquake "earthquake (earthquake, Theme, USGS Thesaurus)")
- [helicopter](/catalog/items?q=&filter=tags%3Dhelicopter "helicopter (helicopter, Theme, USGS Thesaurus)")
- [landslide](/catalog/items?q=&filter=tags%3Dlandslide "landslide (landslide, Theme, USGS Thesaurus)")
- [video](/catalog/items?q=&filter=tags%3Dvideo "video (video, Theme, USGS Thesaurus)")
Place
- [Gorkha](/catalog/items?q=&filter=tags%3DGorkha "Gorkha (Gorkha, Place, Geographic Names Information System)")
- [Kathmandu](/catalog/items?q=&filter=tags%3DKathmandu "Kathmandu (Kathmandu, Place, Geographic Names Information System)")
- [Nepal](/catalog/items?q=&filter=tags%3DNepal "Nepal (Nepal, Place, Geographic Names Information System)")
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Brian Collins</origin>\n <pubdate>20150724</pubdate>\n <title>Video data files to accompany USGS OFR 2015-1142--Assessment of existing and potential landslide hazards resulting from the April 25, 2015 Gorkha, Nepal earthquake sequence</title>\n <geoform>.mp4 and .kmz</geoform>\n <pubinfo>\n <pubplace>ScienceBase</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.5066/F7X928BN</onlink>\n <onlink>https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>On April 25, 2015, a large ( M7.8) earthquake shook much of central Nepal and was followed by a series of M>6 aftershocks, including a M7.3 event on May 12, 2015. This earthquake and aftershocks, referred to as the Gorkha earthquake sequence, caused thousands of fatalities, damaged and destroyed entire villages, and displaced millions of residents. The earthquakes also triggered thousands of landslides in the exceedingly steep topography of Nepal; these landslides were responsible for hundreds of fatalities, and blocked vital roads and trails to affected villages. With the support of the United States Agency for International Development (USAID), Office of Foreign Disaster Assistance (OFDA), and in collaboration with earthquake-hazard organizations from both the United States and Nepal, the U.S. Geological Survey (USGS) responded to this crisis by providing landslide-hazard expertise to Nepalese agencies and affected villages. During these assessments, over 11 hours of helicopter-based video coverage of earthquake-affected areas was collected. A report available on-line provides a report on landslide assessments conducted by the USGS. The video resources contained herein provide high resolution coverage of approximately 1,000 kilometers (km) of river valleys and surrounding terrain affected by the Gorkha earthquake sequence.</abstract>\n <purpose>Video data was collected to record earthquake-affected river valleys and surrounding terrain from the April 25, 2015 Gorkha, Nepal earthquake sequence.</purpose>\n <supplinf>This data accompanies U.S. Geological Survey Open File Report 2015-1142. The appendix of this report provides additional information on the video files.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20150527</begdate>\n <enddate>20150601</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>83.322502852018</westbc>\n <eastbc>86.8205499951</eastbc>\n <northbc>29.293696635832</northbc>\n <southbc>27.242534198561</southbc>\n </bounding>\n <descgeog>Central Nepal</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Nepal</themekey>\n <themekey>earthquake</themekey>\n <themekey>landslide</themekey>\n <themekey>helicopter</themekey>\n <themekey>video</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:55e77e38e4b0dacf699dd35b</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Nepal</placekey>\n <placekey>Gorkha</placekey>\n <placekey>Kathmandu</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Brian Collins</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing</addrtype>\n <address>345 Middlefield Road, MS973</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>650-329-5466</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://www.sciencebase.gov/catalog/file/get/55b24f7ee4b09a3b01b5361e?f=__disk__3b%2Ff3%2F59%2F3bf359a3d162ba6a018875c2b127559638199190&allowOpen=true</browsen>\n <browsed>Thumbnail image of a clip from the USGS_Nepal_05272015-K.mp4 video file at 31 seconds from the beginning of the video.</browsed>\n <browset>PNG</browset>\n </browse>\n <datacred>U.S. Department of State, USAID Office of Foreign Disaster Assistance</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>Start and end of video files were checked for consistency with geographic locations in KMZ files.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Video files were organized by date and titled accordingly.</procdesc>\n <procdate>2015</procdate>\n </procstep>\n </lineage>\n <cloud>0</cloud>\n </dataqual>\n <spdoinfo>\n <indspref>See KMZ file that accompanies the video files.</indspref>\n <direct>Raster</direct>\n </spdoinfo>\n <eainfo>\n <overview>\n <eaover>Video data</eaover>\n <eadetcit>https://www.sciencebase.gov/catalog/item/55b24f7ee4b09a3b01b5361e</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>This database has been approved for release and publication by the U.S. Geological Survey (USGS). Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, it is released on condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from its authorized or unauthorized use.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Geospatial Datasets</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F7X928BN</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200818</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Brian Collins</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>345 Middlefield Road, MS973</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>650-329-5466</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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3. [Bathymetric and hydraulic structure survey of the Passumpsic River, Lyndon, Vermont and Kedron Brook, Woodstock, Vermont, 2019](/catalog/item/5d9cb25ae4b036616292386e)
4. [Bathymetric and hydraulic structure survey of Kedron Brook, Woodstock, Vermont, 2019](/catalog/folder/5d9cb3e7e4b0366162923884)
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## Dates
Publication Date2019-12-10Start Date2019-09-03End Date2019-10-03
## Citation
Simeone, C.E., and Mccarthy, B.A., 2019, Bathymetric and hydraulic structure survey of Kedron Brook, Woodstock, Vermont, 2019: U.S. Geologic Survey, https://doi.org/10.5066/P9OWV2VE.
## Summary
This dataset is a bathymetric and hydraulic structure survey of Kedron Brook. The dataset consists of stream channel cross-section data and structural data for bridges, culverts, and dams.
## Summary
This dataset is a bathymetric and hydraulic structure survey of Kedron Brook. The dataset consists of stream channel cross-section data and structural data for bridges, culverts, and dams.
## Contacts
Point of Contact
:
[Caelan E Simeone](/catalog/catalogParty/show?partyId=75939)
Originator
:
[Caelan E Simeone](/catalog/catalogParty/show?partyId=75939),
[Brendan A Mccarthy](/catalog/catalogParty/show?partyId=70800)
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:
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| Bathymetric and hydraulic structure survey of Kedron Brook, Woodstock, Vermont, 2019, Metadata.xml<br>_Original FGDC Metadata_ | View | 21.55 KB | application/fgdc+xml |
| Kedron\_Brook\_Job\_Locations.pdf | | 912.22 KB | application/pdf |
| Supporting\_Data\_Control.zip | | 4.82 MB | application/zip |
| Supporting\_Data\_Data.zip | | 22.22 KB | application/zip |
| Supporting\_Data\_Sketches.zip | | 5.6 MB | application/zip |
| Supporting\_Data\_Notes.zip | | 121.33 MB | application/zip |
| Supporting\_Data\_Photos.zip | | 375.65 MB | application/zip |
| Final\_Survey\_Data.zip | | 18.92 KB | application/zip |
## Purpose
The U.S. Army Corps of Engineers (USACE) is conducting a flood risk study on Kedron Brook in Woodstock, Vermont. In order to complete this study, the USACE required high precision survey data of channel bathymetry and hydraulic structures in this stream reach. While some of these survey data existed from previous work in the stream reach, the data were incomplete. At the time of this study (2019), the USACE did not have the available survey capacity to complete this survey. Supporting other federal agencies with earth science work is a primary directive of the U.S. Geological Survey (USGS) and as such the USGS entered into a cooperative agreement to assist the USACE in the collection of survey data required for timely completion of their flood study.
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- USGS Data Release Products
## Tags
Theme
- [Bathymetry](/catalog/items?q=&filter=tags%3DBathymetry "Bathymetry (Bathymetry, Theme, USGS Thesaurus)")
- [Hydraulics](/catalog/items?q=&filter=tags%3DHydraulics "Hydraulics (Hydraulics, Theme, USGS Thesaurus)")
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- [Kedron Brook](/catalog/items?q=&filter=tags%3DKedron+Brook "Kedron Brook (Kedron Brook, Place, Geographic Names Information System (GNIS))")
- [Vermont](/catalog/items?q=&filter=tags%3DVermont "Vermont (Vermont, Place, Geographic Names Information System (GNIS))")
- [Woodstock](/catalog/items?q=&filter=tags%3DWoodstock "Woodstock (Woodstock, Place, Geographic Names Information System (GNIS))")
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Caelan E Simeone</origin>\n <origin>Brendan A Mccarthy</origin>\n <pubdate>20191210</pubdate>\n <title>Bathymetric and hydraulic structure survey of Kedron Brook, Woodstock, Vermont, 2019</title>\n <geoform>csv, png, pdf, jpg</geoform>\n <pubinfo>\n <pubplace>Augusta, ME</pubplace>\n <publish>U.S. Geologic Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9OWV2VE</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset is a bathymetric and hydraulic structure survey of Kedron Brook. The dataset consists of stream channel cross-section data and structural data for bridges, culverts, and dams.</abstract>\n <purpose>The U.S. Army Corps of Engineers (USACE) is conducting a flood risk study on Kedron Brook in Woodstock, Vermont. In order to complete this study, the USACE required high precision survey data of channel bathymetry and hydraulic structures in this stream reach. While some of these survey data existed from previous work in the stream reach, the data were incomplete. At the time of this study (2019), the USACE did not have the available survey capacity to complete this survey. Supporting other federal agencies with earth science work is a primary directive of the U.S. Geological Survey (USGS) and as such the USGS entered into a cooperative agreement to assist the USACE in the collection of survey data required for timely completion of their flood study.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20190903</begdate>\n <enddate>20191003</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-72.951965332727</westbc>\n <eastbc>-72.325744629627</eastbc>\n <northbc>43.772761181507</northbc>\n <southbc>43.454595101994</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Bathymetry</themekey>\n <themekey>Hydraulics</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5d9cb3e7e4b0366162923884</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Woodstock</placekey>\n <placekey>Kedron Brook</placekey>\n <placekey>Vermont</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Caelan E Simeone</cntper>\n <cntorg>USGS</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>196 Whitten rd</address>\n <city>Augusta</city>\n <state>ME</state>\n <postal>04330</postal>\n <country>U.S.</country>\n </cntaddr>\n <cntvoice>207-626-6606</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>U.S. Army Corps of Engineers</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>Survey positional (horizontal and vertical) accuracy for GPS points attempt to adhere to level II Global Navigation Satellite System (GNSS) as described in the U.S. Geological Survey Techniques and Methods Book 11 Chapter D1, Table 11 for GNSS points unless otherwise detailed.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>Survey positional (horizontal and vertical) accuracy for GPS points attempt to adhere to level II Global Navigation Satellite System (GNSS) as described in the U.S. Geological Survey Techniques and Methods Book 11 Chapter D1, Table 11 for GNSS points unless otherwise detailed.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Survey data collected in the field were processed to remove bench marks, reference marks, total station setup locations, and any other unneeded points so they are not part of the final survey data. Codes for survey points were also checked for consistency. All original survey data can be seen in supporting data and in supporting data notes.</procdesc>\n <procdate>201910</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>The data are survey grade Global Navigation Satellite System (GNSS) and Trigonometric Leveling data collected on Kedron Brook, Woodstock, VT. The data are in North American Datum of 1983 (NAD83) Vermont State Plane Coordinate System, Federal Information Processing Standard (FIPS) 4400 Feet, with vertical data in the North American Vertical Datum of 1988 (NAVD88).</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <mapproj>\n <mapprojn>Transverse Mercator</mapprojn>\n <transmer>\n <sfctrmer>0.99996429</sfctrmer>\n <longcm>72.5</longcm>\n <latprjo>42.5</latprjo>\n <feast>1640419.95</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </mapproj>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.01</absres>\n <ordres>0.01</ordres>\n </coordrep>\n <plandu>SURVEY_FEET</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North American Datum of 1983 (NAD 83) Vermont State Plane Federal Information Processing Standard (FIPS) 4400 Feet</horizdn>\n <ellips>Geodetic Reference System of 1980 (GRS 80)</ellips>\n <semiaxis />\n <denflat />\n </geodetic>\n </horizsys>\n <vertdef>\n <altsys>\n <altdatum>North American Vertical Datum of 1988 (NAVD 88)</altdatum>\n <altres>0.1</altres>\n <altunits>U.S. Survey ft</altunits>\n <altenc>Explicit elevation coordinate included with horizontal coordinates</altenc>\n </altsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Final Survey Data</enttypl>\n <enttypd>This directory contains processed survey data for the 2019 Hydrographic Survey of Kedron Brook. It contains csv files for surveyed sites on Kedron Brook. The csv files are named stream reach abbreviation (KED) and the site number, which increases as the sites move upstream. Each site\xe2\x80\x99s csv file contains the point number, northing and easting location, surveyed elevation, and code columns describing what the surveyed point was.</enttypd>\n <enttypds>Producer defined.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>PID</attrlabl>\n <attrdef>A numeric identifier for a survey point.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A numeric code to identify and distinguish a survey point from other points in the same structure or cross section.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>A distance north from the origin for the North American Datum of 1983 (NAD 83) Vermont State Plane Federal Information Processing Standard (FIPS) 4400 Feet.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>405000</rdommin>\n <rdommax>411000</rdommax>\n <attrunit>U.S. Survey ft</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>A distance east from the origin for the North American Datum of 1983 (NAD 83) Vermont State Plane Federal Information Processing Standard (FIPS) 4400 Feet.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1635000</rdommin>\n <rdommax>1637000</rdommax>\n <attrunit>U.S. Survey ft</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Elevation</attrlabl>\n <attrdef>The orthometric height of the surveyed point in the North American Vertical Datum of 1988 (NAVD 88).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>600</rdommin>\n <rdommax>750</rdommax>\n <attrunit>U.S. Survey ft</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Code</attrlabl>\n <attrdef>A code to describe the location or what was the surveyed point.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CH</edomv>\n <edomvd>Channel Shot</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>GR</edomv>\n <edomvd>Ground Shot</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TOB</edomv>\n <edomvd>Top of bank shot. Can have L or R added to the end to designate whether the left or right side of the river, based on looking downstream.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TOS</edomv>\n <edomvd>Toe of slope shot. Can have L or R added to the end to designate whether the left or right of the river, based on looking downstream.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TOD</edomv>\n <edomvd>Top of deck shot.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>RDCL</edomv>\n <edomvd>Road Center Line. This shot is the highest point along a road crossing of a river. This is often the center line of the road, but if a rail or sidewalk is higher than the center line of the road then that is the point that will be used.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ABT</edomv>\n <edomvd>Abutment Shot. May have L or R designation whether the left or right side of the river, based on looking downstream. It may also have US or DS designation to note whether it was on the upstream or downstream side of the structure.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LC</edomv>\n <edomvd>Low Chord Shot. May have L or R designation whether the left or right side of the river, based on looking downstream. It may also have US or DS designation to note whether it was on the upstream or downstream side of the structure.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>BLDG</edomv>\n <edomvd>Shot at a point that is typically the bottom of a building.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>WEIR</edomv>\n <edomvd>Shot along a weir. If it does not have a follow up code it is the top of the weir.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PIER</edomv>\n <edomvd>Pier shot.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>WALL</edomv>\n <edomvd>Shot at a wall, typically the top of a wall.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>WALLBOT</edomv>\n <edomvd>Shot at the bottom of a wall</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>WW</edomv>\n <edomvd>Wing wall shot.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Supporting Data Photos</enttypl>\n <enttypd>This directory contains photos taken from the field sites of cross sections and structures for the 2019 Hydrographic Survey of Kedron Brook. The folders are named stream reach abbreviation (KED) and the site number, which increases as the sites move upstream. Each folder contains photos with file names describing the photo taken.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Field Photos</attrlabl>\n <attrdef>Photos taken at each job site.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Each folder with a descriptive title contains photos with descriptive titles. An example of this might be a folder called KED_100 (Kedron Brook job 100) with a photo in it called KED_100_DSCH (a photo capturing the channel downstream of where survey data were collected).</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Supporting Data Notes</enttypl>\n <enttypd>This directory contains field notes taken at the field sites of cross sections and structures for the 2019 Hydrographic Survey of Kedron Brook. The folders are named stream reach abbreviation (KED) and the site number, which increases as the sites move upstream. Each folder contains notes regarding field conditions, survey setups, points collected etc.</enttypd>\n <enttypds>Producer defined.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Field Notes</attrlabl>\n <attrdef>Notes taken at each job site.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Each folder with a descriptive title contains notes with descriptive titles. Each folder contains notes regarding field conditions, survey setups, points collected etc.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Suporting Data Data</enttypl>\n <enttypd>This directory contains data from all jobs for the 2019 Hydrographic Survey of Kedron Brook. These data have not been cleaned and finalized and as such includes potentially erroneous points, control points, and total stations setups. The files are named stream reach abbreviation (KED) and the site number, which increases as the sites move upstream.</enttypd>\n <enttypds>Producer defined.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>PID</attrlabl>\n <attrdef>Typically this is a numeric identifier for a survey point. For total station points and control points there are enumerated values.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>This is typically a numeric value between 1 and 10,000. For total station points and control points there are enumerated values. Total station setups will be coded TS followed by a number corresponding to the setup number for that particular job, e.g. TS1. Control points start with RM followed by a number corresponding to the number control point it is referencing, e.g. RM4.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Code</attrlabl>\n <attrdef>A code to describe the location or what was the surveyed point.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>These code values include all possible values for the final survey data file, but also include codes marked as TEMP for total station setups and text describing the location of reference points for control points.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Supporting Data Sketches</enttypl>\n <enttypd>This directory contains field sketches taken at the field sites of cross sections and structures for the 2019 Hydrographic Survey of Kedron Brook. The folders are named stream reach abbreviation (KED) and the site number, which increases as the sites move upstream. Each folder contains sketches regarding survey setups, points collected, the target of the survey etc.</enttypd>\n <enttypds>Producer defined.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Field Sketches</attrlabl>\n <attrdef>Sketches made at a job site.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Each folder with a descriptive title contains sketches with descriptive titles. Each folder contains sketches regarding survey setups, points collected, the survey target etc.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Supporting Data Control</enttypl>\n <enttypd>This directory contains data for survey control and utilized benchmarks for the 2019 Hydrographic Survey of Kedron Brook. It also contains a variety of other data including, notes and datasheets regarding benchmarks.</enttypd>\n <enttypds>Producer defined.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Survey Control</attrlabl>\n <attrdef>Information, notes, and data used in establishing survey control</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>This folder contains csv files with data regarding control points and benchmarks used in this survey campaign. It also contains a variety of other data including, notes, photos, and datasheets regarding benchmarks.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PID</attrlabl>\n <attrdef>A numeric or string identifier for a surveyed point.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>This is typically a numeric value between 1 and 10,000. For total station points and control points there are enumerated values. Total station setups will be coded TS followed by a number corresponding to the setup number for that particular job, e.g. TS1. Control points start with RM followed by a number corresponding to the number control point it is referencing, e.g. RM4.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Code</attrlabl>\n <attrdef>A code to describe the location or what was the surveyed point.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <udom>These code values include all possible values for the final survey data file, but also include codes marked as TEMP for total station setups and text describing the location of reference points for control points.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Kedron_Brook_Job_Locations.pdf</enttypl>\n <enttypd>A map of the survey locations requested by the Army Corps of Engineers</enttypd>\n <enttypds>Producer Defined.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Geospatial Map</attrlabl>\n <attrdef>A map of survey locations</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>NA</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Although these data have been processed successfully on a computer system at the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. The USGS or the U.S. Government shall not be held liable for improper or incorrect use of the data described and/or contained herein.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200825</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Caelan E Simeone</cntper>\n <cntorg>USGS</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>196 Whitten Rd</address>\n <city>Augusta</city>\n <state>ME</state>\n <postal>04330</postal>\n <country>U.S.</country>\n </cntaddr>\n <cntvoice>207-626-6606</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2019-12-09Start Date2004-01-01End Date2013-12-31
## Citation
Roig-Silva, C.M., Milheim, L.E., and Slonecker, E.T., 2019, Natural gas and oil drilling disturbance in the Marcellus Shale region of the New York - Pennsylvania border: U.S. Geological Survey data release, https://doi.org/10.5066/F7TT4Q67.
## Summary
The data comprise the initial release of landscape disturbance polygons and lines (sites, pipelines and roads) related to natural gas and oil drilling developed prior to the end of 2013 in the 10-county region along the New York - Pennsylvania border. The study area includes the New York Counties of Allegany, Broome, Chemung, Steuben and Tioga, and the Pennsylvania counties of Bradford, McKean, Potter, Susquehanna, and Tioga. The data were collected using high-resolution aerial imagery from the National Agricultural Imagery Program (NAIP) for each available year between 2004 - 2013 within a geographic information system (GIS), along with additional geospatial data on oil and gas drilling permits and locations, administrative boundaries, \[...\]
## Summary
The data comprise the initial release of landscape disturbance polygons and lines (sites, pipelines and roads) related to natural gas and oil drilling developed prior to the end of 2013 in the 10-county region along the New York - Pennsylvania border. The study area includes the New York Counties of Allegany, Broome, Chemung, Steuben and Tioga, and the Pennsylvania counties of Bradford, McKean, Potter, Susquehanna, and Tioga. The data were collected using high-resolution aerial imagery from the National Agricultural Imagery Program (NAIP) for each available year between 2004 - 2013 within a geographic information system (GIS), along with additional geospatial data on oil and gas drilling permits and locations, administrative boundaries, ecoregions, and the footprint of the Marcellus Shale play. Data collection was a manual process of visually examining the NAIP imagery composite for each county for each year and using 2004 imagery as a baseline to identify and digitize landscape changes in the land cover resulting from the development of gas extraction infrastructure that occurred after 2004. Changes that correlated with natural gas extraction permits, appeared to be natural gas extraction related, or were in proximity to other gas extraction infrastructure were selected and digitized to the maximum extent of landscape disturbance. Disturbance that appeared in the 2004 imagery was collected; however, some of the collected disturbance for 2004 may predate the NAIP imagery collection date. The focus of the data collection was on features attributable to the construction, use, and maintenance of gas extraction drill sites, processing plants, and compressor stations, as well as the centerlines for new roads accessing such sites, plants, and stations, and the centerlines for new pipelines used to transport the extracted gas. Some of the roads and or pipelines may predate the data collection, however they appeared to be either expanded or worked on in relation to oil or gas activities in the study area. These data were collected within shapefiles by county, using ArcGIS 10.5. One shapefile was generated for sites (polygons), one was generated for roads (lines), and one was generated for pipelines (lines). Another team member reviewed the data for concurrence and consistency. These data identify disturbance related to natural gas and oil drilling, but do not identify the well types associated with that disturbance. For well type, see the New York Department of Environmental Conservation downloadable well data webpage (https://www.dec.ny.gov/energy/1603.html) or the Pennsylvania Department of Environmental Protection Oil and Gas Permit Database available at their web page (http://data-padep-1.opendata.arcgis.com/datasets?q=Oil%20&%20Gas).
## Contacts
Point of Contact
:
[Terry Slonecker](/catalog/catalogParty/show?partyId=9570)
Originator
:
[Coral Roig-Silva](/catalog/catalogParty/show?partyId=12234),
[Lesley Milheim](/catalog/catalogParty/show?partyId=6988),
[Terry Slonecker](/catalog/catalogParty/show?partyId=9570)
Metadata Contact
:
[Coral Roig-Silva](/catalog/catalogParty/show?partyId=12234),
[Lower Mississippi-Gulf Water Science Center](/catalog/catalogParty/show?partyId=72866)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Energy and Minerals](/catalog/catalogParty/show?partyId=Energy+and+Minerals)
SDC Data Owner
:
[Office of the Southeast Regional Director](/catalog/catalogParty/show?partyId=17233)
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| NYPA\_disturbanceDatav3.zip<br>“NYPA Disturbance Data Files (pipelines, roads, sites)” | | 4.64 MB | application/zip |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Roig-Silva, C.M., Milheim, L.E., Slonecker, E.T., Kalaly, S., and Chestnut, J., 2019, A comparison of hydrocarbon-related landscape disturbance patterns along the New York-Pennsylvania border, 2004–2013: U.S. Geological Survey Scientific Investigations Report 2019–5096, 23 p., https://doi.org/10.3133/sir20195096. | [https://doi.org/10.3133/sir20195096](https://doi.org/10.3133/sir20195096 "https://doi.org/10.3133/sir20195096") |
## Purpose
These data were manually digitized at a scale of 1:3,000 for the analysis of landscape change related to natural gas and oil drilling in the Marcellus Shale region of the New York - Pennsylvania border.
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USGS Scientific Topic Keyword
- [Land Use Change](/catalog/items?q=&filter=tags%3DLand+Use+Change "Land Use Change (Land Use Change, USGS Scientific Topic Keyword, )")
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## Provenance
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## Additional Information
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Coral Roig-Silva</origin>\n <origin>Lesley Milheim</origin>\n <origin>Terry Slonecker</origin>\n <pubdate>20191209</pubdate>\n <title>Natural gas and oil drilling disturbance in the Marcellus Shale region of the New York - Pennsylvania border</title>\n <geoform>vector digital data</geoform>\n <onlink>https://doi.org/10.5066/F7TT4Q67</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The data comprise the initial release of landscape disturbance polygons and lines (sites, pipelines and roads) related to natural gas and oil drilling developed prior to the end of 2013 in the 10-county region along the New York - Pennsylvania border. The study area includes the New York Counties of Allegany, Broome, Chemung, Steuben and Tioga, and the Pennsylvania counties of Bradford, McKean, Potter, Susquehanna, and Tioga. \nThe data were collected using high-resolution aerial imagery from the National Agricultural Imagery Program (NAIP) for each available year between 2004 - 2013 within a geographic information system (GIS), along with additional geospatial data on oil and gas drilling permits and locations, administrative boundaries, ecoregions, and the footprint of the Marcellus Shale play. Data collection was a manual process of visually examining the NAIP imagery composite for each county for each year and using 2004 imagery as a baseline to identify and digitize landscape changes in the land cover resulting from the development of gas extraction infrastructure that occurred after 2004. \nChanges that correlated with natural gas extraction permits, appeared to be natural gas extraction related, or were in proximity to other gas extraction infrastructure were selected and digitized to the maximum extent of landscape disturbance. \nDisturbance that appeared in the 2004 imagery was collected; however, some of the collected disturbance for 2004 may predate the NAIP imagery collection date. The focus of the data collection was on features attributable to the construction, use, and maintenance of gas extraction drill sites, processing plants, and compressor stations, as well as the centerlines for new roads accessing such sites, plants, and stations, and the centerlines for new pipelines used to transport the extracted gas. Some of the roads and or pipelines may predate the data collection, however they appeared to be either expanded or worked on in relation to oil or gas activities in the study area. \nThese data were collected within shapefiles by county, using ArcGIS 10.5. One shapefile was generated for sites (polygons), one was generated for roads (lines), and one was generated for pipelines (lines). Another team member reviewed the data for concurrence and consistency. These data identify disturbance related to natural gas and oil drilling, but do not identify the well types associated with that disturbance. For well type, see the New York Department of Environmental Conservation downloadable well data webpage (https://www.dec.ny.gov/energy/1603.html) or the Pennsylvania Department of Environmental Protection Oil and Gas Permit Database available at their web page (http://data-padep-1.opendata.arcgis.com/datasets?q=Oil%20&%20Gas).</abstract>\n <purpose>These data were manually digitized at a scale of 1:3,000 for the analysis of landscape change related to natural gas and oil drilling in the Marcellus Shale region of the New York - Pennsylvania border.</purpose>\n <supplinf>There are some discrepancies on the feature dates. The ranges start from 2003 for counties that do not have NAIP image collected in 2004. Also note that the date of the features is a function of the NAIP image and some features may pre-date such dates.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20040101</begdate>\n <enddate>20131231</enddate>\n </rngdates>\n </timeinfo>\n <current>Oil and gas drilling disturbance observed between 2004 -2013</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-78.9812</westbc>\n <eastbc>-75.4034</eastbc>\n <northbc>42.7614</northbc>\n <southbc>41.1416</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>image analysis</themekey>\n <themekey>land use change</themekey>\n <themekey>well drilling</themekey>\n <themekey>geography</themekey>\n <themekey>geospatial datasets</themekey>\n <themekey>natural resources</themekey>\n <themekey>oil resources</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5a6f1793e4b06e28e9cac8ff</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>New York</placekey>\n <placekey>Alleghany County</placekey>\n <placekey>Broome County</placekey>\n <placekey>Chemung County</placekey>\n <placekey>Steuben County</placekey>\n <placekey>Tioga County</placekey>\n <placekey>Pennsylvania</placekey>\n <placekey>Bradford County</placekey>\n <placekey>Mckean County</placekey>\n <placekey>Potter County</placekey>\n <placekey>Susquehanna County</placekey>\n <placekey>Tioga County</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>These data identify disturbance related to natural gas and oil drilling, but do not identify the well type associated with that disturbance. For information on well type see the respective state permit databases identified above. The data has not been field validated and the dates for the features is based on the NAIP image where the feature first appears, some features may predate the NAIP imagery.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Terry Slonecker</cntper>\n <cntorg>U.S. Geological Survey, CLIMATE & LAND-USE</cntorg>\n </cntperp>\n <cntpos>Research Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 562, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>703-648-4289</cntvoice>\n <cntfax>703-648-7825</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>This research was funded by the USGS Climate and Land Use Program and by the USGS Chesapeake Bay Program.</datacred>\n <native>Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.5.0.6491</native>\n <crossref>\n <citeinfo>\n <origin>Milheim, Lesley</origin>\n <origin>Roig-Silva, Coral</origin>\n <pubdate>20180101</pubdate>\n <title>A comparison of hydrocarbon-related landscape disturbance pattern along the New York-Pennsylvania border 2004-2013</title>\n <geoform>publication</geoform>\n <onlink>https://pubs.er.usgs.gov/</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>NY Department of Environmental Conservation</origin>\n <pubdate>20180716</pubdate>\n <title>New York Department of Environmental Conservation downloadable well data web site</title>\n <geoform>publication</geoform>\n <onlink>https://www.dec.ny.gov/energy/1603.html</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>PA Department of Environmental Protection</origin>\n <pubdate>20180716</pubdate>\n <title>Pennsylvania Department of Environmental Protection Oil and Gas Permit Database</title>\n <geoform>publication</geoform>\n <onlink>https://www.dep.pa.gov/DataandTools/Reports/Oil%20and%20Gas%20Reports/Pages/default.aspx</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>An accuracy assessment of the data was not completed. A quality check for consistency in data collection was performed. The number of pipelines or roads is not representative of the actual number of pipelines and roads developed due to hydrocarbon extraction. The number of pipelines and roads is a function of the data collecting process; some pipelines and some roads were collected in sections and not as continuous features. The collection of pipelines and roads is limited to recent disturbance in the surface associated with construction or maintenance of such pipelines and on occasion, roads.</attraccr>\n </attracc>\n <logic>The data collection was a manual process of evaluating NAIP imagery for the region of the selected PA-NY counties. The permits databases for NY and PA were used as a guide in the data collection process. Any limitations of existing permits databases are transferred to this data.</logic>\n <complete>Due to the area of the study there is a chance that some sites were omitted and not collected. Especially if the permits were not included in the State permit database by the time the permit information was downloaded. Dates of features are limited to NAIP images available for the county, so there might be discrepancies on the specific dates for each feature. When 2004 NAIP image was unavailable the image closed to that date was used (i.e. 2003). Data was not field validated.</complete>\n <lineage>\n <procstep>\n <procdesc>These data were collected using high-resolution aerial imagery from the NAIP for each available year between 2004 - 2013 within a GIS, along with additional geospatial data on oil and gas drilling permits and locations, administrative boundaries, ecoregions, and the footprint of the Marcellus Shale play. The data collection was a manual process of visually examining the NAIP imagery composite for each county for each year and using 2004 imagery as a baseline to identify and digitize landscape changes in the land cover resulting from the development of gas extraction infrastructure that occurred after 2004. Changes that correlated with natural gas extraction permits, appeared to be natural gas extraction related, or were in proximity to other gas extraction infrastructure were selected and digitized to the maximum extent of landscape disturbance. Disturbance that appeared in the 2004 imagery was collected; however, some of the collected disturbance for 2004 may predate the NAIP imagery collection date. The focus of the data collection was on features attributable to the construction, use, and maintenance of gas extraction drill sites, processing plants, and compressor stations, as well as the centerlines for new roads accessing such sites, plants, and stations, and the centerlines for new pipelines used to transport the extracted gas. Some of the roads and or pipelines may predate the data collection, however they appeared to be either expanded or worked on in relation to oil or gas activities in the study area. These data were collected within shapefiles by county, using ArcGIS 10.0. One shapefile was generated for sites (polygons), one was generated for roads (lines), and one was generated for pipelines (lines). Another team member reviewed the data for concurrence and consistency. These data identify disturbance related to natural gas and oil drilling, but do not identify the well types associated with that disturbance. For well type, see the New York Department of Environmental Conservation downloadable well data available at https://www.dec.ny.gov/energy/1603.html or the Pennsylvania Department of Environmental Protection Oil and Gas Permit Database available at https://www.dep.pa.gov/DataandTools/Reports/Oil%20and%20Gas%20Reports/Pages/default.aspx.</procdesc>\n <procdate>20130101</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>G-polygon</sdtstype>\n <ptvctcnt>14948</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <mapproj>\n <mapprojn>Albers Conical Equal Area</mapprojn>\n <albers>\n <stdparll>29.5</stdparll>\n <stdparll>45.5</stdparll>\n <longcm>-96.0</longcm>\n <latprjo>23.0</latprjo>\n <feast>0.0</feast>\n <fnorth>0.0</fnorth>\n </albers>\n </mapproj>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.6096</absres>\n <ordres>0.6096</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North_American_Datum_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>NYPA_pipes_2013v3.shp Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BegYear</attrlabl>\n <attrdef>The first date (year) the disturbance was observed in the NAIP image. Range starts at 2003 due to the fact that not all counties collected NAIP imagery during the same dates. The year reflects actual NAIP date of collection (year).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2003</rdommin>\n <rdommax>2013</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Descript</attrlabl>\n <attrdef>Type of disturbance.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>pipeline</edomv>\n <edomvd>Pipeline used for oil and gas</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>km</attrlabl>\n <attrdef>length of line segment in kilometers</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0191383301829</rdommin>\n <rdommax>62.0476355551</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>NYPA_roads_2013v3.shp Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BegYear</attrlabl>\n <attrdef>The first date (year) the disturbance was observed in the NAIP image. Range starts at 2003 due to the fact that not all counties collected NAIP imagery during the same dates. The year reflects actual NAIP date of collection (year).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2003</rdommin>\n <rdommax>2013</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Descript</attrlabl>\n <attrdef>Type of disturbance.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>road</edomv>\n <edomvd>segment of new or expanded road attributable to oil and gas extraction activities</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>km</attrlabl>\n <attrdef>length of segment line in kilometers</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00392123859379</rdommin>\n <rdommax>13.4730461812</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>NYPA_sites_2013v3.shp Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BegYear</attrlabl>\n <attrdef>The first date (year) the disturbance was observed in the NAIP image. Range starts at 2003 due to the fact that not all counties collected NAIP imagery during the same dates. The year reflects actual NAIP date of collection (year).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2003</rdommin>\n <rdommax>2013</rdommax>\n <attrunit>years</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Descript</attrlabl>\n <attrdef>type of disturbance</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>cleared</edomv>\n <edomvd>areas disturbed or cleared for oil and gas extraction activities (wells)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>other</edomv>\n <edomvd>infrastructure or areas cleared associated to oil and gas extraction activities (processing/ storage facilities)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>impoundment</edomv>\n <edomvd>surficial water bodies created and used during the oil and gas extraction activities (usually to store hydraulic fracturing fluids).</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ha</attrlabl>\n <attrdef>area in hectares of the disturbance</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.000126378821625</rdommin>\n <rdommax>67.5251250364</rdommax>\n <attrunit>hectares</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Data is descriptive in nature and should not be used for litigation or environmental evaluation. The data provides an idea of the extent of disturbance due to hydrocarbon extraction in the area, however there was never a process of field validation. User must excess caution. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://www.sciencebase.gov/catalog/item/5a6f1793e4b06e28e9cac8ff</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>none.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Coral Roig-Silva</cntper>\n <cntorg>U.S. Geological Survey, Lower Mississippi Gulf Water Science Center</cntorg>\n </cntperp>\n <cntpos>Physical Scientist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 436, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-5121</cntvoice>\n <cntfax>703-648-4603</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2018-08-06Start Date2016-07-11End Date2016-09-13
## Citation
Slonecker, T., Paine, E.C., and Simon, N.S., 2018, Upper Klamath Lake, Oregon, Hyperspectral Algal Samples: U.S. Geological Survey data release, https//doi.org/10.5066/F77D2S8S.
## Summary
This data represents samples of algae from Upper Klamath Lake Oregon, during the summer of 2016. Data were sampled from the lake using standard protocols and then shipped to the remote sensing laboratory at the National Institute of Standards and Technology (NIST) for analysis on the hyperspectral microscope at NIST.
## Summary
This data represents samples of algae from Upper Klamath Lake Oregon, during the summer of 2016. Data were sampled from the lake using standard protocols and then shipped to the remote sensing laboratory at the National Institute of Standards and Technology (NIST) for analysis on the hyperspectral microscope at NIST.
## Contacts
Point of Contact
:
[Terry Slonecker](/catalog/catalogParty/show?partyId=9570)
Originator
:
[Terry Slonecker](/catalog/catalogParty/show?partyId=9570),
[Emily C Paine](/catalog/catalogParty/show?partyId=71453),
[Nancy S Simon](/catalog/catalogParty/show?partyId=9493)
Metadata Contact
:
[Terry Slonecker](/catalog/catalogParty/show?partyId=9570)
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:
[Office of Land Remote Sensing](/catalog/catalogParty/show?partyId=17120)
USGS Mission Area
:
[Land Resources](/catalog/catalogParty/show?partyId=Land+Resources)
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| All\_UKL\_Spectral\_Data\_2016.xml<br>_Original FGDC Metadata_ | View | 14.56 KB | application/fgdc+xml |
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## Purpose
Research on the identification and optical parameters of potential harmful algal blooms.
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## Provenance
## Additional Information
### Identifiers
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| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F77D2S8S |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Terry Slonecker</origin>\n <pubdate>2018</pubdate>\n <title>Data Release: Upper Klamath Lake, Oregon, Hyperspectral Algal Samples</title>\n <geoform>Journal article</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F77D2S8S</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Barry Rosen</origin>\n <origin>Ann Amand</origin>\n <pubdate>20150914</pubdate>\n <title>Field and laboratory guide to freshwater cyanobacteria harmful algal blooms for Native American and Alaska Native communities, Open-File Report 2015-1164</title>\n <geoform>USGS Open File report</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>USGS</publish>\n </pubinfo>\n <onlink>https://pubs.er.usgs.gov/publication/ofr20151164</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Hyperspectral microscope images of algal samples collected from Upper Klamath Lake, Oregon, from August 15, 2016 to September 30, 2016.</abstract>\n <purpose>Data were collected to assess water quality</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20160815</begdate>\n <enddate>20160930</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>In work</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-122.0718</westbc>\n <eastbc>-121.8118</eastbc>\n <northbc>42.4625</northbc>\n <southbc>42.2329</southbc>\n </bounding>\n <descgeog>Upper Klamath Lake, OR</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>Harmful Algal Blooms, hyperspectral microscopy, imaging spectrocopy, microcystis, aphanizomenon</themekt>\n <themekey>harmful algal blooms</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5b61f93ae4b006a11f6f789b</themekey>\n </theme>\n <place>\n <placekt>Upper Klamath Lake, Oregon</placekt>\n <placekey>Upper Klamath Lake, Oregon</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Terry Slonecker</cntper>\n <cntorg>Southeast Region</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 521, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-4289</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>David Allen, NIST, Ron Resmini, Mitre</datacred>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Algae</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2017</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Nancy S Simon</cntper>\n <cntorg>WATER</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 432, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-5863</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>expert advice</taxonpro>\n <taxoncom>expert confirmed two major species</taxoncom>\n </taxonsys>\n <taxongen>Microcystis aeruginosa, Aphanizomenon flos-aquae, Green algae hitchhiker, Cyanobacteria hitchhiker, Diatom \n\n, aphanazominon, green algae, diatom</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Chroococcales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Chroococcaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Microcystis</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Microcystis aeruginosa</taxonrv>\n <taxoncl>\n <taxonrn>Subspecies</taxonrn>\n <taxonrv>Microcystis aeruginosa aeruginosa</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Subspecies</taxonrn>\n <taxonrv>Microcystis aeruginosa major</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>Data were reviewed by collection scientists and partners</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Before sample measurement, reference data cubes were collected from the reference slide placed on top of a Spectralon\xc2\xae disk, and integration times were optimized for each desired magnification level. Data cubes were then collected from the sample slides. Depending on integration time, image acquisition took between 2 and 15 minutes to complete. Two to ten images were collected per slide, depending on algal abundance. A fresh reference slide was measured after data collection was finished, 4 to 6 hours later. Slides were kept out of direct light when not being measured. \n\nData cubes were normalized in ENVI to the reference data cube. Normalized cubes were transformed by one of two methods. The principal component transformation was applied to a spectral subset of bands 7 through 65 (402.5 nm to 701.1 nm) to avoid the noisy regions of the spectrum. The spectral derivative of each cube was calculated with the ENVI user function Spectral_Derivative, which results in a new data cube wherein each pixel is the derivative of the spectrum of the corresponding pixel in the original image. The derivative transformation was applied to a subset of bands 13 through 59 (432.6 nm to 669.5 nm) to encompass the main features that were observed to differ between the derivative spectra of Microcystis and Aphanizomenon. The normalized data and the PC-transformed and derivative data were then analyzed with several of the algorithms and classification methods included in ENVI to evaluate the separability of Microcystis and Aphanizomenon.</procdesc>\n <procdate>20161130</procdate>\n </procstep>\n <method>\n <methtype>Field</methtype>\n <methdesc>Spectral analysis based on field identification of samples</methdesc>\n </method>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Coordinates were extracted using the EarthExplorer Imagery System</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>1.0E-4</latres>\n <longres>1.0E-4</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>NAD1983</horizdn>\n <ellips>GRS 80</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Index</enttypl>\n <enttypd>Index</enttypd>\n <enttypds>The INDEX sheet is metadata on sample locations and microscope images. Images with strikethroughs were blurry, redundant, or irrelevant and were not included in the dataset.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pelican marina (PM), Mid Lake (ML), Mid North (MN), Rattlesnake Point</attrlabl>\n <attrdef>Locations, Dates and Names of specific samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>Producer defines values</codesetn>\n <codesets>Producer defines values</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SampleNotes</attrlabl>\n <attrdef>Dates, Times, Locations and names of Sample files</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>Producer defined.</codesetn>\n <codesets>Producer defined.</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>All_UKL_Spectral_Data_2016</enttypl>\n <enttypd>Sample Notes</enttypd>\n <enttypds>Producer defined. Self explanatory</enttypds>\n </enttyp>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Info</enttypl>\n <enttypd>Band combinations, organisms codes</enttypd>\n <enttypds>producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>PCA, LSU), and DerivLSU_2</attrlabl>\n <attrdef>Processing Type (principal components analysis) PCA. linear spectral unmixing (LSU), and DerivLSU_2 (LSU of first derivative)</attrdef>\n <attrdefs>ENVI Users Manual</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Integer Values</edomv>\n <edomvd>Band Numbers</edomvd>\n <edomvds>8 bit spectral values</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>WaterQuality</enttypl>\n <enttypd>pH and DO values for top of water colun measurments, Week#, sample location code</enttypd>\n <enttypds>Standard measures, Week #, RP, MN, ML, PM</enttypds>\n </enttyp>\n <attr>\n <attrlabl>pH</attrlabl>\n <attrdef>the negative log of hydrogen ION activity</attrdef>\n <attrdefs>Standard scientific definition</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0 to 7</edomv>\n <edomvd>0 = acidic, 7 = akaline</edomvd>\n <edomvds>standard scientific definiton</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Weekly spectral values, Week#, Location, Sample# W5MN1 = Week5/Mid-North/Sample1</enttypl>\n <enttypd>Selected Imagery data</enttypd>\n <enttypds>Imagery band centers pre-selected by manufacturer</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Hyperspectral band values, 400 band centers from 372 to 1042 nanometers</attrlabl>\n <attrdef>A numerical value for relative reflectance from the target.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>.000001</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>This database, identified as UKL_spectra_June_2015, has been approved for release by the U.S. Geological Survey (USGS). Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the database is released on condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from its authorized or unauthorized use.</distliab>\n <techpreq>Spectral and image analysis software</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200826</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Terry Slonecker</cntper>\n <cntorg>Southeast Region</cntorg>\n </cntperp>\n <cntpos>Research Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 521, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-4289</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2019-03-08Start Date2015End Date2017
## Citation
Keith, M.K., 2019, Surficial Particle Count and Clay Horizon Marker Data for Fall Creek and the Middle Fork Willamette River, Oregon in 2015-2017: U.S. Geological Survey data release, https://doi.org/10.5066/P9MGNDHN.
## Summary
The Middle Fork Willamette River Basin encompasses 3,548 square kilometers of western Oregon and drains to the mainstem Willamette River. Fall Creek Basin encompasses 653 square kilometers and drains to the Middle Fork Willamette River. In cooperation with the U.S. Army Corps of Engineers, the U.S. Geological Survey evaluated geomorphic responses of downstream river corridors to annual drawdowns to streambed at Fall Creek Lake. This study of geomorphic change is focused on the major alluvial channel segments downstream of the U.S. Army Corps of Engineers dams including the lowermost 11.5 km of Fall Creek and 27.3 km of the Middle Fork Willamette River, as well as Fall Creek Lake. This dataset is delivered as one excel workbook with \[...\]
## Summary
The Middle Fork Willamette River Basin encompasses 3,548 square kilometers of western Oregon and drains to the mainstem Willamette River. Fall Creek Basin encompasses 653 square kilometers and drains to the Middle Fork Willamette River. In cooperation with the U.S. Army Corps of Engineers, the U.S. Geological Survey evaluated geomorphic responses of downstream river corridors to annual drawdowns to streambed at Fall Creek Lake. This study of geomorphic change is focused on the major alluvial channel segments downstream of the U.S. Army Corps of Engineers dams including the lowermost 11.5 km of Fall Creek and 27.3 km of the Middle Fork Willamette River, as well as Fall Creek Lake.
This dataset is delivered as one excel workbook with two tabs, and associated metadata includes separate entity sections for each workbook tab. These tables document grain-size distributions and sediment depths collected as a part of a study to document the geomorphic responses to the Fall Creek Lake streambed drawdowns. Surficial grain size distributions and fine sediment deposit depths were measured for this study over 2015 through 2017 to support analyses tracking geomorphic change in the reaches downstream of Fall Creek Lake. Particle counts were collected at 6 gravel bars along Fall Creek and the Middle Fork Willamette River in September 2015. Counts were repeated at 5 of those sites and at 5 additional sites along the Middle Fork Willamette River in October 2016. Multiple clay horizon markers were deployed at 10 sites in October 2015. Deposition depths were measured multiple times throughout the year. Clay horizon markers were deployed again at 9 of the 2015 sites plus one additional site in October-November 2016 and, again, measured throughout the year. Sediment measurements are summarized in spreadsheet tables.
## Contacts
Originator
:
[Mackenzie Keith](/catalog/catalogParty/show?partyId=11913)
Metadata Contact
:
[Mackenzie Keith](/catalog/catalogParty/show?partyId=11913)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
SDC Data Owner
:
[Oregon Water Science Center](/catalog/catalogParty/show?partyId=17494)
USGS Mission Area
:
[Water Resources](/catalog/catalogParty/show?partyId=Water+Resources)
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| FallCreek\_MiddleForkWillametteRiver\_ParticleCounts\_ClayHorizonMarkers\_2015-2017.xml<br>_Original FGDC Metadata_ | View | 30.25 KB | application/fgdc+xml |
| FallCreek\_MiddleForkWillametteRiver\_ParticleCounts\_ClayHorizonMarkers\_2015-2017.xlsx | | 81.56 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Keith, M.K., Wallick, J.R., Schenk, L.N., Stratton Garvin, L.E., Gordon, G.W., and Bragg, H.M., 2024, Reservoir evolution, downstream sediment transport, downstream channel change, and synthesis of geomorphic responses of Fall Creek and Middle Fork Willamette River to water years 2012–18 streambed drawdowns at Fall Creek Lake, Oregon: Scientific Investigations Report, https://doi.org/10.3133/sir20235135. | [https://doi.org/10.3133/sir20235135](https://doi.org/10.3133/sir20235135 "https://doi.org/10.3133/sir20235135") |
## Purpose
Surficial grain-size distributions and fine sediment deposit depths were measured for this study over 2015 through 2017 to support analyses tracking geomorphic change in the reaches downstream of Fall Creek Lake. These data have been created to support an assessment of geomorphic responses to sediment released from Fall Creek Lake between 2011 and 2017 on Fall Creek and the Middle Fork Willamette River, in western Oregon. These sediment data provide information on the character and magnitude of sediment changes along those channels and can be used to evaluate spatial and temporal changes that may result from multiple factors, including aggradation of reaches downstream of Fall Creek Lake that may result from annual lowering of lake levels to streambed that occurs during the drawdown period. The sediment measurements will provide a basis for evaluating geomorphic context and temporal and spatial patterns of sediment deposition.
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## Associated Items
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## Tags
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- [channel stability](/catalog/items?q=&filter=tags%3Dchannel+stability "channel stability (channel stability, Theme, None)")
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## Additional Information
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| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9MGNDHN |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Mackenzie K. Keith</origin>\n <pubdate>2019</pubdate>\n <title>Surficial Particle Count and Clay Horizon Marker Data for Fall Creek and the Middle Fork Willamette River, Oregon in 2015-2017</title>\n <geoform>Excel file</geoform>\n <serinfo>\n <sername>U.S. Geological Survey Data Release</sername>\n <issue>doi.org/10.5066/P9MGNDHN</issue>\n </serinfo>\n <onlink>https://doi.org/10.5066/P9MGNDHN</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Mackenzie K. Keith</origin>\n <origin>J. Rose Wallick</origin>\n <origin>Liam N. Schenk</origin>\n <origin>Laurel E. Stratton Garvin</origin>\n <origin>Gabriel W. Gordon</origin>\n <origin>Heather M. Bragg</origin>\n <pubdate>2024</pubdate>\n <title>Reservoir evolution, downstream sediment transport, downstream channel change, and synthesis of geomorphic responses of Fall Creek and Middle Fork Willamette River to water years 2012\xe2\x80\x9318 streambed drawdowns at Fall Creek Lake, Oregon</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>US Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/sir20235135</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The Middle Fork Willamette River Basin encompasses 3,548 square kilometers of western Oregon and drains to the mainstem Willamette River. Fall Creek Basin encompasses 653 square kilometers and drains to the Middle Fork Willamette River. In cooperation with the U.S. Army Corps of Engineers, the U.S. Geological Survey evaluated geomorphic responses of downstream river corridors to annual drawdowns to streambed at Fall Creek Lake. This study of geomorphic change is focused on the major alluvial channel segments downstream of the U.S. Army Corps of Engineers dams including the lowermost 11.5 km of Fall Creek and 27.3 km of the Middle Fork Willamette River, as well as Fall Creek Lake.\n\nThis dataset is delivered as one excel workbook with two tabs, and associated metadata includes separate entity sections for each workbook tab. These tables document grain-size distributions and sediment depths collected as a part of a study to document the geomorphic responses to the Fall Creek Lake streambed drawdowns. Surficial grain size distributions and fine sediment deposit depths were measured for this study over 2015 through 2017 to support analyses tracking geomorphic change in the reaches downstream of Fall Creek Lake. Particle counts were collected at 6 gravel bars along Fall Creek and the Middle Fork Willamette River in September 2015. Counts were repeated at 5 of those sites and at 5 additional sites along the Middle Fork Willamette River in October 2016. Multiple clay horizon markers were deployed at 10 sites in October 2015. Deposition depths were measured multiple times throughout the year. Clay horizon markers were deployed again at 9 of the 2015 sites plus one additional site in October-November 2016 and, again, measured throughout the year. Sediment measurements are summarized in spreadsheet tables.</abstract>\n <purpose>Surficial grain-size distributions and fine sediment deposit depths were measured for this study over 2015 through 2017 to support analyses tracking geomorphic change in the reaches downstream of Fall Creek Lake. These data have been created to support an assessment of geomorphic responses to sediment released from Fall Creek Lake between 2011 and 2017 on Fall Creek and the Middle Fork Willamette River, in western Oregon. These sediment data provide information on the character and magnitude of sediment changes along those channels and can be used to evaluate spatial and temporal changes that may result from multiple factors, including aggradation of reaches downstream of Fall Creek Lake that may result from annual lowering of lake levels to streambed that occurs during the drawdown period. The sediment measurements will provide a basis for evaluating geomorphic context and temporal and spatial patterns of sediment deposition.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2015</begdate>\n <enddate>2017</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-123.025487</westbc>\n <eastbc>-122.757731</eastbc>\n <northbc>44.030921</northbc>\n <southbc>43.918805</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Categories</themekt>\n <themekey>inlandWaters</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>sediment transport</themekey>\n <themekey>fluvial geomorphology</themekey>\n <themekey>historical channel change</themekey>\n <themekey>channel stability</themekey>\n <themekey>particle count</themekey>\n <themekey>pebble count</themekey>\n <themekey>grain size</themekey>\n <themekey>deposition</themekey>\n <themekey>clay horizon marker</themekey>\n <themekey>clay pads</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>geospatial analysis</themekey>\n <themekey>geomorphology</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5c6dd402e4b0fe48cb402780</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Fall Creek</placekey>\n <placekey>Middle Fork Willamette River</placekey>\n <placekey>Oregon</placekey>\n <placekey>Lane County</placekey>\n <placekey>Fall Creek Lake</placekey>\n <placekey>Jasper, Oregon</placekey>\n </place>\n </keywords>\n <accconst>None.</accconst>\n <useconst>The USGS shall not be held liable for improper or incorrect use of the data retrieved from the system. The U.S. Geological Survey should be acknowledged as the data source in products derived from these data.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Denver Federal Center</address>\n <address>Building 810</address>\n <address>Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>This study was prepared in cooperation with the U.S. Army Corps of Engineers.</datacred>\n <secinfo>\n <secsys>None</secsys>\n <secclass>Unclassified</secclass>\n <sechandl>None</sechandl>\n </secinfo>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted. Sediment measurements followed standard protocols and spreadsheets were reviewed by team members.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data are complete.</complete>\n <posacc>\n <horizpa>\n <horizpar>Particle count and clay horizon marker locations were primarily measured with a hand-held or real-time kinematic global positioning systems, although some locations were estimated from high-resolution lidar and aerial imagery. The hand-held unit suggested a horizontal accuracy of about 4 meters or better. The real-time kinematic unit suggested a horizontal accuracy of about 1 meter or better. The single coordinate position for particle counts was taken from the central point along two 50 foot to 100-foot transects.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal vertical accuracy tests were performed. Although, uncertainty for elevations estimated from lidar or real-time kinematic sources are likely within about 2 meters.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Wallick, J. Rose</origin>\n <origin>Jim E. O\'Connor</origin>\n <origin>Anderson, Scott</origin>\n <origin>Keith, Mackenzie</origin>\n <origin>Cannon, Charles</origin>\n <origin>Risley, John C.</origin>\n <pubdate>2011</pubdate>\n <title>Channel Change and Bed-Material Transport in the Umpqua River Basin, Oregon</title>\n <serinfo>\n <sername>U.S. Geological Survey Scientific Investigations Report</sername>\n <issue>2011-5041</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <othercit>112 p.</othercit>\n <onlink>http://pubs.usgs.gov/sir/2011/5041/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1939</begdate>\n <enddate>2009</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>Wallick and others, 2011</srccitea>\n <srccontr>The report describes detailed methods used for modified Wolman pebble counts.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Kleiss, B.A.</origin>\n <pubdate>1996</pubdate>\n <title>Sediment retention in a bottomland hardwood wetland in eastern Arkansas</title>\n <serinfo>\n <sername>Wetlands</sername>\n <issue>v. 16, no. 3, p. 321\xe2\x80\x93333</issue>\n </serinfo>\n <onlink>https://link.springer.com/article/10.1007/BF03161323</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>1996</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>Kleiss, 1996</srccitea>\n <srccontr>The report describes methods used for sediment depths collected from clay horizon markers.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Hupp, C.R.</origin>\n <origin>Demas, C.R.</origin>\n <origin>Kroes, D.E.</origin>\n <origin>Day, R.H.</origin>\n <origin>Doyle, T.W.</origin>\n <pubdate>2008</pubdate>\n <title>Recent sedimentation patterns within the central Atchafalaya Basin, Louisiana</title>\n <serinfo>\n <sername>Wetlands</sername>\n <issue>v. 28, no. 1, p. 125\xe2\x80\x93140</issue>\n </serinfo>\n <onlink>https://link.springer.com/article/10.1672%2F06-132.1</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2008</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>Hupp and others, 1996</srccitea>\n <srccontr>The report describes methods used for sediment depths collected from clay horizon markers.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Folk, R.L.</origin>\n <origin>Ward, W.C.</origin>\n <pubdate>1957</pubdate>\n <title>Brazos River bar: a study in the significance of grain size parameters</title>\n <serinfo>\n <sername>Journal of Sedimentary Petrology</sername>\n <issue>v. 27, no. 1, p. 3-26</issue>\n </serinfo>\n <onlink>https://www.crossref.org/iPage?doi=10.1306%2F74D70646-2B21-11D7-8648000102C1865D</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>1957</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>Folk and Ward, 1957</srccitea>\n <srccontr>The report describes methods used for particle size measurement sediment sorting calculations and descriptions.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Particle counts were collected by a modified Wolman pebble count technique (Wallick and others, 2011). One hundred particles along two parallel measuring tapes were measured with a gravel template at multiple site along Fall Creek and the Middle Fork Willamette River in September 2015 and October 2016. All data was entered into Excel after return from the field. Summary statistics and sorting indices (Folk and Ward, 1957) were calculated in Excel.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n <procstep>\n <procdesc>Sediment deposition measurements were similar to those described in Kleiss (1996) and Hupp and others (2008). Two to eight clay horizon markers were placed at ten sites along Fall Creek and the Middle Fork Willamette River in October 2015 and October-November 2016. PVC and rebar were used to mark the location of each clay horizon marker for recovery after sediment burial. Repeat site visits were made throughout the year following marker deployment to measure total accumulated sediment depth to the nearest millimeter. All data was entered into Excel after return from the field. Discharge values for the Upper and Lower Fall Creek reaches are from the U.S. Geological Survey streamflow-gaging station 14151000 Fall Creek below Winberry Creek, Oregon. Discharge values for the Dougren reach are from the U.S. Geological Survey streamflow-gaging station 14150000 Middle Fork Willamette River near Dexter, Oregon. Discharge values for the Jasper and TNC reaches are from the U.S. Geological Survey streamflow-gaging station 14152000 Middle Fork Willamette River at Jasper, Oregon.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spref>\n <horizsys>\n <planar>\n <mapproj>\n <mapprojn>NAD 1983 UTM Zone 10N</mapprojn>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-123.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </mapproj>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.0001</absres>\n <ordres>0.0001</ordres>\n </coordrep>\n <plandu>Meter</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D North American 1983</horizdn>\n <ellips>GRS 1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n <vertdef>\n <altsys>\n <altdatum>North American Vertical Datum of 1988 (NAVD88)</altdatum>\n <altres>2</altres>\n <altunits>meters</altunits>\n <altenc>Explicit elevation coordinate included with horizontal coordinates</altenc>\n </altsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>ParticleCounts</enttypl>\n <enttypd>Particle counts along Fall Creek and the Middle Fork Willamette River, 2015-2016: Excel worksheet containing location and grain-size measurement data.</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Reach</attrlabl>\n <attrdef>Study reach that contains the particle count.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Upper Fall Creek</edomv>\n <edomvd>Fall Creek between river kilometer 11.5 and 5.6.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Lower Fall Creek</edomv>\n <edomvd>Fall Creek between river kilometer 5.6 and 0.0.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Jasper</edomv>\n <edomvd>Middle Fork Willamette River between river kilometer 17.9 and 10.7.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TNC</edomv>\n <edomvd>Middle Fork Willamette River between river kilometer 10.7 and 0.0. TNC stands for The Nature Conservancy.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Site Name</attrlabl>\n <attrdef>Study site that contains the particle count.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Abbreviated text for study site location</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Measurement Date</attrlabl>\n <attrdef>Date particle count was collected.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Date particle count was collected in MM/DD/YYYY format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Site Location</attrlabl>\n <attrdef>Easting, northing, and approximate river kilometer (Rkm) for where the particle count was collected. Coordinates reference Universal Transverse Mercator projection, North American Datum of 1983. River kilometer is the distance along wetted channel measured upstream from the mouths of Fall Creek and the Middle Fork Willamette River.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Variable coordinates describing the easting, northing, and approximate river kilometer for where the particle count was collected.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent finer than given diameter, diameters in millimeters</attrlabl>\n <attrdef>Percent of grains in total particle count that were finer than each gravel template bin size. Bin values are in millimeters.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Number of particles measured</attrlabl>\n <attrdef>Number of particles measured</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>100</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percentile, in millimeters</attrlabl>\n <attrdef>Calculated percentile value in millimeters for categories at the 5th (D05), 16th (D16), 50th (D50), 84th (D84), and 95th (D95) percentiles.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>less than 2</rdommin>\n <rdommax>168.1</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sorting</attrlabl>\n <attrdef>Sorting index value and general description (see Folk and Ward, 1957) based on grain size statistics.</attrdef>\n <attrdefs>U.S. Geological Survey; Folk and Ward, 1957</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0.5 to 0.71</edomv>\n <edomvd>moderately well sorted</edomvd>\n <edomvds>Folk and Ward, 1957</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>0.71 to 1</edomv>\n <edomvd>moderately sorted</edomvd>\n <edomvds>Folk and Ward, 1957</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1 to 2</edomv>\n <edomvd>poorly sorted</edomvd>\n <edomvds>Folk and Ward, 1957</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>ClayMarkers</enttypl>\n <enttypd>Clay horizon markers along Fall Creek and the Middle Fork Willamette River, 2015-2017: Excel worksheet containing location and sediment thickness data.</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Reach</attrlabl>\n <attrdef>Study reach that contains the particle count.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Upper Fall Creek</edomv>\n <edomvd>Fall Creek between river kilometer 11.5 and 5.6.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Lower Fall Creek</edomv>\n <edomvd>Fall Creek between river kilometer 5.6 and 0.0.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Dougren</edomv>\n <edomvd>Middle Fork Willamette River between river kilometer 21.4 and 17.9.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Jasper</edomv>\n <edomvd>Middle Fork Willamette River between river kilometer 17.9 and 10.7.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TNC</edomv>\n <edomvd>Middle Fork Willamette River between river kilometer 10.7 and 0.0. TNC stands for The Nature Conservancy.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Site Name</attrlabl>\n <attrdef>Study site that contains the particle count.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Abbreviated text for study site location</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Location</attrlabl>\n <attrdef>Easting, northing, elevation, marker position description, marker identification (ID) number, and approximate river kilometer (Rkm) for where the clay horizon marker was located. Coordinates reference Universal Transverse Mercator projection, North American Datum of 1983, North American Vertical Datum of 1988. River kilometer is the distance along wetted channel measured upstream from the mouths of Fall Creek and the Middle Fork Willamette River.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Variable values describing the easting, northing, elevation, marker position description, marker identification (ID) number, and approximate river kilometer (Rkm) for where the clay horizon marker was located.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Installation Date</attrlabl>\n <attrdef>Date clay horizon marker was installed.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Date clay horizon marker was installed in MM/DD/YYYY format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Measurement Date</attrlabl>\n <attrdef>Date clay horizon marker was measured.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Date clay horizon marker was measured in MM/DD/YYYY format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Maximum Daily Mean Discharge</attrlabl>\n <attrdef>Maximum daily mean discharge recorded at U.S. streamflow-gaging stations since the previous measurement (or installation date). Discharge values for the Upper and Lower Fall Creek reaches are from the U.S. Geological Survey streamflow-gaging station 14151000 Fall Creek below Winberry Creek, Oregon. Discharge values for the Dougren reach are from the U.S. Geological Survey streamflow-gaging station 14150000 Middle Fork Willamette River near Dexter, Oregon. Discharge values for the Jasper and TNC reaches are from the U.S. Geological Survey streamflow-gaging station 14152000 Middle Fork Willamette River at Jasper, Oregon.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Discharge in cubic feet per second.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Average Daily Mean Discharge</attrlabl>\n <attrdef>Average daily mean discharge recorded at U.S. streamflow-gaging stations since the previous measurement (or installation date). Discharge values for the Upper and Lower Fall Creek reaches are from the U.S. Geological Survey streamflow-gaging station 14151000 Fall Creek below Winberry Creek, Oregon. Discharge values for the Dougren reach are from the U.S. Geological Survey streamflow-gaging station 14150000 Middle Fork Willamette River near Dexter, Oregon. Discharge values for the Jasper and TNC reaches are from the U.S. Geological Survey streamflow-gaging station 14152000 Middle Fork Willamette River at Jasper, Oregon.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Discharge in cubic feet per second.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Days Above Threshold Discharge (500, 2000, or 2,500 ft3/s)</attrlabl>\n <attrdef>Number of days above "threshold discharge" of 500, 2000, or 2,500 cubic feet per second since the previous measurement (or installation date). During WY2016 installation a "threshold discharge" was selected as the discharge which most clay horizon markers would be above the water surface and accessible for future field measurement. "Threshold discharge" is not an indication that all markers would be inundated above that discharge. Discharge values for the Upper and Lower Fall Creek reaches was observed from the U.S. Geological Survey streamflow-gaging station 14151000 Fall Creek below Winberry Creek, Oregon. The threshold discharge (2,000 cubic feet per second)for the Dougren reach was observed from the U.S. Geological Survey streamflow-gaging station 14150000 Middle Fork Willamette River near Dexter, Oregon. The threshold discharge (2,500 cubic feet per second) for the Jasper and TNC reaches was observed from the U.S. Geological Survey streamflow-gaging station 14152000 Middle Fork Willamette River at Jasper, Oregon.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Number of days</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Total Depth of Sediment Above Marker, in mm</attrlabl>\n <attrdef>Total depth of sediment deposition on clay horizon marker at time of measurement. Value is in millimeters. The number of measurements for each clay horizon marker ranged from one to three. If only one measurement was made, it is representative of the whole marker sediment depth. If multiple measurements were made, the average depth was calculated to be the representative depth.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Depth of sediment deposition on clay horizon marker at time of measurement. Value is in millimeters.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Denver Federal Center</address>\n <address>Building 810</address>\n <address>Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Although these data have been used by the U.S. Geological Survey, U.S. Department of the Interior, no warranty expressed or implied is made by the U.S. Geological Survey as to the accuracy of the data. The act of distribution shall not constitute any such warranty, and no responsibility is assumed by the U.S. Geological Survey in the use of these data, software, or related materials. The use of firm, trade, or brand names in this report is for identification purposes only and does not constitute endorsement by the U.S. Geological Survey. The names mentioned in this document may be trademarks or registered trademarks of their respective trademark owners.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Excel file</formname>\n <formvern>Microsoft Office 365</formvern>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9MGNDHN</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. This dataset is provided by USGS as a public service.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Keith, Mackenzie K.</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical address</addrtype>\n <address>2130 SW 5th Avenue</address>\n <city>Portland</city>\n <state>Oregon</state>\n <postal>97201</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>503-251-3474</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <mettc>local time</mettc>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2017-06-09Start Date2008End Date2017
## Citation
Dowsett, H.J., Foley, K.M., Robinson, M.M., and Herbert, T.D., 2017, PRISM late Pliocene (Piacenzian) alkenone - derived SST data: U.S. Geological Survey data release, https://doi.org/10.5066/F7959G1S.
## Summary
This dataset collects sea surface temperature data generated through alkenone analysis of late Pliocene sediments collected from cores and field localities by USGS PRISM project members. Alkenone analysis of sample material was performed by Timothy Herbert at Brown University.
## Summary
This dataset collects sea surface temperature data generated through alkenone analysis of late Pliocene sediments collected from cores and field localities by USGS PRISM project members. Alkenone analysis of sample material was performed by Timothy Herbert at Brown University.
## Contacts
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[Harry J Dowsett](/catalog/catalogParty/show?partyId=2666)
Originator
:
[Harry J Dowsett](/catalog/catalogParty/show?partyId=2666),
[Kevin M Foley](/catalog/catalogParty/show?partyId=3285),
[Marci M Robinson](/catalog/catalogParty/show?partyId=8706),
[Timothy D Herbert](/catalog/catalogParty/show?partyId=Timothy+D+Herbert)
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[Kevin M Foley](/catalog/catalogParty/show?partyId=3285)
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## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Dowsett, H.J., Robinson, M.M., and Foley, K.M., 2021, Estimating Piacenzian sea surface temperature using an alkenone-calibrated transfer function: U.S. Geological Survey Scientific Investigations Report 2021–5051, 16 p., https://doi.org/10.3133/sir20215051. | [https://doi.org/10.3133/sir20215051](https://doi.org/10.3133/sir20215051 "https://doi.org/10.3133/sir20215051") |
## Purpose
This data was produced to both supplement and verify existing data on the late Pliocene climate generated by the USGS PRISM project
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## Provenance
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## Additional Information
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| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F7959G1S |
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Build Version: 2.184.0-630-gc5d79ac-0
(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Harry J. Dowsett</origin>\n <origin>Kevin M. Foley</origin>\n <origin>Marci M. Robinson</origin>\n <origin>Timothy D. Herbert</origin>\n <pubdate>2017</pubdate>\n <title>PRISM late Pliocene (Piacenzian) alkenone - derived SST data</title>\n <geoform>text table, comma separated values</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7959G1S</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Harry J. Dowsett</origin>\n <origin>Marci M. Robinson</origin>\n <origin>Kevin M. Foley</origin>\n <pubdate>2021</pubdate>\n <title>Estimating Piacenzian sea surface temperature using an alkenone-calibrated transfer function</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>US Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/sir20215051</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset collects sea surface temperature data generated through alkenone analysis of late Pliocene sediments collected from cores and outcrops</abstract>\n <purpose>This data was produced to both supplement and verify existing data on the late Pliocene climate generated by the USGS PRISM project</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2008</begdate>\n <enddate>2017</enddate>\n </rngdates>\n </timeinfo>\n <current>Date of processing of sample materials</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-178.167</westbc>\n <eastbc>167.769</eastbc>\n <northbc>80.474</northbc>\n <southbc>-42.55</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>NASA Global Change Master Directory</themekt>\n <themekey>Sea Surface Temperature Reconstruction</themekey>\n <themekey>Paleoclimate</themekey>\n <themekey>Ocean records</themekey>\n <themekey>Alkenone</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:593599dee4b06a58eb675608</themekey>\n </theme>\n <place>\n <placekt>Getty Thesaurus of Geographic Names</placekt>\n <placekey>Atlantic Ocean</placekey>\n <placekey>Pacific Ocean</placekey>\n <placekey>South China sea</placekey>\n <placekey>Greenland Sea</placekey>\n <placekey>Arctic Ocean</placekey>\n <placekey>United States</placekey>\n <placekey>Virginia</placekey>\n <placekey>Suffolk</placekey>\n <placekey>Nansemond River</placekey>\n </place>\n <temporal>\n <tempkt>USGS Thesaurus</tempkt>\n <tempkey>Piacenzian</tempkey>\n <tempkey>Pliocene</tempkey>\n <tempkey>Neogene</tempkey>\n <tempkey>Tertiary</tempkey>\n <tempkey>Cenozoic</tempkey>\n <tempkey>Phanerozoic</tempkey>\n </temporal>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Harry J. Dowsett</cntper>\n <cntorg>Department of the Interior, U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>12201 Sunrise Valley Dr. Mail Stop 926A</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>703 648 5282</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>INSTITUTE at BROWN for Environment & Society, Brown, University</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Attribute Uk'37: Gas chromatographic (GC) analyses were carried out on Agilent 5890 and 6890 Gas chromatographs equipped with 60 m DB-1 GC columns and Flame Ionization Detection, with a temperature ramp at 25\xc2\xb0C to 240\xc2\xb0C, followed by ramping at 1.5\xc2\xb0C to 320\xc2\xb0C. GC quality control was maintained by daily analysis of a laboratory standard alkenone mixture, and by running the same sample at the beginning and end of each GC run to determine sample drift due to changing chromatographic conditions. Analysis of both lab standard and sample replication indicated a long-term replication of Uk\xe2\x80\x9937 values equivalent to 0.1-0.2 \xc2\xb0C.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Austin, J.A., Jr., Christie-Blick, N., Malone, M.J.</origin>\n <pubdate>1998</pubdate>\n <title>Shipboard Scientific Party, 1998. Site 1073. Proceedings of the Ocean Drilling Program</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>College Station, Texas</pubplace>\n <publish>Ocean Drilling Program</publish>\n </pubinfo>\n <onlink>doi:10.2973/odp.proc.ir.174a.105.1998</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19970713</begdate>\n <enddate>19970717</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 1073A</srccitea>\n <srccontr>Age model for core ODP 1073A</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Barron, J. A., I. A. Basov, L. Beaufort, G. Dubuisson, A. Y. Gladdenkov, J. J. Morley, M. Okada, G. Olafsson, D. K. Pak, and A. P. Roberts</origin>\n <pubdate>1995</pubdate>\n <title>Proc. ODP, Init. Repts., 145: Biostratigraphic and magnetostratigraphic summary.</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>College Station, Texas</pubplace>\n <publish>Ocean Drilling Program</publish>\n </pubinfo>\n <onlink>doi:10.2973/odp.proc.sr.145.145.1995</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19920809</begdate>\n <enddate>19920913</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 883B, ODP 887C</srccitea>\n <srccontr>Age model for cores ODP 883B, ODP 887C</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>De Schepper, S., Head, M. J., and Groeneveld, J.</origin>\n <pubdate>20101029</pubdate>\n <title>North Atlantic Current variability through marine isotope stage M2 (circa 3.3 Ma) during the mid-Pliocene</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Malden, MA USA</pubplace>\n <publish>Paleoceanography</publish>\n </pubinfo>\n <onlink>DOI: 10.1029/2008PA001725</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20050301</begdate>\n <enddate>20050531</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model IODP 1308C</srccitea>\n <srccontr>Age model for core IODP 1308C</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Groeneveld, J. 2005</origin>\n <pubdate>2005</pubdate>\n <title>PhD thesis: Effect of the Pliocene closure of the Panamanian Gateway on Caribbean and east Pacific sea surface temperatures and salinities by applying combined Mg/Ca and \xce\xb418O measurements (5.6-2.2 Ma)</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Kiel</pubplace>\n <publish>University of Kiel</publish>\n </pubinfo>\n <onlink>http://macau.uni-kiel.de/servlets/MCRFileNodeServlet/dissertation_derivate_00001516/d1516.pdf;jsessionid=4A4F5115F9982AAACADF4A0C729231BE</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19960106</begdate>\n <enddate>19960110</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 999A</srccitea>\n <srccontr>Age model for core ODP 999A</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Haug, G. H. and R. Tiedemann</origin>\n <pubdate>1998</pubdate>\n <title>Effect of the formation of the Isthmus of Panama on Atlantic Ocean thermohaline circulation</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>London</pubplace>\n <publish>Nature</publish>\n </pubinfo>\n <onlink>doi:10.1038/31447</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19960106</begdate>\n <enddate>19960110</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 999A</srccitea>\n <srccontr>Age model for core ODP 999A</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Herbert, T. D., Cleaveland Peterson, L., Lawrence, K. T., and Liu, Z.</origin>\n <pubdate>2010</pubdate>\n <title>Tropical ocean temperatures over the past 3.5 million years</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Washington, DC</pubplace>\n <publish>Science</publish>\n </pubinfo>\n <onlink>DOI: 10.1126/science.1185435</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19860325</begdate>\n <enddate>19990326</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 662B, ODP 1146B, ODP 1146C</srccitea>\n <srccontr>Age model for cores ODP 662B, ODP 1146B, ODP 1146C</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Joyce, J. E., Tjalsma, L. R. C., and Prutzman, J. M.</origin>\n <pubdate>1990</pubdate>\n <title>High-Resolution Planktic Stable Isotope Record and Spectral Analysis for the Last 5.35 M.Y. : Ocean Drilling Program Site 625 Northeast Gulf of Mexico</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Washington, DC</pubplace>\n <publish>Paleoceanography</publish>\n </pubinfo>\n <onlink>DOI: 10.1029/PA005i004p00507</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19850118</begdate>\n <enddate>19850120</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 625B</srccitea>\n <srccontr>Age model for core ODP 625B</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Kucera, M., and Kennett, J.P.</origin>\n <pubdate>2000</pubdate>\n <title>Biochronology and evolutionary implications of Late Neogene California margin planktic foraminiferal events</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Amsterdam</pubplace>\n <publish>Marine Micropaleontology</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/S0377-8398(00)00029-3</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19960522</begdate>\n <enddate>19960525</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 1018A</srccitea>\n <srccontr>Age model for core ODP 1018A</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Lisiecki, L. E., and Raymo, M. E.</origin>\n <pubdate>2005</pubdate>\n <title>A Pliocene-Pleistocene stack of 57 globally distributed benthic \xce\xb418O records</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Washington, DC</pubplace>\n <publish>Paleoceanography</publish>\n </pubinfo>\n <onlink>DOI: 10.1029/2004PA001071</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19950716</begdate>\n <enddate>19950719</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 982B</srccitea>\n <srccontr>Age model for core ODP 982A</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Lutz, B. P.</origin>\n <pubdate>2011</pubdate>\n <title>Shifts in North Atlantic planktic foraminifer biogeography and subtropical gyre circulation during the mid-Piacenzian warm period</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Amsterdam</pubplace>\n <publish>Marine Micropaleontology</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/j.marmicro.2011.06.006</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19940811</begdate>\n <enddate>19970328</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model 951A, ODP 958A, ODP 1006A, ODP 1062B, ODP 1063A</srccitea>\n <srccontr>Age model for cores 951A, ODP 958A, ODP 1006A, ODP 1062B, ODP 1063A</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Lutz, B. P.</origin>\n <pubdate>2011</pubdate>\n <title>PhD. thesis: LATE NEOGENE PALEOCEANOGRAPHY OF THE LOW-LATITUDE NORTHERN HEMISPHERE: IMPLICATIONS FOR CLIMATE AND OCEAN CIRCULATION IN A WARMER WORLD</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Carbondale, IL</pubplace>\n <publish>University of Illinois, Carbondale</publish>\n </pubinfo>\n <onlink>none</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19940811</begdate>\n <enddate>19940813</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 951A</srccitea>\n <srccontr>Age model for core 951A</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Mattingsdal, R., J. Knies, K. Andreassen, K. Fabian, K. Husum, K. Gr\xc3\xb8sfjeld, and S. De Schepper</origin>\n <pubdate>2014</pubdate>\n <title>A new 6\xc2\xa0Myr stratigraphic framework for the Atlantic\xe2\x80\x93Arctic Gateway</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Amsterdam</pubplace>\n <publish>Quaternary Science Reviews</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/j.quascirev.2013.08.022</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19930822</begdate>\n <enddate>19930823</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 911A</srccitea>\n <srccontr>Age model for core ODP 911A</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Myhre, A. M., J. Thiede, J. V. Firth, and Shipboard Scientific Party</origin>\n <pubdate>1995</pubdate>\n <title>ODP Leg 151 Initial Reports, Shipboard Scientific Party, 1995. Site 909: Biostratigraphy</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>College Station, TX</pubplace>\n <publish>Ocean Drilling Program</publish>\n </pubinfo>\n <onlink>doi:10.2973/odp.proc.ir.151.107.1995</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19930831</begdate>\n <enddate>19930901</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model 909C</srccitea>\n <srccontr>Age model for core 909C</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Naafs, B. D. A., Stein, R., Hefter, J., Kh\xc3\xa9lifi, N., De Schepper, S., and Haug, G. H.</origin>\n <pubdate>2010</pubdate>\n <title>Late Pliocene changes in the North Atlantic Current</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Amsterdam</pubplace>\n <publish>Earth and Planetary Science Letters</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/j.epsl.2010.08.023</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20050329</begdate>\n <enddate>20050401</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model IODP 1313B, IODP 1313C</srccitea>\n <srccontr>Age model for cores IODP 1313B, IODP 1313C</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Sabaa, A. T., Sikes, E. L., Hayward, B. W., and Howard, W. R.</origin>\n <pubdate>2004</pubdate>\n <title>Pliocene sea surface temperature changes in ODP Site 1125, Chatham Rise, east of New Zealand</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>Amsterdam</pubplace>\n <publish>Marine Geology</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/S0025-3227(04)00020-9</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19981003</begdate>\n <enddate>19981006</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 1125A, ODP 1125B</srccitea>\n <srccontr>Age model for cores ODP 1125A, ODP 1125B</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Stoll, D. K.</origin>\n <pubdate>2010</pubdate>\n <title>Mid-Piacenzian sea surface temperature record from ODP Site 1115 in the western equatorial Pacific</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>New York, NY</pubplace>\n <publish>Stratigraphy</publish>\n </pubinfo>\n <onlink>http://www.micropress.org/microaccess/stratigraphy/issue-266/article-1675</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19980716</begdate>\n <enddate>19980717</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model ODP 1115B</srccitea>\n <srccontr>Age model for core 1115B</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Tiedemann, R. and S. O. Franz</origin>\n <pubdate>1994</pubdate>\n <title>Deep-water circulation, chemistry, and terrigenous sediment supply in the equatorial Atlantic during the Pliocene, 3.3-2.6 Ma and 5-4.5 Ma</title>\n <geoform>Interpretive narrative</geoform>\n <pubinfo>\n <pubplace>College Station, TX</pubplace>\n <publish>Ocean Drilling Program</publish>\n </pubinfo>\n <onlink>http://www-odp.tamu.edu/publications/154_SR/20_CHAP.PDF</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Age model for deep sea core</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19940208</begdate>\n <enddate>19940209</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Date of coring operations</srccurr>\n </srctime>\n <srccitea>Age model 925B</srccitea>\n <srccontr>Age model for core 925B</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Uk'37 values were generated in the laboratory through gas chromatography, then tabulated. \n\nSea surface temperature estimates were calculated by two means: \n\nSST (P&W) \xc2\xb0C values were calculated using formulae describe in: Prahl, F.G. and Wakeham, S.G., 1987. Calibration of unsaturation patterns in long-chain ketone compositions for palaeotemperature assessment. Nature, 330(6146): 367-369. \n\nSST (Muller) \xc2\xb0C values were calculated using formulae describe in: M\xc3\xbcller, P.J., Kirst, G., Ruhland, G., von Storch, I. and Rosell-Mele, A., 1998. Calibration of the alkenone paleotemperature index U37K' based on core-tops from the eastern South Atlantic and the global ocean (60\xc2\xb0N-60\xc2\xb0S). Geochimica et Cosmochimica Acta, 62(10): 1757-1772.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>alkenone analysis - derived SST data</enttypl>\n <enttypd>The table contains laboratory result of alkenone analysis of sediment samples, and sea surface temperature estimates calculated from those results</enttypd>\n <enttypds>Harry J. Dowsett</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Age (Ma)</attrlabl>\n <attrdef>Age of sediments in sample in millions of years ago</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.851</rdommin>\n <rdommax>3.964</rdommax>\n <attrunit>(Ma) Millions of years ago</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Piacenzian</edomv>\n <edomvd>Geologic Age</edomvd>\n <edomvds>Ogg, J.G., Ogg, G.M., Gradstein, F. M. (2016) A Concise Geologic Time Scale 2016. Elsevier, Amsterdam.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Uk'37</attrlabl>\n <attrdef>Ketone unsaturation index calculated from the relative abundances of C37 methyl alkenones containing 2\xe2\x80\x934 double bonds</attrdef>\n <attrdefs>M\xc3\xbcller, P.J., Kirst, G., Ruhland, G., von Storch, I. and Rosell-Mele, A., 1998. Calibration of the alkenone paleotemperature index U37K' based on core-tops from the eastern South Atlantic and the global ocean (60\xc2\xb0N-60\xc2\xb0S). Geochimica et Cosmochimica Acta, 62(10): 1757-1772</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>ratio</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SST (P&W) \xc2\xb0C</attrlabl>\n <attrdef>Prahl and Wakeham calibration of unsaturation patterns of long-chain ketones for paleotemperature assessment.</attrdef>\n <attrdefs>Prahl, F.G. and Wakeham, S.G., 1987. Calibration of unsaturation patterns in long-chain ketone compositions for palaeotemperature assessment. Nature, 330(6146): 367-369.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-2</rdommin>\n <rdommax>30</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SST (Muller) \xc2\xb0C</attrlabl>\n <attrdef>Muller Calibration of the alkenone paleotemperature index U37K'</attrdef>\n <attrdefs>M\xc3\xbcller, P.J., Kirst, G., Ruhland, G., von Storch, I. and Rosell-Mel\xc3\x88, A., 1998. Calibration of the alkenone paleotemperature index U37K' based on core-tops from the eastern South Atlantic and the global ocean (60\xc2\xb0N-60\xc2\xb0S). Geochimica et Cosmochimica Acta, 62(10): 1757-1772</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-2</rdommin>\n <rdommax>30</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stratigraphic fidelity \xce\xb2</attrlabl>\n <attrdef>\xce\xb2 expresses the accuracy of the stratigraphic framework surrounding a paleoenvironmental time-series. It is expressed as a function of the type of chronology applied, and the temporal resolution achieved based upon that chronology and density of data points (samples)</attrdef>\n <attrdefs>Dowsett, H., Robinson, M. and Foley, K., 2017. A simple rubric for Stratigraphic Fidelity (\xce\xb2) of paleoenvironmental time series. Stratigraphy, 13(4)</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Best quality chronology (orbital tuning)</edomvd>\n <edomvds>ibid.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>Intermediate quality chronology (paleomagnetic stratigraphy)</edomvd>\n <edomvds>ibid.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Lower quality chronology (biostratigraphy)</edomvd>\n <edomvds>ibid.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>A</edomv>\n <edomvd>High sampling resolution (less than or equal to 10,000 years)</edomvd>\n <edomvds>ibid.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B</edomv>\n <edomvd>Medium sampling resolution (10,000 to 20,000 years)</edomvd>\n <edomvds>ibid.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Low sampling resolution (greater than 20,000 years)</edomvd>\n <edomvds>ibid.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>C37 total</attrlabl>\n <attrdef>C37 total is the sum of the concentrations of C37:2 and C37:3 ketones per unit dry weight of sediment (nmol/g dry sediment weight) and is determined by referencing peak areas of these compounds to those of reference standards n-hexatriacontane (C36) and n-heptatricontane (C37), which are added after extraction of the compounds and prior to sample injection into the gas chromatograph.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>18</rdommax>\n <attrunit>nmol/g dry sediment weight</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>This database, identified as , has been approved for release and publication by the Director of the USGS. Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, it is released on condition that neither the USGS nor the United States Government may be held liable for any damages resulting from its authorized or unauthorized use.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200819</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Kevin Foley</cntper>\n <cntorg>Department of the Interior, U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Physical Scientist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>12201 Sunrise Valley Dr. Mail Stop 926A</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>703 648 5285</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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4. [A comprehensive inventory of maximum glacial extent in Glacier National Park during the peak of the Little Ice Age](/catalog/item/5b1564ebe4b092d9651e1cee)
5. [A comprehensive inventory of maximum glacial extent in Glacier National Park during the peak of the Little Ice Age](/catalog/folder/5b194ca2e4b092d965237f4a)
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## Dates
Publication Date2018-07-09Time Period2005Time Period2009-06Time Period2014-10-19Time Period2015-08-22Time Period2015-09-12Time Period2015-09-25Time Period2016-06-12Time Period2016-08-20Time Period2016-08-21Time Period2017-09-29
## Citation
Fagre, D.B., and Martin-Mikle, C.J., 2018, A comprehensive inventory of maximum glacial extent in Glacier National Park during the peak of the Little Ice Age: U.S. Geological Survey data release, https://doi.org/10.5066/P95YJ3CN.
## Summary
These polygon features represent the maximum extent of glaciers in Glacier National Park and two glaciers on U.S. Forest Service’s Flathead National Forest land during the peak of the Little Ice Age (mid-nineteenth century). Glacial margins are based on moraine deposits that result from active glaciation, and do not depict perennial snow and ice. The criteria used for determining which moraines constituted a former glacier were a) whether a terminal moraine was present, and b) whether the glacier area was five aces or more. Moraines were digitized based on the best available imagery, including WorldView imagery acquired between 2015 and 2017, border Imagery from the Department of Homeland Security acquired in 2009 and GoogleEarth imagery. \[...\]
## Summary
These polygon features represent the maximum extent of glaciers in Glacier National Park and two glaciers on U.S. Forest Service’s Flathead National Forest land during the peak of the Little Ice Age (mid-nineteenth century). Glacial margins are based on moraine deposits that result from active glaciation, and do not depict perennial snow and ice. The criteria used for determining which moraines constituted a former glacier were a) whether a terminal moraine was present, and b) whether the glacier area was five aces or more. Moraines were digitized based on the best available imagery, including WorldView imagery acquired between 2015 and 2017, border Imagery from the Department of Homeland Security acquired in 2009 and GoogleEarth imagery. High resolution imagery was supplemented with oblique aerial photographs flown in 2009 and 2016, historic photographs from the USGS photograph collection, and field notes from a 1914 USGS survey. Digitization was completed by Chelsea Martin-Mikle (USGS) and local knowledge and interpretation were provided by Dan Fagre and Lisa McKeon (USGS) in February, 2017 – February, 2018. Glacier margins were digitized at 1:2000 scale.
## Contacts
Point of Contact
:
[Daniel B Fagre](/catalog/catalogParty/show?partyId=3046)
Originator
:
[Daniel B Fagre](/catalog/catalogParty/show?partyId=3046),
[Chelsea J Mikle](/catalog/catalogParty/show?partyId=73163),
[Lisa A Mckeon](/catalog/catalogParty/show?partyId=6778)
Metadata Contact
:
[Lisa A Mckeon](/catalog/catalogParty/show?partyId=6778)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
USGS Mission Area
:
[Climate and Land Use Change](/catalog/catalogParty/show?partyId=64213)
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:
[Northern Rocky Mountain Science Center](/catalog/catalogParty/show?partyId=17303)
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5b194ca2e4b092d965237f4a?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5b194ca2e4b092d965237f4a?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5b194ca2e4b092d965237f4a?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
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| | | |
| --- | --- | --- |
| mid19thcent\_GNPglaciers.xml<br>_Original FGDC Metadata_ | View | 46.7 KB |
| mid19thcent\_GNPglaciers.cpg | | 5 Bytes |
| mid19thcent\_GNPglaciers.dbf | | 97.91 KB |
| mid19thcent\_GNPglaciers.prj | | 425 Bytes |
| mid19thcent\_GNPglaciers.sbn | | 1.56 KB |
| mid19thcent\_GNPglaciers.sbx | | 220 Bytes |
| mid19thcent\_GNPglaciers.shp | | 1.42 MB |
| mid19thcent\_GNPglaciers.shx | | 1.24 KB |
Shapefile:
mid19thcent\_GNPglaciers.zip
## Purpose
This dataset was created to develop a time series and history of glacier recession in Glacier National Park (GNP), Montana, USA. The dataset delineates the perimeters of glaciers of Glacier National Park and two additional glaciers on U.S. Forest Service’s Flathead National Forest land during the peak of the Little Ice Age (mid-nineteenth century). The peak of the Little Ice Age is the most recent maximum extent in glacier size for which there is still significant morainal evidence. Establishing the rates of glacier retreat, using the decreasing area of glacier ice, is key to understanding the Glacier National Park ecosystem and future state of resources. For instance, glacial meltwater is critical habitat for endangered stream insects. More broadly, retreating glaciers are indicative of long-term climate change and have hydrologic and ecologic importance to many park resources. Glaciers and their retreat are of great interest to park visitors and the American public and are part of Glacier National Park's appeal. This is important because Glacier National Park is a major driver of the regional economy. Appropriate use of these data include comparing Glacier National Park's glacier area from different periods, such as more recent years included in an earlier data release (Glacier margin time series \[1966, 1998, 2005, 2015\] of the named glaciers of Glacier National Park, MT, USA), and to different parts of the world. The change in glacier area can be used to create models of glacier-climate interactions, and to estimate glacier contributions to streamflow.
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## Communities
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## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Theme
- [CCME-glacier](/catalog/items?q=&filter=tags%3DCCME-glacier "CCME-glacier (CCME-glacier, Theme, )")
- [aerial imagery](/catalog/items?q=&filter=tags%3Daerial+imagery "aerial imagery (aerial imagery, Theme, None)")
- [alpine glacier](/catalog/items?q=&filter=tags%3Dalpine+glacier "alpine glacier (alpine glacier, Theme, None)")
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- [environment](/catalog/items?q=&filter=tags%3Denvironment "environment (environment, Theme, ISO 19115 Topic Category)")
- [geoscientificInformation](/catalog/items?q=&filter=tags%3DgeoscientificInformation "geoscientificInformation (geoscientificInformation, Theme, ISO 19115 Topic Category)")
- [glacier area](/catalog/items?q=&filter=tags%3Dglacier+area "glacier area (glacier area, Theme, None)")
- [glacier retreat](/catalog/items?q=&filter=tags%3Dglacier+retreat "glacier retreat (glacier retreat, Theme, None)")
- [glaciers](/catalog/items?q=&filter=tags%3Dglaciers "glaciers (glaciers, Theme, USGS Biocomplexity Thesaurus)")
- [moraine](/catalog/items?q=&filter=tags%3Dmoraine "moraine (moraine, Theme, None)")
- [satellite imagery](/catalog/items?q=&filter=tags%3Dsatellite+imagery "satellite imagery (satellite imagery, Theme, None)")
- [snow and ice cover](/catalog/items?q=&filter=tags%3Dsnow+and+ice+cover "snow and ice cover (snow and ice cover, Theme, USGS Thesaurus)")
Place
- [Flathead National Forest](/catalog/items?q=&filter=tags%3DFlathead+National+Forest "Flathead National Forest (Flathead National Forest, Place, Geographic Names Information System)")
- [Glacier National Park](/catalog/items?q=&filter=tags%3DGlacier+National+Park "Glacier National Park (Glacier National Park, Place, Geographic Names Information System)")
- [Montana](/catalog/items?q=&filter=tags%3DMontana "Montana (Montana, Place, Common geographic areas)")
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## Provenance
Data sourceInput directly
## Additional Information
### Shapefile Extension
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| minX | -114.2485911107621 |
| maxY | 49.02259963129555 |
| maxX | -113.36426272599856 | |
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| dateUploaded | Thu Jun 07 09:16:47 MDT 2018 |
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| name | mid19thcent\_GNPglaciers.sbn |
| contentType | x-gis/x-shapefile |
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| name | mid19thcent\_GNPglaciers.xml |
| contentType | application/fgdc+xml |
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| dateUploaded | Mon Aug 31 07:15:53 MDT 2020 |
| originalMetadata | true | |
| geometryType | MultiPolygon |
| name | mid19thcent\_GNPglaciers |
| nativeCrs | EPSG:26912 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Daniel B Fagre</origin>\n <origin>Lisa A McKeon</origin>\n <origin>Chelsea J Martin-Mikle</origin>\n <pubdate>2018</pubdate>\n <title>A comprehensive inventory of maximum glacial extent in Glacier National Park during the peak of the Little Ice Age</title>\n <geoform>Vector Digital Data Set (Polygon)</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P95YJ3CN</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>These polygon features represent the maximum extent of glaciers in Glacier National Park and two glaciers on U.S. Forest Service\xe2\x80\x99s Flathead National Forest land during the peak of the Little Ice Age (mid-nineteenth century). Glacial margins are based on moraine deposits that result from active glaciation, and do not depict perennial snow and ice. The criteria used for determining which moraines constituted a former glacier were a) whether a terminal moraine was present, and b) whether the glacier area was five aces or more. Moraines were digitized based on the best available imagery, including WorldView imagery acquired between 2015 and 2017, border Imagery from the Department of Homeland Security acquired in 2009 and GoogleEarth imagery. High resolution imagery was supplemented with oblique aerial photographs flown in 2009 and 2016, historic photographs from the USGS photograph collection, and field notes from a 1914 USGS survey. Digitization was completed by Chelsea Martin-Mikle (USGS) and local knowledge and interpretation were provided by Dan Fagre and Lisa McKeon (USGS) in February, 2017 \xe2\x80\x93 February, 2018. Glacier margins were digitized at 1:2000 scale.</abstract>\n <purpose>This dataset was created to develop a time series and history of glacier recession in Glacier National Park (GNP), Montana, USA. The dataset delineates the perimeters of glaciers of Glacier National Park and two additional glaciers on U.S. Forest Service\xe2\x80\x99s Flathead National Forest land during the peak of the Little Ice Age (mid-nineteenth century). The peak of the Little Ice Age is the most recent maximum extent in glacier size for which there is still significant morainal evidence. Establishing the rates of glacier retreat, using the decreasing area of glacier ice, is key to understanding the Glacier National Park ecosystem and future state of resources. For instance, glacial meltwater is critical habitat for endangered stream insects. More broadly, retreating glaciers are indicative of long-term climate change and have hydrologic and ecologic importance to many park resources. Glaciers and their retreat are of great interest to park visitors and the American public and are part of Glacier National Park\'s appeal. This is important because Glacier National Park is a major driver of the regional economy. Appropriate use of these data include comparing Glacier National Park\'s glacier area from different periods, such as more recent years included in an earlier data release (Glacier margin time series [1966, 1998, 2005, 2015] of the named glaciers of Glacier National Park, MT, USA), and to different parts of the world. The change in glacier area can be used to create models of glacier-climate interactions, and to estimate glacier contributions to streamflow.</purpose>\n <supplinf>This dataset represents a comprehensive inventory of the glaciers of Glacier National Park (including 2 nearby glaciers on U.S. Forest Service\xe2\x80\x99s Flathead National Forest land). The inventory represents the minimum number of glaciers that existed during the peak of the Little Ice Age (mid-nineteenth century) and constitutes a subset of the total snow and ice inventory of the park. The inventory does not represent a comprehensive accounting of all permanent snow and ice features in the park and does not include rock glaciers. A subsequent dataset will be published that will include all cryospheric features and better represent the hydrologic contribution of snow and ice features of the park. Glaciers typically leave visible moraines, as can perennial snow and ice over time. Similarly, pronival ramparts can appear similar to moraines. The criteria used for differentiating between ramparts and moraines, and for determining which moraines constitute a former glacier were a) whether a distinct terminal moraine was present, b) whether the glacier area was five acres or more, and c) whether the terminal moraine was breached by glacial meltwater. These criteria served as a guide in determining which features were moraines and no one variable necessarily ruled out the inclusion of a feature. Additionally, variables such as aspect, elevation, composition and geometry of rock debris, topographic position, presence of rock flour in nearby lakes, visible scouring or discoloration of bedrock and presence of vegetation pre-dating the mid-nineteenth century were analyzed. Features difficult to categorize were reviewed by an 8-person panel including 3 USGS scientists, National Park Service scientists and academics. When a feature remained difficult to categorize, it was excluded from the inventory. When segments of a glacial margin displayed no visible evidence, the segment was estimated and assigned a category that corresponds to a level of confidence. File attributes define categories and detail the length of each glacial margin that fall into each category. Corresponding shape files available upon request.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>20141019</caldate>\n </sngdate>\n <sngdate>\n <caldate>20150822</caldate>\n </sngdate>\n <sngdate>\n <caldate>20150912</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160612</caldate>\n </sngdate>\n <sngdate>\n <caldate>20150925</caldate>\n </sngdate>\n <sngdate>\n <caldate>20170929</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160820</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160821</caldate>\n </sngdate>\n <sngdate>\n <caldate>2005</caldate>\n </sngdate>\n <sngdate>\n <caldate>200906</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>observed</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-114.2486</westbc>\n <eastbc>-113.3643</eastbc>\n <northbc>49.0226</northbc>\n <southbc>48.3084</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>environment</themekey>\n <themekey>geoscientificInformation</themekey>\n </theme>\n <theme>\n <themekt>USGS Biocomplexity Thesaurus</themekt>\n <themekey>glaciers</themekey>\n <themekey>cryosphere</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>glacier area</themekey>\n <themekey>alpine glacier</themekey>\n <themekey>glacier retreat</themekey>\n <themekey>satellite imagery</themekey>\n <themekey>aerial imagery</themekey>\n <themekey>moraine</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>snow and ice cover</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5b194ca2e4b092d965237f4a</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Glacier National Park</placekey>\n <placekey>Flathead National Forest</placekey>\n </place>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Montana</placekey>\n </place>\n </keywords>\n <accconst>None</accconst>\n <useconst>None</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>Daniel B Fagre</cntper>\n </cntorgp>\n <cntpos>Research Ecologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>PO Box 169</address>\n <city>West Glacier</city>\n <state>MT</state>\n <postal>59936</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>406-888-7922</cntvoice>\n <cntfax>406-888-7923</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Daniel B. Fagre, Lisa A. McKeon, Chelsea J. Martin-Mikle (USGS at GNP).</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.4.1 (Build 5686) Service Pack N/A (Build N/A)</native>\n <crossref>\n <citeinfo>\n <origin>Daniel B Fagre</origin>\n <origin>Lisa A McKeon</origin>\n <origin>Kristina A Dick</origin>\n <origin>Andrew G Fountain</origin>\n <pubdate>20170510</pubdate>\n <title>Glacier margin time series (1966, 1998, 2005, 2015) of the named glaciers of Glacier National Park, MT, USA</title>\n <geoform>vector digital data</geoform>\n <onlink>https://doi.org/10.5066/F7P26WB1</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Initial glacier moraine analysis and digitization was performed by Chelsea Martin-Mikle using the best imagery available and industry-standard mapping software (ArcMAP). Each margin was subsequently reviewed by Dan Fagre and Lisa McKeon with finalized versions representing the consensus of analysis. Potential inaccuracies inherent to the imagery were not addressed except by excluding images that were visually distorted or heavily shaded. Mapped perimeters were compared to a limited number of ground surveys using Global Positioning Systems (GPS), however, for recent imagery such as WorldView, the spatial resolution and accuracy of georeferencing were superior. WorldView imagery is available at https://evwhs.digitalglobe.com/. WorldView, NAIP and other products downloaded from web sources were already corrected for spatial accuracy and were used as is, i.e. no additional geo- or ortho-rectification was conducted. WorldView images with the lowest off-nadir angles were used whenever possible to keep spatial errors to a minimum. The off-nadir angles are reported for those images. For each glacier, supplemental imagery was used to aid in interpreting the exact glacier perimeter based on moraine deposits during the mid-nineteenth century. Portions of some glacial moraines were covered by seasonal snow or were not visible. Some glaciers, particularly those facing north or northeast, were deep in shadows and details in the shadowed areas were difficult to discern. Oblique terrestrial and aerial photography were compared to help delineate the moraines in those cases. Photographs of glacial moraines shot by John Scurlock in 2009 were the most useful. These are available at http://glaciers.research.pdx.edu/image-galleries/Lewis-Range-MT. Historic photographs were also used to assess glacial extent during the late nineteenth and early twentieth century. These are available at http://glaciers.research.pdx.edu/. In cases where imagery was not available or was poor in quality, 2009 imagery from the Department of Homeland Security and Google Earth were used.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted. Margins were delineated based on visual interpretation of glacial moraines. This was supplemented by cross-checking with multiple other images, both terrestrial oblique photography and other sources of aerial photography. GoogleEarth was used for interpreting 3-dimensional aspects of images from aerial and satellite photography. There were no expected ranges per se. The expectation was that glaciers covered more area in the mid-nineteenth century than they did in subsequent years. This occurred. Where glacier perimeters seemed as if they didn\xe2\x80\x99t reflect likely location in the basin topography, extra efforts were made to assess relevant historic photographs.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. The focus of this dataset was on moraines that reflect active glaciation during the peak of the Little Ice Age. Others had features of transitional glaciation but do not reflect active glaciation. There are other cases where a robust, small glacier may have existed, but there is not enough evidence to say it was not a pronival rampart. These features were not included in this survey. Where heavy shading, image distortion, or image quality was compromised in some way which made margin delineation uncertain, supplemental imagery was used to best determine margin. Users are advised to read the rest of the metadata record and record attributes for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-1 satellite</origin>\n <pubdate>20150822</pubdate>\n <title>WorldView-01 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 27.0</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20150822</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 1</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20150822</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-1 satellite</origin>\n <pubdate>20141019</pubdate>\n <title>WorldView-01 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 105.0</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20141019</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 2</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20141019</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-1 satellite</origin>\n <pubdate>20150912</pubdate>\n <title>WorldView-01 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 4.73</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20150912</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 3</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20150912</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-1 satellite</origin>\n <pubdate>20150822</pubdate>\n <title>WorldView-01 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 11.7</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20150822</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 4</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20150822</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-1 satellite</origin>\n <pubdate>20150925</pubdate>\n <title>WorldView-01 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 16.8</othercit>\n 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<srccite>\n <citeinfo>\n <origin>WorldView-1 satellite</origin>\n <pubdate>20150822</pubdate>\n <title>WorldView-01 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 7.91</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20150822</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 9</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20150822</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-1 satellite</origin>\n <pubdate>20150925</pubdate>\n <title>WorldView-01 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 23.0</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20150925</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 10</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20150925</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-3 satellite</origin>\n <pubdate>20160821</pubdate>\n <title>WorldView-03 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 7.42</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20160821</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 11</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20160822</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-1 satellite</origin>\n <pubdate>20150912</pubdate>\n <title>WorldView-01 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 26.2</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20150912</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 12</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20150912</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-3 satellite</origin>\n <pubdate>20160820</pubdate>\n <title>WorldView-03 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 21.2</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20160820</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 13</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20160820</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-2 satellite</origin>\n <pubdate>20170929</pubdate>\n <title>WorldView-02 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 24.5</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20170929</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 14</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20170929</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-2 satellite</origin>\n <pubdate>20160612</pubdate>\n <title>WorldView-02 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 20.2</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20160612</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 15</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20160612</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>USDA Farm Service Agency</origin>\n <pubdate>2005</pubdate>\n <title>NAIP 2005 aerial imagery</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Salt Lake City, UT</pubplace>\n <publish>National Agriculture Imagery Program</publish>\n </pubinfo>\n <onlink>https://www.fsa.usda.gov/programs-and-services/aerial-photography/imagery-programs/naip-imagery/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20050731</begdate>\n <enddate>20050827</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 16</srccitea>\n <srccontr>glacier margins derived from NAIP imagery collected in 2005</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Department of Homeland Security</origin>\n <pubdate>2009</pubdate>\n <title>DOHS 2009 Boarder Imagery</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <othercit>Metadata contact: Montana State Library P.O. Box 201800 Helena, Montana 59620-1800 Telephone: 406-444-5354 TDD/TTY telephone: 406-444-4799 Fax: 406-444-0266E- Mail: [email protected]</othercit>\n <onlink>ftp://ftp.geoinfo.msl.mt.gov/Data/Spatial/NonMSDI/Shapefiles/Orthophoto_Index_Border_2009.zip</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20090601</begdate>\n <enddate>20090631</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 17</srccitea>\n <srccontr>glacier margins derived from DOHS boarder imagery collected in July, 2009</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>WorldView-1 satellite</origin>\n <pubdate>20160915</pubdate>\n <title>WorldView-01 satellite image</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>Longmont, CO, USA</pubplace>\n <publish>DigitalGlobe</publish>\n </pubinfo>\n <othercit>off-nadir angle 105</othercit>\n <onlink>https://www.digitalglobe.com/</onlink>\n </citeinfo>\n </srccite>\n <srcscale>12000</srcscale>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20160915</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source 18</srccitea>\n <srccontr>glacier margins derived from WorldView-1 imagery taken on 20160915</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Acquire most appropriate satellite imagery from DigitalGlobe EV web hosting. Imagery is selected by choosing the image that shows the least seasonal snow to best reveal glacier moraines. If multiple WorldView images are available for the same location, the image with the lowest off-nadir angle was chosen to reduce error. File attributes list specific images used in analysis. Export image as GeoTiff.</procdesc>\n <procdate>20170224</procdate>\n </procstep>\n <procstep>\n <procdesc>Import selected satellite image in to ArcGIS. Visually determine glacier margin based on moraines and digitize margin at 1:2000 scale. Where heavy shading, image distortion, or image quality was compromised in some way, supplemental imagery from another date was used to best determine margin. Note that glacial headwalls were commonly underestimated due to the difficulty inherent in observing vertical change from an aerial perspective. When this was the case, the known headwall location from the 2015 glacier margins were used. Oblique aerial photos and historic photos from the USGS collection were referenced to determine the mid-nineteenth century extent when source imagery was not adequate. File attributes list specific photos used in analysis. Attribute naming convention for WorldView source imagery includes the satellite used to acquire the image, the date of the referenced image and the off-nadir angle (ONA) of the image (i.e. wv01_ 20150822 ONA 27.0). If multiple images are listed in the source column, the first image is the \xe2\x80\x9cprimary\xe2\x80\x9d image and is the most useful for digitization, whereas the second image listed is the "secondary" image and was somewhat less useful as a reference image (possibly due to higher off-nadir angle, seasonal snow, shading or image distortion).</procdesc>\n <procdate>20170221</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>G-polygon</sdtstype>\n <ptvctcnt>147</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>12</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-111.0</longcm>\n <latprjo>0.00000000</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.00000000</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.6096</absres>\n <ordres>0.6096</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North_American_Datum_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>mid19thcent_GNPglaciers.shp Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Polygon</edomv>\n <edomvd>The feature geometry of the shapes</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Glac_Name</attrlabl>\n <attrdef>Glacier name</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Name of glacier when glacier has a name, otherwise \'none\'.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year of source data used to delineate glacier margins</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>2015</edomv>\n <edomvd>year 2015 of Gregorian Calendar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2014</edomv>\n <edomvd>year 2014 of Gregorian Calendar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2016</edomv>\n <edomvd>year 2016 of Gregorian Calendar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2009</edomv>\n <edomvd>year 2009 of Gregorian Calendar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2015, 2009</edomv>\n <edomvd>years 2015 and 2009 of Gregorian Calendar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2005</edomv>\n <edomvd>year 2005 of Gregorian Calendar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2005, 2016</edomv>\n <edomvd>years 2005 and 2016 of Gregorian Calendar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2017</edomv>\n <edomvd>year 2017 of Gregorian Calendar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2016, 2009</edomv>\n <edomvd>years 2016 and 2009 of Gregorian Calendar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Scale</attrlabl>\n <attrdef>Scale of source data</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1:2000</edomv>\n <edomvd>map scale of 1:2000</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>drainage</attrlabl>\n <attrdef>Drainage glacier margin is located in</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Drainage basin where glacier margin is located.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Source</attrlabl>\n <attrdef>Source imagery used to digitize each glacier margin</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Name of specific image(s) used to delineate glacial margin. The attribute naming convention for WorldView source imagery includes the satellite used to acquire the image, the date of the referenced image and the off-nadir angle (ONA) of the image (i.e. wv01_ 20150822 ONA 27.0). Other imagery used to digitize glacier margins are imagery products and do not include specific dates and off-nadir angles (i.e. 2009 DOHS imagery and 2005 NAIP imagery). Users are advised to read the rest of the metadata record for additional details. If multiple images are listed in the source column, the first image is the \xe2\x80\x9cprimary\xe2\x80\x9d image and is the most useful for digitization, whereas the second image listed is the "secondary" image and was somewhat less useful as a reference image (possibly due to higher off-nadir angle, seasonal snow, shading or image distortion).</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Notes_USGS</attrlabl>\n <attrdef>Items of note pertaining to features or imagery issues</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Explanation of moraine segments that may appear ambiguous.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Area1850</attrlabl>\n <attrdef>Area of main body of glacier during the peak of the Little Ice Age</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11553.434014</rdommin>\n <rdommax>4970064.26313</rdommax>\n <attrunit>square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>X_COORD</attrlabl>\n <attrdef>UTM X-coordinate, NAD 1983 UTM Zone 12N</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>262710.772908</rdommin>\n <rdommax>324585.809528</rdommax>\n <attrunit>meter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y_COORD</attrlabl>\n <attrdef>UTM Y-coordinate, NAD 1983 UTM Zone 12N</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5356121.02881</rdommin>\n <rdommax>5432566.63112</rdommax>\n <attrunit>meter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Classifica</attrlabl>\n <attrdef>The portion defined by the polygon to be the maximum extent of the glacier during the peak of the Little Ice Age</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Little Ice Age max glacial extent</edomv>\n <edomvd>the portion defined by the polygon to be the maximum extent of the glacier during the peak of the Little Ice Age</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ownership</attrlabl>\n <attrdef>Federal land designation for the location of the glacier</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Glacier National Park</edomv>\n <edomvd>Glacier National Park, Department of Interior</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Flathead National Forest</edomv>\n <edomvd>Flathead National Forest, Department of Agriculture</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Known</attrlabl>\n <attrdef>The length of the polygon depicting the maximum extent of the glacier during the peak of the Little Ice Age based on visible, physical evidence (i.e. moraines, vegetation, bedrock texture, bedrock coloration)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>17358</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>very_confi</attrlabl>\n <attrdef>In absence of visible, physical evidence (including due to shadows, seasonal snow and aerial imagery limitations) segments of a glacial margin that are estimated with a high level of confidence based on obvious topographic patterns. Note: these segments always underestimate margin area when in question</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1222</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>mod_confid</attrlabl>\n <attrdef>In absence of visible, physical evidence (including due to shadows, seasonal snow and aerial imagery limitations) segments of a glacial margin that are estimated with a moderate level of confidence based on likely topographic patterns. Note: these segments always underestimate margin area when in question</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>913</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>perimeter</attrlabl>\n <attrdef>Total length of perimeter of the polygon depicting the maximum extent of the glacial margin during the peak of the Little Ice Age</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>484</rdommin>\n <rdommax>17358</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>aspect</attrlabl>\n <attrdef>Mean aspect of all pixels within the polygon that represents the maximum extent of the glacier during the peak of the Little Ice Age</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>311</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>The entity and attribute information provided here describes the tabular data associated with the data set. Please review the detailed descriptions that are provided (the individual attribute descriptions) for information on the values that appear as fields/table entries of the data set.</eaover>\n <eadetcit>The entity and attribute information was generated by the individual and/or agency identified as the originator of the data set. Please review the rest of the metadata record for additional details and information.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Distributor assumes no liability for misuse of data. Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P95YJ3CN</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200831</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Lisa A Mckeon</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Physical Scientist</cntpos>\n <cntaddr>\n <addrtype>Mailing</addrtype>\n <address>PO Box 169</address>\n <city>West Glacier</city>\n <state>MT</state>\n <postal>59936</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>406-888-7924</cntvoice>\n <cntfax>406-888-7923</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2021-03-26Start Date2019-02-05End Date2020-03-17
## Citation
Gray, H.J., and East, A.E., 2021, Luminescence, weather, and grain-size data from eastern Chuckwalla Valley, Riverside County, California: U.S. Geological Survey data release, https://doi.org/10.5066/P9LZ02E4.
## Summary
This part of the data release contains sediment grain-size data for samples collected in eastern Chuckwalla Valley, Riverside County, California, in 2019 and 2020. Surface and sub-surface samples were analyzed for particle size in support of efforts to characterize landscape processes in areas permitted for future solar-energy development. These data accompany East and others (2021). Reference Cited: East, A.E., Gray, H.J., Redsteer, M.H., and Ballmer, M., 2021, Landscape evolution in eastern Chuckwalla Valley, Riverside County, California: U.S. Geological Survey Scientific Investigations Report 2021-5017, 46 p., https://doi.org/10.3133/sir20215017
## Summary
This part of the data release contains sediment grain-size data for samples collected in eastern Chuckwalla Valley, Riverside County, California, in 2019 and 2020. Surface and sub-surface samples were analyzed for particle size in support of efforts to characterize landscape processes in areas permitted for future solar-energy development. These data accompany East and others (2021).
Reference Cited:
East, A.E., Gray, H.J., Redsteer, M.H., and Ballmer, M., 2021, Landscape evolution in eastern Chuckwalla Valley, Riverside County, California: U.S. Geological Survey Scientific Investigations Report 2021-5017, 46 p., [https://doi.org/10.3133/sir20215017](https://doi.org/10.3133/sir20215017)
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| EasternChuckwallaValley\_GrainSize\_metadata.xml<br>_Original FGDC Metadata_ | View | 66.31 KB | application/fgdc+xml |
| EasternChuckwallaValley\_GrainSize\_data.csv | | 66.27 KB | text/csv |
## Related External Resources
Type: Publication that references this resource
| | |
| --- | --- |
| East and others, 2021, Landscape evolution in eastern Chuckwalla Valley, Riverside County, California: U.S. Geological Survey Scientific Investigations Report 2021-5107 | [https://doi.org/10.3133/sir20215017](https://doi.org/10.3133/sir20215017 "https://doi.org/10.3133/sir20215017") |
## Purpose
Sediment from surface and subsurface exposures was analyzed for particle size and can be used to characterize landscape processes in eastern Chuckwalla Valley, Riverside County, California.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Harrison J. Gray</origin>\n <origin>Amy E. East</origin>\n <pubdate>20210326</pubdate>\n <title>Grain-size data from eastern Chuckwalla Valley, Riverside County, California</title>\n <geoform>comma-delimited text</geoform>\n <serinfo>\n <sername>data release</sername>\n <issue>DOI:10.5066/P9LZ02E4</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Pacific Coastal and Marine Science Center, Santa Cruz, California</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9LZ02E4</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Harrison J. Gray</origin>\n <origin>Amy E. East</origin>\n <pubdate>2021</pubdate>\n <title>Luminescence, weather, and grain-size data from eastern Chuckwalla Valley, Riverside County, California</title>\n <serinfo>\n <sername>data release</sername>\n <issue>DOI:10.5066/P9LZ02E4</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Pacific Coastal and Marine Science Center, Santa Cruz, CA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9LZ02E4</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This part of the data release contains sediment grain-size data for samples collected in eastern Chuckwalla Valley, Riverside County, California, in 2019 and 2020. Surface and sub-surface samples were analyzed for particle size in support of efforts to characterize landscape processes in areas permitted for future solar-energy development. These data accompany East and others (2021).</abstract>\n <purpose>Sediment from surface and subsurface exposures was analyzed for particle size and can be used to characterize landscape processes in eastern Chuckwalla Valley, Riverside County, California.</purpose>\n <supplinf>Additional information about the field activities from which these data were derived is available online at:\n\nhttps://cmgds.marine.usgs.gov/fan_info.php?fan=2019-661-FA\nhttps://cmgds.marine.usgs.gov/fan_info.php?fan=2018-689-FA\n\nAny use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.\n\nSediment samples from subsurface pits were collected under a permit issued through the U.S. Department of the Interior Bureau of Land Management, Environmental Assessment DOI-BLM-CA-D060-2020-0017-EA.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20190205</begdate>\n <enddate>20200317</enddate>\n </rngdates>\n </timeinfo>\n <current>End of sample collection.</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-115.155090</westbc>\n <eastbc>-114.7523</eastbc>\n <northbc>33.689501</northbc>\n <southbc>33.519578</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>geoscientificInformation</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>land surface characteristics</themekey>\n </theme>\n <theme>\n <themekt>Marine Realms Information Bank (MRIB) keywords</themekt>\n <themekey>sediment</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>U.S. Geological Survey</themekey>\n <themekey>USGS</themekey>\n <themekey>Coastal and Marine Hazards and Resources Program</themekey>\n <themekey>CMHRP</themekey>\n <themekey>Pacific Coastal and Marine Science Center</themekey>\n <themekey>PCMSC</themekey>\n <themekey>grain size</themekey>\n <themekey>sediment grain size</themekey>\n <themekey>landscape evolution</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:605d39e8d34ec5fa65ec11ef</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Riverside County</placekey>\n <placekey>State of California</placekey>\n <placekey>Chuckwalla Valley</placekey>\n </place>\n </keywords>\n <accconst>None</accconst>\n <useconst>USGS-authored or produced data and information are in the public domain from the U.S. Government and are freely redistributable with proper metadata and source attribution. Please recognize and acknowledge the U.S. Geological Survey and Bureau of Land Management as the originator(s) of the dataset and in products derived from these data.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n <cntper>PCMSC Science Data Coordinator</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n </cntaddr>\n <cntvoice>831-427-4747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <native>MacOS 10.14.6 running Microsoft Excel v. 16.47.1</native>\n <crossref>\n <citeinfo>\n <origin>Amy E. East</origin>\n <origin>Harrison J. Gray</origin>\n <origin>Margaret H. Redsteer</origin>\n <origin>Matthew Ballmer</origin>\n <pubdate>2021</pubdate>\n <title>Landscape evolution in eastern Chuckwalla Valley, Riverside County, California</title>\n <othercit>East, A.E., Gray, H.J., Redsteer, M.H., and Ballmer, M., 2021, Landscape evolution in eastern Chuckwalla Valley, Riverside County, California: U.S. Geological Survey Scientific Investigations Report 2021-5017, 46 p.</othercit>\n <onlink>https://doi.org/10.3133/sir20215017</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Robert Louis Folk</origin>\n <origin>William C. Ward</origin>\n <pubdate>1957</pubdate>\n <title>Brazos River bar; a study in the significance of grain size parameters</title>\n <othercit>Folk, R.L., and Ward, W.C., 1957, Brazos River bar; a study in the significance of grain size parameters: Journal of Sedimentary Research, v. 27, n. 1, p. 3-26.</othercit>\n <onlink>https://doi.org/10.1306/74D70646-2B21-11D7-8648000102C1865D</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Douglas Lamar Inman</origin>\n <pubdate>1952</pubdate>\n <title>Measures for describing the size distribution of sediments</title>\n <othercit>Inman, D.L., 1952, Measures for describing the size distribution of sediments: Journal of Sedimentary Research, v. 22, n. 3, p. 125-145.</othercit>\n <onlink>https://doi.org/10.1306/D42694DB-2B26-11D7-8648000102C1865D</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Parker D. Trask</origin>\n <pubdate>1930</pubdate>\n <title>Mechanical analyses of sediments by centrifuge</title>\n <othercit>Trask, P.D., 1930, Mechanical analyses of sediments by centrifuge: Economic Geology, v. 26, n. 6, p. 581-599.</othercit>\n <onlink>https://doi.org/10.2113/gsecongeo.25.6.581</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal logical accuracy tests were conducted. Data values are within the expected values.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted. Data values are within the expected values.</logic>\n <complete>Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Sediment samples were collected by hand and processed both in the field and at the U.S. Geological Survey Pacific Coastal and Marine Science Center Sediment Lab in Santa Cruz, California. See Methods section in East and others (2021) for complete details.</procdesc>\n <procdate>20200531</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Angela Tan</cntper>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n </cntperp>\n <cntpos>Sediment Laboratory Manager</cntpos>\n <cntaddr>\n <addrtype>Mailing, physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n </cntaddr>\n <cntvoice>831-427-4747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Corrected the URL link to the USGS cruise information (FAN#) in the Supplemental Information section of the metadata. No data were changed.</procdesc>\n <procdate>20210519</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Susan Cochran</cntper>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n </cntperp>\n <cntpos>Assistant Deputy Center Director</cntpos>\n <cntaddr>\n <addrtype>Mailing, physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n </cntaddr>\n <cntvoice>831-427-4745</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>Point</sdtstype>\n <ptvctcnt>70</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.000001</latres>\n <longres>0.000001</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>WGS_1984</horizdn>\n <ellips>WGS_1984</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Attribute table</enttypl>\n <enttypd>Table containing attribute information associated with the dataset. \xe2\x80\x9cNaN\xe2\x80\x9d indicates that a sediment sample was not sieved for that grain size or that no value was calculated.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FAN ID</attrlabl>\n <attrdef>Unique U.S. Geological Survey field activity identifier</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <udom>Unique identifier for the U.S. Geological Survey field activity</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>Name of sample</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <udom>Unique identifier for the sample used given in the field</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lab ID</attrlabl>\n <attrdef>Laboratory identification number</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Unique identifier for the sample given during analysis in the lab</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date Collected</attrlabl>\n <attrdef>Date of sample collection in yyyy-mm-dd format</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2019-02-05</rdommin>\n <rdommax>2020-03-17</rdommax>\n <attrunit>Dates in yyyy-mm-dd format</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Description</attrlabl>\n <attrdef>Additional information noted about a sample</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <udom>free-text information field for a sample</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>Latitude of sample in decimal degrees</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>33.519578</rdommin>\n <rdommax>33.689501</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>Longitude of sample in decimal degrees</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-115.1550898</rdommin>\n <rdommax>-114.7523</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample Type</attrlabl>\n <attrdef>Type of sample collected</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Surface grab sample</edomv>\n <edomvd>Sample collected by hand from the land surface</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Cut bank/trench</edomv>\n <edomvd>Sample collected by hand from the side of a cut bank or trench</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Analyses Performed</attrlabl>\n <attrdef>Type of analyses performed</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Grain size by LPSA</edomv>\n <edomvd>Sediment grain sizes determined in the lab using a Coulter laser particle-size analyzer (LPSA)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Grain size by sieving</edomv>\n <edomvd>Sediment grain sizes determined using sediment sieves</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -4.00 phi bin or 16 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter greater than -4.00 phi, or 16 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -3.75 phi bin or 13.5 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -4.00 and -3.75 phi, or 13.5 and 16 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -3.50 phi bin or 11.2 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -3.75 and -3.50 phi, or 11.2 and 13.5 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -3.25 phi bin or 9.51 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -3.50 and -3.25 phi, or 9.51 and 11.2 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -3.00 phi bin or 8 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -3.25 and -3.00 phi, or 8 and 9.51 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -2.75 phi bin or 6.73 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -3.00 and -2.75 phi, or 6.73 and 8 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -2.50 phi bin or 5.66 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -2.75 and -2.50 phi, or 5.66 and 6.73 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -2.25 phi bin or 4.76 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -2.50 and -2.25 phi, or 4.76 and 5.66 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -2.25 phi bin or 4.76 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -2.50 and -2.25 phi, or 4.76 and 5.66 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -2.00 phi bin or 4 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -2.25 and -2.00 phi, or 4 and 4.76 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -1.75 phi bin or 3.36 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -2.00 and -1.75 phi, or 3.36 and 4 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -1.50 phi bin or 2.83 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -1.75 and -1.50 phi, or 2.83 and 3.36 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -1.25 phi bin or 2.38 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -1.50 and -1.25 phi, or 2.38 and 2.83 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -1.00 phi bin or 2 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -1.25 and -1.00 phi, or 2 and 2.38 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -0.75 phi bin or 1.68 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -1.00 and -0.75 phi, or 1.68 and 2 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -0.50 phi bin or 1.41 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -0.75 and -0.50 phi, or 1.41 and 1.68 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in -0.25 phi bin or 1.19 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -0.50 and -0.25 phi, or 1.19 and 1.41 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 0.00 phi bin or 1 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between -0.25 and 0.00 phi, or 1 and 1.19 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 0.25 phi bin or 0.8409 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 0.00 and 0.25 phi, or 0.8409 and 1 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 0.50 phi bin or 0.7071 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 0.25 and 0.50 phi, or 0.7071 and 0.8409 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 0.75 phi bin or 0.5946 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 0.50 and 0.75 phi, or 0.5946 and 0.7071 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 1.00 phi bin or 0.5 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 0.75 and 1.00 phi, or 0.5 and 0.5946 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 1.25 phi bin or 0.4204 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 1.00 and 1.25 phi, or 0.4204 and 0.5 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 1.50 phi bin or 0.3536 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 1.25 and 1.50 phi, or 0.3536 and 0.4204 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 1.75 phi bin or 0.2973 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 1.50 and 1.75 phi, or 0.2973 and 0.3536 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 2.00 phi bin or 0.25 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 1.75 and 2.00 phi, or 0.25 and 0.2973 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 2.25 phi bin or 0.2102 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 2.00 and 2.25 phi, or 0.2102 and 0.25 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 2.50 phi bin or 0.1768 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 2.25 and 2.50 phi, or 0.1768 and 0.2102 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 2.75 phi bin or 0.1487 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 2.50 and 2.75 phi, or 0.1487 and 0.1768 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 3.00 phi bin or 0.125 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 2.75 and 3.00 phi, or 0.125 and 0.1487 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 3.25 phi bin or 0.1051 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 3.00 and 3.25 phi, or 0.1051 and 0.125 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 3.50 phi bin or 0.08839 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 3.25 and 3.50 phi, or 0.08839 and 0.1051 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 3.75 phi bin or 0.07433 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 3.50 and 3.75 phi, or 0.07433 and 0.08839 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 3.75 phi bin or 0.07433 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 3.50 and 3.75 phi, or 0.07433 and 0.08839 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 4.00 phi bin or 0.0625 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 3.75 and 4.00 phi, or 0.0625 and 0.07433 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 4.25 phi bin or 0.052556 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 4.00 and 4.25 phi, or 0.052556 and 0.0625 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 4.50 phi bin or 0.044194 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 4.25 and 4.50 phi, or 0.044194 and 0.052556 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 4.75 phi bin or 0.037163 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 4.50 and 4.75 phi, or 0.037163 and 0.044194 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 5.00 phi bin or 0.03125 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 4.75 and 5.00 phi, or 0.03125 and 0.037163 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 5.25 phi bin or 0.02628 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 5.00 and 5.25 phi, or 0.02628 and 0.03125 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 5.50 phi bin or 0.0221 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 5.25 and 5.50 phi, or 0.0221 and 0.02628 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 5.75 phi bin or 0.01858 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 5.50 and 5.75 phi, or 0.01858 and 0.0221 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 6.00 phi bin or 0.01563 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 5.75 and 6.00 phi, or 0.01563 and 0.01858 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 6.25 phi bin or 0.01314 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 6.00 and 6.25 phi, or 0.01314 and 0.01563 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 6.50 phi bin or 0.01105 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 6.25 and 6.50 phi, or 0.01105 and 0.01314 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 6.75 phi bin or 0.00929 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 6.50 and 6.75 phi, or 0.00929 and 0.01105 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 7.00 phi bin or 0.00781 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 6.75 and 7.00 phi, or 0.00781 and 0.00929 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 7.25 phi bin or 0.00657 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 7.00 and 7.25 phi, or 0.00657 and 0.00781 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 7.50 phi bin or 0.00552 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 7.25 and 7.50 phi, or 0.00552 and 0.00657 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 7.75 phi bin or 0.00465 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 7.50 and 7.75 phi, or 0.00465 and 0.00552 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 8.00 phi bin or 0.00391 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 7.75 and 8.00 phi, or 0.00391 and 0.00465 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 8.25 phi bin or 0.00329 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 8.00 and 8.25 phi, or 0.00329 and 0.00391 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 8.50 phi bin or 0.00276 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 8.25 and 8.50 phi, or 0.00276 and 0.00329 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 8.75 phi bin or 0.00232 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 8.50 and 8.75 phi, or 0.00232 and 0.00276 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 9.00 phi bin or 0.00195 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 8.75 and 9.00 phi, or 0.00195 and 0.00232 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 9.25 phi bin or 0.00164 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 9.00 and 9.25 phi, or 0.00164 and 0.00195 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 9.50 phi bin or 0.00138 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 9.25 and 9.50 phi, or 0.00138 and 0.00164 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 9.75 phi bin or 0.00116 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 9.50 and 9.75 phi, or 0.00116 and 0.00138 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 9.99 phi bin or 0.00098 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 9.75 and 9.99 phi, or 0.00098 and 0.00116 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 10.25 phi bin or 0.00082 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 9.99 and 10.25 phi, or 0.00082 and 0.00098 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 10.50 phi bin or 0.00069 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 10.25 and 10.50 phi, or 0.00069 and 0.00082 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 10.75 phi bin or 0.00058 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 10.50 and 10.75 phi, or 0.00058 and 0.00069 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 10.99 phi bin or 0.00049 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 10.75 and 10.99 phi, or 0.00049 and 0.00058 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 11.25 phi bin or 0.0004 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 10.99 and 11.25 phi, or 0.0004 and 0.00049 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 11.48 phi bin or 0.00035 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 11.25 and 11.48 phi, or 0.00035 and 0.0004 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 12.02 phi bin or 0.000241 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 11.48 and 12.02 phi, or 0.000241 and 0.00035 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wt. percent in 13.02 phi bin or 0.00012 mm bin</attrlabl>\n <attrdef>Weight percent of sample with grain diameter between 12.02 and 13.02 phi, or 0.00012 and 0.000241 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent Gravel</attrlabl>\n <attrdef>percent of sample greater than 2 mm.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent Sand</attrlabl>\n <attrdef>percent of sample less than 2 mm and greater than 63 microns.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent Silt</attrlabl>\n <attrdef>percent of sample less than 63 microns and greater than 4 microns.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent Clay</attrlabl>\n <attrdef>percent of sample less than 4 microns.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent Mud</attrlabl>\n <attrdef>percent of sample less than 63 microns.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Gravel to Sand Ratio</attrlabl>\n <attrdef>ratio of percent gravel in sample to percent sand.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2.2318</rdommax>\n <attrunit>no unit</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sand to Silt Ratio</attrlabl>\n <attrdef>ratio of percent sand in sample to percent silt.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.469</rdommin>\n <rdommax>81.219</rdommax>\n <attrunit>no unit</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Silt to Clay Ratio</attrlabl>\n <attrdef>ratio of percent silt in sample to percent clay.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.58</rdommin>\n <rdommax>1.728</rdommax>\n <attrunit>no unit</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sand to Clay Ratio</attrlabl>\n <attrdef>ratio of percent sand in sample to percent clay.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.144</rdommin>\n <rdommax>66.059</rdommax>\n <attrunit>no unit</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sand to Mud Ratio</attrlabl>\n <attrdef>ratio of percent sand in sample to percent mud.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.93</rdommin>\n <rdommax>483.5</rdommax>\n <attrunit>no unit</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Gravel to Mud Ratio</attrlabl>\n <attrdef>ratio of percent gravel in sample to percent mud.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>197.5</rdommax>\n <attrunit>no unit</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D5 Phi</attrlabl>\n <attrdef>Phi size at D5 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-4</rdommin>\n <rdommax>222</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D10 Phi</attrlabl>\n <attrdef>Phi size at D10 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-4</rdommin>\n <rdommax>2.498</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D16 Phi</attrlabl>\n <attrdef>Phi size at D16 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-3.024</rdommin>\n <rdommax>2.689</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D25 Phi</attrlabl>\n <attrdef>Phi size at D25 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-1.668</rdommin>\n <rdommax>2.88</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D50 Phi</attrlabl>\n <attrdef>Phi size at D50 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.263</rdommin>\n <rdommax>5.007</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D75 Phi</attrlabl>\n <attrdef>Phi size at D75 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.498</rdommin>\n <rdommax>8.01</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D84 Phi</attrlabl>\n <attrdef>Phi size at D84 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.856</rdommin>\n <rdommax>8.98</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D90 Phi</attrlabl>\n <attrdef>Phi size at D90 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.211</rdommin>\n <rdommax>9.653</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D95 Phi</attrlabl>\n <attrdef>Phi size at D95 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.942</rdommin>\n <rdommax>10.247</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D5 mm</attrlabl>\n <attrdef>mm size at D5 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0008</rdommin>\n <rdommax>0.2603</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D10 mm</attrlabl>\n <attrdef>mm size at D10 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0012</rdommin>\n <rdommax>0.432</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D16 mm</attrlabl>\n <attrdef>mm size at D16 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.002</rdommin>\n <rdommax>0.5523</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D25 mm</attrlabl>\n <attrdef>mm size at D25 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0039</rdommin>\n <rdommax>0.7081</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D50 mm</attrlabl>\n <attrdef>mm size at D50 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0311</rdommin>\n <rdommax>1.2</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D75 mm</attrlabl>\n <attrdef>mm size at D75 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1358</rdommin>\n <rdommax>3.1782</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D84 mm</attrlabl>\n <attrdef>mm size at D84 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.155</rdommin>\n <rdommax>8.1346</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D90 mm</attrlabl>\n <attrdef>mm size at D90 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.177</rdommin>\n <rdommax>16</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D95 mm</attrlabl>\n <attrdef>mm size at D95 for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2147</rdommin>\n <rdommax>16</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>F-W Median Phi</attrlabl>\n <attrdef>Phi size median for sample by Folk and Ward (1957) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.263021</rdommin>\n <rdommax>5.006706</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>F-W Mean Phi</attrlabl>\n <attrdef>Phi size mean for sample by Folk and Ward (1957) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.399011</rdommin>\n <rdommax>5.203932</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>F-W Sorting Phi</attrlabl>\n <attrdef>sorting for sample by Folk and Ward (1957) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.595538</rdommin>\n <rdommax>4.597767</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>F-W Skewness Phi</attrlabl>\n <attrdef>skewness for sample by Folk and Ward (1957) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.065287</rdommin>\n <rdommax>0.501223</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>F-W Kurtosis Phi</attrlabl>\n <attrdef>kurtosis for sample by Folk and Ward (1957) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.72855</rdommin>\n <rdommax>3.144631</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Inman Median Phi</attrlabl>\n <attrdef>Phi size median for sample by Inman (1952) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.263021</rdommin>\n <rdommax>5.006706</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Inman Mean Phi</attrlabl>\n <attrdef>Phi size mean for sample by Inman (1952) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.467006</rdommin>\n <rdommax>5.426464</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Inman Sorting Phi</attrlabl>\n <attrdef>sorting for sample by Inman (1952) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.564579</rdommin>\n <rdommax>5.072283</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Inman Skew 16-84 Phi</attrlabl>\n <attrdef>skewness for sample (D16-D84) by Inman (1952) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.224489</rdommin>\n <rdommax>0.592416</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Inman Skew 05-95 Phi</attrlabl>\n <attrdef>skewness for sample (D05-D95) by Inman (1952) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.015328</rdommin>\n <rdommax>3.224643</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Inman Kurtosis Phi</attrlabl>\n <attrdef>kurtosis for sample by Inman (1952) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.341282</rdommin>\n <rdommax>3.76882</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Trask Median mm</attrlabl>\n <attrdef>mm size median for sample by Trask (1930) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.031105</rdommin>\n <rdommax>1.199989</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Trask Mean mm</attrlabl>\n <attrdef>mm size mean for sample by Trask (1930) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.080733</rdommin>\n <rdommax>1.843041</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Trask Sorting mm</attrlabl>\n <attrdef>sorting for sample by Trask (1930) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.293564</rdommin>\n <rdommax>7.049874</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Trask Skewness mm</attrlabl>\n <attrdef>skewness for sample by Trask (1930) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.074697</rdommin>\n <rdommax>1.311886</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Trask Kurtosis mm</attrlabl>\n <attrdef>kurtosis for sample by Trask (1930) method.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.02466</rdommin>\n <rdommax>0.347214</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mean Phi</attrlabl>\n <attrdef>phi size mean for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.255829</rdommin>\n <rdommax>5.112243</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mean mm</attrlabl>\n <attrdef>mm size mean for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.028911</rdommin>\n <rdommax>1.194022</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Variance Phi</attrlabl>\n <attrdef>variance for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.452063</rdommin>\n <rdommax>16.07395</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Std. Dev. Phi</attrlabl>\n <attrdef>standard deviation for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.205016</rdommin>\n <rdommax>4.009233</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Skewness Phi</attrlabl>\n <attrdef>skewness for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.016119</rdommin>\n <rdommax>3.903552</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Kurtosis Phi</attrlabl>\n <attrdef>kurtosis for sample.</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.837612</rdommin>\n <rdommax>22.784197</rdommax>\n <attrunit>Phi size</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>The first line of the csv file is a header line.</eaover>\n <eadetcit>U.S. Geological Survey</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>These data are available in csv format (GrainSize_RiversideEast_all.csv) accompanied by CSDGM FGDC-compliant metadata.</resdesc>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>comma-delimited text</formname>\n <formvern>Excel v. 16.47.1</formvern>\n <formcont>Sediment grain-size analyses data presented in comma-delimited format (csv) along with CSDGM FGDC-compliant metadata</formcont>\n <filedec>No compression applied</filedec>\n <transize>0.07</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9LZ02E4</networkr>\n </networka>\n </computer>\n <accinstr>Data can be downloaded using the Network_Resource_Name link above.</accinstr>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None.</fees>\n </stdorder>\n <techpreq>These data can be viewed with Microsoft Excel, LibreOffice, Apple Numbers, or any text-reading software.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20210519</metd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n <cntper>PCMSC Science Data Coordinator</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n </cntaddr>\n <cntvoice>831-427-4747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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4. [Structural contours of the Hauterivian Qezeltash formation of northern Afghanistan (qezeldpafg.shp)](/catalog/folder/60b65fced34e86b938847311)
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## Dates
Publication Date2021-06-01Time Period2006-04-01Release Date2006-04-01
## Citation
Steinshouer, D.W., 2006, Structural contours of the Hauterivian Qezeltash formation of northern Afghanistan (qezeldpafg.shp): U.S. Geological Survey data release, https://doi.org/10.5066/P9P8R3KZ.
## Summary
This shapefile contains polylines that describe structural contours (subsea elevation) of the Hauterivian Qezeltash formation in northern Afghanistan. Hauterivian sandstones are a reservoir rock of the Jurassic subsalt petroleum systems of the Afghan-Tajik and Amu Darya basins.
## Summary
This shapefile contains polylines that describe structural contours (subsea elevation) of the Hauterivian Qezeltash formation in northern Afghanistan. Hauterivian sandstones are a reservoir rock of the Jurassic subsalt petroleum systems of the Afghan-Tajik and Amu Darya basins.
## Contacts
Point of Contact
:
[U.S. Geological Survey - CERSC Data Management Services Project](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey+-+CERSC+Data+Management+Services+Project)
Originator
:
[Steinshouer, Douglas W.](/catalog/catalogParty/show?partyId=Steinshouer%2C+Douglas+W.)
Metadata Contact
:
[U.S. Geological Survey - CERSC Data Management Services Project](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey+-+CERSC+Data+Management+Services+Project)
Publisher
:
[U.S. Geological Survey, Central Energy Resources Team](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Central+Energy+Resources+Team)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey+-+ScienceBase)
SDC Data Owner
:
[Central Energy Resources Science Center](/catalog/catalogParty/show?partyId=17388)
USGS Mission Area
:
[Energy and Minerals](/catalog/catalogParty/show?partyId=Energy+and+Minerals)
## Attached Files - sorting - [Metadata First](/catalog/item/get/60b65fced34e86b938847311?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/60b65fced34e86b938847311?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/60b65fced34e86b938847311?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
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| qezeldpafg.xml<br>_Original FGDC Metadata_ | View | 14.36 KB |
| qezeldpafg.dbf | | 3.21 KB |
| qezeldpafg.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/60b65fced34e86b938847311?f=__disk__7e%2Ffe%2F87%2F7efe87d62049b626edba72e2db9ee337878b83d8&width=150&height=109) | 44.96 KB |
| qezeldpafg.prj | | 145 Bytes |
| qezeldpafg.sbn | | 2.08 KB |
| qezeldpafg.sbx | | 396 Bytes |
| qezeldpafg.shp | | 56.21 KB |
| qezeldpafg.shx | | 1.29 KB |
Shapefile:
qezeldpafg.zip
## Purpose
Subsea elevation of the Hauterivian sandstone units is important in delineating reservoir rock units of the Afghan-Tajik and Amu Darya basins as part of an assessment of hydrocarbon resources in northern Afghanistan.
## Preview Image
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## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9P8R3KZ |
### Shapefile Extension
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| size | 3290 |
| dateUploaded | Tue Jun 01 10:26:54 MDT 2021 |
| name | qezeldpafg.jpg |
| contentType | image/jpeg |
| pathOnDisk | \_\_disk\_\_7e/fe/87/7efe87d62049b626edba72e2db9ee337878b83d8 |
| imageWidth | 384 |
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| dateUploaded | Tue Jun 01 10:26:54 MDT 2021 |
| name | qezeldpafg.prj |
| contentType | text/plain |
| pathOnDisk | \_\_disk\_\_80/79/d3/8079d30f0c10b133f809579a1d4e708839633ed1 |
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| dateUploaded | Tue Jun 01 10:26:54 MDT 2021 |
| name | qezeldpafg.sbn |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_d1/99/6e/d1996ebe856f8219fafdfe22125a527fa8d81a87 |
| size | 2132 |
| dateUploaded | Tue Jun 01 10:26:54 MDT 2021 |
| name | qezeldpafg.sbx |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_6e/4e/f3/6e4ef3dd695d9ccca8598f00c9d56279d02de3a5 |
| size | 396 |
| dateUploaded | Tue Jun 01 10:26:54 MDT 2021 |
| name | qezeldpafg.shp |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_3f/6f/fc/3f6ffc4a89ecd53f5cea930f284683fbba221a62 |
| size | 57556 |
| dateUploaded | Tue Jun 01 10:26:54 MDT 2021 |
| name | qezeldpafg.shx |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_4c/f9/a7/4cf9a7060ea09d61314c2bbcf9e88f3f118a3c28 |
| size | 1316 |
| dateUploaded | Tue Jun 01 10:26:54 MDT 2021 |
| name | qezeldpafg.xml |
| contentType | application/fgdc+xml |
| pathOnDisk | \_\_disk\_\_e4/d7/06/e4d706bcd74a6b65624dbe4e265aa7bab2c50140 |
| dateUploaded | Tue Jun 01 10:27:19 MDT 2021 |
| originalMetadata | true | |
| geometryType | MultiLineString |
| name | qezeldpafg |
| nativeCrs | EPSG:4326 |
... show more ... (Additional Information)
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Steinshouer, Douglas W.</origin>\n <pubdate>20060401</pubdate>\n <title>Structural contours of the Hauterivian Qezeltash formation of northern Afghanistan (qezeldpafg.shp)</title>\n <geoform>Downloadable GIS Data</geoform>\n <pubinfo>\n <pubplace>Reston,VA</pubplace>\n <publish>U.S. Geological Survey, Central Energy Resources Team</publish>\n </pubinfo>\n <lworkcit>\n <citeinfo>\n <origin>Douglas W. Steinshouer, Timothy R. Klett, Gregory F. Umlishek, Craig J. Wandrey, Ronald R. Wahl, Ronald J. Hill, Michael Pribil, Mark J. Pawlewicz, J. David King, Warren F. Agena, David J. Taylor, Abdulla Amirzada, Amir Mohammad Selab, Abdul-Salam Mutteh, Ghulam Naqshband Haidari and Moeengul Gullabudeen Wardak</origin>\n <pubdate>2006</pubdate>\n <title>Petroleum Resource Potential GIS of Northern Afghanistan</title>\n <geoform>Online Reports and Chapters</geoform>\n <serinfo>\n <sername>U.S. Geological Survey Open-File Report</sername>\n <issue>OFR-2006-1179</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Denver, Colorado</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://pubs.usgs.gov/of/2006/1179</onlink>\n </citeinfo>\n </lworkcit>\n <onlink>https://doi.org/10.5066/P9P8R3KZ</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This shapefile contains polylines that describe structural contours (subsea elevation) of the Hauterivian Qezeltash formation in northern Afghanistan. Hauterivian sandstones are a reservoir rock of the Jurassic subsalt petroleum systems of the Afghan-Tajik and Amu Darya basins.</abstract>\n <purpose>Subsea elevation of the Hauterivian sandstone units is important in delineating reservoir rock units of the Afghan-Tajik and Amu Darya basins as part of an assessment of hydrocarbon resources in northern Afghanistan.</purpose>\n <supplinf>As part of the U.S. Government's effort to aid in reconstructing Afghanistan's economy and infrastructure, the U.S. Geological Survey (USGS) is cooperating with the Afghanistan Ministry of Mines and Industry (AMMI) to assess the undiscovered petroleum (includes crude oil, natural gas, and natural gas liquids/condensates) resources of Afghanistan. Funding for this effort was provided by the US Trade and Development Agency (USTDA).</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>20060401</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>64.205582</westbc>\n <eastbc>68.951499</eastbc>\n <northbc>37.333155</northbc>\n <southbc>35.825158</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ArcIMS Metadata Server Theme Codes Thesaurus</themekt>\n <themekey>geoscientificInformation</themekey>\n </theme>\n <theme>\n <themekt>USGS Energy Program Themes Thesaurus</themekt>\n <themekey>Subsea elevation of Hauterivian reservoir rock</themekey>\n <themekey>Subsea elevation of Lower Cretaceous reservoir rock</themekey>\n <themekey>Subsea elevation of Hauterivian sandstones</themekey>\n <themekey>Subsea elevation of Lower Cretaceous sandstones</themekey>\n <themekey>Structure of Hauterivian red beds</themekey>\n <themekey>Subsea elevation of Qezeltash formation</themekey>\n <themekey>Structure of Qezeltash formation</themekey>\n <themekey>Qezeltash formation</themekey>\n <themekey>Earth Science</themekey>\n <themekey>Natural Resources</themekey>\n <themekey>U.S. Geological Survey</themekey>\n <themekey>USGS</themekey>\n <themekey>Afghanistan Ministry of Mines and Industry</themekey>\n <themekey>Joint Oil and Gas Resource Assessment Team</themekey>\n <themekey>Geology</themekey>\n <themekey>Oil</themekey>\n <themekey>Natural Gas</themekey>\n <themekey>Petroleum</themekey>\n <themekey>Resource Assessment</themekey>\n </theme>\n <theme>\n <themekt>EnergyResourceActivities</themekt>\n <themekey>oilgas</themekey>\n <themekey>wep</themekey>\n <themekey>worldgeologicmaps</themekey>\n <themekey>afghan</themekey>\n </theme>\n <place>\n <placekt>Energy Program Petroleum Assessment Units</placekt>\n <placekey>Afghan-Tajik basin</placekey>\n <placekey>Amu Darya basin</placekey>\n </place>\n <place>\n <placekt>U.S. Department of State - Independent States of the World</placekt>\n <placekey>Islamic State of Afghanistan</placekey>\n <placekey>AF</placekey>\n <placekey>Northern Afghanistan</placekey>\n </place>\n <stratum>\n <stratkt>Afghanistan Ministry of Mines and Industry</stratkt>\n <stratkey>Qezeltash formation</stratkey>\n <stratkey>Kyzyltash formation</stratkey>\n <stratkey>Hauterivian sandstones</stratkey>\n <stratkey>Lower Cretaceous sandstones</stratkey>\n </stratum>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:60b65fced34e86b938847311</themekey>\n </theme>\n </keywords>\n <accconst>None</accconst>\n <useconst>This data is not intended for use at scales greater than 1:1,000,000. Please see the Positional Accuracy of this metadata document.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - CERSC Data Management Services Project</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 25, Mail Stop 939</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://www.sciencebase.gov/catalog/file/get/60b65fced34e86b938847311?f=__disk__7e%2Ffe%2F87%2F7efe87d62049b626edba72e2db9ee337878b83d8</browsen>\n </browse>\n <native>Microsoft Windows 2000 Version 5.0 (Build 2195) Service Pack 4; ESRI ArcCatalog 8.2.0.700</native>\n </idinfo>\n <dataqual>\n <logic>This shapefile has polyline topology.</logic>\n <complete>Polylines are digitized and attributed from original source map.</complete>\n <posacc>\n <horizpa>\n <horizpar>A scanned image of the original source map presented challenges in registration with basemap data. Afghanistan Information Management Service (AIMS) international boundaries and cities were used as registration points. Challenges were posed by uncertainty as to the projection of the original map and by systematic distortion of the base map used in compilation of the original map by Soviet cartographers for security reasons. Additionally, the original map was not available; instead, photocopies of folded portions of the original map were scanned and registered. The registration points were projected to an Equidistant Conic projection with reasonable parameters for this area and a Pulkovo 1942 datum commonly used on Soviet era maps. The image was scanned with a resolution of 200 dots per inch (0.13 mm), equivalent to 126 meters at a scale of 1:1,000,000. It was registered with a software (ArcMap) calculated RMS of 225 meters. Sampling differences between the rectified image and the NIMA reference points yielded an observed RMS of 1410 meters. The resulting accuracy falls below U.S.national map accuracy standards (508 meters at a scale of 1:1,000,000) by a factor of 3.35. Users are advised that these data do not meet U.S.G.S. standards.</horizpar>\n <qhorizpa>\n <horizpav>1410 meters</horizpav>\n <horizpae>Root mean square (RMS) error of registration of scanned image of original map to Afghanistan Information Management Service (AIMS) cities and international boundaries.</horizpae>\n </qhorizpa>\n </horizpa>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>S.D. Ivanov and V.I. Didura</origin>\n <origin>V.I. Didura</origin>\n <pubdate>Unpublished Material</pubdate>\n <title>Generalized Structural Map of the Top of the Qezeltash Formation of the Lower Cretaceous (K1h) in Northern Afghanistan (figure 53)</title>\n <geoform>map</geoform>\n <serinfo>\n </serinfo>\n <pubinfo>\n <publish>Afghanistan National Petroleum Company and the Ministry of Geology of the U.S.S.R.</publish>\n </pubinfo>\n <onlink>none</onlink>\n </citeinfo>\n </srccite>\n <srcscale>1000000</srcscale>\n <typesrc>paper</typesrc>\n <srccitea>Ivanov and Didura figure 53</srccitea>\n <srccontr>Structural contours and values</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Source map was scanned, registered to cities and international boundaries (Afghanistan Information Management Service (AIMS)) and rectified.</procdesc>\n <srcused>Ivanov and Didura figure 53</srcused>\n <procdate>20041102</procdate>\n </procstep>\n <procstep>\n <procdesc>Line segments were digitized and attributed on screen using the Ivanov and Didura figure 16 map as a background.</procdesc>\n <srcused>Ivanov and Didura figure 53</srcused>\n <procdate>20041103</procdate>\n </procstep>\n <procstep>\n <procdesc>Shapefile was projected to geographic decimal degrees of latitude and longitude.</procdesc>\n <procdate>20041104</procdate>\n </procstep>\n <procstep>\n <procdesc>Metadata imported.</procdesc>\n <srcused>C:\\DOCUME~1\\skinney\\LOCALS~1\\Temp\\xml2214.tmp</srcused>\n <proctime>09390900</proctime>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>String</sdtstype>\n <ptvctcnt>152</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.000001</latres>\n <longres>0.000001</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>D_WGS_1984</horizdn>\n <ellips>WGS_1984</ellips>\n <semiaxis>6378137.000000</semiaxis>\n <denflat>298.257224</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>qezeldpafg.dbf</enttypl>\n <enttypd>Polyline attribute table</enttypd>\n <enttypds>U.S. Geological Survey Central Energy Resources Team</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Internal ID</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Shapefile key</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ID</attrlabl>\n <attrdef>Feature ID</attrdef>\n <attrdefs>U.S. Geological Survey Central Energy Resources Team</attrdefs>\n <attrdomv>\n <udom>Feature ID</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SPOT</attrlabl>\n <attrdef>Subsea elevation of Hauterivian Qezeltash formation of Northern Afghanistan</attrdef>\n <attrdefs>U.S. Geological Survey Central Energy Resources Team</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-5600</rdommin>\n <rdommax>1600</rdommax>\n <attrunit>meters</attrunit>\n <attrmres>400 meters</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>Downloadable Data</resdesc>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Shapefile</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9P8R3KZ</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20210601</metd>\n <metrd>20060301</metrd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - CERSC Data Management Services Project</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 25, Mail Stop 939</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standards for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <mettc>local time</mettc>\n </metainfo>\n</metadata>" |
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## Dates
Publication Date2020-12-09Time Period2020-06-02
## Citation
Forbes, B.T., and DeBenedetto, G.P., 2020, 365149109492300 - Laguna Creek below Dennehotso near Kayenta, AZ - 2020/06/02 Terrestrial Lidar Data: U.S. Geological Survey data release, https://doi.org/10.5066/P9YOQFQK.
## Summary
This is a terrestrial LiDAR laser scanner dataset of an intermittent waterway named Laguna Creek near the community of Dennehotso, AZ collected on June 2, 2020. The reach scanned for this study is located at the bridge where State Route 160 crosses the waterway. The river channel on the upstream side of the bridge has experienced bank erosion over recent years. A bank stabilization project was implemented by the Arizona Department of Transportation in 2018. This scan is intended to capture the condition of the bank in 2020 and be used to measure any changes to the bank protection that has occurred since the installation.. A Leica MS-60 Multistation was used for the laser scanner data collection. Multiple scans were combined by setting \[...\]
## Summary
This is a terrestrial LiDAR laser scanner dataset of an intermittent waterway named Laguna Creek near the community of Dennehotso, AZ collected on June 2, 2020. The reach scanned for this study is located at the bridge where State Route 160 crosses the waterway. The river channel on the upstream side of the bridge has experienced bank erosion over recent years. A bank stabilization project was implemented by the Arizona Department of Transportation in 2018. This scan is intended to capture the condition of the bank in 2020 and be used to measure any changes to the bank protection that has occurred since the installation.. A Leica MS-60 Multistation was used for the laser scanner data collection. Multiple scans were combined by setting up the scanner using resection techniques coupled with Leica RTK - GPS equipment. All scan data are corrected using measurements of a reference mark with a known location that has been used for prior surveying projects.
## Contacts
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[Brandon T Forbes](/catalog/catalogParty/show?partyId=3306)
Process Contact
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[Brandon T Forbes](/catalog/catalogParty/show?partyId=3306)
Originator
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[Brandon T Forbes](/catalog/catalogParty/show?partyId=3306),
[Geoffrey P Debenedetto](/catalog/catalogParty/show?partyId=13429)
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[Arizona Water Science Center](/catalog/catalogParty/show?partyId=17428)
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## Purpose
These data were compiled for a study examining bank erosion and channel change. These data were collected to compare with prior survey data to measure and document channel change in response to the installation of the bank stabilization structures.
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## Tags
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## Provenance
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## Additional Information
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| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9YOQFQK |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Forbes, B. T.</origin>\n <origin>DeBenedetto, G. P.</origin>\n <pubdate>20201209</pubdate>\n <title>365149109492300 - Laguna Creek below Dennehotso near Kayenta, AZ - 2020/06/02 Terrestrial Lidar Data</title>\n <geoform>LIDAR data exchange file</geoform>\n <pubinfo>\n <pubplace>Tucson, AZ</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9YOQFQK</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This is a terrestrial LiDAR laser scanner dataset of an intermittent waterway named Laguna Creek near the community of Dennehotso, AZ collected on June 2, 2020. The reach scanned for this study is located at the bridge where State Route 160 crosses the waterway. The river channel on the upstream side of the bridge has experienced bank erosion over recent years. A bank stabilization project was implemented by the Arizona Department of Transportation in 2018. This scan is intended to capture the condition of the bank in 2020 and be used to measure any changes to the bank protection that has occurred since the installation.. A Leica MS-60 Multistation was used for the laser scanner data collection. Multiple scans were combined by setting up the scanner using resection techniques coupled with Leica RTK - GPS equipment. All scan data are corrected using measurements of a reference mark with a known location that has been used for prior surveying projects.</abstract>\n <purpose>These data were compiled for a study examining bank erosion and channel change. These data were collected to compare with prior survey data to measure and document channel change in response to the installation of the bank stabilization structures.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>20200602</caldate>\n </sngdate>\n </timeinfo>\n <current>observed</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-109.83271</westbc>\n <eastbc>-109.80967</eastbc>\n <northbc>36.87542</northbc>\n <southbc>36.85627</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>elevation</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>elevation</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>3-dimensional data</themekey>\n <themekey>Autonomous Terrestrial Laser Scanner</themekey>\n <themekey>Erosion</themekey>\n <themekey>Sedimentation</themekey>\n <themekey>Bridge scour</themekey>\n <themekey>terrestrial laser scanner data</themekey>\n <themekey>GPS</themekey>\n <themekey>GPS location</themekey>\n <themekey>global positioning system</themekey>\n <themekey>global positioning system location</themekey>\n <themekey>Bank erosion</themekey>\n <themekey>point density</themekey>\n <themekey>flash flood</themekey>\n <themekey>RTK</themekey>\n <themekey>Real Time Kinematic</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5fca817fd34e30b912389361</themekey>\n </theme>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Brandon T. Forbes</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>520 North Park Ave Suite 221</address>\n <city>Tucson</city>\n <state>AZ</state>\n <postal>85719</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>5206703326</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>This research was funded by the Arizona Department of Transportation Resilience Program</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Scan Methodology: The Leica MS60 multistation is set up on a tripod with an unobstructed view of the targeted study area. Leica RTK GPS equipment is set up with a clear view of the sky and survey shots were taken of a benchmark with known coordinates located on the bridge structure to provide reference to State Plane NAD83 datum. The multistation was oriented to the datum using resectioning techniques using a laser observation and a GPS observation on reference points with GPS surveyed coordinates. Four of these reference points were used during the resectioning process each time the scanner was moved. The instrument then triangulates its position using these four occupations. Once complete, the MS60 scanner knows its location in reference to the GPS base station setup in reference to the benchmark. Once the first set of scan data is collected at a setup, the instrument can be moved to a location with a different view, set up again using resectioning techniques, and data collected to fill in any areas that were unable to be scanned from the prior setup.</procdesc>\n <procdate>20200706</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Brandon T. Forbes</cntper>\n <cntorg>USGS</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>520 North Park Ave Suite 221</address>\n <city>Tucson</city>\n <state>AZ</state>\n <postal>85719</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>5206703326</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Point Cloud Processing: All points are collected in reference to the base station setup and GPS survey shots of the benchmark on the Highway bridge. Scans are in the appropriate orientation compared to each other right out of the instrument and do not need post processing. The scan data do need to be shifted to the known coordinates of the bench mark. To do this, an offset of 0.373 meters in the X direction, -0.1292 meters in the Y direction, and 2.982 meters in the Z direction was applied to all points using the OPUS correction from the known location of the benchmark. The data were then imported into Blue Marble Graphics Global Mapper software for point classification. The auto classification tools were used to auto classify the ground points using default settings. Ground points were identified and exported in the dataset discussed here.</procdesc>\n <procdate>20200729</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Brandon T. Forbes</cntper>\n <cntorg>USGS</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>520 North Park Ave Suite 221</address>\n <city>Tucson</city>\n <state>Arizona</state>\n <postal>85719</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>5206703326</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Data Quality Assurance (accuracy assessment) and Control: Processed data were plotted with UAS survey data that was published prior (available at https://earthexplorer.usgs.gov/ or see https://www.sciencebase.gov/catalog/item/5d02afbfe4b05cc71caf12bb for instructions for accessing data) to make sure the terrain data aligned and were the same datum.</procdesc>\n <procdate>20201112</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Brandon T. Forbes</cntper>\n <cntorg>USGS</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>520 North Park Ave Suite 221</address>\n <city>Tucson</city>\n <state>Arizona</state>\n <postal>85719</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>5206703326</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>State Plane Coordinate System 1983</gridsysn>\n <spcs>\n <spcszone>Arizona East (FIS 201)</spcszone>\n <transmer>\n <sfctrmer>0.9999</sfctrmer>\n <longcm>-110.16666667</longcm>\n <latprjo>31.000</latprjo>\n <feast>213360</feast>\n <fnorth>0</fnorth>\n </transmer>\n </spcs>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.01</absres>\n <ordres>0.01</ordres>\n </coordrep>\n <plandu>International feet</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North American Datum of 1983 (NAD 83) (2011)</horizdn>\n <ellips>Geodetic Reference System 1980</ellips>\n <semiaxis>6378137 ft</semiaxis>\n <denflat>298.257222</denflat>\n </geodetic>\n </horizsys>\n <vertdef>\n <altsys>\n <altdatum>World Geodetic System (WGS) 1984 Ellipsoid Height</altdatum>\n <altres>0.012</altres>\n <altunits>meters</altunits>\n <altenc>Explicit elevation coordinate included with horizontal coordinates</altenc>\n </altsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>ATLS_PLINE-BO-all to ATLS_RUDD-TO-all</enttypl>\n <enttypd>\n </enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Intensity</attrlabl>\n <attrdef>The return strength of the laser pulse that generated the lidar point.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>dB</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>\n </enttypl>\n <enttypd>\n </enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>X</attrlabl>\n <attrdef>State Plane NAD83 Feet Easting</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>800133.53</rdommin>\n <rdommax>800555.45</rdommax>\n <attrunit>International Feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y</attrlabl>\n <attrdef>State Plane NAD83 Feet Northing</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2133717.06</rdommin>\n <rdommax>2134156.24</rdommax>\n <attrunit>International Feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ELEVATION</attrlabl>\n <attrdef>WGS84 ellipsoid height in Meters</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1487.89</rdommin>\n <rdommax>1495.992</rdommax>\n <attrunit>Meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CLASS</attrlabl>\n <attrdef>Points classified as ground</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>2 (Ground)</edomv>\n <edomvd>Points classified as ground</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>INTENSITY</attrlabl>\n <attrdef>The return strength of the laser pulse that generated the lidar point.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>9999</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>RETURN_NUM</attrlabl>\n <attrdef>The return number of each lidar pulse</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>RETURN_CNT</attrlabl>\n <attrdef>the number of returns per lidar pulse</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>RED</attrlabl>\n <attrdef>The numerical value of red computed by the Leica Scanner and onboard camera.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16384</rdommin>\n <rdommax>65024</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GREEN</attrlabl>\n <attrdef>The numerical value of green computed by the Leica Scanner and onboard camera.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9216</rdommin>\n <rdommax>65024</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BLUE</attrlabl>\n <attrdef>The numerical value of blue computed by the Leica Scanner and onboard camera.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7168</rdommin>\n <rdommax>65024</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DENSITY</attrlabl>\n <attrdef>The number of lidar points collected per square meter. The density ranges for each scan based on the distance from the instrument to the target.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2181</rdommin>\n <rdommax>9999.9</rdommax>\n <attrunit>points / M^2</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>The author(s) of these data request that data users contact them regarding intended use and to assist with understanding limitations and interpretation. Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n <custom>\n </custom>\n <techpreq>This zip file contains data available in light detection and ranging (Lidar, .las) format. The user must have software capable of uncompressing the zip file and CloudCompare software (https://www.danielgm.net/cc/) for displaying the lidar data.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20201209</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Brandon T. Forbes</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>520 North Park Ave Suite 221</address>\n <city>Tucson</city>\n <state>AZ</state>\n <postal>85719</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>5206703326</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2020-09-29Start Date2010-10-01End Date2014-01-31
## Citation
McAuley, D.G., Allen, B.B. and Blomberg, E.J., 2020, Multiscale resource selection by American Woodcock (Scolopax minor) during fall migration at Cape May, New Jersey: U.S. Geological Survey data release, https://doi.org/10.5066/F7R49PZ2.
## Summary
This data set is measurements of the proportional area of 17 land-cover types at 5 different spatial scales in Cape May County, NJ at individual radio-tagged American woodcock (Scololpax minor) use locations and at random points across the county. The data set consists of a unique identifier, band number, year or season during which sampling was conducted, spatial coordinates (UTMs),
## Summary
This data set is measurements of the proportional area of 17 land-cover types at 5 different spatial scales in Cape May County, NJ at individual radio-tagged American woodcock (Scololpax minor) use locations and at random points across the county. The data set consists of a unique identifier, band number, year or season during which sampling was conducted, spatial coordinates (UTMs),
## Contacts
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[Brian B Allen](/catalog/catalogParty/show?partyId=Brian+B+Allen)
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[Daniel G McAuley](/catalog/catalogParty/show?partyId=6647),
[Brian B Allen](/catalog/catalogParty/show?partyId=Brian+B+Allen),
[Erik J Blomberg](/catalog/catalogParty/show?partyId=60253)
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## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Allen, B. B., McAuley, D. G., and Blomberg, E. J., 2020, Migratory status determines resource selection by American Woodcock at an important fall stopover, Cape May, New Jersey: Condor, v. Online early September 24 | [https://doi.org/10.1093/condor/duaa046](https://doi.org/10.1093/condor/duaa046 "https://doi.org/10.1093/condor/duaa046") |
## Purpose
These data were collected to better understand habitat selection by American woodcock during a fall migratory stopover
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Daniel G. McAuley</origin>\n <origin>Brian B. Allen</origin>\n <origin>Erik J. Blomberg</origin>\n <pubdate>20200929</pubdate>\n <title>Multiscale resource selection by American Woodcock (Scolopax minor) during fall migration at Cape May, New Jersey</title>\n <geoform>Text</geoform>\n <pubinfo>\n <pubplace>Orono, ME</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7R49PZ2</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Allen, Brian B., McAuley, Daniel G., & Blomberg, Erik J.</origin>\n <pubdate>2017</pubdate>\n <title>Multiscale resource selection by American Woodcock (Scolopax minor) during fall migration at Cape May, New Jersey</title>\n <geoform>Tables</geoform>\n <pubinfo>\n <pubplace>The Condor</pubplace>\n <publish>American Ornithological Society</publish>\n </pubinfo>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data set is measurements of the proportional area of 17 land-cover types at 5 different spatial scales in Cape May County, NJ at individual radio-tagged American woodcock (Scololpax minor) use locations and at random points across the county. The data set consists of a unique identifier, band number, year or season during which sampling was conducted, spatial coordinates (UTMs),</abstract>\n <purpose>These data were collected to better understand habitat selection by American woodcock during a fall migratory stopover</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20101001</begdate>\n <enddate>20140131</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Monthly</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-75.02014160217</westbc>\n <eastbc>-74.564208985</eastbc>\n <northbc>39.274450959759</northbc>\n <southbc>38.894967725976</southbc>\n </bounding>\n <descgeog>Cape May County, New Jersey</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>American woodcock</themekey>\n <themekey>Scolopax minor</themekey>\n <themekey>fall migration</themekey>\n <themekey>resource selection</themekey>\n <themekey>stopover</themekey>\n <themekey>multi-scale</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5a32b77fe4b08e6a89d88103</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>New Jersey</placekey>\n <placekey>Cape May</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Brian B. Allen</cntper>\n <cntorg>The University of Maine</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Nutting Hall</address>\n <city>Orono</city>\n <state>ME</state>\n <postal>04469</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>908-246-3608</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Birds</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2017</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Daniel G McAuley</cntper>\n <cntorg>U.S. Geological Survey, Patuxent Wildlife Research Center</cntorg>\n </cntperp>\n <cntpos>Research Wildlife Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>17 Godfrey Drive, Suite 2</address>\n <city>Orono</city>\n <state>ME</state>\n <postal>04473</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>207-866-1329</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>expert advice</taxonpro>\n <taxoncom>Only American Woodcocks were included in the data</taxoncom>\n </taxonsys>\n <taxongen>all American woodcocks were identified to the level of Genus Species in the data</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Aves</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Charadriiformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Scolopacidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Scolopax</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Scolopax minor</taxonrv>\n <common>Chocha americana</common>\n <common>American Woodcock</common>\n <common>B\xc3\xa9casse d\'Am\xc3\xa9rique</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n <tool>\n <tooldesc>Packages \xe2\x80\x9clme4\xe2\x80\x9d version 1.1-13, \xe2\x80\x9cAICcmodavg\xe2\x80\x9d version 2.1-0 for Program R was used to run generalized linear mixed models to create resource selection functions</tooldesc>\n <toolacc>\n <onlink>https://www.r-project.org/</onlink>\n <toolinst>R is a free software environment for statistical computing and graphics. It compiles and runs on a wide variety of UNIX platforms, Windows and MacOS.</toolinst>\n </toolacc>\n <toolcont>\n <cntinfo>\n <cntperp>\n <cntper>Brian B. Allen</cntper>\n <cntorg>The University of Maine</cntorg>\n </cntperp>\n <cntpos>Graduate Student</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Nutting Hall</address>\n <city>Orono</city>\n <state>ME</state>\n <postal>04473</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>908-246-3608</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </toolcont>\n </tool>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Data was checked by the authors and double checked for accuracy</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>New Jersey Department of Environmental Protection (NJDEP), Office of Information Resources Management (OIRM), Bureau of Geographic Information Systems (BGIS)</origin>\n <pubdate>20150217</pubdate>\n <title>Land Use/Land Cover 2012 Update, Edition 20150217 Subbasin 02040302 - Great Egg Harbor, Subbasin 02040303 - Chincoteague (Land_lu_2012_hu02040302_303)</title>\n <geoform>digital data</geoform>\n <pubinfo>\n <pubplace>Trenton, NJ</pubplace>\n <publish>New Jersey Department of Environmental Protection (NJDEP)</publish>\n </pubinfo>\n <onlink>http://www.nj.gov/dep/gis/listall.html , http://www.nj.gov/dep/gis/geowebsplash.htm</onlink>\n </citeinfo>\n </srccite>\n <typesrc>vector</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20101001</begdate>\n <enddate>20171231</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>20150217</srccurr>\n </srctime>\n <srccitea>New Jersey Department of Environmental Protection (NJDEP)</srccitea>\n <srccontr>?????????????????????</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>New Jersey Department of Environmental Protection (NJDEP), Office of Information Resources Management (OIRM), Bureau of Geographic Information Systems (BGIS)</origin>\n <pubdate>20150217</pubdate>\n <title>Land Use/Land Cover 2012 Update, Edition 20150217 Subbasin 02040204 - Delaware Bay, Subbasin 02040206 - Cohansey-Maurice (Land_lu_2012_hu02040204_206)</title>\n <geoform>digital data</geoform>\n <pubinfo>\n <pubplace>Trenton, NJ</pubplace>\n <publish>New Jersey Department of Environmental Protection (NJDEP)</publish>\n </pubinfo>\n <onlink>http://www.nj.gov/dep/gis/listall.html , http://www.nj.gov/dep/gis/geowebsplash.htm</onlink>\n </citeinfo>\n </srccite>\n <typesrc>vector</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20170101</begdate>\n <enddate>20170102</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>20150217</srccurr>\n </srctime>\n <srccitea>New Jersey Department of Environmental Protection</srccitea>\n <srccontr>????????????????</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Merge 2 land-cover data sets that encompass Cape May, NJ. \nClip land-cover data set 2 km beyond Cape May County boundary \nGenerate random points within Cape May County, excluding areas of barren lands and water \nRasterize land-cover vector data at 20m x 20m pixel resolution \nReclassify raster: Condense 80 land-covers down to 17 land-cover types based on similarity \nCreate raster layers of individual land-cover types \nDigitize potential roost fields \nCalculate Euclidean distance from digitized roost fields \nNeighborhood analysis to calculate the proportional area of each land-cover type in circular neighborhood 5, 15, 31, 51, and 101 pixels. \nExtract areal proportions and Euclidean distance from roost fields to Woodcock use point locations and random point locations.</procdesc>\n <procdate>201704</procdate>\n </procstep>\n <method>\n <methtype>Field</methtype>\n <methdesc>Global positioning system (GPS) point locations were created for individually radio-tagged American woodcock by homing into the tagged birds\xe2\x80\x99 exact location using radio-telemetry technology. These locations were recorded, saved and analyzed in Coordinate Reference System EPSG: 26918, NAD83 / UTM Zone 18N.</methdesc>\n </method>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>rsf_sampled</enttypl>\n <enttypd>These data were used in partial completion of a Master\'s Thesis titled, "American Woodcock Migration Ecology at an Important Stopover, Cape May, New Jersey" and subsequently submitted for publication in The Condor under the title, "Multiscale resource selection by American Woodcock (Scolopax minor) during fall migration at Cape May, New Jersey."</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>X</attrlabl>\n <attrdef>Latitude</attrdef>\n <attrdefs>Global positioning system (GPS)</attrdefs>\n <attrdomv>\n <udom>UTM Easting (meters) Projection: NAD83, UTM zone 18N</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y</attrlabl>\n <attrdef>Longitude</attrdef>\n <attrdefs>Global positioning system (GPS)</attrdefs>\n <attrdomv>\n <udom>UTM Northing (meters) Projection: NAD83, UTM zone 18N</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>UID</attrlabl>\n <attrdef>Unique identifier for each individual record of each individual bird</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Unique identifier for each individual record of each individual bird: The prefix, 16x.xxx_ is the radio frequency of the radio transmitter applied to an individual bird. The middle three digits (e.g. _10a) describe which year the individual was captured and marked, where "a" denotes the first application, and "b" denotes the application of a radio transmitter on to a different individual. The suffix denotes which location in chronological order. For example 164.033_10a_3 means: Radio transmitter with VHF frequency 164.033 was applied to one individual woodcock in 2010 and this is the third record. 164.033_10b_6 would mean radio transmitter was applied to a second individual after being recovered from the first, and this is the sixth record for that second bird.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Freq_y</attrlabl>\n <attrdef>The VHF frequency of a transmitter applied to a woodcock</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The VHF frequency of a transmitter applied to a woodcock with suffix denoting the year and issuance (i.e. a = first, b = second)</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Freq</attrlabl>\n <attrdef>Frequency</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The VHF frequency of the transmitter applied to a woodcock</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The month, day, and year the record was made</attrdef>\n <attrdefs>Calendar Year</attrdefs>\n <attrdomv>\n <udom>Month/Day/Year</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Time</attrlabl>\n <attrdef>The time of day the record was made</attrdef>\n <attrdefs>Time of Day</attrdefs>\n <attrdomv>\n <udom>24-hour clock</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>type</attrlabl>\n <attrdef>Location</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Woodcock use location</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>Random location</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pntid</attrlabl>\n <attrdef>Point ID</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>A unique point ID assigned by QGIS</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Location</attrlabl>\n <attrdef>Banding location of the individual woodcock used in this study, as a factor</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CMNWR - Back 40, Burleigh East, Burleigh Field, Burleigh North, Burleigh West, HQ Field, Sheet\'s Field, Waterworks, Woodcock Lane</edomv>\n <edomvd>Cape May National Wildlife Refuge</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Dennis Creek WMA - Thorn Fields,</edomv>\n <edomvd>Dennis Creek Wildlife Managment Area</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Higbee Bch. WMA - Bayshore Field, Bayshore Rd. Field, Hidden Valley East Field, Hidden Valley Fields, Hidden Valley West Field, North Twin, Point Field, South Twin, West Field</edomv>\n <edomvd>Higbee Beach Wildlife Management Area</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TNC - Cape Island Creek, Eldora Field, Lizard Tail Swamp, The Meadows</edomv>\n <edomvd>The Nature Conservancy</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year of banding</attrdef>\n <attrdefs>Calendar Year</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>2010</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>2011</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>2012</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>2012</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dist2cntyf</attrlabl>\n <attrdef>The Euclidean distance to across Cape May County, NJ</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The Euclidean distance to potential woodcock roost fields across Cape May County, New Jersey</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>fn#_ct#</attrlabl>\n <attrdef>The following attributes are the proportion of area covered by a land cover-type. The heading prefix fnxx_ denotes the diameter of the final neighborhood (fn) in pixels, where for example, fn51_ signifies the neighborhood being evaluated has a diameter of 51 pixels. Five spatial extents were considered with diameter of 5, 15, 31, 51, and 101 pixels with 20m X 20m pixel resolution. The suffix of the heading describes the cover-type (ct) being evaluated. The land cover-types are defined below. (Ex. fn51_ct6 is the proportional area of Coniferous wetland forest in an evaluated neighborhood with a 51 pixel diameter.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Agriculture</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>Barren</edomvd>\n <edomvds>Producer-defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Coniferous Forest</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>Coniferous Shrub</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5</edomv>\n <edomvd>Coniferous Wetland Forest</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>6</edomv>\n <edomvd>Coniferous Wetland Shrub</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7</edomv>\n <edomvd>Deciduous Forest</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>8</edomv>\n <edomvd>Deciduous Shrub</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>9</edomv>\n <edomvd>Deciduous Wetland Forest</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10</edomv>\n <edomvd>Deciduous Wetland Shrub</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>11</edomv>\n <edomvd>Herbaceous Wetland</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>12</edomv>\n <edomvd>Mixed Shrub</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>13</edomv>\n <edomvd>Phragmites</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>14</edomv>\n <edomvd>Salt Marsh</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>15</edomv>\n <edomvd>Urban</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>16</edomv>\n <edomvd>Water</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>17</edomv>\n <edomvd>Wetland</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200929</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Daniel G McAuley</cntper>\n <cntorg>U.S. Geological Survey, Patuxent Wildlife Research Center</cntorg>\n </cntperp>\n <cntpos>Research Wildlife Biologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>17 Godfrey Drive, Suite 2</address>\n <city>Orono</city>\n <state>ME</state>\n <postal>04473</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>207-866-1329</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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3. [Database for the geologic map of Lassen Volcanic National Park and vicinity, California](/catalog/folder/5abc1c24e4b081f61abdac49)
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Point of Contact[Joel E Robinson](/catalog/catalogParty/show?partyId=8702)
## Dates
Publication Date2019-03-15
## Citation
Peters, J., Ryan-Davis, J., Clynne, M.A., and Muffler, L.J.P., 2019, Database for the geologic map of Lassen Volcanic National Park and vicinity, California: U.S. Geological Survey data release, https://doi.org/10.5066/P9N23XJ6.
## Summary
This is a database of the geologic map of Lassen Volcanic National Park (LVNP) and vicinity as described below: The geologic map of Lassen Volcanic National Park (LVNP) and vicinity encompasses 1,905 square kilometers at the south end of the Cascade Range in Shasta, Lassen, Tehama, and Plumas Counties, northeastern California. Most of the map area is underlain by middle to late Pleistocene volcanic rocks; Holocene, early Pleistocene, and late Pliocene volcanic rocks (<3.5 m.y.) are less common. The southernmost Cascade Range consists of a regional platform of basalt and basaltic andesite, with subordinate andesite and sparse dacite, erupted from small, relatively short-lived volcanoes. Nested within these regional volcanoes are \[...\]
## Summary
This is a database of the geologic map of Lassen Volcanic National Park (LVNP) and vicinity as described below:
The geologic map of Lassen Volcanic National Park (LVNP) and vicinity encompasses 1,905 square kilometers at the south end of the Cascade Range in Shasta, Lassen, Tehama, and Plumas Counties, northeastern California. Most of the map area is underlain by middle to late Pleistocene volcanic rocks; Holocene, early Pleistocene, and late Pliocene volcanic rocks (<3.5 m.y.) are less common. The southernmost Cascade Range consists of a regional platform of basalt and basaltic andesite, with subordinate andesite and sparse dacite, erupted from small, relatively short-lived volcanoes. Nested within these regional volcanoes are "volcanic centers," defined as large, long-lived, composite, calc-alkaline edifices erupting the full range of compositions from basalt to rhyolite, but dominated by andesite and dacite. Volcanic centers are produced by the focusing of basaltic flux from the mantle and resultant enhanced interaction of mafic magma with the crust. Collectively, volcanic centers mark the axis of the southernmost Cascade Range. The map area includes the entire, presently active, Lassen Volcanic Center, parts of three older volcanic centers (Maidu, Dittmar, and Latour), and the products of regional volcanism. The deposits of several glacial advances are widespread.
**This geologic map database is accompanied by a report, which includes the formatted geologic map and explanatory pamphlet, available at https://doi.org/10.3133/sim2899** **.**
_The authors ask that users of the geologic map database cite both the database and the report:_ **Report:** Clynne, M.A., and Muffler, L.J.P., Geologic map of Lassen Volcanic National Park and vicinity, California: U.S. Geological Survey Scientific Investigations Map 2899, scale 1:50,000, https://doi.org/10.3133/sim2899.
**Database:** Peters, J., Ryan-Davis, J., Clynne, M.A., and Muffler, L.J.P., 2018, Geologic map of Lassen Volcanic National Park and vicinity, California: U.S. Geological Survey data release, https://doi.org/10.5066/P9N23XJ6.
## Contacts
Point of Contact
:
[Jeff Peters](/catalog/catalogParty/show?partyId=8034),
[Joel E Robinson](/catalog/catalogParty/show?partyId=8702)
Originator
:
[L. J. Patrick Muffler](/catalog/catalogParty/show?partyId=L.+J.+Patrick+Muffler),
[Michael A Clynne](/catalog/catalogParty/show?partyId=1907)
Metadata Contact
:
[Jeff Peters](/catalog/catalogParty/show?partyId=8034)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Natural Hazards](/catalog/catalogParty/show?partyId=Natural+Hazards)
SDC Data Owner
:
[Volcano Hazards Program Office](/catalog/catalogParty/show?partyId=17168)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5abc1c24e4b081f61abdac49?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5abc1c24e4b081f61abdac49?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5abc1c24e4b081f61abdac49?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| LVNPmapSIM2899\_database.xml<br>“LVNPmapSIM2899\_database metadata”<br>_Original FGDC Metadata_ | View | 24.36 KB | application/fgdc+xml |
| LassenVolcanicNationalPark\_sim2899\_shapefiles.zip<br>“LassenVolcanicNationalPark\_sim2899\_shapefiles” | | 129.73 MB | application/zip |
| LassenVolcanicNationalPark\_sim2899\_database.zip<br>“LassenVolcanicNationalPark\_sim2899\_database” | | 127.49 MB | application/zip |
| | | |
| --- | --- | --- |
| LassenVolcanicNationalPark\_sim2899\_database\_Service\_Definition.sd<br>“LassenVolcanicNationalPark\_sim2899\_database\_Service\_Definition” | | 3.98 MB |
| thumbnail.png | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5abc1c24e4b081f61abdac49?f=__disk__69%2F05%2F1c%2F69051c8e6002723bb9f01d4b4feccf952f4e3298&width=150&height=100) | 23.27 KB |
Extension:
LassenVolcanicNationalPark\_sim2899\_database\_Service\_Definition.zip
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Clynne, M.A., and Muffler, L.J.P., Geologic map of Lassen Volcanic National Park and vicinity, California: U.S. Geological Survey Scientific Investigations Map 2899, scale 1:50,000. | [https://doi.org/10.3133/sim2899](https://doi.org/10.3133/sim2899 "https://doi.org/10.3133/sim2899") |
## Purpose
This database was constructed in order to produce a geologic map as a basis for understanding volcanic and geothermal processes involved in the creation of the Lassen Volcanic field.
## Rights
Uses of this digital geologic map should not violate the spatial resolution of the data. Although the digital form of the data removes the constraint imposed by the scale of a paper map, the detail and accuracy inherent in map scale are also present in the digital data. The data was edited at a scale of 1:24,000 and higher resolution information is not present in the dataset. Plotting at scales larger than 1:24,000 will not yield greater real detail, although it may reveal fine-scale irregularities below the intended resolution of the database. Similarly, where this database is used in combination with other data of higher resolution, the resolution of the combined output will be limited by the lower resolution of these data. Acknowlegdment of the U.S. Geological Survey would be appreciated in products derived from these data.
## Preview Image
![Preview Image](https://www.sciencebase.gov/catalog/file/get/5abc1c24e4b081f61abdac49?f=__disk__69%2F05%2F1c%2F69051c8e6002723bb9f01d4b4feccf952f4e3298)
## [Map](/catalog/item/imap/5abc1c24e4b081f61abdac49)
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## Tags
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- [Lassen Volcanic Center; volcanoes](/catalog/items?q=&filter=tags%3DLassen+Volcanic+Center%3B+volcanoes "Lassen Volcanic Center; volcanoes")
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- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
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## Provenance
Data sourceInput directly
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9N23XJ6 |
### ArcGIS Service Definition Extension
| boundingBox | | minY | 40.1887124305184 |
| minX | -121.754948863107 |
| maxY | 40.8324236550202 |
| maxX | -121.09102153791 | |
| enabledServices | | | KmlServer |
| | WMSServer | |
| filePathUsed | \_\_disk\_\_87/23/a8/8723a884c504e37cdc07315d096067f23706ef3e |
| files | | name | LassenVolcanicNationalPark\_sim2899\_database\_Service\_Definition.sd |
| title | LassenVolcanicNationalPark\_sim2899\_database\_Service\_Definition |
| contentType | x-gis/x-arcgis-service-def |
| pathOnDisk | \_\_disk\_\_87/23/a8/8723a884c504e37cdc07315d096067f23706ef3e |
| size | 4170224 |
| dateUploaded | Mon Feb 11 15:43:30 MST 2019 |
| originalMetadata | true |
| name | thumbnail.png |
| contentType | image/png |
| pathOnDisk | \_\_disk\_\_69/05/1c/69051c8e6002723bb9f01d4b4feccf952f4e3298 |
| imageWidth | 200 |
| imageHeight | 133 |
| size | 23824 |
| dateUploaded | Mon Feb 11 15:43:39 MST 2019 | |
| name | LassenVolcanicNationalPark\_sim2899\_database\_Service\_Definition.sd |
| processingState | success |
| serviceId | 5abc1c24e4b081f61abdac49 |
| servicePath | 5abc1c24e4b081f61abdac49 |
... show more ... (Additional Information)
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Jeff Peters</origin>\n <origin>Juliet Ryan-Davis</origin>\n <origin>L.J. Patrick Muffler</origin>\n <origin>Tracey J. Felger</origin>\n <origin>Dillon R. Dutton</origin>\n <origin>Michael A. Clynne</origin>\n <pubdate>2019</pubdate>\n <title>Database for the geologic map of Lassen Volcanic National Park and vicinity, California - Geodatabase</title>\n <geoform>vector digital data</geoform>\n <serinfo>\n <sername>Data release</sername>\n <issue>DOI: 10.5066/P9N23XJ6</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9N23XJ6</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Michael A. Clynne</origin>\n <origin>L.J. Patrick Muffler</origin>\n <pubdate>2010</pubdate>\n <title>Geologic map of Lassen Volcanic National Park and vicinity, California</title>\n <geoform>map</geoform>\n <serinfo>\n <sername>Scientific Investigations Map</sername>\n <issue>SIM 2899</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/sim/2899</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>A database of geologic map of Lassen Volcanic National Park as described in the original abstract:\n\nThe geologic map of Lassen Volcanic National Park (LVNP) and vicinity encompasses 1,905 square kilometers at the south end of the Cascade Range in Shasta, Lassen, Tehama, and Plumas Counties, northeastern California. Most of the map area is underlain by middle to late Pleistocene volcanic rocks; Holocene, early Pleistocene, and late Pliocene volcanic rocks (less than 3.5 m.y.) are less common. The southernmost Cascade Range consists of a regional platform of basalt and basaltic andesite, with subordinate andesite and sparse dacite, erupted from small, relatively short-lived volcanoes. Nested within these regional volcanoes are "volcanic centers," defined as large, long-lived, composite, calc-alkaline edifices erupting the full range of compositions from basalt to rhyolite, but dominated by andesite and dacite. Volcanic centers are produced by the focusing of basaltic flux from the mantle and resultant enhanced interaction of mafic magma with the crust. Collectively, volcanic centers mark the axis of the southernmost Cascade Range. The map area includes the entire, presently active, Lassen Volcanic Center, parts of three older volcanic centers (Maidu, Dittmar, and Latour), and the products of regional volcanism. The deposits of several glacial advances are widespread.</abstract>\n <purpose>This database was constructed in order to produce a geologic map as a basis for understanding volcanic and geothermal processes involved in the creation of the Lassen Volcanic field.</purpose>\n <supplinf>This database contains feature classes describing the geologic lines and polygons, vent locations, Lassen National Volcanic Park boundary, geochemistry and geochronology sample locations, and isopachs of ash from Cinder Cone, and a grid of the topographic base. This metadata file contains an overview for the entire data release. For more detailed metadata, please see the metadata provided with each individual feature class.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>1980</begdate>\n <enddate>1992</enddate>\n </rngdates>\n </timeinfo>\n <current>observed</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-121.9882</westbc>\n <eastbc>-121.0746</eastbc>\n <northbc>40.7095</northbc>\n <southbc>40.1705</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>Lassen Volcanic Center</themekey>\n <themekey>Basalt</themekey>\n <themekey>Andesite</themekey>\n <themekey>Rhyodacite</themekey>\n <themekey>Pyroclastic</themekey>\n <themekey>Rhyolite</themekey>\n <themekey>volcanoes</themekey>\n <themekey>lava flow</themekey>\n <themekey>geology</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5abc1c24e4b081f61abdac49</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Lassen Volcano National Park</placekey>\n <placekey>Lassen Peak</placekey>\n <placekey>Cascade Range</placekey>\n <placekey>California</placekey>\n <placekey>USA</placekey>\n <placekey>Lassen Volcanic Center</placekey>\n <placekey>Caribou Center</placekey>\n </place>\n <temporal>\n <tempkt>none</tempkt>\n <tempkey>Quaternary</tempkey>\n <tempkey>Holocene</tempkey>\n <tempkey>Pleistocene</tempkey>\n <tempkey>Tertiary</tempkey>\n </temporal>\n </keywords>\n <accconst>none</accconst>\n <useconst>Uses of this digital geologic map should not violate the spatial resolution of the data. Although the digital form of the data removes the constraint imposed by the scale of a paper map, the detail and accuracy inherent in map scale are also present in the digital data. The data was edited at a scale of 1:24,000 and higher resolution information is not present in the dataset. Plotting at scales larger than 1:24,000 will not yield greater real detail, although it may reveal fine-scale irregularities below the intended resolution of the database. Similarly, where this database is used in combination with other data of higher resolution, the resolution of the combined output will be limited by the lower resolution of these data. Acknowledgment of the U.S. Geological Survey would be appreciated in products derived from these data.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Jeff Peters</cntper>\n <cntorg>U.S. Geological Survey, PACIFIC REGION</cntorg>\n </cntperp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 531, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4221</cntvoice>\n <cntfax>650-329-5546</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.5.1 (Build 7333) Service Pack N/A (Build N/A)</native>\n <crossref>\n <citeinfo>\n <origin>Michael A. Clynne</origin>\n <origin>L.J. Patrick Muffler</origin>\n <pubdate>2010</pubdate>\n <title>Geologic Map of Lassen Volcanic National Park and Vicinity, California</title>\n <geoform>map</geoform>\n <serinfo>\n <sername>Scientific Investigations Map</sername>\n <issue>SIM 2899</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>US Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/sim2899</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>See Entity_Attribute_Information</attraccr>\n </attracc>\n <logic>Polygon and arc (chain-node) topology present in appropriate feature classes. Other feature classes are point, annotation or raster and do not require topologic relationships.</logic>\n <complete>The report is intended to describe completely the igneous and volcanic products, and volcanic vent locations at 1:24,000 scale. Geological information appropriately mapped at larger scale has been omitted.</complete>\n <posacc>\n <horizpa>\n <horizpar>Well located data items are intended to have a horizontal positional accuracy better than 0.5 mm at 1:24,000 scale, or within 12 meters on the ground. The general positional accuracy of each line in the database is indicated within the LocationConfidenceMeters field in the Attribute Table. Points in the database are generally well located. The position of each data item is derived from a USGS 1:24,000 topographic base map, and therefore additional inaccuracies may also be encountered that are within National Map Accuracy Standards.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No vertical positional data recorded</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>G. Heiken</origin>\n <pubdate>197806</pubdate>\n <title>Characteristics of tephra from cinder cone, Lassen volcanic National Park, California</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Bulletin Volcanologique</sername>\n <issue>vol. 41, issue 2</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>Springer Nature</publish>\n </pubinfo>\n <othercit>ppg. 119-130</othercit>\n <onlink>https://doi.org/10.1007/BF02597025</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>197806</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Heiken, 1978</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Robert L. Christiansen</origin>\n <origin>Michael A. Clynne</origin>\n <origin>L.J. Patrick Muffler</origin>\n <pubdate>2002</pubdate>\n <title>Geologic map of the Lassen Peak, Chaos Crags, and Upper Hat Creek area, California</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>US Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/imap2723</onlink>\n </citeinfo>\n </srccite>\n <srcscale>24000</srcscale>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2002</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Christiansen and others, 2002</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>M.A. Clynne</origin>\n <pubdate>1984</pubdate>\n <title>Stratigraphy and major element geochemistry of the Lassen volcanic center, California</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>US Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/ofr84224</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>1984</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Clynne, 1984</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Geologic linework was compiled on USGS 1:24,000 topographic maps by L.J. Patrick Muffler, Michael Clynne, and Robert Christiansen. Patrick Muffler then scanned the geologic linework at 400 dpi, georeferenced, converted the linework to vector data using the ArcInfo command GRIDLINE, and edited on-screen to repair errors visible at map scale. Polygon topology was created and each arc and polygon tagged on-screen. Plot files were created in ArcPlot. Individual quadrangles were then plotted with topography and checked by the authors.</procdesc>\n <srcused>Heiken, 1978</srcused>\n <srcused>Christiansen and others, 2002</srcused>\n <srcused>Clynne, 1984</srcused>\n <procdate>2008</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>L. J. Patrick Muffler</cntper>\n <cntorg>U.S. Geological Survey, ALASKA REGION</cntorg>\n </cntperp>\n <cntpos>Emeritus</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 910, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>650-329-5239</cntvoice>\n <cntfax>650-329-5203</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Jeff Peters transferred the original geodatabase into a new geodatabase and applied the National Geologic Map Database Geologic Map Schema (GeMS) formerly known as the National Cooperative for Geologic Mapping database schema (NCGMP09).</procdesc>\n <procdate>2018</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Jeff Peters</cntper>\n <cntorg>U.S. Geological Survey, PACIFIC REGION</cntorg>\n </cntperp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 531, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4221</cntvoice>\n <cntfax>650-329-5546</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>This database contains the following feature classes:\nAnnotation containing 1,419 polygons; \nCartographicLines containing 666 lines; \nContactsAndFaults, containing 5,985 lines; \nDataSourcePolys, containing 2 polygons;\nGeochemPoints, containing 653 points; \nGeochronPoints, containing 102 points; \nIsoValueLines containing 6 lines; \nMapUnitOverlayPolys, containing 73 polygons; \nMapUnitPolys, containing 2,462 polygons;\nOverlayPolys, containing 147 polygons;\nVolcanicPoints, containing 261 points.</indspref>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>10</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-123.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.6096</absres>\n <ordres>0.6096</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North_American_Datum_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <overview>\n <eaover>The metadata file was written to provide an overview for the complete database in geodatabase format. For more informative descriptions of the attributes please see the metadata files associated with each feature class. If you are accessing the shapefile version of this geodatabase, they are derived from feature classes and may have abbreviated or shortened field names. One feature dataset is included in this database: GeologicMap. The GeologicMap feature dataset contains the geologic data. Below is an attribute overview for the features found in the GeologicMap feature dataset. Detailed metadata files are associated with each feature class and table.\n\nFour line feature classes are included in this dataset: CartographicLines, ContactsAndFaults, IsoValueLines and GeologicLines. The CartographicLines feature class is provided for cartographic purposes only and contains no scientific data. Fields contain information for symbolization of the Lassen Volcanic National Park (LVNP) boundary or unit leaders. The ContactsAndFaults feature class contains the locations of the geologic contacts, faults, dikes, scarps, and water boundaries. The Type field contains the designations for each, and IsConcealed, ExistenceConfidence, IdentityConfidence, and LocationConfidence fields contain whether the object is concealed, how well the author can recognize the line, and how well the author can locate the line. The IsoValueLines feature class contours the thickness of ash erupted from Cinder Cone. Each line has two primary fields that describe it: Value contains the depth of the ash layer in centimeters, and LocationConfidenceMeters describes within what certainty in meters the location of the isopach is known. The GeologicLines feature class contains the locations of moraine crests, fissure vents, lavaflow paths, and open cracks. These feature classes also contain other fields specified by the GeMS database schema. \n\nFour polygon feature classes are included in this dataset: DataSourcePolys, MapUnitPolys, MapUnitOverlayPolys, and OverlayPolys. The DataSourcePolys feature class contains polygons identifying the sources of data and interpretations for various parts of the map. The DataSourceID field identifies the source referenced in the DataSource table. The MapUnitPolys contains the boundaries for geologic units. Geologic unit identifier for each polygon is stored in the MapUnit field, and IdentityConfidence describes how well the author can identify the map unit at this location. These Map Units can be joined or related to geologic names and descriptions by using the MapUnit field in the DescriptionOfMapUnits table contained in this database. The MapUnitOverlayPolys feature class contains the boundaries for geologic units that require a pattern overlay symbol to identify unit. The pattern is described in the Symbol field which are defined in an accompanying style file. The OverlayPolys feature class contains the boundaries of cinder cones. These feature classes also contain other fields specified by the GeMS database schema. \n\nFour point feature classes are included in this dataset: GeochemPoints, GeochronPoints, OrientationPoints and VolcanicPoints. The GeochemPoints feature class contains the sample locality and all of the geochemistry measurements. The GeochronPoints feature class contains the locations of the geochronology measurements taken. The author\'s preferred age is listed in the PreferredAge field with PreferredAgeError. Other fields dedicated to describing other 40Ar/39Ar age determinations are included. The OrientationPoints feature class contains the locations of bedding and structural measurements. The Type, Azimuth, and Inclination fields contain the data describing the measurement. The VolcanicPoints feature class contains the locations of all of the volcanic vents in the map area, and the point type is stored in the Type field. These feature classes also contain other fields specified by the GeMS database schema. \n\nFour tables are included in this database: DataSources, DescriptionOfMapUnits, GeoMaterialDict and Glossary. The DataSources table contains the references used in the creation of this map. The DataSourcesID is the foreign key to the DataSources_ID field in all other tables. The DescriptionOfMapUnits table contains the complete geologic unit name, age, and description for each of the geologic unit symbol on the map in the MapUnit, Name, Age, and Description fields. The GeoMaterialDict table provides definitions and a hierarchy for GeoMaterial names prescribed by the GeMS database schema. The Glossary table provides definitions in the Definition field for many of the terms used in the database. These tables also contain other fields specified by the GeMS database schema.\n\nThis release also contains an annotation feature class, Annotation. This feature class provides cartographic names and labels for the map and all fields are specified by ESRI.\n\nOther files included with the database are, LassenVolcanicNationalPark_style, LassenVolcanicNationalPark_base.tif, and LassenVolcanicNationalPark_CorrelationOfMapUnits.tif. The LassenVolcanicNationalPark_database.style file is an ArcMap file that stores symbolization and uses the Symbol field in the feature classes. LassenVolcanicNationalPark_base.tif is the USGS topographic map mosaic to be used as base maps for the geodatabase. The LassenVolcanicNationalPark _CorrelationOfMapUnits.tif is an image of the Correlation of Map Units from the original map publication.</eaover>\n <eadetcit>Peters, J., Ryan-Davis, J., Clynne, M.A., and Muffler, L.J.P., 2019, Database for the geologic map of Lassen Volcanic National Park and vicinity, California: U.S. Geological Survey data release, https://doi.org/10.5066/P9N23XJ6.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>Downloadable Data</resdesc>\n <distliab>This database has been approved for release and publication by the Director of the U.S. Geological Survey (USGS). Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, it is released on condition that neither the USGS nor the United States Government may be held liable for any damages resulting from its authorized or unauthorized use.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9N23XJ6</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Jeff Peters</cntper>\n <cntorg>U.S. Geological Survey, PACIFIC REGION</cntorg>\n </cntperp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 531, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4221</cntvoice>\n <cntfax>650-329-5546</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <mettc>local time</mettc>\n <metuc>Acknowledgment of the U.S. Geological Survey would be appreciated in products derived from these data.</metuc>\n <metextns>\n <onlink>http://www.esri.com/metadata/esriprof80.html</onlink>\n <metprof>ESRI Metadata Profile</metprof>\n </metextns>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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4. [Feeding observations of intertidal black abalone at monitored sites around San Nicolas Island, California and local distribution of Macrocystis pyrifera based on surface canopy maps](/catalog/item/5ea7188e82cefae35a1d908a)
5. [Seasonal and inter-annual distribution and abundance of floating kelp canopies surrounding San Nicolas Island, Calif. 1981-1992](/catalog/folder/5ea730d282cefae35a1d9104)
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## Dates
Publication Date2020-06-05Start Date1981-02-13End Date1992-09-18
## Citation
VanBlaricom, G.R., and Kenner, M.C., 2020, Feeding observations of intertidal black abalone at monitored sites around San Nicolas Island, California and local distribution of Macrocystis pyrifera based on surface canopy maps: U.S. Geological Survey data release, https://doi.org/10.5066/P9GVHC4Z.
## Summary
Map provides spatial data on the location and extent of floating canopies of the giant kelp, Macrocystis pyrifera, in the area surrounding San Nicolas Island, Calif.
## Summary
Map provides spatial data on the location and extent of floating canopies of the giant kelp, _Macrocystis pyrifera_, in the area surrounding San Nicolas Island, Calif.
## Contacts
Point of Contact
:
[Michael C Kenner](/catalog/catalogParty/show?partyId=Michael+C+Kenner),
[U.S. Geological Survey, Western Ecological Research Center](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Western+Ecological+Research+Center)
Originator
:
[Kenner, M.C.](/catalog/catalogParty/show?partyId=Kenner%2C+M.C.),
[Yee, J.L.](/catalog/catalogParty/show?partyId=Yee%2C+J.L.)
Metadata Contact
:
[Michael C Kenner](/catalog/catalogParty/show?partyId=Michael+C+Kenner),
[U.S. Geological Survey, Western Ecological Reseach Center](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Western+Ecological+Reseach+Center)
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:
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| Seasonal and inter-annual distribution and abundance of floating kelp canopies surrounding San Nicolas Island, Calif. 1981-1992.xml<br>_Original FGDC Metadata_ | View | 18.72 KB | application/fgdc+xml |
| KelpCanopyShapefiles.zip | | 220.3 MB | application/zip |
## Purpose
Data was collected to yield information on seasonal and inter-annual distribution and abundance of floating kelp canopies around San Nicolas Island, Calif.
## [Map](/catalog/item/imap/5ea730d282cefae35a1d9104)
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## Communities
- USGS Western Ecological Research Center
## Tags
Theme
- [aerial photography](/catalog/items?q=&filter=tags%3Daerial+photography "aerial photography (aerial photography, Theme, USGS Thesaurus)")
- [aquatic vegetation](/catalog/items?q=&filter=tags%3Daquatic+vegetation "aquatic vegetation (aquatic vegetation, Theme, USGS Thesaurus)")
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- [geographic information systems (GIS)](/catalog/items?q=&filter=tags%3Dgeographic+information+systems+%28GIS%29 "geographic information systems (GIS) (geographic information systems (GIS), Theme, USGS Thesaurus)")
- [habitats](/catalog/items?q=&filter=tags%3Dhabitats "habitats (habitats, Theme, USGS Thesaurus)")
- [imageryBaseMapsEarthCover](/catalog/items?q=&filter=tags%3DimageryBaseMapsEarthCover "imageryBaseMapsEarthCover (imageryBaseMapsEarthCover, Theme, ISO 19115 Topic Category)")
Place
- [San Nicolas Island](/catalog/items?q=&filter=tags%3DSan+Nicolas+Island "San Nicolas Island (San Nicolas Island, Place, Common Geographic Areas)")
- [Southern California Coastal](/catalog/items?q=&filter=tags%3DSouthern+California+Coastal "Southern California Coastal (Southern California Coastal, Place, Common Geographic Areas)")
## Provenance
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Kenner, M.C.</origin>\n <origin>Yee, J.L.</origin>\n <pubdate>20200605</pubdate>\n <title>Seasonal and inter-annual distribution and abundance of floating kelp canopies surrounding San Nicolas Island, Calif. 1981-1992</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>U.S. Geological Survey data release</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9GVHC4Z</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Glenn R. VanBlaricom</origin>\n <origin>Michael C. Kenner</origin>\n <pubdate>20200414</pubdate>\n <title>Dietary patterns in black abalone Haliotis cracherodii (Leach, 1814) as indicated by observation of drift algal and seagrass capture at San Nicolas Island, California, USA, 1982 to 2019</title>\n <geoform>Publication</geoform>\n <serinfo>\n <sername>Journal of Shellfish Research</sername>\n <issue>vol 39, issue 1</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>National Shellfisheries Association</publish>\n </pubinfo>\n <onlink>https://doi.org/10.2983/035.039.0111</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Map provides spatial data on the location and extent of floating canopies of the giant kelp, Macrocystis pyrifera, in the area surrounding San Nicolas Island, Calif.</abstract>\n <purpose>Data was collected to yield information on seasonal and inter-annual distribution and abundance of floating kelp canopies around San Nicolas Island, Calif.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>19810213</begdate>\n <enddate>19920918</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-119.6253</westbc>\n <eastbc>-119.3986</eastbc>\n <northbc>33.3047</northbc>\n <southbc>33.2056</southbc>\n </bounding>\n <descgeog>San Nicolas Island, Calif. and surounding waters</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>climatologyMeteorologyAtmosphere</themekey>\n <themekey>biota</themekey>\n <themekey>imageryBaseMapsEarthCover</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>aerial photography</themekey>\n <themekey>aquatic vegetation</themekey>\n <themekey>coastal ecosystems</themekey>\n <themekey>habitats</themekey>\n <themekey>geographic information systems (GIS)</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5ea730d282cefae35a1d9104</themekey>\n </theme>\n <place>\n <placekt>Common Geographic Areas</placekt>\n <placekey>San Nicolas Island</placekey>\n <placekey>Southern California Coastal</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>None. Users are advised to read the dataset's metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Michael C Kenner</cntper>\n <cntorg>U.S. Geological Survey, Western Ecological Research Center</cntorg>\n </cntperp>\n <cntpos>Wildlife Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>831-254-5184</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <taxonomy>\n <keywtax>\n <taxonkt>None</taxonkt>\n <taxonkey>Macrocystis pyrifera</taxonkey>\n </keywtax>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Chromista</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Chromista</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Phaeophyta</taxonrv>\n <common>brown algae</common>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Phaeophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Laminariales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Lessoniaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Macrocystis</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Macrocystis pyrifera</taxonrv>\n <common>TSN: 11274</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>The shapefiles line up perfectly with the originals. There are a few extraneous patches that show up on land in the original.</attraccr>\n </attracc>\n <logic>Two of the original files (spring 1984 and fall 1986) had the Kelp = YES or NO attribute reversed.</logic>\n <complete>These files are complete.</complete>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Ecoscan Resource Data, Watsonville, California</origin>\n <pubdate>Unpublished material</pubdate>\n <title>Macrocystis surface canopy photogrammetric aerial surveys with fixed wing aircraft</title>\n <geoform>Photographs</geoform>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>19810213</caldate>\n </sngdate>\n <sngdate>\n <caldate>19810913</caldate>\n </sngdate>\n <sngdate>\n <caldate>19820307</caldate>\n </sngdate>\n <sngdate>\n <caldate>19821002</caldate>\n </sngdate>\n <sngdate>\n <caldate>19830416</caldate>\n </sngdate>\n <sngdate>\n <caldate>19831003</caldate>\n </sngdate>\n <sngdate>\n <caldate>19840408</caldate>\n </sngdate>\n <sngdate>\n <caldate>19840928</caldate>\n </sngdate>\n <sngdate>\n <caldate>19850221</caldate>\n </sngdate>\n <sngdate>\n <caldate>19850825</caldate>\n </sngdate>\n <sngdate>\n <caldate>19860321</caldate>\n </sngdate>\n <sngdate>\n <caldate>19860911</caldate>\n </sngdate>\n <sngdate>\n <caldate>19870327</caldate>\n </sngdate>\n <sngdate>\n <caldate>19870729</caldate>\n </sngdate>\n <sngdate>\n <caldate>19880215</caldate>\n </sngdate>\n <sngdate>\n <caldate>19880826</caldate>\n </sngdate>\n <sngdate>\n <caldate>19890319</caldate>\n </sngdate>\n <sngdate>\n <caldate>19890812</caldate>\n </sngdate>\n <sngdate>\n <caldate>19900430</caldate>\n </sngdate>\n <sngdate>\n <caldate>19900905</caldate>\n </sngdate>\n <sngdate>\n <caldate>19910414</caldate>\n </sngdate>\n <sngdate>\n <caldate>19911019</caldate>\n </sngdate>\n <sngdate>\n <caldate>19920401</caldate>\n </sngdate>\n <sngdate>\n <caldate>19920918</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>Ecoscan aerial SNI kelp canopy data</srccitea>\n <srccontr>The data was first collected by Ecoscan Resource Data, Watsonville, California during photogrammetric aerial surveys with fixed wing aircraft. Ecoscan then projected transparencies of the resultant photos onto paper maps and these were hand inked to represent Macrocystis pyrifera surface canopies. This was done under contract with the U.S. Fish and Wildlife Service. \n\nFlights were conducted during spring and fall to represent the minimum and maximum extent of kelp canopy. Minimum extent (spring) after winter storms but before growth phase and maximum extent (fall) at end of growth phase and preceding winter storms.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>University of Arizona GIS Lab, unknown student</origin>\n <pubdate>Unpublished material</pubdate>\n <title>Macrocystis Surface Canopy Map for San Nicolas Island, CA</title>\n <geoform>raster digital data</geoform>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>1998</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>created</srccurr>\n </srctime>\n <srccitea>GIS SNI kelp canopy data</srccitea>\n <srccontr>The paper maps were scanned and processed as raster files by a student at the University of Arizona GIS lab. She extracted the black areas, indicated on the maps as kelp areas. After she had extracted and attributed the raster files, these were converted to vector format - polygon files in Arc/Info.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Data collection by Ecoscan Resource Data, Watsonville, California consisting of photogrammetric aerial surveys with fixed wing aircraft. Then projected transparencies of the resultant photos onto paper maps and these were hand inked.</procdesc>\n <srcused>Ecoscan aerial SNI kelp canopy data</srcused>\n <procdate>1981</procdate>\n </procstep>\n <procstep>\n <procdesc>The paper maps were scanned and processed as raster files by a student at the University of Arizona GIS lab.</procdesc>\n <srcused>GIS SNI kelp canopy data</srcused>\n <procdate>1998</procdate>\n </procstep>\n <procstep>\n <procdesc>The polygon (.adf) files were later converted to shapefiles in ArcMap 10.7.and minor corrections made.</procdesc>\n <procdate>2019</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>G-polygon</sdtstype>\n <ptvctcnt>1016</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>State Plane Coordinate System 1983</gridsysn>\n <spcs>\n <spcszone>0405</spcszone>\n <lambertc>\n <stdparll>34.03333333333333</stdparll>\n <stdparll>35.46666666666667</stdparll>\n <longcm>-118.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>6561666.666666666</feast>\n <fnorth>1640416.666666667</fnorth>\n </lambertc>\n </spcs>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.6096</absres>\n <ordres>0.6096</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North_American_Datum_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Kelp Attribute Tables</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AREA</attrlabl>\n <attrdef>Area of polygon</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>511.938</rdommin>\n <rdommax>5986120.0</rdommax>\n <attrunit>square feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PERIMETER</attrlabl>\n <attrdef>perimeter of polygon</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>108.5</rdommin>\n <rdommax>120089.0</rdommax>\n <attrunit>linear feet assumed (not verified)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>KELPSYY_</attrlabl>\n <attrdef>Data row</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>1017</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>KELPSYY_ID</attrlabl>\n <attrdef>Unknown</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8642</rdommin>\n <rdommax>40150</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GRID_CODE</attrlabl>\n <attrdef>Numeric designation for Kelp = YES or Kelp = NO (see Kelp column)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0 = YES (see Kelp Column)</edomv>\n <edomvd>Kelp was present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1 = NO (see Kelp Column)</edomv>\n <edomvd>Kelp was not present</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>KELP</attrlabl>\n <attrdef>Does the polygon represent surface kelp canopy?</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>YES</edomv>\n <edomvd>The polygon represents surface kelp canopy but Kelp = NO areas should be subtracted to arrive at actual kelp area.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NO</edomv>\n <edomvd>Polygon represents a hole in the surface kelp canopy. These areas should be subtracted from Kelp = YES areas to arrive at actual surface kelp area.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>There are two shapefiles for each year. One for spring and the other for fall. Fall files are prceeded by an F while spring with an S. The date flown for each file is included under sources.</eaover>\n <eadetcit>VanBlaricom, G.R., and Kenner, M.C., 2020, Feeding observations of intertidal black abalone at monitored sites around San Nicolas Island, California and local distribution of Macrocystis pyrifera based on surface canopy maps: U.S. Geological Survey data release, https://doi.org/10.5066/P9GVHC4Z.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9GVHC4Z</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200830</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Michael C Kenner</cntper>\n <cntorg>U.S. Geological Survey, Western Ecological Reseach Center</cntorg>\n </cntperp>\n <cntpos>Wildlife Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>831-254-5184</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>" |
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## Dates
Publication Date2015-10-06Start Date2001End Date2003
## Citation
Dusek, R.J., McLean, R.G., Kramer, L.D., Ubico, S.R., Dupuis II, A.P., Ebel, G.D., and Guptill, S., 2015, Prevalence of West Nile virus in migratory birds during spring and fall migration, 2001-2003: U. S. Geological Survey data release, https://dx.doi.org/10.5066/F76D5R12.
## Summary
To investigate the role of migratory birds in the dissemination of West Nile virus (WNV), we measured the prevalence of infectious WNV and specific WNV neutralizing antibodies in birds, principally Passeriformes, during spring and fall migrations in the Atlantic and Mississippi flyways from 2001-2003. Blood samples were obtained from 13,403 birds, representing 133 species. Specific WNV neutralizing antibody was detected in 254 resident and migratory birds, representing 39 species, and was most commonly detected in northern cardinals ( Cardinalis cardinalis ) (9.8%, N = 762) and gray catbirds ( Dumetella carolinensis ) (3.2%, N = 3188). West Nile virus viremias were detected in 19 birds, including 8 gray catbirds, and only during the \[...\]
## Summary
To investigate the role of migratory birds in the dissemination of West Nile virus (WNV), we measured the prevalence of infectious WNV and specific WNV neutralizing antibodies in birds, principally Passeriformes, during spring and fall migrations in the Atlantic and Mississippi flyways from 2001-2003. Blood samples were obtained from 13,403 birds, representing 133 species. Specific WNV neutralizing antibody was detected in 254 resident and migratory birds, representing 39 species, and was most commonly detected in northern cardinals ( Cardinalis cardinalis ) (9.8%, N = 762) and gray catbirds ( Dumetella carolinensis ) (3.2%, N = 3188). West Nile virus viremias were detected in 19 birds, including 8 gray catbirds, and only during the fall migratory period. These results provide additional evidence that migratory birds may have been a principal agent for the spread of WNV in North America and provide data on the occurrence of WNV in a variety of bird species.
## Contacts
Point of Contact
:
[Robert J Dusek](/catalog/catalogParty/show?partyId=2784)
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[Kathy Wesenberg](/catalog/catalogParty/show?partyId=Kathy+Wesenberg)
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:
[Robert J. Dusek](/catalog/catalogParty/show?partyId=Robert+J.+Dusek),
[Robert G. McLean](/catalog/catalogParty/show?partyId=Robert+G.+McLean),
[Laura D. Kramer](/catalog/catalogParty/show?partyId=Laura+D.+Kramer),
[Sonia R. Ubico](/catalog/catalogParty/show?partyId=Sonia+R.+Ubico),
[Alan P. Dupuis II](/catalog/catalogParty/show?partyId=Alan+P.+Dupuis+II),
[Gregory D. Ebel](/catalog/catalogParty/show?partyId=Gregory+D.+Ebel),
[Stephen Guptill](/catalog/catalogParty/show?partyId=Stephen+Guptill)
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| Prevalence\_of\_West\_Nile\_virus\_in\_migratory\_birds\_during\_spring\_and\_fall\_migration\_2001-2003.xml<br>_Original FGDC Metadata_ | View | 29.34 KB | application/fgdc+xml |
| Dusek.West Nile virus in migratory birds.csv | | 1.64 MB | text/csv |
| Dusek.West Nile virus in migratory birds.Dictionary.csv | | 3.59 KB | text/csv |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Prevalence of West Nile virus in migratory birds during spring and fall migration | [https://doi.org/10.4269/ajtmh.2009.09-0106](https://doi.org/10.4269/ajtmh.2009.09-0106 "https://doi.org/10.4269/ajtmh.2009.09-0106") |
## Purpose
The data were collected to evaluate the hypothesis that migratory birds are an important factor in the movement of WNV in North America. Birds were sampled at stopover sites along migration corridors for diagnostic evidence of current and past WNV infection.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Robert J. Dusek</origin>\n <origin>Robert G. McLean</origin>\n <origin>Laura D. Kramer</origin>\n <origin>Sonia R. Ubico</origin>\n <origin>Alan P. Dupuis II</origin>\n <origin>Gregory D. Ebel</origin>\n <origin>Stephen Guptill</origin>\n <pubdate>20151006</pubdate>\n <title>Prevalence of West Nile virus in migratory birds during spring and fall migration, 2001-2003</title>\n <geoform>Excel spreadsheet (.xlsx, v. 2010) and comma separate value text file (.csv)</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U. S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F76D5R12</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Robert J. Dusek</origin>\n <origin>Robert G. McLean</origin>\n <origin>Laura D. Kramer</origin>\n <origin>Sonya R. Ubico</origin>\n <origin>Alan P. Dupuis II</origin>\n <origin>Gregory D. Ebel</origin>\n <origin>Stephen C. Guptill</origin>\n <pubdate>2009</pubdate>\n <title>Prevalence of West Nile virus in migratory birds during spring and fall migration</title>\n <geoform>Analyzed/summarized</geoform>\n <pubinfo>\n <pubplace>America Journal of Tropical Medicine and Hygiene</pubplace>\n <publish>The American Journal of Tropical Medicine and Hygiene</publish>\n </pubinfo>\n <onlink>https://doi.org/10.4269/ajtmh.2009.09-0106</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>To investigate the role of migratory birds in the dissemination of West Nile virus (WNV), we measured the prevalence of infectious WNV and specific WNV neutralizing antibodies in birds, principally Passeriformes, during spring and fall migrations in the Atlantic and Mississippi flyways from 2001-2003. Blood samples were obtained from 13,403 birds, representing 133 species. Specific WNV neutralizing antibody was detected in 254 resident and migratory birds, representing 39 species, and was most commonly detected in northern cardinals ( Cardinalis cardinalis ) (9.8%, N = 762) and gray catbirds ( Dumetella carolinensis ) (3.2%, N = 3188). West Nile virus viremias were detected in 19 birds, including 8 gray catbirds, and only during the fall migratory period. These results provide additional evidence that migratory birds may have been a principal agent for the spread of WNV in North America and provide data on the occurrence of WNV in a variety of bird species.</abstract>\n <purpose>The data were collected to evaluate the hypothesis that migratory birds are an important factor in the movement of WNV in North America. Birds were sampled at stopover sites along migration corridors for diagnostic evidence of current and past WNV infection.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2001</begdate>\n <enddate>2003</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-93.383789062348</westbc>\n <eastbc>-69.125976563317</eastbc>\n <northbc>46.720734710187</northbc>\n <southbc>23.538408032247</southbc>\n </bounding>\n <descgeog>Sampling sites were located along the Atlantic and Mississippi flyways. Exact locations are described in the associated data, data dictionary, and published paper.</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>birds</themekey>\n <themekey>viruses</themekey>\n <themekey>zoonotic disease</themekey>\n <themekey>wildlife disease</themekey>\n <themekey>disease vectors</themekey>\n <themekey>wildlife</themekey>\n <themekey>migration (organisms)</themekey>\n <themekey>flyways</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5633bf0de4b048076347f025</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>United States</placekey>\n <placekey>Atlantic migratory bird flyway</placekey>\n <placekey>Mississippi migratory bird flyway</placekey>\n </place>\n <stratum>\n <stratkt>None</stratkt>\n <stratkey>None</stratkey>\n </stratum>\n <temporal>\n <tempkt>None</tempkt>\n <tempkey>None</tempkey>\n </temporal>\n </keywords>\n <accconst>none</accconst>\n <useconst>Acknowledgement of National Wildlife Health Center, U. S. Geological Survey and/or its partners is requested in products derived from these data.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Robert J. Dusek</cntper>\n <cntorg>U. S. Geological Survey, National Wildlife Health Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>6006 Schroeder Rd.</address>\n <city>Madison</city>\n <state>WI</state>\n <postal>53711</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>608-270-2415</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Acknowledgments: The authors thank the many people who helped with this project. R. Lord, T. Barnes, K. Cutrera, D. Berndt, K. Morris, A. Hammond, L. DeGroot, H. Gutzman, K. Stumpf, D. Licata, K. Wright, N. Ramsey, K. Cranker, D. Roberts, J. Floyd, M. Daniels, J. Peterla, and E. Tillman provided assistance with field sampling; J. Maffei for his assistance with cell culture, and the Wadsworth Center for tissue culture. The authors thank all the institutions that allowed access to their properties, including Great Meadows National Wildlife Refuge (NWR), Wertheim NWR, Gateway National Recreation Area, Cape May NWR, Chincoteague NWR, Croatan National Forest, Camp Lejuene Marine Corps Base, Cape Lookout National Seashore, Savannah NWR, St. Marks NWR, The City of Key West, Homestead Air Force Base, J. N. Ding Darling NWR, Merritt Island NWR, Goose Island State Park, Hixon Forest State Park, Great River NWR, Shelby Farms County Park, Meeman-Shelby Forest State Park, Southeast Louisiana NWR. We thank F. Ford, C. Snell, M. Rikard, R. Webb, H. Marrow, J. Reinman, B. Luebke, H. Shclegel, E. Ailes, T. Penn, C. Parker, L. Lacy, C. Chambers, J. Nissen, M. Kofman, M. Maghini, D. Reipi, G. Frame, S. Smith, S. Koch, S. Hanna, and L. Hillmann for logistical support.</datacred>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Birds</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>P. Pyle</origin>\n <pubdate>1997</pubdate>\n <title>Identification Guide to North American Birds. Part I</title>\n <geoform>BOOK</geoform>\n <pubinfo>\n <pubplace>Bolinas, CA</pubplace>\n <publish>Slate Creek Press</publish>\n </pubinfo>\n </citeinfo>\n </classcit>\n </classsys>\n <idref>\n <citeinfo>\n <origin>P. Pyle</origin>\n <pubdate>1997</pubdate>\n <title>Identification Guide to North American Birds. Part I</title>\n <geoform>Excel spreadsheet (.xlsx, v. 2010) and comma separate value text file (.csv)</geoform>\n <pubinfo>\n <pubplace>Bolinas, CA</pubplace>\n <publish>Slate Creek Press</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Robert J. Dusek</cntper>\n <cntorg>U. S. Geological Survey, National Wildlife Health Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>6006 Schroeder Rd.</address>\n <city>Madison</city>\n <state>WI</state>\n <postal>53711</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>608-270-2415</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>identification keys</taxonpro>\n <taxoncom>All birds captured were identified to species by experienced professional biologists using morphologic identification guides. Age and sex were determined by visual assessment for species with reliable plumage markers relatedthese demographic variables.</taxoncom>\n </taxonsys>\n <taxongen>mostly from the order Passeriformes but it also includes a number of other avian orders as well (but not all of them</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Aves</taxonrv>\n <common>Birds</common>\n <common>oiseaux</common>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Accipitriformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anseriformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Apodiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Apterygiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Bucerotiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Caprimulgiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Cariamiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Casuariiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Charadriiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Ciconiiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Coliiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Columbiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Coraciiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Cuculiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Eurypygiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Falconiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Galliformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Gaviiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Gruiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Leptosomiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Mesitornithiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Musophagiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Opisthocomiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Otidiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Passeriformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Pelecaniformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Phaethontiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Phoenicopteriformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Piciformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Podicipediformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Procellariiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Psittaciformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Pteroclidiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Rheiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Sphenisciformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Strigiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Struthioniformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Suliformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Tinamiformes</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Trogoniformes</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n <tool>\n <tooldesc>Analysis of seroprevalence for all seasons combined was done using Pearson Chi^2 to test for differences in seroprevalence among the seasons. In addition, Cochrans Linear Trend test was used to determine whether there was an increasing (or decreasing) trend in seroprevalence between seasons. Further analysis of seasonal prevalence comparisons among pairs of consecutive seasons (Spring 2001 versus Fall 2001, Fall 2001 versus Spring 2002, etc.), for age and sex, and for seasonal comparisons for individual species was done by calculating the z statistic and P value using SYSTAT\'s test for proportions. Ages that included unknown (U) in the fall and after hatchyear (AHY) in the spring were not included in the analysis by age because they were default categories for birds that could not be aged. For the comparisons of Spring 2001 versus Fall 2001 and of Fall 2001 versus Spring 2002, only Atlantic flyway data were used as sampling in the Mississippi flyway was not initiated until Spring 2002. However, data from the two flyways were combined beginning with Spring 2002 versus Fall 2002 comparisons. \n\nSystat, 2007. SYSTAT 12 Statistics - I. San Jose, CA: SYSTAT Software, Inc.</tooldesc>\n <toolacc>\n <onlink>http://www.systat.com/</onlink>\n <toolinst>SYSTAT is a proprietary software package that can be purchased from the distributor.</toolinst>\n </toolacc>\n <toolcite>\n <citeinfo>\n <origin>SYSTAT Software, Inc.</origin>\n <pubdate>2007</pubdate>\n <title>SYSTAT 12 Statistics - I</title>\n <geoform>SYSTAT is a statistical analysis and graphics software.</geoform>\n </citeinfo>\n </toolcite>\n </tool>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Data on bird capture and banding were entered into a database and reported to the bird banding lab for independent accuracy assessments. \n\nLaboratory tests were run with standard quality control/quality assurance procedures performed by the contract facility performing the analyses (Wadsworth Center, New York Public Health Department; http://www.wadsworth.org/docs/overview_lab_quality.shtml).</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Data were collected in the field professional biologists during 2001-2003 and serologic testing was performed by a service laboratory.</procdesc>\n <procdate>2001</procdate>\n </procstep>\n <method>\n <methtype>both</methtype>\n <methdesc>Birds were sampled at 14 study sites along the Atlantic flyway, from 2001 to 2003, and 7 study sites along the Mississippi flyway, from 2002 to 2003. All sampling occurred between April 2 and May 26 (spring) and August 31 and October 21 (fall) to correlate with peak northward and southward migrations of passerine birds. During spring migration field crews began sampling efforts at southern study sites and then moved northward; during fall migration field crews began sampling efforts at northern study sites then moved southward. In general, the goal at each location was a minimum of 4 days of sampling or 200 samples. The duration of the trapping varied depending on location, flyway, bird movements, weather, and timing of migration. \n\nBirds were captured using mist nets (6, 9, and 12 m length 2 m height, 4 panels, 36-38 mm mesh) suspended approximately 0.3 m from the ground to the nets maximum height. Nets were placed at suitable sites for the passive capture of passerine birds. The number of nets used depended on bird activity at each location and ranged from 4 to 25. Processing of captured birds included species identification, determination of sex and age, banding with U.S. Geographical Survey (USGS) aluminum bands, and blood collection (Pyle 1997). Individual birds that were recaptured at the original site within the same sampling season were released and not sampled a second time and were not included in any recapture analysis; recaptured birds previously captured in other sampling seasons, or at other sites, were sampled. \n\nBlood was primarily collected by jugular venipuncture from each bird using a sterile needle and syringe and the volume of the whole blood sample was recorded. In a limited number of cases blood was collected via the brachial vein. Blood sample volumes collected varied depending on the size of the bird and ranged from 0.01 to 1 mL but did not exceed 1% of body weight. All blood samples were immediately mixed with 0.9 mL BA-1 medium (M199 medium with Hank\'s salts and Tris HCl [with 7.5% sodium bicarbonate], 20% bovine serum albumin, 20% fetal bovine serum, Penicillin-Streptomycin, 100x, and Fungizone) in a labeled polystyrene centrifuge tube, allowed to sit in the shade at ambient temperature for approximately 10-15 min then held on wet ice until processing (up to 16 hr). At the end of each sampling day all blood samples were centrifuged for 10 minutes (at approximately 100 xg) to separate serum and BA-1 mixture from the red blood cells. The serum and BA-1 mixture was then decanted into a labeled cryovial and kept frozen using dry ice. At ~2-week intervals, samples were transferred to -80 degrees C laboratory freezers until shipping on dry ice for laboratory analyses. Initial field dilution of the sample was calculated by assuming a 1:1 ratio of serum to red blood cells, so a 0.2 mL sample diluted with 0.9 mL BA-1 medium resulted in an approximate field dilution of 1:10. \n\nAll serologic testing and virus isolation was conducted at the Arbovirus Laboratories, Wadsworth Center, New York State Department of Health. Virus isolation was attempted on all collected samples. Briefly, 0.1 mL of each sample was inoculated on a confluent monolayer of Vero (African green monkey kidney) cells. Cells were inspected daily for up to 7 days for the presence of cytopathic effect (CPE). Cultures exhibiting CPE were harvested for isolates and identified by indirect fluorescent antibody (IFA) and reverse transcription polymerase chain reaction (RT-PCR). Virus positive samples were not titrated. Nucleotide sequencing was conducted on a 700 base pair region of envelope of the viral genome of WNV isolates. The U to C transition at nucleotide position 1442, resulting in a valine to alanine substitution at position 159 of the WNV E protein, indicated the virus belonged to the "WN02" clade. For serologic testing all samples were screened for anti-flavivirus antibody by indirect enzyme-linked immunosorbent assay (ELISA). Flavivirus positive ELISA samples were then tested via the plaque reduction neutralization test (PRNT) for WNV-specific and SLEV-specific neutralizing antibody and further titrated in serial 2-fold dilutions to determine the end-point titer. Serum samples that neutralized greater than or equal to 90% (PRNT 90 ) of virus were considered positive. A 4-fold or greater titer for one of the viruses indicated that particular virus as the etiologic agent for the infection. Samples that could not be differentiated by this method were deemed flavivirus positive (Lindsey, Calisher, and Matthews 1976; Ebel et al. 2002; Dupuis, Marra, and Kramer 2003; Ebel et al. 2004). \n\nDupuis AP II, Marra PP, Kramer LD, 2003. Serologic evidence of West Nile virus transmission, Jamaica, West Indies. Emerg Infect Dis 9: 860-863. \n\nEbel GD, Carricaburu J, Young D, Bernard KA, Kramer LD, 2004. Genetic and phenotypic variation of West Nile virus in New York, 20002003. Am J Trop Med Hyg 71: 493-500. \n\nEbel GD, Dupuis AP, Nicholas D, Young D, Maffei J, Kramer LD, 2002. Detection by enzyme-linked immunosorbent assay of antibodies to West Nile virus in birds. Emerg Infect Dis 8: 979-982. \n\nLindsey HS, Calisher CH, Matthews JH, 1976. Serum dilution neutralization test for California group virus identification and serology. J Clin Microbiol 4: 503-510. \n\nPyle P, 1997. Identification Guide to North American Birds. Part I .Bolinas, CA: Slate Creek Press.</methdesc>\n </method>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Geographic Names Index System Identification Numbers (GNIS ID #) \n\nAtlantic Flyway Sites: \nGreat Meadows National Wildlife Refuge, Massachusetts, USA (GNIS ID # 600154) \nWertheim National Wildlife Refuge, New York, USA (GNIS ID # 971950) \nGateway National Recreation Area, New York, USA (GNIS ID # 882894) \nCape May National Wildlife Refuge, New Jersey, USA (GNIS ID # 2765227) \nChincoteague National Wildlife Refuge, Virginia, USA (GNIS ID # 1464861) \nCroatan National Forest, North Carolina, USA (GNIS ID # 1025848) \nCape Lookout National Seashore, North Carolina, USA (GNIS ID # 1000889) \nCamp Lejeune Marine Corps Base, North Carolina, USA (GNIS ID # 2512280) \nSavannah National Wildlife Refuge South Carolina, USA (GNIS ID # 322597) \nSt. Marks National Wildlife Refuge, Florida, USA (GNIS ID # 308408) \nMerritt Island National Wildlife Refuge, Florida, USA (GNIS ID # 307749) \nJ. N. Ding Darling National Wildlife Refuge, Florida, USA (GNIS ID # 307114) \nHomestead Air Force Base, Florida, USA (GNIS ID # 2512242) \nKey West, Florida, USA (GNIS ID # 2404826) \n\nMississippi Flyway Sites: \nGoose Island State Park State Park, Wisconsin, USA (GNIS ID # 1565647) \nHixon Forest State Park, Wisconsin, USA (GNIS ID # 1843294) \nMark Twain National Wildlife Refuge, Illinois, USA (GNIS ID # 420167) \nMeeman-Shelby Forest State Park, Tennessee, USA (GNIS ID # 1306741) \nShelby Farms County Park, Tennessee, USA (GNIS ID # 1303556) \nBogue Chitto National Wildlife Refuge, Louisiana, USA (GNIS ID # 1958396) \nBig Branch National Wildlife Refuge, Louisiana, USA (GNIS ID # 1951524)</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.0167</latres>\n <longres>0.0167</longres>\n <geogunit>Degrees and decimal minutes</geogunit>\n </geograph>\n </horizsys>\n </spref>\n <eainfo>\n <overview>\n <eaover>This dataset consists of one datasheet and an associated data dictionary provided in both Microsoft Excel (.xlsx, v. 2010) and comma separated value (.csv) text formats. Guidance on interpretation and use of the data dictionary is provided in a text file.</eaover>\n <eadetcit>http://dx.doi.org/doi:10.5066/F76D5R12</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n </distinfo>\n <metainfo>\n <metd>20201016</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Kathy Wesenberg</cntper>\n <cntorg>U. S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Information Resource Manager</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>6006 Schroeder Rd</address>\n <city>Madison</city>\n <state>WI</state>\n <postal>53711</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>608-270-2421</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2019-12-20Start Date2010-11-15End Date2011-12-08Start Date2017-01-05End Date2017-05-10
## Citation
Stewart, A.R., Dal Porto, D., Wagner, C., Godbout, J., Solomon, A., and Kakouros, E., 2019, Selenium concentrations in tissues of the cyprinid Sacramento Splittail of the San Francisco Estuary (2010-11 and 2017): U.S. Geological Survey data release, https://doi.org/10.5066/P9GI73P9.
## Summary
Estuaries provide critical habitat for a vast array of fish and wildlife but are also a nexus for core economic activities that mobilize and concentrate contaminants that can threaten aquatic species. Selenium (Se), an essential element and potent reproductive toxin, is enriched in parts of the San Francisco Estuary (SFE) to levels known to cause toxicity, yet the risk of Se to species that inhabit the SFE is not well understood. We quantified Se concentrations in muscle, liver, and ovary of the demersal cyprinid Sacramento Splittail from six regions in the SFE at three time points (fall 2010-11, spring 2017) to evaluate Se exposure risk. Here we report fish morphological attributes, total selenium concentrations in fish boneless skinless \[...\]
## Summary
Estuaries provide critical habitat for a vast array of fish and wildlife but are also a nexus for core economic activities that mobilize and concentrate contaminants that can threaten aquatic species. Selenium (Se), an essential element and potent reproductive toxin, is enriched in parts of the San Francisco Estuary (SFE) to levels known to cause toxicity, yet the risk of Se to species that inhabit the SFE is not well understood. We quantified Se concentrations in muscle, liver, and ovary of the demersal cyprinid Sacramento Splittail from six regions in the SFE at three time points (fall 2010-11, spring 2017) to evaluate Se exposure risk. Here we report fish morphological attributes, total selenium concentrations in fish boneless skinless muscle, liver, and ovary, as well as carbon, nitrogen and sulfur stable isotope values and elemental mass concentrations in fish muscle.
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[Dominic J Dal Porto](/catalog/catalogParty/show?partyId=76063),
[C Wagner](/catalog/catalogParty/show?partyId=C+Wagner),
[Jennifer M Godbout](/catalog/catalogParty/show?partyId=68115),
[A Solomon](/catalog/catalogParty/show?partyId=A+Solomon),
[Evangelos Kakouros](/catalog/catalogParty/show?partyId=5279)
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| Metadata\_Record\_Selenium concentrations in tissues of the cyprinid Sacramento Splittail of the San Francisco Estuary (2010-11 and 2017).xml<br>_Original FGDC Metadata_ | View | 16.36 KB | application/fgdc+xml |
| Location of Splittail collection sites and regions.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5db7525de4b0b0c58b5a4954?f=__disk__06%2F3e%2F32%2F063e325443d04af885832c36f3d0079448e57199&width=150&height=118) | 199.39 KB | image/jpeg |
| T1\_Splittail\_data\_dictionary.xlsx | | 19.09 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| T1\_Splittail\_data\_dictionary.csv | | 22.95 KB | text/csv |
| T2\_Splittail\_Morph\_Se\_SIA.xlsx | | 54.29 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| T2\_Splittail\_Morph\_Se\_SIA.csv | | 36.3 KB | text/csv |
| T3\_Splittail\_QA\_QC\_Blanks.xlsx | | 13.14 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| T3\_Splittail\_QA\_QC\_Blanks.csv | | 3.01 KB | text/csv |
| T4\_Splittail\_QA\_QC\_Precision.xlsx | | 13.6 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| T4\_Splittail\_QA\_QC\_Precision.csv | | 3.72 KB | text/csv |
| T5\_Splittail\_QA\_QC\_CRM.xlsx | | 17.74 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| T5\_Splittail\_QA\_QC\_CRM.csv | | 9.01 KB | text/csv |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Stewart, A.R., Feyrer, F., and Johnson, R., 2019, Resolving selenium exposure risk: Spatial, temporal, and tissue-specific variability of an endemic fish in a large, dynamic estuary: Science of the Total Environment, https://doi.org/10.1016/ j.scitotenv.2019.135919 | [https://doi.org/10.1016/j.scitotenv.2019.135919](https://doi.org/10.1016/j.scitotenv.2019.135919 "https://doi.org/10.1016/j.scitotenv.2019.135919") |
## Purpose
Data were collected to understand selenium regional distributions and exposure risk to Sacramento Splittail to inform regulatory and management decisions.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Stewart, A.R.</origin>\n <origin>Dal Porto, D.</origin>\n <origin>Wagner, C.</origin>\n <origin>Godbout, J.</origin>\n <origin>Solomon, A.</origin>\n <origin>Kakouros, E.</origin>\n <pubdate>20191220</pubdate>\n <title>Selenium concentrations in tissues of the cyprinid Sacramento Splittail of the San Francisco Estuary (2010-11 and 2017)</title>\n <geoform>Excel and CSV spreadsheets</geoform>\n <pubinfo>\n <pubplace>Menlo Park, CA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9GI73P9</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Stewart, A. Robin</origin>\n <origin>Feyrer, Frederick</origin>\n <origin>Johnson, Rachel. C.</origin>\n <pubdate>2019</pubdate>\n <title>Resolving selenium exposure risk: Spatial, temporal, and tissue-specific variability of an endemic fish in a large, dynamic estuary</title>\n <geoform>Manuscript</geoform>\n <pubinfo>\n <pubplace>Online</pubplace>\n <publish>Elsevier B.V.</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/j.scitotenv.2019.135919</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Estuaries provide critical habitat for a vast array of fish and wildlife but are also a nexus for core economic activities that mobilize and concentrate contaminants that can threaten aquatic species. Selenium (Se), an essential element and potent reproductive toxin, is enriched in parts of the San Francisco Estuary (SFE) to levels known to cause toxicity, yet the risk of Se to species that inhabit the SFE is not well understood. We quantified Se concentrations in muscle, liver, and ovary of the demersal cyprinid Sacramento Splittail from six regions in the SFE at three time points (fall 2010-11, spring 2017) to evaluate Se exposure risk. Here we report fish morphological attributes, total selenium concentrations in fish boneless skinless muscle, liver, and ovary, as well as carbon, nitrogen and sulfur stable isotope values and elemental mass concentrations in fish muscle.</abstract>\n <purpose>Data were collected to understand selenium regional distributions and exposure risk to Sacramento Splittail to inform regulatory and management decisions.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>20101115</caldate>\n </sngdate>\n <sngdate>\n <caldate>20111208</caldate>\n </sngdate>\n <sngdate>\n <caldate>20170105</caldate>\n </sngdate>\n <sngdate>\n <caldate>20170510</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-122.75573730338</westbc>\n <eastbc>-121.11877441281</eastbc>\n <northbc>38.470451156149</northbc>\n <southbc>37.84848701694</southbc>\n </bounding>\n <descgeog>Petaluma River, Napa River, Suisun Bay and Sacramento River California</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>selenium</themekey>\n <themekey>bioaccumulation</themekey>\n <themekey>biological monitoring</themekey>\n <themekey>cyprinid</themekey>\n <themekey>estuary</themekey>\n <themekey>delta</themekey>\n <themekey>exposure risk</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5db7525de4b0b0c58b5a4954</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>San Francisco Bay</placekey>\n <placekey>Sacramento-San Joaquin Delta</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Robin Stewart</cntper>\n <cntorg>WATER: ESP HEIB</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 496, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4550</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>EPA Rare Grant (DW1492426401), U.S. Fish and Wildlife Service (IAA4500109746), U.S. Geological Survey (USGS) Water Mission Area - Hydrological Ecological Interactions Branch, and in-kind support by NOAA Fisheries. Bureau of Reclamation funded the 2017 field collections (IA#R15PG00085)</datacred>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Fishes</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2019</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Frederick V Feyrer</cntper>\n <cntorg>SOUTHWEST REGION: PROJ OFFC-WATERSHED,ECOL,INTG MOD</cntorg>\n </cntperp>\n <cntpos>Fish Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>6000 J Street Placer Hall</address>\n <city>Sacramento</city>\n <state>CA</state>\n <postal>95819</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>916-278-3232</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>expert advice</taxonpro>\n <taxoncom>Sacramento Splittail are endemic to the San Francisco Estuary. A local expert on this species identified individual fish used in this study.</taxoncom>\n </taxonsys>\n <taxongen>The fish used in this study was identified to the level of genus and species.</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Actinopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Teleostei</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Ostariophysi</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Cypriniformes</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Cyprinoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Cyprinidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Pogonichthys</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Pogonichthys macrolepidotus</taxonrv>\n <common>splittail</common>\n <common>Sacramento splittail</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Data were complied into Excel spreadsheets</procdesc>\n <procdate>20191210</procdate>\n </procstep>\n <method>\n <methtype>both</methtype>\n <methdesc>Fish were collected according to methods described in Feyrer F., Hobbs J., Acuna S., Mahardja B., Grimaldo L., Baerwald M., et al., 2015. Metapopulation structure of a semi-anadromous fish in a dynamic environment. Canadian Journal of Fisheries and Aquatic Sciences. 72, 709-721. https://doi.org/10.1139/cjfas-2014-0433. \n\nSamples were processed and analyzed according to the methods described in Kleckner A.E., Kakouros E., Stewart A.R., 2017. A practical method for the determination of total selenium in environmental samples using Isotope Dilution-Hydride Generation-Inductively Coupled Plasma-Mass Spectrometry. Limnology and Oceanography: Methods. 15, 363-371. https://doi.org/10.1002/lom3.10164.</methdesc>\n </method>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Geographic Names Information System (GNIS) place names</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>5.0</latres>\n <longres>5.0</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>T1_Splittail_data_dictionary</enttypl>\n <enttypd>This table defines all terms for all data tables (Tables 2-5) in this data release.</enttypd>\n <enttypds>A. Robin Stewart</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Table 1, columns 1-14</attrlabl>\n <attrdef>Table No., Table Name, Table Column, Column heading, Column description, Extended Description, Unit Abbreviation, Unit Definition, Additional Column Note, Range of Value (if applicable) (minimum and maximum), Analytical Laboratory Name, Analytical Laboratory Location, Method Reference-Primary, Method Reference-Secondary</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>All column headings are defined in the data dictionary for all data tables.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>T2_Splittail_Morp_Se_SIA</enttypl>\n <enttypd>Morphological, selenium and stable isotope data for individual Sacramento Splittail collected in the San Francisco Estuary.</enttypd>\n <enttypds>A. Robin Stewart</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Table 2, columns 1-52</attrlabl>\n <attrdef>All terms are defined in data dictionary (Table 1).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>All column headings are defined in the data dictionary for all data tables.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>T3_Splittail_QA_QC_Blanks</enttypl>\n <enttypd>Procedural blank selenium concentrations for individual analysis dates.</enttypd>\n <enttypds>A. Robin Stewart</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Table 3, columns 1-5</attrlabl>\n <attrdef>All terms are defined in data dictionary (Table 1).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>All column headings are defined in the data dictionary for all data tables.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>T4_Splittail_QA_QC_Precision</enttypl>\n <enttypd>Precision of selenium (Se) sample analyses.</enttypd>\n <enttypds>A. Robin Stewart</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Table 4, columns 1-7</attrlabl>\n <attrdef>All terms are defined in data dictionary (Table 1).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>All column headings are defined in the data dictionary for all data tables.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>T5_Splittail_QA_QC_CRM</enttypl>\n <enttypd>Recovery of Certified Reference Materials (CRM)</enttypd>\n <enttypds>A. Robin Stewart</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Table 5, columns 1-8</attrlabl>\n <attrdef>All terms are defined in data dictionary (Table 1)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>All column headings are defined in the data dictionary for all data tables</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Robin Stewart</cntper>\n <cntorg>WATER: ESP HEIB</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 496, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4550</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Nevada Water Science Center](/catalog/item/5d4310c5e4b01d82ce8db00e)
3. [Data for the report Ground-water flow and simulated effects of development in Paradise Valley, a basin tributary to the Humboldt River in Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F)](/catalog/item/5b985667e4b0702d0e842932)
4. [Groundwater-level declines between 1968 and 1982, Paradise Valley, Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F)](/catalog/folder/5b9978a8e4b0d966b48427c7)
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## Dates
Publication Date2020-01-09Start Date1968End Date1982
## Citation
Prudic, D.E., Herman, M.E., and Medina, R.L., 2020, Data for the report Ground-water flow and simulated effects of development in Paradise Valley, a basin tributary to the Humboldt River in Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F): U.S. Geological Survey data release, https://doi.org/10.5066/P9ZJBQF2.
## Summary
This data set consists of polygons representing groundwater level declines between 1968 and 1982, Paradise Valley, Humboldt County, Nevada as published on figure 26 in the U.S. Geological Survey Professional Paper 1409-F titled "Ground-water flow and simulated effects of development in Paradise Valley, a basin tributary to the Humboldt River in Humboldt County, Nevada," 1996.
## Summary
This data set consists of polygons representing groundwater level declines between 1968 and 1982, Paradise Valley, Humboldt County, Nevada as published on figure 26 in the U.S. Geological Survey Professional Paper 1409-F titled "Ground-water flow and simulated effects of development in Paradise Valley, a basin tributary to the Humboldt River in Humboldt County, Nevada," 1996.
## Contacts
Point of Contact
:
[Nevada Water Science Center](/catalog/catalogParty/show?partyId=17450)
Originator
:
[David E Prudic](/catalog/catalogParty/show?partyId=8316),
[Rose L Medina](/catalog/catalogParty/show?partyId=6854)
Metadata Contact
:
[Rose L Medina](/catalog/catalogParty/show?partyId=6854)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| PP1409F\_GWLevDecline\_1968\_1982\_p.gdb.zip<br>“Esri 10.5.1 Geodatabase” | | 38.84 KB | application/zip |
| | | |
| --- | --- | --- |
| PP1409F\_GWLevDecline\_1968\_1982\_p.shp.xml<br>_Original FGDC Metadata_ | View | 16.99 KB |
| PP1409F\_GWLevDecline\_1968\_1982\_p.cpg | | 5 Bytes |
| PP1409F\_GWLevDecline\_1968\_1982\_p.dbf | | 613 Bytes |
| PP1409F\_GWLevDecline\_1968\_1982\_p.prj | | 403 Bytes |
| PP1409F\_GWLevDecline\_1968\_1982\_p.sbn | | 212 Bytes |
| PP1409F\_GWLevDecline\_1968\_1982\_p.sbx | | 132 Bytes |
| PP1409F\_GWLevDecline\_1968\_1982\_p.shp | | 12.86 KB |
| PP1409F\_GWLevDecline\_1968\_1982\_p.shx | | 156 Bytes |
Shapefile:
PP1409F\_GWLevDecline\_1968\_1982\_p.zip
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Prudic, D.E., and Herman, M.E., 1996, Ground-water flow and simulated effects of development in Paradise Valley, a basin tributary to the Humboldt River in Humboldt County, Nevada: U.S. Geological Survey Professional Paper 1409-F, https://doi.org/10.3133/pp1409F. | [https://doi.org/10.3133/pp1409F](https://doi.org/10.3133/pp1409F "https://doi.org/10.3133/pp1409F") |
## Purpose
This data set was created as part of a U.S.Geological Survey study to to describe and analyze the ground-water flow system in Paradise Valley, Nevada. The intended uses of this data set include, but are not limited to, natural resource modeling, mapping, and visualization applications.
## [Map](/catalog/item/imap/5b9978a8e4b0d966b48427c7)
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## Communities
- USGS Nevada Water Science Center
## Associated Items
- _related to_ [Groundwater-level altitude contours, 1968, Paradise Valley, Humboldt County, Nevada (from U.S. Geological Survey Professional Paper 1409-F, figure 9)](/catalog/item/5b994f2ee4b0d966b484265c "Groundwater-level altitude contours, 1968, Paradise Valley, Humboldt County, Nevada (from U.S. Geological Survey Professional Paper 1409-F, figure 9)")
- _related to_ [Groundwater-level altitude contours, 1982, Paradise Valley, Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F)](/catalog/item/5b9973a7e4b0d966b48427a6 "Groundwater-level altitude contours, 1982, Paradise Valley, Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F)")
- _related_ [Thickness of basin fill, Paradise Valley, Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F)](/catalog/item/5b997b33e4b0d966b48427d0 "Thickness of basin fill, Paradise Valley, Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F)")
- _related_ [Study area, Paradise Valley, Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F)](/catalog/item/5b997de8e4b0d966b48427e0 "Study area, Paradise Valley, Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F)")
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## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Theme
- [groundwater](/catalog/items?q=&filter=tags%3Dgroundwater "groundwater (groundwater, Theme, USGS Thesaurus)")
- [groundwater level](/catalog/items?q=&filter=tags%3Dgroundwater+level "groundwater level (groundwater level, Theme, USGS Thesaurus)")
- [inlandWaters](/catalog/items?q=&filter=tags%3DinlandWaters "inlandWaters (inlandWaters, Theme, ISO 19115 Topic Category)")
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- [Great Basin](/catalog/items?q=&filter=tags%3DGreat+Basin "Great Basin (Great Basin, Place, Geographic Names Information System)")
- [Humboldt County](/catalog/items?q=&filter=tags%3DHumboldt+County "Humboldt County (Humboldt County, Place, Geographic Names Information System)")
- [Humboldt River Region](/catalog/items?q=&filter=tags%3DHumboldt+River+Region "Humboldt River Region (Humboldt River Region, Place, State of Nevada Division of Water Resources Hydrographic Regions and Basins)")
- [Nevada](/catalog/items?q=&filter=tags%3DNevada "Nevada (Nevada, Place, Geographic Names Information System)")
- [Paradise Valley](/catalog/items?q=&filter=tags%3DParadise+Valley "Paradise Valley (Paradise Valley, Place, State of Nevada Division of Water Resources Hydrographic Regions and Basins)")
- [Winnemucca Segment](/catalog/items?q=&filter=tags%3DWinnemucca+Segment "Winnemucca Segment (Winnemucca Segment, Place, State of Nevada Division of Water Resources Hydrographic Regions and Basins)")
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## Provenance
Data sourceInput directly
## Additional Information
### Shapefile Extension
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>David E. Prudic</origin>\n <origin>Rose L. Medina, https://orcid.org/0000-0002-3463-7224</origin>\n <pubdate>20200109</pubdate>\n <title>Groundwater-level declines between 1968 and 1982, Paradise Valley, Humboldt County, Nevada (from U.S. Geological Survey Professional Paper 1409-F, figure 26)</title>\n <geoform>vector digital data</geoform>\n <onlink>https://doi.org/10.5066/P9ZJBQF2</onlink>\n <lworkcit>\n <citeinfo>\n <origin>David E. Prudic</origin>\n <origin>Marc E. Herman</origin>\n <pubdate>1996</pubdate>\n <title>Ground-water flow and simulated effects of development in Paradise Valley, a basin tributary to the Humboldt River in Humboldt County, Nevada</title>\n <geoform>document</geoform>\n <serinfo>\n <sername>U.S. Geological Survey Professional Paper</sername>\n <issue>1409-F</issue>\n </serinfo>\n <onlink>https://doi.org/10.3133/pp1409F</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data set consists of polygons representing groundwater level declines between 1968 and 1982, Paradise Valley, Humboldt County, Nevada as published on figure 26 in the U.S. Geological Survey Professional Paper 1409-F titled "Ground-water flow and simulated effects of development in Paradise Valley, a basin tributary to the Humboldt River in Humboldt County, Nevada," 1996.</abstract>\n <purpose>This data set was created as part of a U.S.Geological Survey study done to describe and analyze the ground-water flow system in Paradise Valley, Nevada. The intended uses of this data set include, but are not limited to, natural resource modeling, mapping, and visualization applications.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>1968</begdate>\n <enddate>1982</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-117.709607</westbc>\n <eastbc>-117.470075</eastbc>\n <northbc>41.297439</northbc>\n <southbc>41.032579</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>groundwater</themekey>\n <themekey>groundwater level</themekey>\n </theme>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>inlandWaters</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5b9978a8e4b0d966b48427c7</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Great Basin</placekey>\n <placekey>Nevada</placekey>\n <placekey>Humboldt County</placekey>\n </place>\n <place>\n <placekt>State of Nevada Division of Water Resources Hydrographic Regions and Basins</placekt>\n <placekey>Humboldt River Region</placekey>\n <placekey>Paradise Valley</placekey>\n <placekey>Winnemucca Segment</placekey>\n </place>\n </keywords>\n <accconst>None. Please see \'Distribution Info\' for details.</accconst>\n <useconst>Acknowledgment of the U.S. Geological Survey and Nevada Division of Water Resources would be appreciated in products derived from these data. Users are advised to read the data set\'s metadata thoroughly to understand appropriate use and data limitations. Although this Federal Geographic Data Committee (FGDC) compliant metadata file is intended to document the data set in nonproprietary form, this metadata file may include some ArcGIS-specific terminology. These data are not intended to be used as a survey product and are for reference only.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey Nevada Water Science Center</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and physical address</addrtype>\n <address>2730 N. Deer Run Road</address>\n <city>Carson City</city>\n <state>NV</state>\n <postal>89701</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>(775) 887-7600</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Compilation of this data set and the associated metadata was done in cooperation with the Nevada Division of Water Resources.</datacred>\n <native>Microsoft Windows 10 version 6.2 (Build 9200); Esri ArcGIS 10.5.1.7333</native>\n <crossref>\n <citeinfo>\n <origin>David E. Prudic</origin>\n <origin>Rose L. Medina, https://orcid.org/0000-0002-3463-7224</origin>\n <pubdate>2019</pubdate>\n <title>Groundwater-level altitude contours, 1968, Paradise Valley, Humboldt County, Nevada (from U.S. Geological Survey Professional Paper 1409-F, figure 9)</title>\n <geoform>vector digital data</geoform>\n <onlink>https://doi.org/10.5066/P9ZJBQF2</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>David E. Prudic</origin>\n <origin>Rose L. Medina, (comp.), https://orcid.org/0000-0002-3463-7224</origin>\n <pubdate>2019</pubdate>\n <title>Groundwater-level altitude contours, 1982, Paradise Valley, Humboldt County, Nevada (from U.S. Geological Survey Professional Paper 1409-F, figure29)</title>\n <geoform>vector digital data</geoform>\n <onlink>https://doi.org/10.5066/P9ZJBQF2</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>David E. Prudic</origin>\n <origin>Rose L. Medina, (comp.), https://orcid.org/0000-0002-3463-7224</origin>\n <pubdate>2019</pubdate>\n <title>Study area, Paradise Valley, Humboldt County, Nevada (from U.S. Geological Survey Professional Paper 1409-F)</title>\n <geoform>vector digital data</geoform>\n <onlink>https://doi.org/10.5066/P9ZJBQF2</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>David E. Prudic</origin>\n <origin>Rose L. Medina, (comp.), https://orcid.org/0000-0002-3463-7224</origin>\n <pubdate>2019</pubdate>\n <title>Thickness of basin fill, Paradise Valley, Humboldt County, Nevada (from U.S. Geological Survey Professional Paper 1409-F, figure 10)</title>\n <geoform>vector digital data</geoform>\n <onlink>https://doi.org/10.5066/P9ZJBQF2</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted. Verification was done by interactive on-screen review. Frequency tests were performed on all feature class attributes to check that no features were unlabeled, misspelled, or inconsistent.</attraccr>\n </attracc>\n <logic>The logical consistency topologically is clean. Chain-node topology is present.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted. Verification was done by on-screen review. All attempts were made to verify 100 percent of the digital spatial data.</horizpar>\n <qhorizpa>\n <horizpav>110</horizpav>\n <horizpae>Errors resulting from the quality of the source map, the automation process, and the scale resolution can impact the accuracy of the data. Errors resulting from the quality of the source map are unknown. The scale of the source was 1:200,000. The maximum RMS error during data automation was 0.001. The inherent error of the data, which is based on a 1:200,000 map, is approximately 101 meters according to the National Map Accuracy Standards of 1947 (U.S. Geological Survey, 1988). The horizontal error is deductively estimated at 110 meters.\nReference Cited\nU.S. Geological Survey, 1988, National mapping program technical instructions - Part 2: Specifications, Standards for Digital Line Graphs: U.S. Geological Survey, 56 p.</horizpae>\n </qhorizpa>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Prudic, D.E.</origin>\n <origin>Herman, M.E.</origin>\n <pubdate>1996</pubdate>\n <title>Ground-water flow and simulated effects of development in Paradise Valley, a basin tributary to the Humboldt River in Humboldt County, Nevada</title>\n <geoform>map</geoform>\n <serinfo>\n <sername>U.S. Geological Survey Professional Paper</sername>\n <issue>1409-F</issue>\n </serinfo>\n <onlink>https://doi.org/10.3133/pp1409F</onlink>\n </citeinfo>\n </srccite>\n <srcscale>440,000</srcscale>\n <typesrc>paper</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>1996</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>PP1409F_figure26</srccitea>\n <srccontr>Spatial and attribute information</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>David E. Prudic</origin>\n <origin>Rose L. Medina, (comp.), https://orcid.org/0000-0002-3463-7224</origin>\n <pubdate>2019</pubdate>\n <title>Study area, Paradise Valley, Humboldt County, Nevada (U.S. Geological Survey Professional Paper 1409-F)</title>\n <geoform>vector digital data</geoform>\n <onlink>https://doi.org/10.5066/P9ZJBQF2</onlink>\n </citeinfo>\n </srccite>\n <typesrc>vector digital data</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2019</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>PP1409F_StudyArea_p</srccitea>\n <srccontr>Spatial and attribute information</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>A digital version of the PP1409F was downloaded. Using the ESRI ArcGIS ArcMap georeferencing tools, figure 26 from PP1409F was georeferenced to UTM zone 11 NAD 1927 using STUDYAREA distinct line elements as control points. The total RM Error was 2.97071 meters. Using ESRI ArcGIS ArcMap editing tools, the groundwater-level decline areas were digitized on-screen using the georeferenced figure 26 from PP1409F to create PP1409F_GWLevDecline_1968_1982_p_27. The attribute Decline_FT was added to PP1409F_GWLevDecline_1968_1982_p_27 to capture the description of the decline according to figure 26 from PP1409F.</procdesc>\n <srcused>PP1409F_figure26</srcused>\n <srcused>PP1409F_StudyArea_p</srcused>\n <procdate>201808</procdate>\n <srcprod>PP1409F_GWLevDecline_1968_1982_p_27</srcprod>\n </procstep>\n <procstep>\n <procdesc>Using ESRI ArcGIS ArcMap Project tool, PP1409F_GWLevDecline_1968_1982_p_27 set was projected to UTM zone 11 WGS84 using a two-step transformation: NAD 1927 to NAD 1983 (NADCON method) to WGS 1984 (ITRF00 method).</procdesc>\n <srcused>PP1409F_GWLevDecline_1968_1982_p_27</srcused>\n <procdate>201808</procdate>\n <srcprod>PP1409F_GWLevDecline_1968_1982_p</srcprod>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf />\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.0001</absres>\n <ordres>0.0001</ordres>\n </coordrep>\n <plandu>meter</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D WGS 1984</horizdn>\n <ellips>WGS 1984</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n <vertdef>\n <altsys>\n <altdatum>National Geodetic Vertical Datum of 1929</altdatum>\n <altres>500</altres>\n <altunits>feet</altunits>\n <altenc>Attribute values</altenc>\n </altsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>PP1409F_GWLevDecline_1968_1982_p attribute table</enttypl>\n <enttypd>Table containing attribute information for polygon features representing groundwater-level declines between 1968 and 1982.</enttypd>\n <enttypds>producer-defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>Esri</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SHAPE</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>Esri</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Decline</attrlabl>\n </attr>\n <attr>\n <attrlabl>Shape_Leng</attrlabl>\n </attr>\n <attr>\n <attrlabl>Shape_Area</attrlabl>\n <attrdef>Area of feature in internal units squared.</attrdef>\n <attrdefs>Esri</attrdefs>\n <attrdomv>\n <udom>Positive real numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and physical address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>WinZipped file geodatabase</formname>\n <formvern>10.5.1</formvern>\n <formspec>ESRI 10.5.1 file geodatabase</formspec>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9ZJBQF2</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <digform>\n <digtinfo>\n <formname>Shapefile</formname>\n <formvern>2019</formvern>\n <formspec>ESRI shapefile. Note some information such as field names and relationship classes may be altered or removed from the source data during conversion to ESRI shapefile format.</formspec>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9ZJBQF2</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. This dataset is provided by USGS as a public service.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200824</metd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>Rose L. Medina</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and physical address</addrtype>\n <address>2730 N. Deer Run Road</address>\n <city>Carson City</city>\n <state>NV</state>\n <postal>89701</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-775-887-7620</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standards for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n <lineage />\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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3. [Geochemistry Data from Samples Collected in 2015-2017 to study an OG wastewater spill in Blacktail Creek, North Dakota](/catalog/folder/5ee01a8582ce7e579c7089b2)
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## Dates
Publication Date2020-08-19Time Period2015-02Time Period2015-06Time Period2016-06Time Period2017-06
## Citation
Jaeschke, J.B., Cozzarelli, I.M., Kent, D., Engle, M., Mumford, A., Benthem, A., Polite, B., and Baesman, S., 2020, Geochemistry Data from Samples Collected in 2015-2017 to study an OG wastewater spill in Blacktail Creek, North Dakota: U.S. Geological Survey data release, https://doi.org/10.5066/P961J30G.
## Summary
These metadata sets present the comprehensive geochemical composition of solid and water samples from the site of a 11.4ML (million liters) wastewater spill discovered in January, 2015. Analyses of a pipeline sample (analyses of select analytes), supplied by the North Dakota Department of Health are also included. The spill was near Blacktail Creek, north of Williston, ND. The leak was from a pipeline located approximately 70m from Blacktail Creek. The creek flows 17km before entering the Little Muddy River, a tributary to the Missouri River. The study included samples collected in waters upstream and downstream from Blacktail Creek in February and June 2015, June 2016, and June 2017. These data sets include field measurements of pH, \[...\]
## Summary
These metadata sets present the comprehensive geochemical composition of solid and water samples from the site of a 11.4ML (million liters) wastewater spill discovered in January, 2015. Analyses of a pipeline sample (analyses of select analytes), supplied by the North Dakota Department of Health are also included. The spill was near Blacktail Creek, north of Williston, ND. The leak was from a pipeline located approximately 70m from Blacktail Creek. The creek flows 17km before entering the Little Muddy River, a tributary to the Missouri River. The study included samples collected in waters upstream and downstream from Blacktail Creek in February and June 2015, June 2016, and June 2017. These data sets include field measurements of pH, temperature, dissolved oxygen, sulfide and specific conductance; laboratory analyses of major ions, trace elements, alkalinity, ammonium, δ2H and δ18O of water, strontium and radium isotopes; non-volatile dissolved organic carbon (NVDOC), low molecular weight organic acids (LMWOA), and hydrocarbons at surface-water sites. Geomorphic characteristics and watershed similarity tables are included. Sediments were collected in February and June 2015, June 2016, and June 2017 for analysis of carbon, nitrogen, radium and uranium isotopes and extractable ammonium, strontium, and barium. Duplicate water samples and field blanks were collected during each sampling campaign. Two groundwater seep sites were sampled in June 2017 for a select number of analytes. This data release includes twelve data tables provided in two zip folders both as Excel (\*.xlxs) and machine readable 'comma-separated values' format (\*.csv): 1) data dictionary; 2) descriptions of sampling site locations; 3) summary of field sampling procedures; 4) field measurements, NVDOC, ammonium, alkalinity, strontium isotopes, deuterium and oxygen-18 isotopes, LMWOA and hydrocarbons; 5) concentrations of major anions, cations and trace elements; 6) radiochemistry for sediment samples; 7) extractable ammonium, barium, and strontium concentrations from sediment samples; 8) measured and computed composition of water extracts and pore water concentrations; 9) carbon and nitrogen from sediments; 10) geomorphic characteristics; 11) watershed similarity analysis; and 12) Quality Assurance/Quality Control (QA/QC). This metadata publication’s citation will be added to “Geochemical Indicators of Oil and Gas Wastewater can Trace Potential Exposure Pathways Following Releases to Surface Waters”, Cozzarelli, et al., USGS ScienceBase associated manuscript in review, summer of 2020.
## Contacts
Point of Contact
:
[Jeanne B Jaeschke](/catalog/catalogParty/show?partyId=4991)
Process Contact
:
[Adam J Benthem](/catalog/catalogParty/show?partyId=60521)
Originator
:
[Jeanne B Jaeschke](/catalog/catalogParty/show?partyId=4991),
[Isabelle M Cozzarelli](/catalog/catalogParty/show?partyId=2136),
[Douglas B Kent](/catalog/catalogParty/show?partyId=5420),
[Mark A Engle](/catalog/catalogParty/show?partyId=2964),
[Adam C Mumford](/catalog/catalogParty/show?partyId=66129),
[Adam J Benthem](/catalog/catalogParty/show?partyId=60521),
[Bridgette F Polite](/catalog/catalogParty/show?partyId=78790),
[Shaun M Baesman](/catalog/catalogParty/show?partyId=411)
Metadata Contact
:
[Jeanne B Jaeschke](/catalog/catalogParty/show?partyId=4991)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Ecosystems](/catalog/catalogParty/show?partyId=Ecosystems)
SDC Data Owner
:
[Office of the Associate Director for Ecosystems](/catalog/catalogParty/show?partyId=17005)
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Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| Metadata for Geochem data Blacktail Creek.xml<br>_Original FGDC Metadata_ | View | 90.54 KB | application/fgdc+xml |
| Upstream of Confluence of Blacktail Creek and Little Muddy River (WBS04).jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5ee01a8582ce7e579c7089b2?f=__disk__1c%2Fda%2F83%2F1cda830dd5b065ab91942ebde11fcaef4c8bd3f6&width=150&height=112) | 109.87 KB | image/jpeg |
| Blacktail Creek CSV files.zip | | 41.8 KB | application/zip |
| Blacktail Creek xlsx files.zip | | 330.1 KB | application/zip |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Cozzarelli, I.M., Kent, D.B., Briggs, M., Engle, M.A., Benthem, A., Skalak, K.J., Mumford, A.C., Jaeschke, J., Farag, A., Lane, J.W., and Akob, D.M., 2021, Geochemical and geophysical indicators of oil and gas wastewater can trace potential exposure pathways following releases to surface waters: Science of The Total Environment, v. 755, p. 142909, https://doi.org/10.1016/j.scitotenv.2020.142909. | [https://doi.org/10.1016/j.scitotenv.2020.142909](https://doi.org/10.1016/j.scitotenv.2020.142909 "https://doi.org/10.1016/j.scitotenv.2020.142909") |
## Purpose
Production of oil and gas (OG) resources in the Williston Basin, North Dakota could pose human and environmental health risks, in part due to large amounts of wastewater produced, often with complex geochemistry and largely uncharacterized impacts on surface waters. Wastewater can contain elevated concentrations of major ions including salts (also referred to as brines), and trace inorganic and organic constituents that can enter the environment through leaks, spills, or direct disposal. Releases have resulted in water-quality effects at other sites in West Virginia (Akob, et al., 2016). The potential effects of wastewater releases on groundwater and surface water quality has been documented in the Williston Basin region in Montana and North Dakota by Cozzarelli et al. (2017), Lauer, et al. (2016), Gleason, et al. (2014), and Mills, et al. (2011). The purpose of this data-collection effort was to document the chemical concentrations of wastewater-affected sites and determine the potential effects of this spill in Blacktail Creek and Little Muddy River. The geochemical results of samples collected in 2015-2017 could be used as a tool to assist management decisions at wastewater spill sites, thereby limiting potential environmental risks and damages.
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## Communities
- USGS Data Release Products
## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Theme
- [NVDOC](/catalog/items?q=&filter=tags%3DNVDOC "NVDOC (NVDOC, Theme, None)")
- [ammonium](/catalog/items?q=&filter=tags%3Dammonium "ammonium (ammonium, Theme, None)")
- [anions](/catalog/items?q=&filter=tags%3Danions "anions (anions, Theme, None)")
- [barium](/catalog/items?q=&filter=tags%3Dbarium "barium (barium, Theme, USGS Thesaurus)")
- [brine spills](/catalog/items?q=&filter=tags%3Dbrine+spills "brine spills (brine spills, Theme, None)")
- [cations](/catalog/items?q=&filter=tags%3Dcations "cations (cations, Theme, None)")
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- [geochemistry](/catalog/items?q=&filter=tags%3Dgeochemistry "geochemistry (geochemistry, Theme, USGS Thesaurus)")
- [major ions](/catalog/items?q=&filter=tags%3Dmajor+ions "major ions (major ions, Theme, None)")
- [nutrient content (water)](/catalog/items?q=&filter=tags%3Dnutrient+content+%28water%29 "nutrient content (water) (nutrient content (water), Theme, USGS Thesaurus)")
- [oxygen content (water)](/catalog/items?q=&filter=tags%3Doxygen+content+%28water%29 "oxygen content (water) (oxygen content (water), Theme, USGS Thesaurus)")
- [oxygen isotope analysis](/catalog/items?q=&filter=tags%3Doxygen+isotope+analysis "oxygen isotope analysis (oxygen isotope analysis, Theme, USGS Thesaurus)")
- [radium](/catalog/items?q=&filter=tags%3Dradium "radium (radium, Theme, USGS Thesaurus)")
- [radium isotopes](/catalog/items?q=&filter=tags%3Dradium+isotopes "radium isotopes (radium isotopes, Theme, None)")
- [salinity](/catalog/items?q=&filter=tags%3Dsalinity "salinity (salinity, Theme, USGS Thesaurus)")
- [semi-volatile hydrocarbons](/catalog/items?q=&filter=tags%3Dsemi-volatile+hydrocarbons "semi-volatile hydrocarbons (semi-volatile hydrocarbons, Theme, None)")
- [strontium](/catalog/items?q=&filter=tags%3Dstrontium "strontium (strontium, Theme, USGS Thesaurus)")
- [strontium isotopes](/catalog/items?q=&filter=tags%3Dstrontium+isotopes "strontium isotopes (strontium isotopes, Theme, None)")
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- [trace elements](/catalog/items?q=&filter=tags%3Dtrace+elements "trace elements (trace elements, Theme, None)")
- [unconventional oil and gas production](/catalog/items?q=&filter=tags%3Dunconventional+oil+and+gas+production "unconventional oil and gas production (unconventional oil and gas production, Theme, None)")
- [water pH](/catalog/items?q=&filter=tags%3Dwater+pH "water pH (water pH, Theme, USGS Thesaurus)")
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Place
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- [Blacktail Creek](/catalog/items?q=&filter=tags%3DBlacktail+Creek "Blacktail Creek (Blacktail Creek, Place, Geographic Names Information System (GNIS))")
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- [Williams](/catalog/items?q=&filter=tags%3DWilliams "Williams (Williams, Place, Common geographic areas)")
- [Williston Basin](/catalog/items?q=&filter=tags%3DWilliston+Basin "Williston Basin (Williston Basin, Place, Geographic Names Information System (GNIS))")
Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
USGS Scientific Topic Keyword
- [none](/catalog/items?q=&filter=tags%3Dnone "none (none, USGS Scientific Topic Keyword, )")
## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P961J30G |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Jeanne B. Jaeschke</origin>\n <origin>Isabelle M. Cozzarelli</origin>\n <origin>Doug Kent</origin>\n <origin>Mark Engle</origin>\n <origin>Adam Mumford</origin>\n <origin>Adam Benthem</origin>\n <origin>Bridgette Polite</origin>\n <origin>Shaun M. Baesman</origin>\n <pubdate>20200819</pubdate>\n <title>Geochemistry Data from Samples Collected in 2015-2017 to study an OG wastewater spill in Blacktail Creek, North Dakota</title>\n <geoform>spreadsheet</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <othercit>Image citation: June 2016, Kalla Fleger</othercit>\n <onlink>https://doi.org/10.5066/P961J30G</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Isabelle M. Cozzarelli</origin>\n <origin>Douglas B. Kent</origin>\n <origin>Martin Briggs</origin>\n <origin>Mark A. Engle</origin>\n <origin>Adam Benthem</origin>\n <origin>Katherine J. Skalak</origin>\n <origin>Adam C. Mumford</origin>\n <origin>Jeanne Jaeschke</origin>\n <origin>A\xc3\xafda Farag</origin>\n <origin>John W. Lane, Jr</origin>\n <origin>Denise M. Akob</origin>\n <pubdate>2020</pubdate>\n <title>Geochemical indicators of Oil and Gas Wastewater can Trace Potential Exposure Pathways Following Releases to Surface Waters</title>\n <geoform>publication</geoform>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>These metadata sets present the comprehensive geochemical composition of solid and water samples from the site of a 11.4ML (million liters) wastewater spill discovered in January, 2015. Analyses of a pipeline sample (analyses of select analytes), supplied by the North Dakota Department of Health are also included. The spill was near Blacktail Creek, north of Williston, ND. The leak was from a pipeline located approximately 70m from Blacktail Creek. The creek flows 17km before entering the Little Muddy River, a tributary to the Missouri River. The study included samples collected in waters upstream and downstream from Blacktail Creek in February and June 2015, June 2016, and June 2017. These data sets include field measurements of pH, temperature, dissolved oxygen, sulfide and specific conductance; laboratory analyses of major ions, trace elements, alkalinity, ammonium, delta deuterium and delta oxygen-18 of water, strontium and radium isotopes; non-volatile dissolved organic carbon (NVDOC), low molecular weight organic acids (LMWOA), and hydrocarbons at surface-water sites. Geomorphic characteristics and watershed similarity tables are included. Sediments were collected in February and June 2015, June 2016, and June 2017 for analysis of carbon, nitrogen, radium and uranium isotopes and extractable ammonium, strontium, and barium. Duplicate water samples and field blanks were collected during each sampling campaign. Two groundwater seep sites were sampled in June 2017 for a select number of analytes. This data release includes twelve data tables provided in two zip folders both as Excel (*.xlxs) and machine readable 'comma-separated values' format (*.csv): 1) data dictionary; 2) descriptions of sampling site locations; 3) summary of field sampling procedures; 4) field measurements, NVDOC, ammonium, alkalinity, strontium isotopes, deuterium and oxygen-18 isotopes, LMWOA and hydrocarbons; 5) concentrations of major anions, cations and trace elements; 6) radiochemistry for sediment samples; 7) extractable ammonium, barium, and strontium concentrations from sediment samples; 8) measured and computed composition of water extracts and pore water concentrations; 9) carbon and nitrogen from sediments; 10) geomorphic characteristics; 11) watershed similarity analysis; and 12) Quality Assurance/Quality Control (QA/QC). This metadata publication\xe2\x80\x99s citation will be added to \xe2\x80\x9cGeochemical Indicators of Oil and Gas Wastewater can Trace Potential Exposure Pathways Following Releases to Surface Waters\xe2\x80\x9d, Cozzarelli et al., USGS ScienceBase associated manuscript in review, summer of 2020.</abstract>\n <purpose>Production of oil and gas (OG) resources in the Williston Basin, North Dakota could pose human and environmental health risks, in part due to large amounts of wastewater produced, often with complex geochemistry and largely uncharacterized impacts on surface waters. Wastewater can contain elevated concentrations of major ions including salts (also referred to as brines), and trace inorganic and inorganic constituents that can enter the environment through leaks, spills, or direct disposal. Releases have resulted in water-quality effects at other sites in West Virginia (Akob, et al., 2016). The potential effects of wastewater releases on groundwater and surface water quality has been documented in the Williston Basin region in Montana and North Dakota by Cozzarelli et al. (2017), Lauer et al. (2016), Gleason et al. (2014), and Mills et al. (2011). The purpose of this data-collection effort was to document the chemical concentrations of wastewater-affected sites and determine the potential effects of this spill in Blacktail Creek and Little Muddy River. The geochemical results of samples collected in 2015-2017 could be used as a tool to assist management decisions at wastewater spill sites, thereby limiting potential environmental risks and damages.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>201502</caldate>\n </sngdate>\n <sngdate>\n <caldate>201506</caldate>\n </sngdate>\n <sngdate>\n <caldate>201606</caldate>\n </sngdate>\n <sngdate>\n <caldate>201706</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-103.6590</westbc>\n <eastbc>-103.5447</eastbc>\n <northbc>48.4275</northbc>\n <southbc>48.1467</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>environment</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>water properties</themekey>\n <themekey>geochemistry</themekey>\n <themekey>chemical analysis</themekey>\n <themekey>chromatography</themekey>\n <themekey>oxygen isotope analysis</themekey>\n <themekey>surface water quality</themekey>\n <themekey>nutrient content (water)</themekey>\n <themekey>water pH</themekey>\n <themekey>salinity</themekey>\n <themekey>water temperature</themekey>\n <themekey>oxygen content (water)</themekey>\n <themekey>radium</themekey>\n <themekey>strontium</themekey>\n <themekey>barium</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>major ions</themekey>\n <themekey>anions</themekey>\n <themekey>cations</themekey>\n <themekey>trace elements</themekey>\n <themekey>strontium isotopes</themekey>\n <themekey>radium isotopes</themekey>\n <themekey>NVDOC</themekey>\n <themekey>ammonium</themekey>\n <themekey>unconventional oil and gas production</themekey>\n <themekey>brine spills</themekey>\n <themekey>semi-volatile hydrocarbons</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5ee01a8582ce7e579c7089b2</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Blacktail Creek</placekey>\n <placekey>Williston Basin</placekey>\n </place>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>North Dakota</placekey>\n <placekey>Williams</placekey>\n <placekey>Little Muddy</placekey>\n </place>\n <place>\n <placekt>none</placekt>\n <placekey>Bakken</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Jeanne B Jaeschke</cntper>\n <cntorg>U.S. Geological Survey, WATER</cntorg>\n </cntperp>\n <cntpos>Physical Scientist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 431, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>703-648-5872</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <crossref>\n <citeinfo>\n <origin>Denise M. Akob</origin>\n <origin>Adam C. Mumford</origin>\n <origin>William Orem</origin>\n <origin>Mark A. Engle</origin>\n <origin>J. Grace Klinges</origin>\n <origin>Douglas B. Kent</origin>\n <origin>Isabelle M. Cozzarelli</origin>\n <pubdate>20160518</pubdate>\n <title>Wastewater Disposal from Unconventional Oil and Gas Development Degrades Stream Quality at a West Virginia Injection Facility</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Environmental Science & Technology</sername>\n <issue>vol. 50, issue 11</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>American Chemical Society (ACS)</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1021/acs.est.6b00428</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Standard Methods For the Examination of Water and Wastewater</origin>\n <pubdate>201701</pubdate>\n <title>4500-NH3 NITROGEN (AMMONIA) (2017) Standard Methods For the Examination of Water and Wastewater, 23rd.</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Standard Methods For the Examination of Water and Wastewater</publish>\n </pubinfo>\n <onlink>https://www.standardmethods.org/action/showCitFormats?doi=10.2105%2FSMWW.2882.087</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U.S. EPA.</origin>\n <pubdate>1993</pubdate>\n <title>AQ2 Method EPA-103-A Revision 6 is equivalent to U.S. EPA Method 350.1 Revision 2.0</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>U.S. EPA.</publish>\n </pubinfo>\n <onlink>https://www.epa.gov/esam/epa-method-3501-determination-ammonia-nitrogen-semi-automated-colorimetry</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>ASTM</origin>\n <pubdate>2015</pubdate>\n <title>ASTM D1426-15, Standard Test Methods for Ammonia Nitrogen In Water, ASTM International</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>West Conshohocken, PA</pubplace>\n <publish>ASTM</publish>\n </pubinfo>\n <onlink>http://www.astm.org/cgi-bin/resolver.cgi?D1426</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Tyler B. Coplen</origin>\n <origin>Joe D. Wildman</origin>\n <origin>Julie. Chen</origin>\n <pubdate>200205</pubdate>\n <title>Improvements in the gaseous hydrogen-water equilibration technique for hydrogen isotope-ratio analysis</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Analytical Chemistry</sername>\n <issue>vol. 63, issue 9</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>American Chemical Society (ACS)</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1021/ac00009a014</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Tyler B. Coplen</origin>\n <pubdate>19940101</pubdate>\n <title>Reporting of stable hydrogen, carbon, and oxygen isotopic abundances (Technical Report)</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Pure and Applied Chemistry</sername>\n <issue>vol. 66, issue 2</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Walter de Gruyter GmbH</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1351/pac199466020273</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>I.M. Cozzarelli</origin>\n <origin>K.J. Skalak</origin>\n <origin>D.B. Kent</origin>\n <origin>M.A. Engle</origin>\n <origin>A. Benthem</origin>\n <origin>A.C. Mumford</origin>\n <origin>K. Haase</origin>\n <origin>A. Farag</origin>\n <origin>D. Harper</origin>\n <origin>S.C. Nagel</origin>\n <origin>L.R. Iwanowicz</origin>\n <origin>W.H. Orem</origin>\n <origin>D.M. Akob</origin>\n <origin>J.B. Jaeschke</origin>\n <origin>J. Galloway</origin>\n <origin>M. Kohler</origin>\n <origin>D.L. Stoliker</origin>\n <origin>G.D. Jolly</origin>\n <pubdate>201702</pubdate>\n <title>Environmental signatures and effects of an oil and gas wastewater spill in the Williston Basin, North Dakota</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Science of The Total Environment</sername>\n <issue>vol. 579</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Elsevier BV</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/j.scitotenv.2016.11.157</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Mark A. Engle</origin>\n <origin>Francisco R. Reyes</origin>\n <origin>Matthew S. Varonka</origin>\n <origin>William H. Orem</origin>\n <origin>Lin Ma</origin>\n <origin>Adam J. Ianno</origin>\n <origin>Tiffani M. Schell</origin>\n <origin>Pei Xu</origin>\n <origin>Kenneth C. Carroll</origin>\n <pubdate>201605</pubdate>\n <title>Geochemistry of formation waters from the Wolfcamp and \xe2\x80\x9cCline\xe2\x80\x9d shales: Insights into brine origin, reservoir connectivity, and fluid flow in the Permian Basin, USA</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Chemical Geology</sername>\n <issue>vol. 425</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Elsevier BV</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/j.chemgeo.2016.01.025</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Sally A. Entrekin</origin>\n <origin>Kelly O. Maloney</origin>\n <origin>Katherine E. Kapo</origin>\n <origin>Annika W. Walters</origin>\n <origin>Michelle A. Evans-White</origin>\n <origin>Kenneth M. Klemow</origin>\n <pubdate>20150923</pubdate>\n <title>Stream Vulnerability to Widespread and Emergent Stressors: A Focus on Unconventional Oil and Gas</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>PLOS ONE</sername>\n <issue>vol. 10, issue 9</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Public Library of Science (PLoS)</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1371/journal.pone.0137416</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>S Epstein</origin>\n <origin>T Mayeda</origin>\n <pubdate>195311</pubdate>\n <title>Variation of O18 content of waters from natural sources</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Geochimica et Cosmochimica Acta</sername>\n <issue>vol. 4, issue 5</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Elsevier BV</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/0016-7037(53)90051-9</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Robert A. Gleason</origin>\n <origin>Tara L. Contributions by Chesley-Preston</origin>\n <origin>James L. Coleman</origin>\n <origin>Seth S. Haines</origin>\n <origin>Karen E. Jenni</origin>\n <origin>Timothy L. Nieman</origin>\n <origin>Zell E. Peterman</origin>\n <origin>Max Post van der Burg</origin>\n <origin>Todd M. Preston</origin>\n <origin>Bruce D. Smith</origin>\n <origin>Brian A. Tangen</origin>\n <origin>Joanna N. Thamke</origin>\n <pubdate>2014</pubdate>\n <title>Brine contamination to aquatic resources from oil and gas development in the Williston Basin, United States</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>US Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/sir20145017</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>International Organization for Standardization</origin>\n <pubdate>2016</pubdate>\n <title>ISO 17943:2016 Water quality \xe2\x80\x94 Determination of volatile organic compounds in water \xe2\x80\x94 Method using headspace solid-phase micro-extraction (HS-SPME) followed by gas chromatography-mass spectrometry (GC-MS)</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>International Organization for Standardization</publish>\n </pubinfo>\n <onlink>https://www.iso.org/standard/61076.html</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Ed Kaiser</origin>\n <origin>Jeff Rohrer</origin>\n <pubdate>2015</pubdate>\n <title>Determination of trace anions in high-purity waters using direct injection and two-step isocratic ion chromatography</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Sunnyvale, CA</pubplace>\n <publish>Thermo Fisher Scientific</publish>\n </pubinfo>\n <onlink>https://assets.thermofisher.com/TFS-Assets/CMD/Application-Notes/an-114-ic-trace-anions-high-purity-water-an71546-en.pdf</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Nancy E. Lauer</origin>\n <origin>Jennifer S. Harkness</origin>\n <origin>Avner Vengosh</origin>\n <pubdate>20160427</pubdate>\n <title>Brine Spills Associated with Unconventional Oil Development in North Dakota</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Environmental Science & Technology</sername>\n <issue>vol. 50, issue 10</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>American Chemical Society (ACS)</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1021/acs.est.5b06349</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Christopher T. Mills</origin>\n <origin>Martin B. Goldhaber</origin>\n <origin>Craig A. Stricker</origin>\n <origin>JoAnn M. Holloway</origin>\n <origin>Jean M. Morrison</origin>\n <origin>Karl J. Ellefsen</origin>\n <origin>Donald O. Rosenberry</origin>\n <origin>Roland S. Thurston</origin>\n <pubdate>201106</pubdate>\n <title>Using stable isotopes to understand hydrochemical processes in and around a Prairie Pothole wetland in the Northern Great Plains, USA</title>\n <geoform>application/service</geoform>\n <serinfo>\n <sername>Applied Geochemistry</sername>\n <issue>vol. 26</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Elsevier BV</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/j.apgeochem.2011.03.040</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Kinga Revesz</origin>\n <origin>Tyler Coplen</origin>\n <pubdate>2008</pubdate>\n <title>Determination of the delta (18O/16O) of Water: RSIL Lab Code 489</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>US Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/tm10C2</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Deborah L. Stoliker</origin>\n <origin>Deborah A. Repert</origin>\n <origin>Richard L. Smith</origin>\n <origin>Bongkeun Song</origin>\n <origin>Denis R. LeBlanc</origin>\n <origin>Timothy D. McCobb</origin>\n <origin>Christopher H. Conaway</origin>\n <origin>Sung Pil Hyun</origin>\n <origin>Dong-Chan Koh</origin>\n <origin>Hee Sun Moon</origin>\n <origin>Douglas B. Kent</origin>\n <pubdate>20160311</pubdate>\n <title>Hydrologic Controls on Nitrogen Cycling Processes and Functional Gene Abundance in Sediments of a Groundwater Flow-Through Lake</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Environmental Science & Technology</sername>\n <issue>vol. 50, issue 7</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>American Chemical Society (ACS)</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1021/acs.est.5b06155</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U.S. EPA</origin>\n <pubdate>1974</pubdate>\n <title>Method 415.1: Determination of Total Organic Carbon in Water using Combustion or Oxidation</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>U.S. EPA</publish>\n </pubinfo>\n <onlink>http://www.caslab.com/EPA-Method-415_1</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U.S. EPA</origin>\n <pubdate>1980</pubdate>\n <title>Method 903.1: Radium-226 in drinking water radon emanation technique</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>U.S. EPA</publish>\n </pubinfo>\n <onlink>https://www.epa.gov/esam/epa-method-9031-radium-226-drinking-water-radon-emanation-technique</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U.S. EPA</origin>\n <pubdate>1980</pubdate>\n <title>Method 904.0: Radium-228 in drinking water Prescribed Procedures for Measurement of Radioactivity in Drinking Water, EPA 600/4-80-032</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>U.S. EPA</publish>\n </pubinfo>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U.S. EPA</origin>\n <pubdate>1993</pubdate>\n <title>Method 350.1: Determination of ammonia nitrogen by semi-automated colorimetry, Revision 2.0. US EPA 600/R-93/100</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>U.S. EPA</publish>\n </pubinfo>\n <onlink>https://www.epa.gov/sites/production/files/2015-06/documents/epa-350.1.pdf</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U.S. EPA</origin>\n <pubdate>1993</pubdate>\n <title>Method 300.0: Determination of inorganic anions by ion chromatography, Revision 2.1.</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Cincinnati, OH</pubplace>\n <publish>U.S. EPA</publish>\n </pubinfo>\n <onlink>https://www.epa.gov/sites/production/files/2015-08/documents/method_300-0_rev_2-1_1993.pdf</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U.S. EPA</origin>\n <pubdate>1994</pubdate>\n <title>Method 200.7: Determination of metals and trace elements in water and wastes by Inductively Coupled Plasma-Atomic Emission Spectrometry, Revision 4.4.</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Cincinnati, OH</pubplace>\n <publish>U.S. EPA</publish>\n </pubinfo>\n <onlink>https://www.epa.gov/sites/production/files/2015-08/documents/method_200-7_rev_4-4_1994.pdf</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U.S. EPA</origin>\n <pubdate>1994</pubdate>\n <title>\xe2\x80\x9cMethod 200.8: Determination of Trace Elements in Waters and Wastes by Inductively Coupled Plasma-Mass Spectrometry,\xe2\x80\x9d Revision 5.4.</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Cincinnati, OH</pubplace>\n <publish>U.S. EPA</publish>\n </pubinfo>\n <onlink>https://www.epa.gov/esam/epa-method-2008-determination-trace-elements-waters-and-wastes-inductively-coupled-plasma-mass</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>US Geological Survey</origin>\n <pubdate>2015</pubdate>\n <title>National Field Manual for the Collection of Water-Quality Data. U.S. Geological Survey Techniques of Water-Resources Investigations, Book 9</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>US Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/twri09</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U. S. Geological Survey</origin>\n <pubdate>2012</pubdate>\n <title>U.S. Geological Survey Techniques in Water Resources Investigations, Book 9, Chapters A1-A7</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Washington, DC</pubplace>\n <publish>U. S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.water.usgs.gov/twri9A</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Markus Christian Weissenberger</origin>\n <origin>Sukhmeet Dhillon</origin>\n <pubdate>20140930</pubdate>\n <title>Interrelationship of Weak Organic Acids, Bases, pH and HPLC Analysis Method in Produced Waters</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Society of Petroleum Engineers</publish>\n </pubinfo>\n <onlink>https://doi.org/10.2118/171650-MS</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Mary Jo Baedecker</origin>\n <origin>Robert P. Eganhouse</origin>\n <origin>Barbara A. Bekins</origin>\n <origin>Geoffrey N. Delin</origin>\n <pubdate>201111</pubdate>\n <title>Loss of volatile hydrocarbons from an LNAPL oil source</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Journal of Contaminant Hydrology</sername>\n <issue>vol. 126, issue 3-4</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Elsevier BV</publish>\n </pubinfo>\n <othercit>ppg. 140-152</othercit>\n <onlink>https://doi.org/10.1016/j.jconhyd.2011.06.006</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>for quality assurance please refer to table 12 Quality Assurance/Quality Control (QA/QC)</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>North Dakota Department of Environmental Quality</origin>\n <pubdate>20170701</pubdate>\n <title>North Dakota Oil spills from the North Dakota Department of Environmental Quality Website</title>\n <geoform>tabular digital data</geoform>\n <onlink>https://deq.nd.gov/Spills/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>2008</begdate>\n <enddate>2016</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>NDDOH</srccitea>\n <srccontr>OG wastewater spill size was compiled from the North Dakota Department of Health (NDDOH) OG spills database. Spills from 2008 to 2016 were tabulated from the NDDOH OG spill database and the volume of \xe2\x80\x9cOil\xe2\x80\x9d, \xe2\x80\x9cProduced Water\xe2\x80\x9d, and \xe2\x80\x9cOther Chemicals\xe2\x80\x9d were assigned a geographic location based on the reported well\xe2\x80\x99s American Petroleum Institute\xe2\x80\x99s (API) database on well head location and were total volumes were calculated for each watershed (Hydrologic Unit Code, HUC12) was calculated.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>American Petroleum Institute</origin>\n <pubdate>2017</pubdate>\n <title>American Petroleum Institute\xe2\x80\x99s (API) database on well head location</title>\n <geoform>tabular digital data</geoform>\n <onlink>www.API.org</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>2008</begdate>\n <enddate>2016</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>API</srccitea>\n <srccontr>geographic location of the reported well\xe2\x80\x99s American Petroleum Institute\xe2\x80\x99s (API) database on well head location</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>U.S. Geological Survey</origin>\n <pubdate>20200501</pubdate>\n <title>U.S. Geological Survey. National Hydrography Dataset Plus High Resolution ver. USGS National Hydrography Dataset Best Resolution (NHD) for Hydrologic Unit (HU) 4 - 2001. 2020</title>\n <geoform>tabular digital data</geoform>\n <onlink>https://www.usgs.gov/core-science-systems/ngp/national-hydrography/access-national-hydrography-products</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20200501</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>NHDplus</srccitea>\n <srccontr>Data used to calculate each watershed (Hydrologic Unit Code, HUC12), The watershed size was determined using the largest recorded NHDPlus\xe2\x80\x99s drainage size for streams within each HUC12 watershed using the ArcGIS Join function.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Homer, Collin G</origin>\n <origin>Dewitz, Jon A</origin>\n <origin>Yang, Limin</origin>\n <origin>Jin, Suming</origin>\n <origin>Danielson, Patrick</origin>\n <origin>Xian, George</origin>\n <origin>Coulston, J.</origin>\n <origin>Herold, N.D.</origin>\n <origin>Wickham, J.D.</origin>\n <origin>Megown, K</origin>\n <pubdate>20150501</pubdate>\n <title>Completion of the 2011 National Land Cover Database for the conterminous United States\xe2\x80\x94Representing a decade of land cover change information: Photogrammetric Engineering and Remote Sensing</title>\n <geoform>tabular digital data</geoform>\n <othercit>Photogrammetric Engineering and Remote Sensing, v. 81, no. 5, p. 345\xe2\x80\x93354</othercit>\n <onlink>http://www.ingentaconnect.com/content/asprs/pers/2015/00000081/00000005/art00002</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2015</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>NLCD</srccitea>\n <srccontr>Agricultural activity in each watershed was derived from the National Landcover Database</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Arthur Cooper</origin>\n <pubdate>2011</pubdate>\n <title>National Fish Habitat Action Plan (NFHAP) 2010 Human Disturbance Data for Conterminous United States linked to NHDPLUSV1</title>\n <geoform>dataset</geoform>\n <pubinfo>\n <pubplace>https://www.sciencebase.gov</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/f7b56gn1</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2020</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>NFHAP</srccitea>\n <srccontr>Fish habitat health data from National Fish Habitat Action Plan\xe2\x80\x99s Habitat Condition Index (HCI) score, which is calculated for rivers and watersheds throughout the country, was used to calculate the average HCI score for streams in each HUC12 watershed.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Sally A. Entrekin</origin>\n <origin>Kelly O. Maloney</origin>\n <origin>Katherine E. Kapo</origin>\n <origin>Annika W. Walters</origin>\n <origin>Michelle A. Evans-White</origin>\n <origin>Kenneth M. Klemow</origin>\n <pubdate>20150923</pubdate>\n <title>Stream Vulnerability to Widespread and Emergent Stressors: A Focus on Unconventional Oil and Gas</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>PLOS ONE</sername>\n <issue>vol. 10, issue 9</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Public Library of Science (PLoS)</publish>\n </pubinfo>\n <othercit>ppg. e0137416</othercit>\n <onlink>https://doi.org/10.1371/journal.pone.0137416</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2015</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Entrekin et al</srccitea>\n <srccontr>Soil permeability was identified from the US general soils map and compiled by Entrekin et al. (2015) for HUC 12 watersheds.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Site locations: \n\nApproximately 15 miles north of Williston, a leak of potentially toxic wastewater was detected near the western North Dakota pipeline into Blacktail Creek and the Little Muddy River, which feeds the Missouri River. The leak was reported to state officials in January 2015. Three different matrices are presented in this data release; surface water, seeps, sediments and a pipeline sample. Samples were collected at seven sites along Blacktail Creek and the Little Muddy River during one week in February 2015, two weeks in June 2015, one week in June 2016, and one week in June 2017. Four of the sampling sites were at Blacktail Creek Reference \xe2\x80\x9cBCR\xe2\x80\x9d (WBS-09), \xe2\x80\x9cSpill\xe2\x80\x9d (WBS-08), \xe2\x80\x9c4.7 km\xe2\x80\x9d (WBS-07), and \xe2\x80\x9c7.2 km (1)\xe2\x80\x9d (WBS-05). Water samples were collected at three sites on Little Muddy River: \xe2\x80\x9cLMR\xe2\x80\x9d (WBS-04), \xe2\x80\x9c22.9 km (1)\xe2\x80\x9d (WBS-02), and \xe2\x80\x9c43.8 km\xe2\x80\x9d, (WBS-10). Duplicate sampling was done at two locations every time for sites designated \xe2\x80\x9c7.2 km (2)\xe2\x80\x9d (WBS-03) and \xe2\x80\x9c22.9 km (2)\xe2\x80\x9d (WBS-06). Field blanks were collected at every sampling event except for February 2015. In 2016, cores were collected at the spill and the 4.7 km sites. In 2017, two ground water seep sites, identified as WBS S-GW Blacktail Creek Reference (BCR), and WBS S-GW 7.2 km, were sampled. Sediment samples were collected from the upper one to three centimeters of the soil surface and creek/stream bed bottom. A sample from the pipeline wastewater was supplied by the North Dakota Department of Health in 2015. Site locations were chosen to avoid on-going active remediation, focusing on collecting water samples from the impacted areas downstream. The spill site experienced active remediation during collection years. February 2015 was the only time site 43.8 km was sampled. Site locations including sample name, sampling date, latitude and longitude, and descriptive distances in relation from the pipeline spill are identified in Table S2.</procdesc>\n <procdate>2015</procdate>\n </procstep>\n <procstep>\n <procdesc>Materials and Methods: \n\nWater samples collected from the Blacktail Creek and the Little Muddy River sites were frozen due to the below zero temperature measurements during the February 2015 collection event. Water samples were obtained by augering through the ice. During February and June 2015, June 2016, and June 2017 sampling, in-line filtration was performed using either a 0.20 \xc2\xb5m Whatman\xc2\xae Nuclepore (Whatman Inc., Piscataway, NJ), a 0.20 Supor\xc2\xae (Pall, Port Washington, NY), or a 0.22 \xc2\xb5m Millipore\xc2\xae Sterivex \xe2\x84\xa2 polyethersulfone filter (Burlington, MA). Field measurements were made at the time each water sample was collected for temperature in degrees Celsius, pH, dissolved oxygen (DO), and specific conductance. Water samples were collected using a peristaltic pump and oxygen-impermeable Masterflex L/S\xc2\xae High-Performance Precision Pump Tubing, C-Flex\xc2\xae, (Cole-Parmer, Vernon Hills, IL), in 2015-2016. During the June 2017 field sampling event, Tygon\xc2\xae\xe2\x80\xafE-Food\xe2\x80\xaftubing, (Cole-Parmer, Vernon Hills, IL), was used. Analyses for major cations and trace elements, alkalinity, 87Sr/86Sr (strontium) isotopes, anions, ammonium (NH3-N), a sum of NH4+ and NH3 expressed as total ammonia nitrogen, deuterium and oxygen-18 (\xce\xb42H/ \xce\xb418O), low molecular weight organic acids (LMWOA), semi-volatile hydrocarbons, and non-volatile dissolved organic carbon (NVDOC) was performed. Sediments were characterized for carbon and nitrogen (CN), and extractable ammonium, strontium, barium, and radium isotopes for most collection events. Deeper sediment samples were collected in the incised river corridor on a low lying, subaerial sediment deposits using a portable vibracorer in a 2-inch diameter aluminum pipe collected to a depth of 0.5 m or refusal. Cores were sectioned in the lab in Reston, Virginia and samples put in Whirlpaks\xc2\xae. Sampling for water, sediment, and core analyses were conducted by a two-person team using USGS \xe2\x80\x9cclean hands/dirty hands\xe2\x80\x9d described in Akob et al. (2016). An unfiltered, acidified (HNO3) sample of the pipeline wastewater was analyzed for NVDOC, ammonium, 87Sr/86Sr isotopes, cations, and select anions (Cozzarelli, et al., 2017). Duplicate samples were collected at one site per sampling day, and field equipment blanks were collected once per sampling week. \n\nFor in situ sampling: temperature, pH, DO, sulfide, and specific conductance; water collection for the seven field sites, purpose, method/filter, quantity, bottle/container type, action, preservation for major and trace elements, alkalinity, 87Sr/86Sr isotopes, anions, ammonium, LMWOA, semi-volatile hydrocarbons, CN, radium isotopes and NVDOC for February 2015, June 2015, June 2016, and June 2017 are listed in Table S3. \n\nIn the field, water data for temperature, pH, DO, and specific conductance were recorded using a YSI (Xylem brand, Baton Rouge, LA) multiparameter sonde, calibrated daily. Sulfide was measured with a CHEMetrics sulfide test kit and P2000/P3000 spectrophotometer. Field measurements, in most cases were recorded in duplicate or triplicate, with a reported value as an average, or median of the two or three data points. Water collection reported values for field measurements, NVDOC, ammonium, alkalinity, 87Sr/86Sr isotopes, \xce\xb42H/\xce\xb418O\xe2\x80\xafisotopes, LMWOA and semi-volatile hydrocarbons are reported in Table S4. \n\nLaboratory analyses for anions, cations, and trace elements are listed in Table S5. Sediment and core radiochemistry analyses are listed in Table S6. Laboratory results from extractable ammonium, strontium, and barium are included in Table S7. Water extract and pore water composition is reported in Table S8. Carbon and nitrogen analyses are found in Tables S9. \n\nGeomorphic characteristics from the background, spill site and 4.7 km are presented in Table S10. Data used for the watershed similarity analysis is reported in Table S11. Quality Assurance/Quality Control (QA/QC), including sample matrix, method detection limit, limits of quantification, and method references are recorded in Table S12. \n\nWater-quality sampling was done according to standard field procedures (U.S. Geological Survey, [http://pubs.water.usgs.gov/twri9A]). \n\nUsing an aliquot of the pipeline wastewater bottle that was received from the North Dakota Department of Health, a select number of anions, major cations, ammonium, and NVDOC were measured; these results are reported in Tables S4 and S5. \n\nMajor cation concentrations were measured as milligrams per liter (mg/L) in filtered field-acidified water samples using a Perkin Elmer\xe2\x84\xa2 Optima 4300DV inductively coupled plasma-optical emission spectrometer (ICP-OES) (Perkin Elmer, Waltham, MA) following a modified version of EPA Method 200.7 version 4.4. (U.S. Environmental Protection Agency, 1994) except for barium. Barium was determined by inductively coupled plasma-atomic emission spectrometer (ICP-AES) Thermo-Electron iCAP 6500. Approximately 80% of cation water samples were run in duplicate along with blanks, calibration standards, and external standards. The precision of repetitive measurements with the IC-OES is typically less than 5%. Internal standards were used to compensate for system drift and for analysis of complex matrices that might affect the instruments performance. Results include average, standard deviation (STDEV), and percent relative standard deviation (%RSD). \n\nTrace element concentrations were measured as micro grams per liter (\xce\xbcg/L) in filtered field-acidified water samples using an Agilent 7900\xe2\x84\xa2 Inductively Coupled Plasma-Mass Spectrometer (ICP-MS) (Perkin Elmer, Waltham, MA). Approximately 20% of the water samples analyzed by ICP-MS were run in duplicate along with blanks and calibration standards. Internal standards were used to compensate for system drift and for analysis of complex matrices which might affect the instruments performance. The precision of repetitive measurements was typically less than 3%. The detection limits for the ICP-MS analyses range from ppt (ng/L) to ppb (\xce\xbcg/L), depending on the element. When elements were run on both ICP-OES and ICP-MS, the cutoff is >0.5 mg/L for ICP-OES, <0.5 mg/L for ICP-MS, based on our reported MDL/LOQ values (method detection limit) / (Limits of quantification). \n\nAlkalinity concentrations were measured as mg/L bicarbonate (HCO3-) in filtered field water samples using an automatic titrator, a TIM900\xe2\x84\xa2 Titration Manager, TIM900\xe2\x84\xa2 version 2.1 software, and an ABU901 Autoburette. This analytical system adds a titrant ~ 0.02347N sulfuric acid (H2SO4) using drops to bring a water sample to a pH of 4.2 or lower until an inflection point is reached, under conditions of constant monitoring via a pH meter and an electrode. Analyses were run in triplicate provided that the sample volumes were sufficiently large. Alkalinity data includes average, median (if run in triplicate), n (number of analyses), STDEV, and %RSD. \n\nRadiogenic strontium (87Sr/86Sr) isotopes were measured in field filtered, acidified water samples using a multiple collector-ICP-MS at the Center for Earth and Environmental Science at the University of Texas in El Paso, following chemical purification using Eichrom Sr resin (Eichrom Technologies, Lisle, IL).\xe2\x80\xaf The method is cited by Cozzarelli et al. (2017). Accuracy was assessed during this investigation through the repeated analysis of secondary standard EN-1 (mean=0.70917, std. error=0.000003, n=12) with every sample batch over 2016-2019 analyses dates. Agreement with the accepted value of 0.709174 was obtained. Accuracy across a wider range of values was demonstrated by the determination of standard BCR-2 (0.70498) relative to its median reported value in GeoReM of\xe2\x80\xaf0.70501\xc2\xb10.00004.\xe2\x80\xaf Long-term external precision of the data is 0.00002 (2s), based on repeated analysis of EN-1 (n=12) over 2016-2019 analyses dates. \n\nMajor anions were measured as mg/L in filtered field water samples using suppressed ion chromatography, a Dionex\xe2\x84\xa2 120 and Thermo Dionex\xe2\x84\xa2 ICS 1000 Ion Chromatograph (IC) (Thermo Fisher, Sunnyvale, CA) with an ED50 Electrochemical Detector and a high capacity AS14 anion-exchange column (Thermo Scientific, Waltham, MA). The AS14 column uses a carbonate/bicarbonate eluent coupled with suppressed conductivity detection for determination of inorganic anions (chloride, bromide, nitrate, phosphate, and sulfate) in diverse sample matrices and meets the performance requirements specified in US EPA Method 300.0 (A). Analyses were run in duplicate/triplicate provided that the sample volume is sufficiently large. Water samples were run in conjunction with blanks, certified reference material standards, and calibration/check standards. Anion data includes average, median (if run in triplicate), n, STDEV, and %RSD. \n\nAmmonium (NH4) concentrations were measured as NH3, as N in filtered field water samples on an AQ2 Discrete Seal Analyzer that uses a robotic sampling arm working in conjunction with a stepper motor-driven syringe. The\xe2\x80\xafsyringe\xe2\x80\xafis\xe2\x80\xafused for aspirating, dispensing, and mixing the sample and reagent into miniaturized test tubes (reaction wells). The sample and reagents were incubated in the reaction wells for a pre-programmed time.\xe2\x80\xaf A single aliquot is then transferred into the stop/flow Optical Quality Glass Cuvette. Alkaline phenol and hypochlorite react with ammonia to form indophenol blue, the blue color formed is intensified by sodium nitroferricyanide dehydrate, and then measured spectrophotometrically at 650-660 nm.\xe2\x80\xaf A minimum of 80% of the field water samples were run in duplicate. Blanks, calibration standards and certified reference material standards were run in each batch. Reference AQ2 Method EPA-103A. Results were expressed mg/L ammonia-nitrogen, NH3-N. \n\nHydrogen-isotope\xe2\x80\xafratio\xe2\x80\xaf(\xce\xb42H) and oxygen-isotope ratio (\xce\xb418O)\xe2\x80\xafanalyses were measured as \xe2\x80\xb0 (per mil) in filtered, unfiltered, and unfiltered-preserved field water samples. A hydrogen equilibration technique (Coplen, et al., 1991; R\xc3\xa9v\xc3\xa9sz and Coplen, 2008) was used. For oxygen isotope analysis, the CO2 equilibration technique of Epstein and Mayeda (1953), which has been automated (R\xc3\xa9v\xc3\xa9sz and Coplen, 2008), was used. Reporting of \xce\xb42H and \xce\xb418O results were reported in per mil relative to VSMOW (Vienna Standard Mean Ocean Water) and were normalized (Coplen, 1994) on scales such that the oxygen and hydrogen isotopic values of SLAP (Standard Light Antarctic Precipitation) were -55.5 per mil and -428 per mil, respectively. \n\nThe 2-sigma uncertainties of the isotopic results were 0.2 per mil for oxygen, and 2 per mil for hydrogen, unless otherwise indicated. These uncertainties indicate that if the same sample were resubmitted for isotopic analysis, the newly measured value would be within the uncertainty bounds 95% of the time. All water samples were run three or more times. The two isotope reference materials (standards) with their isotope span cover the isotope values of unknown samples were loaded onto every analysis run. \n\nThe acceptance criteria for the QC water samples were the same as the field water samples. For each batch of water samples, a graph was made of \xce\xb42H plotted against \xce\xb418O. If outliers were noted, then they were reanalyzed for either one or both of \xce\xb42H and \xce\xb418O. \n\nLow molecular weight organic acid concentrations for lactate, acetate, propionate, formate, butyrate, pyruvate, and benzoate were measured as mg/L in unfiltered field water samples using a Dionex\xe2\x84\xa2 ICS2100 Ion Chromatograph with an IonPac AS11-HC anion exchange column, a potassium hydroxide gradient pump, and an IonPac AG11-HC on-guard column (Thermo Scientific, Waltham, MA). These columns were designed for the separation of monovalent carboxylic acids: lactate, acetate, propionate, formate, butyrate, and pyruvate.\xe2\x80\xafThe microporous resins on the on-guard cartridge ensure optimum long-term performance of the guard. The high capacity of this column increases retention times to 48 minutes and contributes to a higher resolution. The Dionex\xe2\x84\xa2 IonPac AG11-HC guard column is packed with a microporous resin which has a lower capacity. This method is modified from the Dionex\xe2\x84\xa2 Fisher Scientific Determination of Trace Anions in High-Purity Waters Using Direct Injection and Two-Step Isocratic Ion Chromatography, Application Note 114 method (Kaiser, et al., n.d.) (Thermo Fisher Scientific, Sunnyvale, CA). Water samples were injected through a 50-micron loop and were run in triplicate if there were enough sample volumes. \n\nLow molecular weight organic acid concentrations for lactate, acetate, propionate, butyrate, and benzoate were measured as mg/L in unfiltered field water samples that contained elevated concentrations of sodium, chloride, or sulfate were analyzed using an Agilent 1220 Infinity liquid chromatograph with a Dionex\xe2\x84\xa2 Acclaim OA column and matching guard column. This column was designed for organic acid separation from a wide range of aqueous matrices. Formate and pyruvate co-elude with this method. Waters samples were filtered through a 0.22\xc2\xb5m Sterivex\xe2\x84\xa2 filter and acidified with reagent grade hydrochloric acid (HCl) prior to injection. A 25 \xc2\xb5L sample was injected, with a sample loop capacity up to 100 \xc2\xb5L for dilute samples. Reported values include median, STDEV, and %RSD. Blanks, calibration standards, certified reference material standards, and external standards were run with each batch of water samples. The method was modified from Weissenberger et al. (2014). \n\nNon-volatile dissolved organic carbon concentrations were measured as mg/L of Carbon (C) in filtered field-HCl acidified water samples using a Shimadzu TOC-VCSN\xe2\x80\xafanalyzer Total Organic Carbon Analyzer (Shimadzu Corporation, Columbia, MD) and ASI-V autosampler. The instrument employs a combination high temperature combustion/non-dispersive infrared detector (NDIR) technique. The acidified water samples were sparged with Ultra Zero air to remove the inorganic carbon. Water samples were then injected into a combustion tube containing a platinum catalyst and heated, oxidizing all carbon compounds in the sample to CO2 gas. The CO2 generated by oxidation was detected using a non-dispersive infrared detector (NDIR). Water samples were run in duplicate or triplicate if sample volumes were sufficiently large. Water samples were run in conjunction with blanks, certified reference material standards, and calibration/check standards. NVDOC data includes average, median (if run in triplicate), n, STDEV, and %RSD. This method is modified from EPA Method 415.1, 1.11. \n\nSemi-volatile hydrocarbons concentrations were measured as \xce\xbcg/L in unfiltered water samples preserved with mercuric chloride, analyzed by headspace solid phase microextraction (HS-SPME) followed by gas chromatography-mass spectrometry (GC/MS) using an Agilent 7890A+ gas chromatograph coupled to an Agilent 5977A quadrupole mass spectrometer using a modification of Baedecker et al (2011) and ISO Method 17943 (2016). Hydrocarbons were sorbed onto a SPME fiber as the sample was heated and vortexed, and the fiber then desorbed in the GC inlet. The compounds of interest were condensed on the head of the column by cooling the GC oven to -50 degree C and separated on an Agilent HP-5MS column as the oven was ramped to 285 degree C. Eluting peaks were detected using the mass spectrometer in Selected Ion Monitoring mode. Compounds were identified based on comparison of retention times and major ions to authentic standards. Quantification was based on an external standard curve composed of authentic standards. Variations in extraction efficiency were controlled for with deuterated internal standards corresponding to compounds of interest. Approximately 20% of water samples were run in duplicate, and certified reference materials and blanks were run every five water samples to quantify accuracy. Changes in extraction and/or chromatographic efficiency were controlled using deuterated internal standard compounds. Detection limits were in the high PPT (ng/L) to low PPB (\xce\xbcg/L) range, depending on the target compound. \n\n\xe2\x80\xaf228Ra and\xe2\x80\xaf226Ra in sediments and select cores were measured by counting daughter isotopes by gamma-ray spectroscopy. Samples for radium analyses were sealed for 30 days for ingrowth of radium daughter isotopes. To expedite counting, samples for 226Ra were counted using its 186 keV peak. Because\xe2\x80\xaf226Ra analyses using its 186 keV peak may have interference from a\xe2\x80\xaf235U peak, the 186 peak was used primarily to screen samples prior to counting by 226Ra daughter isotopes. Results from both 226Ra analyses and 228Ra analyses are included with 226Ra analyses by daughter isotopes in Table S6. Uranium and radium activity are provided in becquerels (disintegrations per second) per kilogram sediment dry weight. Concentrations can be calculated from the formula Ci = (Ait1/2i)/{(Na)(ln2)}, where i refers to the specific radionuclide, Ci to the concentration (moles/kg sediment), Ai the activity, t1/2,i the half-life (seconds), Na Avogadro\xe2\x80\x99s number (dimensionless), and ln2 is the natural logarithm of 2. Samples taken in 2017 were analyzed by ALS Environmental (Fort Collins, CO); 226Ra was measured by radon emanation as described by EPA Method 903.1, and 228Ra was measured using gas flow proportional counting as described by EPA Method 904. \n\nCN quantitative analyses for carbon and nitrogen sediment samples were measured using a Thermo Fisher Scientific\xe2\x84\xa2 Flash 2000 Elemental Analyzer (Thermo Fisher Scientific Inc., Waltham, MA). The operation of the elemental analyzer was based on the complete and instantaneous oxidation of the sample by \xe2\x80\x9cflash combustion\xe2\x80\x9d whereby all organic and inorganic substances are converted into combustion products. The ground dried sediments, which were contained in a tin capsule, were introduced into the instrument automatically by a MAS200R autosampler tray. From the tray they then dropped into the oxidation/reduction reactor column. Flash combustion causes oxidation of 85-95% of the sample. Complete oxidation of reduced carbon and sulfur is achieved when the mixture of gases passes over the catalyst layer of chromic oxide. A thermal conductivity detector measures the individual components of the gas mixture as they elute from the column. The signal produced from the thermal conductivity detector is passed to an A/D converter, and the peaks are integrated by the EAGER Xperience data system. A chromatogram and an analysis report (containing raw data and calculated values) are used to calculate the percent composition of carbon and nitrogen. \n\nSediment-bound ammonium was analyzed using extractions with potassium chloride (KCl) (Stoliker, et al., 2016). Ten grams of wet sediments were reacted with 13.3 grams of 2.0 mole/L potassium chloride. Samples were then tumbled end over end for approximately two hours, placed in a centrifuge and spun down. The samples were filtered through a 0.20 \xce\xbcm in-line filter then measured on an AQ2 Discrete Seal Analyzer. A modified EPA Method 305.1 version 2 was used. Following this method, alkaline phenol and hypochlorite react with ammonia to form indophenol blue; the blue color formed is intensified by sodium nitroferricyanide dihydrate. The sample is then measured spectrophotometrically at 650-600 nm. Ammonium plus ammonia was reported. Short-term sediment-bound chemical forms of Ba and Sr were determined by ICP-OES (Thermo iCAP 6500, Thermo Fisher Scientific Inc, Waltham, MA) following method cited in Cozzarelli et al (2017).\n\nAll instrument values were either exported or entered into an Excel spreadsheet and all calculations were made using Excel function keys.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n <procstep>\n <procdesc>Processing steps for Table S11:\n\nTable S-11 is a watershed scale analysis to determine locations with characteristics similar to where the spill occurred on the Blacktail River. We utilized multiple, publicly available databases to score each watershed based on 6 characteristics: 1) OG wastewater spill size, 2) distance of spills to the nearest stream, 3) Current fish habitat health, 4) groundwater permeability, 5) agricultural activity in the basin, and 6) watershed size. A total of the 809 HUC 12 watersheds in the Bakken region of North Dakota were investigated and 298 had known spills as well as a fish habitat assessment. \n\nThe databases used to quantify these characteristics were compiled using the following procedures:\n\n1) OG wastewater spill size was compiled from the North Dakota Department of Health (NDDOH) OG spills database. Spills from 2008 to 2016 were tabulated from the NDDOH OG spill database and the volume of \xe2\x80\x9cOil\xe2\x80\x9d, \xe2\x80\x9cProduced Water\xe2\x80\x9d, and \xe2\x80\x9cOther Chemicals\xe2\x80\x9d were assigned a geographic location based on the reported well\xe2\x80\x99s American Petroleum Institute\xe2\x80\x99s (API) database on well head location and were total volumes were calculated for each watershed (Hydrologic Unit Code, HUC12) was calculated. \n\n2) The likely distance of each spill to a stream was computed using ArcGIS Pro\xe2\x80\x99s Near function using the API well head location database to the nearest intersection with the National Hydrological Database (NHDPlus) stream location.\n\n3) Fish habitat health data from National Fish Habitat Action Plan\xe2\x80\x99s Habitat Condition Index (HCI) score, which is calculated for rivers and watersheds throughout the country, was used to calculate the average HCI score for streams in each HUC12 watershed. \n\n4) Soil permeability was identified from the US general soils map and compiled by Entrekin et al. (2015) for HUC 12 watersheds. \n\n5) Agricultural activity in each watershed was derived from the National Landcover Database (NLCD) and HUC12 watershed averages for each landcover class was compiled by Entrekin et. al 2015. For the purpose of identifying agriculture activity in the watershed our analysis used the percentage of cover of both \xe2\x80\x9cCropland\xe2\x80\x9d and \xe2\x80\x9cPasture\xe2\x80\x9d for our rankings.\n\n6) The watershed size was determined using the largest recorded NHDPlus\xe2\x80\x99s drainage size for streams within each HUC12 watershed using the ArcGIS Join function. \n\nSites without spills or fish surveys were excluded from the analysis leaving 298 HUC12 watersheds. Each of the 6 metrics were ranked by quartile and watersheds with similar characteristics were identified using ArcGIS\xe2\x80\x99s Similarity function.</procdesc>\n <srcused>NDDOH</srcused>\n <srcused>API</srcused>\n <srcused>NHDplus</srcused>\n <srcused>NFHAP</srcused>\n <srcused>Entrekin et al</srcused>\n <procdate>202006</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Adam J Benthem</cntper>\n <cntorg>U.S. Geological Survey, NORTHEAST REGION</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>331 Commerce Way</address>\n <city>Pembroke</city>\n <state>NH</state>\n <postal>03275-3718</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>603-226-7853</cntvoice>\n <cntfax>603-226-7894</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Table-S2-Site-Locations.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. This table describes the exact site latitude and longitude taken by GPS for each sample site and sample date.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Site</attrlabl>\n <attrdef>Field sample site name</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>BCR</edomv>\n <edomvd>Background Conditions Reference site from Blacktail Creek</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Spill Site</edomv>\n <edomvd>sample site just downstream from the spill area</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4.7 km (downstream of spill)</edomv>\n <edomvd>surface water collection site 4.7 km downstream from the spill site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7.2 km (1)</edomv>\n <edomvd>surface water collection site 7.2 km downstream of the spill site, field replicate number one</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7.2 km (2)</edomv>\n <edomvd>surface water collection site 7.2 km downstream of the spill site, field replicate number two</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LMR</edomv>\n <edomvd>surface water site, Little Muddy River reference site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>22.9 km (1)</edomv>\n <edomvd>surface water site at USGS stream gauge (site ID 06331000) 22.9 km from spill site field replicate one</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>22.9 km (2)</edomv>\n <edomvd>surface water site at USGS stream gauge (site ID 06331000) 22.9 km from spill site field replicate two</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>43.8 km</edomv>\n <edomvd>surface water site 43.8 km downstream from the spill site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Field blank</edomv>\n <edomvd>field blanks are prepared in the actual same containers as the field samples are collected in using analyte-free water</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7.2 km GW seep</edomv>\n <edomvd>groundwater seep about 7.2 km downstream from the spill site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>BCR GW seep</edomv>\n <edomvd>groundwater seep located near the background reference site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample Name</attrlabl>\n <attrdef>sample identification number</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>identification number used for samples from a specific site</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sampling Date</attrlabl>\n <attrdef>A representation of time in which the smallest unit of measure is a day. The value is expressed in MMDDYYYY</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>OPSE</edomv>\n <edomvd>one per sampling event</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>02112015</rdommin>\n <rdommax>06292017</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>latitude (X)</attrlabl>\n <attrdef>latitude of field sample site</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ND</edomv>\n <edomvd>no data collected for the latitude,</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>48.152362</rdommin>\n <rdommax>48.416279</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>longitude (Y)</attrlabl>\n <attrdef>longitude of field sample site</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ND</edomv>\n <edomvd>no data collected for the longitude</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>-103.646640</rdommin>\n <rdommax>-103.570510</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Distance from Spill Site</attrlabl>\n <attrdef>description of the field sample site relative to the spill site or bland description</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>distance in kilometers upstream or downstream from the spill site. Most samples are surface water but groundwater seeps are noted, pipeline samples are described, and field blanks are defined</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table-S3-Field-Sampling-Characteristics.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. This table describes the field sampling procedures for the different sampling dates, sample matrix, collection volumes, containers, and preservation.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Data Characteristic</attrlabl>\n <attrdef>description of the characteristic to be measured or field measurement</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Temperature</edomv>\n <edomvd>sample temperature in degrees Celsius (\xc2\xb0C) in the field</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>pH</edomv>\n <edomvd>pH reported in standard units taken in the field</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Dissolved Oxygen</edomv>\n <edomvd>Dissolved oxygen in milligram per liter (mg/L) taken in the field</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Specific Conductance</edomv>\n <edomvd>Specific Conductivity in microsiemen per centimeter (\xc2\xb5S/cm) taken in the field</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Cations</edomv>\n <edomvd>sample collected for the analysis of Cations at the laboratory</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Alkalinity</edomv>\n <edomvd>Alkalinity HCO3- read at the lab reported as milligram per liter as bicarbonate (mg/L as HCO3-)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Strontium Isotopes</edomv>\n <edomvd>sample collected for strontium 87Sr/86Sr isotopes to be measured at the laboratory</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Anions</edomv>\n <edomvd>sample collected for anions to be measured at the laboratory</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Ammonium</edomv>\n <edomvd>sample collected for ammonium to be measured at the laboratory</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Deuterium & Oxygen-18 Isotopes</edomv>\n <edomvd>sample collected for Deuterium (delta2H) and oxygen-18 isotopes</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LMWOA</edomv>\n <edomvd>sample collected for low molecular weight organic acid</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Hydrocarbons</edomv>\n <edomvd>sample collected for hydrocarbons</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NVDOC</edomv>\n <edomvd>sample collected non-volatile dissolved organic carbon</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>CN</edomv>\n <edomvd>sample collected Carbon Nitrogen</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Radium & Uranium Isotopes</edomv>\n <edomvd>sample for measuring Radium & Uranium Isotopes at the laboratory</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Sulfide</edomv>\n <edomvd>Dissolved sulfide measured in the field</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sampling Date</attrlabl>\n <attrdef>A representation of time in which the smallest unit of measure is a month. The value is expressed in MM YYYY</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>022015</rdommin>\n <rdommax>062017</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Matrix</attrlabl>\n <attrdef>sample matrix</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>water</edomv>\n <edomvd>water sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>sediment</edomv>\n <edomvd>sediment sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>floodplain core</edomv>\n <edomvd>A core pressed into the sediment that was then sampled into five centimeter increments with zero indicting the top of the core at the sediment surface.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Method/Filter</attrlabl>\n <attrdef>either the instrument used to make the field measurement, the filter used to take a water sample, or the method used to take a sediment sample</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>YSI sonde</edomv>\n <edomvd>YSI EXO multiparameter sonde (Xylem brand, Baton Rouge, LA)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>0.20 \xc2\xb5m Whatman\xc2\xae Nuclepore</edomv>\n <edomvd>filter size and brand used to filter the water sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>grab sample</edomv>\n <edomvd>individual sample collected without compositing or adding other samples to it</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>0.20 Supor\xc2\xae</edomv>\n <edomvd>size and brand of the filter used to collect the water sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>scoop</edomv>\n <edomvd>Several centimeters of the surface sediment were collected using clean sterile scoop</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>0.22 \xc2\xb5m Sterivex</edomv>\n <edomvd>filter size and brand of the filter used to collect the water sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>vibracorer</edomv>\n <edomvd>sediment core then sampled into 5cm increments</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Unfiltered; CHEMetrics Kit with Photometer</edomv>\n <edomvd>Unfiltered water sample taken and measured at the laboratory</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Quantity</attrlabl>\n <attrdef>number of bottles and volume of the sample taken</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>not applicable</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <udom>number of samples taken (volume in mL of sample taken)</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Bottle/Container type</attrlabl>\n <attrdef>sample container material or type</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>not applicable</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Whirlpak\xc2\xae</edomv>\n <edomvd>Standard plastic sample bag</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HDPE</edomv>\n <edomvd>High Density Polyethylene plastic bottle</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>clear VOA glass</edomv>\n <edomvd>Volatile Organic Analysis glass bottle, clear glass</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>clear</edomv>\n <edomvd>clear glass bottle</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>amber VOA glass</edomv>\n <edomvd>Volatile Organic Analysis glass bottle, amber glass</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Action</attrlabl>\n <attrdef>sample bottle preparation before the sample was taken</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>not applicable</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>pre-rinse</edomv>\n <edomvd>Bottles were pre-rinsed with sample that was discarded before the bottle was filled.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>pre-rinse, no head space</edomv>\n <edomvd>bottle was pre-rinsed with sample before taking sample, sample bottle was filled to the top</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>no pre-rinse</edomv>\n <edomvd>sample bottle was not pre-rinsed</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>clean scoop</edomv>\n <edomvd>clean sterile scoop</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>pre-rinse, fill to shoulder</edomv>\n <edomvd>sample bottle was pre-rinsed, the bottle was only filled to the bottle shoulder</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>pre-rinse, fill 2/3rds</edomv>\n <edomvd>sample bottle was pre-rinsed with sample and the bottle was filled 2/3 of the way</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>pre-rinse with sample, minimum head space</edomv>\n <edomvd>bottle was pre-rinsed with sample, and bottle almost filled to the top</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Preservation</attrlabl>\n <attrdef>sample preservation method</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>not applicable</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>acidify w/double distilled Optima nitric acid, store & ship on wet ice</edomv>\n <edomvd>acidified with nitric acid and chilled with wet ice</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>store & ship on wet ice</edomv>\n <edomvd>Kept cold with ice</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>store & ship on dry ice</edomv>\n <edomvd>sample frozen with dry ice and kept frozen</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>mercuric chloride, store & ship on wet ice</edomv>\n <edomvd>VOL/CONC mercuric chloride added, sample kept cold on wet ice</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>acidify w/trace grade hydrochloric acid, store & ship on wet ice</edomv>\n <edomvd>acidified with hydrochloric acid and kept cold using wet ice</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>acidify with double distilled Optima nitric acid ~pH 2, store and ship on wet ice</edomv>\n <edomvd>acidified nitric acid (end pH 2) and chilled on wet ice</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table-S10-Geomorphology.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Table-S10-Geomorphology: Geomorphic characteristics of Blacktail Creek background (BCR) and 4.2 km sites</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Site</attrlabl>\n <attrdef>name of the sample site, see table S2 for GPS location and site description</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>BCR</edomv>\n <edomvd>Background Conditions Reference site from Blacktail Creek</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4.7 km</edomv>\n <edomvd>surface water collection site 4.7 km downstream from the spill site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sampling Date</attrlabl>\n <attrdef>A representation of time in which the smallest unit of measure is a day. The value is expressed in MM/DD/YYYY</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>06/27/2017</rdommin>\n <rdommax>06/27/2017</rdommax>\n <attrunit>MM/DD/YYYY</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Data Characteristic</attrlabl>\n <attrdef>A defined water area</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Pool</edomv>\n <edomvd>An area of the stream that has greater depths and slower currents than riffles and runs.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Riffle</edomv>\n <edomvd>An area of shallow water created by deposition of coarse sediment</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Run</edomv>\n <edomvd>An area where the water is flowing rapidly, generally located downstream of riffles. Runs are deeper than riffles.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Average River Width (m)</attrlabl>\n <attrdef>average width of the river</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.5</rdommin>\n <rdommax>3.0</rdommax>\n <attrunit>meter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Average Sediment Depth (cm)</attrlabl>\n <attrdef>average depth of the sediment</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>35</rdommax>\n <attrunit>centimeter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Geomorphic feature storage rate (m3/km)</attrlabl>\n <attrdef>storage rate of the described feature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>150</rdommin>\n <rdommax>1050</rdommax>\n <attrunit>meter cubed per kilometer</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Length of Feature (m)</attrlabl>\n <attrdef>The length of the described water feature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>23</rdommin>\n <rdommax>266</rdommax>\n <attrunit>meter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percentage of measured river length</attrlabl>\n <attrdef>The length of a stream is the distance measured along the stream channel from the source to a given point or to the outlet, a distance that may be measured on a map or from aerial photographs. On large-scale maps, it is measured along the geometrical axis, or the line of maximum depth.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>78</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Estimated Sediment storage in geomorphic unit (m3/km)</attrlabl>\n <attrdef>estimated sediment storage in geomorphic unit in cubic meters per kilometer</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>23</rdommin>\n <rdommax>700</rdommax>\n <attrunit>meter cubed per kilometer</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>This data release includes twelve data tables given both as Excel (*.xlxs) and machine readable 'comma-separated values' format (*.csv):\n\nTable-S1-Data-Dictionary: Data dictionary for data generated in the Blacktail Creek OG wastewater spill study. This table contains the detailed entity and attribute information for tables S4 - S9 and S11- S12. \nThe entity and attribute section for descriptive tables S2, S3, and S10 are included in this metadata file.\n\nTable-S2-Site-Locations: Descriptions of sampling site locations for the Blacktail Creek OG wastewater spill study. \n\nTable-S3-Field-Sampling-Characteristics: Summary of field sampling procedures for the Blacktail Creek OG wastewater spill study. \n\nTable-S4-Field-Measurements-and-Geochemistry-of-Water-samples: Field measurements and organic acids and hydrocarbon concentrations in water samples from the Blacktail Creek OG wastewater spill study.\n\nTable-S5-Cation-Anions-Trace: Concentrations of major cations, anions, and trace elements in samples from the Blacktail Creek OG wastewater spill study.\n\nTable-S6-Radium-Analysis: Radiochemistry for sediment samples collected for the Blacktail Creek OG wastewater spill study. In stream sediment and bank seep sediments (GW seep) were analyzed.\n\nTable-S7-Extractable-NH4-Sr-Ba: KCl-extractable ammonium and HCl-extractable strontium and barium concentrations in sediments from the Blacktail Creek OG wastewater spill study.\n\nTable-S8-Seeps-extraction: Measured and computed composition of water extracts and pore water concentrations computed from replicate (Rep.) water extract compositions.\n\nTable-S9-CN-Analysis: Total C and N in sediments from the Blacktail Creek OG wastewater spill study.\n\nTable-S10-Geomorphology: Geomorphic characteristics of Blacktail Creek background (BCR) and 4.2 km sites.\n\nTable-S11-Blacktail-similarity: Data used for the watershed similarity analysis.\n\nTable-S12-QAQC: Quality Assurance /Quality Control parameters for analyses used in the Blacktail Creek OG wastewater spill study</eaover>\n <eadetcit>Table-S1-Data-Dictionary included with this data release contains the entity and attribute information for the heading in the first row for tables S4-S9, and S11- S12.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>XLSX, CSV</formname>\n <formvern>none</formvern>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P961J30G</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Jeanne B Jaeschke</cntper>\n <cntorg>U.S. Geological Survey, WATER</cntorg>\n </cntperp>\n <cntpos>Physical Scientist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 431, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>703-648-5872</cntvoice>\n <cntfax>703-648-5274</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
Generate a FGDC (Federal Geographic Data Committee) XML from following description of datarelease: | [Skip to main content](#sb-container-body)
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [Energy Resources Program](/catalog/item/57dff880e4b09082500211f7)
3. [Central Energy Resources Science Center - Legacy Data Collection](/catalog/item/601c5893d34e94a4b9fc2742)
4. [Unioned layers for the Ferris 23, 25, 31, 50 and 65 coal zones, Hanna Basin, Wyoming (fer\*fing)](/catalog/folder/60c90a0ed34e86b9389de4e4)
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## Dates
Publication Date2021-06-15Time Period1998Release Date1999-09-30
## Citation
United States Geological Survey, 1999, Unioned layers for the Ferris 23, 25, 31, 50 and 65 coal zones, Hanna Basin, Wyoming (fer\*fing): U.S. Geological Survey data release, https://doi.org/10.5066/P9FH0D9P.
## Summary
These ArcView shapefiles contain representations of numerous themes associated with the Ferris coal zones in the Ferris coalfield, Hanna Basin, Wyoming. The purpose of these shapefiles is to allow for multiple theme queries. These datasets were created specifically for the National Coal Resource Assessment in the Northern Rocky Mountains and Great Plains Region.
## Summary
These ArcView shapefiles contain representations of numerous themes associated with the Ferris coal zones in the Ferris coalfield, Hanna Basin, Wyoming. The purpose of these shapefiles is to allow for multiple theme queries. These datasets were created specifically for the National Coal Resource Assessment in the Northern Rocky Mountains and Great Plains Region.
## Contacts
Point of Contact
:
[U.S. Geological Survey - CERSC Data Management Services Project](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey+-+CERSC+Data+Management+Services+Project)
Process Contact
:
[Margaret Ellis](/catalog/catalogParty/show?partyId=Margaret+Ellis),
[USGS Energy Resources Team](/catalog/catalogParty/show?partyId=USGS+Energy+Resources+Team)
Originator
:
[United States Geological Survey](/catalog/catalogParty/show?partyId=United+States+Geological+Survey)
Metadata Contact
:
[U.S. Geological Survey - CERSC Data Management Services Project](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey+-+CERSC+Data+Management+Services+Project)
Publisher
:
[USGS Central Region Energy Resources Team](/catalog/catalogParty/show?partyId=USGS+Central+Region+Energy+Resources+Team)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey+-+ScienceBase)
SDC Data Owner
:
[Central Energy Resources Science Center](/catalog/catalogParty/show?partyId=17388)
USGS Mission Area
:
[Energy and Minerals](/catalog/catalogParty/show?partyId=Energy+and+Minerals)
## Attached Files - sorting - [Metadata First](/catalog/item/get/60c90a0ed34e86b9389de4e4?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/60c90a0ed34e86b9389de4e4?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/60c90a0ed34e86b9389de4e4?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| ferfing.xml<br>_Original FGDC Metadata_ | View | 11.58 KB | application/fgdc+xml |
| ferfing.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/60c90a0ed34e86b9389de4e4?f=__disk__1d%2F3c%2F41%2F1d3c41c3c1b60e7188b00890de7242c5072b7e47&width=112&height=113) | 69.17 KB | image/jpeg |
| | | |
| --- | --- | --- |
| fer23fing.dbf | | 178.77 KB |
| fer23fing.prj | | 167 Bytes |
| fer23fing.sbn | | 12.17 KB |
| fer23fing.sbx | | 1,004 Bytes |
| fer23fing.shp | | 411.45 KB |
| fer23fing.shx | | 9.37 KB |
Shapefile:
fer23fing.zip
| | | |
| --- | --- | --- |
| fer25fing.dbf | | 199.52 KB |
| fer25fing.prj | | 167 Bytes |
| fer25fing.sbn | | 13.21 KB |
| fer25fing.sbx | | 972 Bytes |
| fer25fing.shp | | 448.25 KB |
| fer25fing.shx | | 10.45 KB |
Shapefile:
fer25fing.zip
| | | |
| --- | --- | --- |
| fer31fing.dbf | | 118.16 KB |
| fer31fing.prj | | 167 Bytes |
| fer31fing.sbn | | 7.72 KB |
| fer31fing.sbx | | 652 Bytes |
| fer31fing.shp | | 269.74 KB |
| fer31fing.shx | | 6.22 KB |
Shapefile:
fer31fing.zip
| | | |
| --- | --- | --- |
| fer50fing.dbf | | 114.85 KB |
| fer50fing.prj | | 167 Bytes |
| fer50fing.sbn | | 7.4 KB |
| fer50fing.sbx | | 564 Bytes |
| fer50fing.shp | | 245.29 KB |
| fer50fing.shx | | 6.05 KB |
Shapefile:
fer50fing.zip
| | | |
| --- | --- | --- |
| fer65fing.dbf | | 91.79 KB |
| fer65fing.prj | | 167 Bytes |
| fer65fing.sbn | | 6.41 KB |
| fer65fing.sbx | | 532 Bytes |
| fer65fing.shp | | 218.77 KB |
| fer65fing.shx | | 5.11 KB |
Shapefile:
fer65fing.zip
... show more ... (Attached Files)
## Purpose
The Nation's coal resources are being assessed by the USGS. This assessment identifies and characterizes the coal beds and coal zones that will provide the bulk of the Nation's coal-derived energy during the next few decades. This assessment is different from previous USGS assessments because digital files and databases are being collected and stored in standardized formats, and being analyzed using a Geographic Information System (GIS).
## Preview Image
![Preview Image](https://www.sciencebase.gov/catalog/file/get/60c90a0ed34e86b9389de4e4?f=__disk__1d%2F3c%2F41%2F1d3c41c3c1b60e7188b00890de7242c5072b7e47)
## [Map](/catalog/item/imap/60c90a0ed34e86b9389de4e4)
[![](https://basemap.nationalmap.gov/ArcGIS/rest/services/USGSTopo/MapServer/export?size=360%2C220&bbox=-1.191316389313165E7%2C5131816.943118363%2C-1.1850952328666989E7%2C5169835.121401478&f=image&format=png24&transparent=true)![](https://www.sciencebase.gov/catalogMaps/mapping/ows/60c90a0ed34e86b9389de4e4?service=wms&layers=fer23fing%2Cfer25fing%2Cfer31fing%2Cfer50fing%2Cfer65fing%2Cfootprint&format=image/png&height=220&width=360&request=getmap&transparent=true&srs=EPSG:900913&styles=&version=1.1.1&bbox=-1.191316389313165E7,5131816.943118363,-1.1850952328666989E7,5169835.121401478)](/catalog/item/imap/60c90a0ed34e86b9389de4e4)
## Spatial Services
ScienceBase WMS
ScienceBase WFS
## Communities
- Energy Resources Program
## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
- [pre-SM502.8](/catalog/items?q=&filter=browseCategory%3Dpre-SM502.8 "pre-SM502.8")
Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
Theme
- [Coal](/catalog/items?q=&filter=tags%3DCoal "Coal (Coal, Theme, None)")
- [Ferris 23 coal zone](/catalog/items?q=&filter=tags%3DFerris+23+coal+zone "Ferris 23 coal zone (Ferris 23 coal zone, Theme, None)")
- [Ferris 25 coal zone](/catalog/items?q=&filter=tags%3DFerris+25+coal+zone "Ferris 25 coal zone (Ferris 25 coal zone, Theme, None)")
- [Ferris 31 coal zone](/catalog/items?q=&filter=tags%3DFerris+31+coal+zone "Ferris 31 coal zone (Ferris 31 coal zone, Theme, None)")
- [Ferris 50 coal zone](/catalog/items?q=&filter=tags%3DFerris+50+coal+zone "Ferris 50 coal zone (Ferris 50 coal zone, Theme, None)")
- [Ferris 65 coal zone](/catalog/items?q=&filter=tags%3DFerris+65+coal+zone "Ferris 65 coal zone (Ferris 65 coal zone, Theme, None)")
- [Ferris Formation](/catalog/items?q=&filter=tags%3DFerris+Formation "Ferris Formation (Ferris Formation, Theme, None)")
- [National Coal Resource Assessment](/catalog/items?q=&filter=tags%3DNational+Coal+Resource+Assessment "National Coal Resource Assessment (National Coal Resource Assessment, Theme, None)")
- [Northern Rocky Mountain and Great Plains Fort Union Coal Resources Assessment](/catalog/items?q=&filter=tags%3DNorthern+Rocky+Mountain+and+Great+Plains+Fort+Union+Coal+Resources+Assessment "Northern Rocky Mountain and Great Plains Fort Union Coal Resources Assessment (Northern Rocky Mountain and Great Plains Fort Union Coal Resources Assessment, Theme, None)")
- [Query layer](/catalog/items?q=&filter=tags%3DQuery+layer "Query layer (Query layer, Theme, None)")
- [Union coverage](/catalog/items?q=&filter=tags%3DUnion+coverage "Union coverage (Union coverage, Theme, None)")
- [coal](/catalog/items?q=&filter=tags%3Dcoal "coal (coal, Theme, EnergyResourceActivities)")
- [economy](/catalog/items?q=&filter=tags%3Deconomy "economy (economy, Theme, ArcIMS Metadata Server Theme Codes)")
- [environment](/catalog/items?q=&filter=tags%3Denvironment "environment (environment, Theme, ArcIMS Metadata Server Theme Codes)")
- [geoscientificInformation](/catalog/items?q=&filter=tags%3DgeoscientificInformation "geoscientificInformation (geoscientificInformation, Theme, ArcIMS Metadata Server Theme Codes)")
- [hannabasincoal](/catalog/items?q=&filter=tags%3Dhannabasincoal "hannabasincoal (hannabasincoal, Theme, EnergyResourceActivities)")
- [nca2000](/catalog/items?q=&filter=tags%3Dnca2000 "nca2000 (nca2000, Theme, EnergyResourceActivities)")
- [nrockiescoal](/catalog/items?q=&filter=tags%3Dnrockiescoal "nrockiescoal (nrockiescoal, Theme, EnergyResourceActivities)")
Place
- [Carbon County](/catalog/items?q=&filter=tags%3DCarbon+County "Carbon County (Carbon County, Place, None)")
- [Ferris 23 study limit](/catalog/items?q=&filter=tags%3DFerris+23+study+limit "Ferris 23 study limit (Ferris 23 study limit, Place, None)")
- [Ferris 25 study limit](/catalog/items?q=&filter=tags%3DFerris+25+study+limit "Ferris 25 study limit (Ferris 25 study limit, Place, None)")
- [Ferris 31 study limit](/catalog/items?q=&filter=tags%3DFerris+31+study+limit "Ferris 31 study limit (Ferris 31 study limit, Place, None)")
- [Ferris 50 study limit](/catalog/items?q=&filter=tags%3DFerris+50+study+limit "Ferris 50 study limit (Ferris 50 study limit, Place, None)")
- [Ferris 65 study limit](/catalog/items?q=&filter=tags%3DFerris+65+study+limit "Ferris 65 study limit (Ferris 65 study limit, Place, None)")
- [Ferris coalfield](/catalog/items?q=&filter=tags%3DFerris+coalfield "Ferris coalfield (Ferris coalfield, Place, None)")
- [Northern Rocky Mountains and Great Plains Region](/catalog/items?q=&filter=tags%3DNorthern+Rocky+Mountains+and+Great+Plains+Region "Northern Rocky Mountains and Great Plains Region (Northern Rocky Mountains and Great Plains Region, Place, None)")
- [Wyoming](/catalog/items?q=&filter=tags%3DWyoming "Wyoming (Wyoming, Place, None)")
Types
- [Downloadable](/catalog/items?q=&filter=browseType%3DDownloadable "Downloadable")
- [Map Service](/catalog/items?q=&filter=browseType%3DMap+Service "Map Service")
- [OGC WFS Layer](/catalog/items?q=&filter=browseType%3DOGC+WFS+Layer "OGC WFS Layer")
- [OGC WMS Layer](/catalog/items?q=&filter=browseType%3DOGC+WMS+Layer "OGC WMS Layer")
- [Shapefile](/catalog/items?q=&filter=browseType%3DShapefile "Shapefile")
## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9FH0D9P |
### Shapefile Extension
| boundingBox | | minY | 41.81659037044583 |
| minX | -106.86008815634374 |
| maxY | 42.047457101655475 |
| maxX | -106.6171347675755 | |
| files | | name | fer23fing.dbf |
| contentType | text/plain |
| pathOnDisk | \_\_disk\_\_a0/11/da/a011da8b7998e3394a04262fcc1de3c633144233 |
| imageWidth | 580 |
| imageHeight | 435 |
| size | 183056 |
| dateUploaded | Tue Jun 15 14:14:05 MDT 2021 |
| name | fer23fing.prj |
| contentType | text/plain |
| pathOnDisk | \_\_disk\_\_fd/b6/24/fdb624043adcf4dc270aa14e697ca9511ac99514 |
| imageWidth | 580 |
| imageHeight | 435 |
| size | 167 |
| dateUploaded | Tue Jun 15 14:14:05 MDT 2021 |
| name | fer23fing.sbn |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_78/87/41/7887419f484c4a63c4b03a1cf2d7bc54e2e65083 |
| size | 12460 |
| dateUploaded | Tue Jun 15 14:14:05 MDT 2021 |
| name | fer23fing.sbx |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_0e/49/e3/0e49e36660daec467f5b37d4385409e04bd1f8b6 |
| size | 1004 |
| dateUploaded | Tue Jun 15 14:14:05 MDT 2021 |
| name | fer23fing.shp |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_8a/fc/ae/8afcae2f0f042dd6b0e604a517f03cfa7a98e0b3 |
| size | 421328 |
| dateUploaded | Tue Jun 15 14:14:05 MDT 2021 |
| name | fer23fing.shx |
| contentType | x-gis/x-shapefile |
| pathOnDisk | \_\_disk\_\_93/8c/0c/938c0cb98f3841ff1f5c82ef34e591b4fd4d649d |
| size | 9596 |
| dateUploaded | Tue Jun 15 14:14:05 MDT 2021 | |
| geometryType | MultiPolygon |
| name | fer23fing |
| nativeCrs | EPSG:4269 |
### Shapefile Extension
| boundingBox | | minY | 41.81659037044583 |
| minX | -106.85755062832537 |
| maxY | 42.047457308010195 |
| maxX | -106.6171347675755 | |
| files | | name | fer25fing.dbf |
| contentType | text/plain |
| pathOnDisk | \_\_disk\_\_cb/98/4a/cb984a4794d36a6c7bdd0807cb844b69217a85ce |
| imageWidth | 580 |
| imageHeight | 435 |
| size | 204308 |
| dateUploaded | Tue Jun 15 14:14:05 MDT 2021 |
| name | fer25fing.prj |
| contentType | text/plain |
| pathOnDisk | \_\_disk\_\_11/69/ce/1169ceeb76981beecd96be8a07d89782986ab59d |
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| imageHeight | 435 |
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### Shapefile Extension
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### Shapefile Extension
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### Shapefile Extension
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>United States Geological Survey</origin>\n <pubdate>19990930</pubdate>\n <title>Unioned layers for the Ferris 23, 25, 31, 50 and 65 coal zones, Hanna Basin, Wyoming (fer*fing)</title>\n <geoform>Downloadable GIS Data</geoform>\n <serinfo>\n <sername>U. S. Geological Survey Professional Paper</sername>\n <issue>1625-A</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston,VA</pubplace>\n <publish>USGS Central Region Energy Resources Team</publish>\n </pubinfo>\n <lworkcit>\n <citeinfo>\n <origin>Fort Union Coal Asssessment Team</origin>\n <pubdate>1999</pubdate>\n <title>1999 Resource Assessment of Selected Tertiary Coal Beds and Zones in the Northern Rocky Mountains and Great Plains Region</title>\n <serinfo>\n <sername>U.S. Geological Survey Professional Paper</sername>\n <issue>1625-A</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://greenwood.cr.usgs.gov/energy/coal/PP1625A/</onlink>\n </citeinfo>\n </lworkcit>\n <onlink>https://doi.org/10.5066/P9FH0D9P</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>These ArcView shapefiles contain representations of\nnumerous themes associated with the Ferris coal zones\nin the Ferris coalfield, Hanna Basin, Wyoming. The\npurpose of these shapefiles is to allow for multiple theme\nqueries. These datasets were created specifically for the\nNational Coal Resource Assessment in the Northern Rocky\nMountains and Great Plains Region.</abstract>\n <purpose>The Nation's coal resources are being assessed by the\nUSGS. This assessment identifies and characterizes\nthe coal beds and coal zones that will provide the\nbulk of the Nation's coal-derived energy during the\nnext few decades. This assessment is different from\nprevious USGS assessments because digital files\nand databases are being collected and stored in\nstandardized formats, and being analyzed using a\nGeographic Information System (GIS).</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>1998</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-106.8595</westbc>\n <eastbc>-106.6166</eastbc>\n <northbc>42.0475</northbc>\n <southbc>41.8166</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>Ferris 23 coal zone</themekey>\n <themekey>Ferris 25 coal zone</themekey>\n <themekey>Ferris 31 coal zone</themekey>\n <themekey>Ferris 50 coal zone</themekey>\n <themekey>Ferris 65 coal zone</themekey>\n <themekey>Coal</themekey>\n <themekey>Northern Rocky Mountain and Great Plains Fort Union Coal Resources Assessment</themekey>\n <themekey>Query layer</themekey>\n <themekey>Union coverage</themekey>\n <themekey>Ferris Formation</themekey>\n <themekey>National Coal Resource Assessment</themekey>\n </theme>\n <theme>\n <themekt>ArcIMS Metadata Server Theme Codes</themekt>\n <themekey>geoscientificInformation</themekey>\n <themekey>economy</themekey>\n <themekey>environment</themekey>\n </theme>\n <theme>\n <themekt>EnergyResourceActivities</themekt>\n <themekey>coal</themekey>\n <themekey>nca2000</themekey>\n <themekey>nrockiescoal</themekey>\n <themekey>hannabasincoal</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Northern Rocky Mountains and Great Plains Region</placekey>\n <placekey>Wyoming</placekey>\n <placekey>Carbon County</placekey>\n <placekey>Ferris 23 study limit</placekey>\n <placekey>Ferris 25 study limit</placekey>\n <placekey>Ferris 31 study limit</placekey>\n <placekey>Ferris 50 study limit</placekey>\n <placekey>Ferris 65 study limit</placekey>\n <placekey>Ferris coalfield</placekey>\n </place>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:60c90a0ed34e86b9389de4e4</themekey>\n </theme>\n </keywords>\n <accconst>None</accconst>\n <useconst>None</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - CERSC Data Management Services Project</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 25, Mail Stop 939</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://www.sciencebase.gov/catalog/file/get/60c90a0ed34e86b9389de4e4?f=__disk__1d%2F3c%2F41%2F1d3c41c3c1b60e7188b00890de7242c5072b7e47</browsen>\n <browsed>Thumbnail view of the spatial query layer for the Ferris 23 coal zone (the final unioned coverage)</browsed>\n </browse>\n <native>ArcView version 3.0\nARC/INFO 7.1.2\nSUNOS, 5.6 SUN4U\nUNIX</native>\n </idinfo>\n <dataqual>\n <logic>Polygon features present</logic>\n <complete>Limited to the Ferris Coal Zones</complete>\n <posacc>\n <horizpa>\n <horizpar>Limited to software coordinates precision to geographic\ncoordinates</horizpar>\n </horizpa>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>The following layers were joined together using the UNION\ncommand in ARC/INFO. The resulting polygons were\nedited and then clipped to the boundary of the area. See\nthe metadata for the corresponding shapefiles for more\ninformation.\n\nfer*catg.shp\nfer*ovbg.shp\nhbcbowng.shp\nfer*stdyg.shp\n\nThis file also contains 7.5' quadrangles.</procdesc>\n <procdate>19980000</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Margaret Ellis</cntper>\n <cntorg>USGS Energy Resources Team</cntorg>\n </cntperp>\n <cntpos>Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Box 25046\nMS 939\nDenver Federal Center</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225-0046</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303.236.7775</cntvoice>\n <cntemail>[email protected]</cntemail>\n <hours>Monday through Friday, 8:00 AM- 3:00 PM</hours>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>GT-polygon composed of chains</sdtstype>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>.0001</latres>\n <longres>.0001</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>North American Datum of 1983</horizdn>\n <ellips>Geodetic Reference System 80</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>fer*fing.dbf</enttypl>\n <enttypd>Shapefile Attribute Table</enttypd>\n <enttypds>None</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Area</attrlabl>\n <attrdef>Area of polygon</attrdef>\n <attrdefs>Software computed</attrdefs>\n <attrdomv>\n <udom>Numeric field</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Perimeter</attrlabl>\n <attrdef>Perimeter of polygon</attrdef>\n <attrdefs>Software computed</attrdefs>\n <attrdomv>\n <udom>Numeric field</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Thickcat</attrlabl>\n <attrdef>Coal thickness in ft</attrdef>\n <attrdefs>User Defined</attrdefs>\n <attrdomv>\n <udom>Character field</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Overburden</attrlabl>\n <attrdef>Overburden in ft</attrdef>\n <attrdefs>User Defined</attrdefs>\n <attrdomv>\n <udom>Character field</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Name</attrlabl>\n <attrdef>Quad name</attrdef>\n <attrdefs>User Defined</attrdefs>\n <attrdomv>\n <udom>Character field</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Surface</attrlabl>\n <attrdef>Surface status</attrdef>\n <attrdefs>User Defined</attrdefs>\n <attrdomv>\n <udom>Character field</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Subsurface</attrlabl>\n <attrdef>Subsurface status</attrdef>\n <attrdefs>User Defined</attrdefs>\n <attrdomv>\n <udom>Character field</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>Downloadable Data</resdesc>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Shapefile</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9FH0D9P</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20210615</metd>\n <metrd>200712</metrd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - CERSC Data Management Services Project</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 25, Mail Stop 939</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC CSDGM</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [Pacific Coastal and Marine Science Center](/catalog/item/585c3c01e4b01224f329bb08)
3. [Bathymetry, topography, and sediment grain-size data from the Elwha River delta, Washington](/catalog/item/5a01f6d0e4b0531197b72cfe)
4. [Bathymetry and topography data from the Elwha River delta, Washington, May 2012](/catalog/item/58530ebae4b0e2663625f17e)
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## Dates
Publication Date2017Start Date2012-05-18End Date2012-05-20
## Citation
Stevens, A.W., Gelfenbaum, G., Warrick, J.A., Miller, I.M., and Weiner, H.M., 2017, Bathymetry and topography data from the Elwha River delta, Washington, May 2012: U.S. Geological Survey data release, http://dx.doi.org/10.5066/F78G8HWT.
## Summary
This portion of the USGS data release presents topography data collected during surveys performed on the Elwha River delta, Washington, in May 2012 (USGS Field Activity Number W-03-12-PS). Topography data were collected on foot with global navigation satellite system (GNSS) equipment mounted on backpacks operating primarily in Real-Time Kinematic (RTK) mode. A total of 4 GNSS backpacks, each equipped with a dual-frequency GNSS receiver and handheld data collector, were used during the survey. Differential corrections were transmitted at 1-Hz intervals by a VHF radio to the backpack GNSS receivers from a GNSS base station placed on a benchmark with known horizontal and vertical coordinates relative to the North American Datum of 1983 \[...\]
## Summary
This portion of the USGS data release presents topography data collected during surveys performed on the Elwha River delta, Washington, in May 2012 (USGS Field Activity Number W-03-12-PS). Topography data were collected on foot with global navigation satellite system (GNSS) equipment mounted on backpacks operating primarily in Real-Time Kinematic (RTK) mode. A total of 4 GNSS backpacks, each equipped with a dual-frequency GNSS receiver and handheld data collector, were used during the survey. Differential corrections were transmitted at 1-Hz intervals by a VHF radio to the backpack GNSS receivers from a GNSS base station placed on a benchmark with known horizontal and vertical coordinates relative to the North American Datum of 1983 (CORS96 realization) and North American Vertical Datum of 1988.
Prior to data collection, vertical distances between the GNSS antenna and the ground were measured using a tape measure for each topographic surveyor. Hand-held data collectors were used to log raw data and display navigational information allowing surveyors to navigate along predefined survey lines spaced at 25- to 50-m intervals along the delta. Profiles were surveyed from the landward edge of the primary dune over the beach foreshore, to wading depth on the same series of transects as nearshore bathymetric surveys that were conducted during the same time period. Additional topography data were collected between transects to better characterize morphologic variability within the study area.
The estimated vertical uncertainty of the topographic measurements is 5 cm. The final point data are provided in comma-separated text format and are projected in Cartesian coordinates using the Washington State Plane North, meters coordinate system.
## Contacts
Point of Contact
:
[Andrew W Stevens](/catalog/catalogParty/show?partyId=9917)
Originator
:
[Andrew W Stevens](/catalog/catalogParty/show?partyId=9917),
[Guy R Gelfenbaum](/catalog/catalogParty/show?partyId=3625),
[Jonathan Warrick](/catalog/catalogParty/show?partyId=10966),
[Ian Miller](/catalog/catalogParty/show?partyId=7009),
[Heather Weiner](/catalog/catalogParty/show?partyId=72783)
Metadata Contact
:
[Andrew W Stevens](/catalog/catalogParty/show?partyId=9917)
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## Purpose
Data were obtained to assess the coastal geomorphic response following the removal of two dams on the Elwha River. These data are intended for science researchers, students, policy makers, and the general public. These data can be used with geographic information systems or other software to identify topographic and shallow-water bathymetric features.
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## Tags
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- [Bathymetry and Elevation](/catalog/items?q=&filter=tags%3DBathymetry+and+Elevation "Bathymetry and Elevation (Bathymetry and Elevation, Theme, Data Categories for Marine Planning)")
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- [Clallam County](/catalog/items?q=&filter=tags%3DClallam+County "Clallam County (Clallam County, Place, )")
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Andrew W. Stevens</origin>\n <origin>Guy Gelfenbaum</origin>\n <origin>Jonathan A. Warrick</origin>\n <origin>Ian M. Miller</origin>\n <origin>Heather M. Weiner</origin>\n <pubdate>2017</pubdate>\n <title>Topography data from the Elwha River delta, Washington, May 2012</title>\n <geoform>comma-delimited text</geoform>\n <serinfo>\n <sername>data release</sername>\n <issue>DOI:10.5066/F78G8HWT</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Santa Cruz, CA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F78G8HWT</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Andrew W. Stevens</origin>\n <origin>Guy Gelfenbaum</origin>\n <origin>Jonathan A. Warrick</origin>\n <origin>Ian M. Miller</origin>\n <origin>Heather M. Weiner</origin>\n <pubdate>2017</pubdate>\n <title>Bathymetry and topography data from the Elwha River delta, Washington, May 2012</title>\n <serinfo>\n <sername>data release</sername>\n <issue>DOI:10.5066/F78G8HWT</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Santa Cruz, CA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F78G8HWT</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This part of the data release presents topography data from the Elwha River delta collected in May 2012. Topography data were collected on foot with global navigation satellite system (GNSS) receivers mounted on backpacks.</abstract>\n <purpose>Data were obtained to assess the coastal geomorphic response following the removal of two dams on the Elwha River. These data are intended for science researchers, students, policy makers, and the general public. These data can be used with geographic information systems or other software to identify topographic and shallow-water bathymetric features.</purpose>\n <supplinf>Additional information about the field activities from which these data were derived are available online at: http://cmgds.marine.usgs.gov/fan_info.php?fan=W0312PS</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20120518</begdate>\n <enddate>20120520</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition at time data were collected</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-123.581338</westbc>\n <eastbc>-123.538286</eastbc>\n <northbc>48.150938</northbc>\n <southbc>48.137188</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:585313b0e4b0e2663625f19b</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>topography</themekey>\n <themekey>GPS measurement</themekey>\n </theme>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>elevation</themekey>\n </theme>\n <theme>\n <themekt>Data Categories for Marine Planning</themekt>\n <themekey>Bathymetry and Elevation</themekey>\n </theme>\n <theme>\n <themekt>Marine Realms Information Bank (MRIB) keywords</themekt>\n <themekey>Global Positioning System (GPS) observations</themekey>\n </theme>\n <theme>\n <themekt>Global Change Master Directory (GCMD)</themekt>\n <themekey>GPS (Global Positioning System)</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Clallum County</placekey>\n <placekey>Olympic Peninsula</placekey>\n <placekey>Strait of Juan de Fuca</placekey>\n <placekey>Elwha River</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>USGS-authored or produced data and information are in the public domain from the U.S. Government and are freely redistributable with proper metadata and source attribution. Please recognize and acknowledge the U.S. Geological Survey as the originator(s) of the dataset and in products derived from these data. This information is not intended for navigational purposes.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Andrew W. Stevens</cntper>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2885 Mission St.</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>831-460-7424</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Repeatability tests were conducted across different survey platforms, but no comparisons to "true" values were conducted.</attraccr>\n </attracc>\n <logic>All data falls within expected ranges.</logic>\n <complete>Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A series of benchmarks with known coordinates were established adjacent to the study area to provide geodetic control for the bathymetric and topographic surveys. The positions of the benchmarks were derived from a minimum of two static GNSS occupations. The equipment for the static occupations consisted of a dual frequency Trimble R7 GNSS receiver, a fixed-height tripod, and Trimble Geodetic Model 2 antenna. The static observations were recorded internally in the receiver and the raw observations were processed using the National Geodetic Survey (NGS) Online Positioning User Service (OPUS, https://www.ngs.noaa.gov/OPUS/). Estimated uncertainties in the horizontal position of the individual GNSS occupations were provided by OPUS and ranged between 0.006 m and 0.06 m with an average horizontal uncertainty of 0.02 m. The processed positions from each occupation were averaged to obtain the final reported position of the benchmark. All final positions of the GNSS backpacks were determined using differential corrections from the base station receivers. Manufacturer reported accuracy for the differentially corrected horizontal positions for the Trimble R7, R8, and R10 receivers used in the survey is 0.8 cm + 0.5 ppm. Baselines from the GNSS base station were typically less than 5 km, suggesting a horizontal accuracy of backpack positions to be 0.825 cm relative to the base station. The combined horizontal uncertainty from the base station coordinate solutions and rover trajectories is therefore approximately 3 cm. Uncertainty in the horizontal positions associated with variable posture during data collection of the surveyors is unknown.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>The vertical uncertainty of topographic measurements is estimated by combining the uncertainty in the base station coordinate and remote GNSS positions collected in kinematic mode. Uncertainties in the elevation of the base station were provided by NGS OPUS and ranged between 0.02 m and 0.04 m, with an average vertical uncertainty of 0.03 m. Manufacturer reported vertical accuracy in the rover positions is 1.5 cm + 1 ppm for differential corrected kinematic data for the Trimble R7, R8 and R10 receivers used in the surveys. Baseline lengths were typically less than 5 km, suggesting the vertical accuracy of backpack positions to be 2 cm relative to the base station coordinates. Combining the uncertainty in the elevation of the base station coordinates and rover positions yields a total uncertainty in the backpack GNSS positions of approximately 5 cm. Uncertainty in the vertical positions associated with variable posture of the surveyors during data collection is unknown.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Topography data were collected between May 18 and May 20, 2012 on foot with GNSS equipment mounted on backpacks operating in real-time kinematic (RTK) mode. A total of 4 GNSS backpacks, each equipped with a dual-frequency GNSS receiver and hand-held data collector, were used during the survey. Differential corrections were transmitted at 1-Hz intervals by a VHF radio to the backpack GNSS receivers from a GNSS base station placed on a benchmark with known horizontal and vertical coordinates relative to the North American Datum of 1983 (CORS96 realization) and North American Vertical Datum of 1988. Prior to data collection, vertical distances between the GNSS antenna and the ground were measured using a tape measure for each topographic surveyor. Hand-held data collectors were used to log raw data and display navigational information allowing surveyors to navigate along predefined survey lines spaced at 25- to 50-m intervals along the delta. Profiles were surveyed from the landward edge of the primary dune over the beach foreshore, to wading depth on the same series of transects as the nearshore bathymetry platforms. Additional topography data between transects were collected to better characterize morphologic variability within the study area.</procdesc>\n <procdate>20120520</procdate>\n </procstep>\n <procstep>\n <procdesc>Raw topography data were reviewed in either Trimble Geomatics Office (TGO) or Trimble Business Center (TBC) to ensure measured antenna offsets were applied properly in the field. Differential post-processing was performed on points collected in autonomous mode where VHF communication with the base station failed. All available topography data were compiled and exported in comma-separated text file for distribution.</procdesc>\n <procdate>20120525</procdate>\n </procstep>\n <procstep>\n <procdesc>Edited metadata to add keywords section with USGS persistent identifier as theme keyword. No data were changed.</procdesc>\n <procdate>20201019</procdate>\n <proccont>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>VeeAnn A. Cross</cntper>\n </cntorgp>\n <cntpos>Marine Geologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>384 Woods Hole Road</address>\n <city>Woods Hole</city>\n <state>MA</state>\n <postal>02543-1598</postal>\n </cntaddr>\n <cntvoice>508-548-8700 x2251</cntvoice>\n <cntfax>508-457-2310</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Performed minor edits to the metadata to correct typos. No data were changed</procdesc>\n <procdate>20211014</procdate>\n <proccont>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>Susan A. Cochran</cntper>\n </cntorgp>\n <cntpos>Geologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n </cntaddr>\n <cntvoice>831-460-7545</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <mapproj>\n <mapprojn>Lambert Conformal Conic</mapprojn>\n <lambertc>\n <stdparll>47.5</stdparll>\n <stdparll>48.73333333333333</stdparll>\n <longcm>-120.8333333333333</longcm>\n <latprjo>47.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </lambertc>\n </mapproj>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.001</absres>\n <ordres>0.001</ordres>\n </coordrep>\n <plandu>METERS</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>NAD83 (CORS96)</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n <vertdef>\n <altsys>\n <altdatum>North American Vertical Datum of 1988</altdatum>\n <altres>0.001</altres>\n <altunits>meters</altunits>\n <altenc>Explicit elevation coordinate included with horizontal coordinates</altenc>\n </altsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the dataset</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Survey_Date</attrlabl>\n <attrdef>The date corresponding to the start of the multi-day survey in mm/dd/yyyy format</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>05/18/2012</rdommin>\n <rdommax>05/18/2012</rdommax>\n <attrunit>date in mm/dd/yyyy format</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>Longitude coordinate of data point relative to the North American Datum of 1983 (CORS96 realization)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-123.581338</rdommin>\n <rdommax>-123.538286</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>Latitude coordinate of data point relative to the North American Datum of 1983 (CORS96 realization)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>48.137188</rdommin>\n <rdommax>48.150938</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>X</attrlabl>\n <attrdef>East coordinate of data point relative to the North American Datum of 1983 (CORS96 realization), projected in the Washington State Plane, North, meters, coordinate system</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>295528.980</rdommin>\n <rdommax>298769.010</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y</attrlabl>\n <attrdef>North coordinate of data point relative to the North American Datum of 1983 (CORS96 realization), projected in the Washington State Plane, North, meters, coordinate system</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>130084.980</rdommin>\n <rdommax>131541.090</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ellip_Ht_m</attrlabl>\n <attrdef>Height in meters of data point with reference to the reference ellipsoid</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-20.970</rdommin>\n <rdommax>-14.180</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ortho_Ht_m</attrlabl>\n <attrdef>Height in meters of data point with reference to the North American Vertical Datum of 1988 at the base station (-20.11 m above ellipsoid height).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.860</rdommin>\n <rdommax>5.930</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - Science Base</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>Topography data are available as a comma-delimited text file (ew12_may_topo.txt), along with associated metadata.</resdesc>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>comma-delimited text</formname>\n <formvern>Matlab 9.0.0.341360</formvern>\n <formspec>text</formspec>\n <formcont>comma-delimited text file</formcont>\n <transize>7.0</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://www.sciencebase.gov/catalog/file/get/585313b0e4b0e2663625f19b/?name=ew12_may_topo.txt</networkr>\n </networka>\n </computer>\n <accinstr>Data can be downloaded via the Internet</accinstr>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n\n <metainfo>\n <metd>20211014</metd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n <cntper>PCMSC Science Data Coordinator</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060-5792</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>831-427-4747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2016Time Period2016
## Citation
Witt III, E.C., Goodrich, D.C., and Sturtevant, Luke, 2017, Data validating computation of boundary roughness from QL2 lidar derived digital elevation models for 2D hydraulic modeling applications: U.S. Geological Survey data release, https://doi.org/10.5066/F70G3H9T.
## Summary
Calibration of hydraulic models require careful selection of input parameters to provide the best possible modeling outcome. Currently the selection of hydraulic resistance or 'n' values for these models is a subjective process potentially exposing models to critical review . A process is needed to objectively estimate n-values so everyone responsible for model calibration arrives at the same answer. Use of standard elevation products can support this effort. This dataset is presented as supplemental information for a journal article describing the process of using the root mean square average of elevation standard deviation from lidar derived 1 m rasters to objectively estimate the boundary roughness conditions of a watershed bare \[...\]
## Summary
Calibration of hydraulic models require careful selection of input parameters to provide the best possible modeling outcome. Currently the selection of hydraulic resistance or 'n' values for these models is a subjective process potentially exposing models to critical review . A process is needed to objectively estimate n-values so everyone responsible for model calibration arrives at the same answer. Use of standard elevation products can support this effort. This dataset is presented as supplemental information for a journal article describing the process of using the root mean square average of elevation standard deviation from lidar derived 1 m rasters to objectively estimate the boundary roughness conditions of a watershed bare earth surface as part of the total hydraulic roughness needed for modeling overland flows in forested drainages. A GIS tool has beeen developed to support investigators who need to objectively estimate boundary roughness for their hydraulic modeling applications.
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| XML\_Python\_ArcGISToolbox.xml<br>“Metadata”<br>_Original FGDC Metadata_ | View | 7.11 KB | application/fgdc+xml |
| Calculate Boundary n values.tbx<br>“ArcGIS Toolbox” | | 47.5 KB | application/x-tika-msoffice |
| Calculate Boundary Roughness.py<br>“Python script” | | 3.73 KB | text/x-python |
## Purpose
To provide a Python script that utilizes the formulae to determine boundary roughness from 1 m digital elevation models.
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## Tags
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## Provenance
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>David C. Goodrich</origin>\n <origin>Luke Sturtevant</origin>\n <pubdate>2016</pubdate>\n <title>Data validating computation of boundary roughness from QL2 lidar derived digital elevation models for 2D hydraulic modeling applications--Pyhton Script and Toolbox</title>\n <geoform>Python script and associated ArcGIS tool</geoform>\n <pubinfo>\n <pubplace>Rolla, MO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://dx.doi.org/10.5066/F70G3H9T</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Calibration of hydraulic models require careful selection of input parameters to provide the best possible modeling outcome. Currently the selection of hydraulic resistance or \'n\' values for these models is a subjective process potentially exposing models to critical review . A process is needed to objectively estimate n-values so everyone responsible for model calibration arrives at the same answer. Use of standard elevation products can support this effort. This dataset is presented as supplemental information for a journal article describing the process of using the root mean square average of elevation standard deviation from lidar derived 1 m rasters to objectively estimate the boundary roughness conditions of a watershed bare earth surface as part of the total hydraulic roughness needed for modeling overland flows in forested drainages. A GIS tool has beeen developed to support investigators who need to objectively estimate boundary roughness for their hydraulic modeling applications.</abstract>\n <purpose>To provide a Python script that utilizes the formulae to determine boundary roughness from 1 m digital elevation models.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2016</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>As needed</update>\n </status>\n <keywords>\n <theme>\n <themekt>Scientific software</themekt>\n <themekey>Python script</themekey>\n <themekey>ArcGIS toolbox</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5850045ae4b00645734c5474</themekey>\n </theme>\n <place>\n <placekt>National Park Service</placekt>\n <placekey>Wilsons Creek National Battlefield Park, Republic, MO</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Emitt C. Witt III</cntper>\n <cntorg>U.S. Geological Survey, Center of Excellence for Geospatial Information Science</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1400 Independence Road</address>\n <city>Rolla</city>\n <state>MO</state>\n <postal>65401</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>573-308-3679</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Python script developed to calculate boundary roughness from 1 m DEM using equation in, "Estimating boundary roughness for hydraulic modeling in forested floodplains using publicly available lidar and its derived products.</procdesc>\n <procdate>20161122</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Calculate_Boundary_roughness</enttypl>\n <enttypd>File contains the Python code with comments.</enttypd>\n <enttypds>Primary author</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Python schema</attrlabl>\n <attrdef>Alpha and numeric components to a Python script</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Python script</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Calculate n-values</enttypl>\n <enttypd>ArcGIS toolbox</enttypd>\n <enttypds>Primary author</enttypds>\n </enttyp>\n <attr>\n <attrlabl>ArcGIS Toolbox</attrlabl>\n <attrdef>Python scripted used to build an Arc GIS toolbox</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Toolbox</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing</addrtype>\n <address>Denver Federal Center</address>\n <address>Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice />\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Product should only be used by those who understand n-value calculation procedures. These data only result in a boundary roughness determination and must be coordinated with other floodplain factors to arrive at a viable starting n-value estimate.</distliab>\n <stdorder>\n <digform>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://dx.doi.org/10.5066/F70G3H9T</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Emitt C. Witt III</cntper>\n <cntorg>USGS, Center of Excellence for Geospatial Information Science</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1400 Ondependence Road</address>\n <city>Rolla</city>\n <state>MO</state>\n <postal>65401</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>573-308-3679</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Data Release Products](/catalog/item/5474ec49e4b04d7459a7eab2)
3. [Peak-Flow Frequency Analyses by the U.S. Geological Survey Wyoming - Montana Water Science Center](/catalog/item/5852f60be4b0e2663625ee71)
4. [Peak-flow frequency analyses for 14 selected streamgages in the Beaverhead River and Clark Fork Basins Montana, based on data through water year 2016 (ver. 1.1, September 2020)](/catalog/item/5a5553b4e4b01e7be242bf6b)
5. [WATSTORE Peak flow data Beaverhead and Clark Fork through 2016](/catalog/folder/5aac50b7e4b081f61aaf0878)
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## Dates
Publication Date2018-03-26Start Date1908End Date2016
## Citation
McCarthy, P.M., Sando, S.K., and Chase, K.J., 2018, Peak-flow frequency analyses for 14 selected streamgages in the Beaverhead River and Clark Fork Basins Montana, based on data through water year 2016 (ver. 1.1, September 2020): U.S. Geological Survey data release, http://doi.org/10.5066/F7JW8C21.
## Summary
This file (wymt\_ffa\_2016A\_WATSTORE.txt) contains peak flow data for 14 streamgages in the Beaverhead River and Clark Fork Basins. The file is in a text format called WATSTORE (National Water Data Storage and Retrieval System) available from NWISWeb (http://nwis.waterdata.usgs.gov/usa/nwis/peak).
## Summary
This file (wymt\_ffa\_2016A\_WATSTORE.txt) contains peak flow data for 14 streamgages in the Beaverhead River and Clark Fork Basins. The file is in a text format called WATSTORE (National Water Data Storage and Retrieval System) available from NWISWeb (http://nwis.waterdata.usgs.gov/usa/nwis/peak).
## Contacts
Point of Contact
:
[Peter McCarthy](/catalog/catalogParty/show?partyId=Peter+McCarthy),
[USGS WY-MT Water Science Center](/catalog/catalogParty/show?partyId=USGS+WY-MT+Water+Science+Center)
Originator
:
[Peter McCarthy](/catalog/catalogParty/show?partyId=Peter+McCarthy),
[Steven Sando](/catalog/catalogParty/show?partyId=Steven+Sando),
[Katherine Chase](/catalog/catalogParty/show?partyId=Katherine+Chase)
Metadata Contact
:
[Katherine Chase](/catalog/catalogParty/show?partyId=Katherine+Chase),
[USGS](/catalog/catalogParty/show?partyId=USGS)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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| metadata\_wymt\_ffa\_2016A\_WATSTORE.xml<br>_Original FGDC Metadata_ | View | 11.23 KB | application/fgdc+xml |
| wymt\_ffa\_2016A\_WATSTORE.txt | | 121.58 KB | text/plain |
## Purpose
This file is used as input to the U.S. Geological Survey PeakFQ computer program used for peak-flow frequency analyses.
## [Map](/catalog/item/imap/5aac50b7e4b081f61aaf0878)
[![Map Preview](https://www.sciencebase.gov/catalog/file/get/5aac50b7e4b081f61aaf0878?f=__disk__62%2Fbd%2F73%2F62bd7310a8a61701e200f74312cd74492774d6d8)](/catalog/item/imap/5aac50b7e4b081f61aaf0878)
## Communities
- USGS Data Release Products
## Tags
Theme
- [peak-flow data](/catalog/items?q=&filter=tags%3Dpeak-flow+data "peak-flow data (peak-flow data, Theme, USGS Thesaurus)")
- [streamflow data](/catalog/items?q=&filter=tags%3Dstreamflow+data "streamflow data (streamflow data, Theme, USGS Thesaurus)")
- [streamgage measurement](/catalog/items?q=&filter=tags%3Dstreamgage+measurement "streamgage measurement (streamgage measurement, Theme, USGS Thesaurus)")
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- [Beaverhead River](/catalog/items?q=&filter=tags%3DBeaverhead+River "Beaverhead River (Beaverhead River, Place, GNIS)")
- [Clark Fork](/catalog/items?q=&filter=tags%3DClark+Fork "Clark Fork (Clark Fork, Place, GNIS)")
- [Montana](/catalog/items?q=&filter=tags%3DMontana "Montana (Montana, Place, GNIS)")
## Provenance
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Peter McCarthy</origin>\n <origin>Steven Sando</origin>\n <origin>Katherine Chase</origin>\n <pubdate>2018</pubdate>\n <title>WATSTORE Peak flow data Beaverhead and Clark Fork through 2016</title>\n <geoform>text file</geoform>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://doi.org/10.5066/F7JW8C21</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Peter McCarthy</origin>\n <origin>Steven Sando</origin>\n <origin>Katherine Chase</origin>\n <pubdate>2018</pubdate>\n <title>Methods for Peak-Flow Frequency Analysis and Reporting for Streamgages in or near Montana Based on Data through Water Year 2015</title>\n <geoform>U.S. Geological Survey Scientific Investigations Report</geoform>\n <serinfo>\n <sername>U.S. Geological Survey Scientific Investigations Report</sername>\n <issue>XXXX-XXXX</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This file (wymt_ffa_2016A_WATSTORE.txt) contains peak flow data for 14 streamgages in the Beaverhead River and Clark Fork Basins. The file is in a text format called WATSTORE (National Water Data Storage and Retrieval System) available from NWISWeb (http://nwis.waterdata.usgs.gov/usa/nwis/peak).</abstract>\n <purpose>This file is used as input to the U.S. Geological Survey PeakFQ computer program used for peak-flow frequency analyses.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>1908</begdate>\n <enddate>2016</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>In work</progress>\n <update>Unknown</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-115.7335</westbc>\n <eastbc>-112.8538</eastbc>\n <northbc>47.9612</northbc>\n <southbc>45.0035</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>streamflow data</themekey>\n <themekey>peak-flow data</themekey>\n <themekey>streamgage measurement</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5aac50b7e4b081f61aaf0878</themekey>\n </theme>\n <place>\n <placekt>GNIS</placekt>\n <placekey>Beaverhead River</placekey>\n <placekey>Clark Fork</placekey>\n <placekey>Montana</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Peter McCarthy</cntper>\n <cntorg>USGS WY-MT Water Science Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3162 Bozeman Ave</address>\n <city>Helena</city>\n <state>MT</state>\n <postal>59601</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>406-457-5934</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Montana Department of Natural Resources</datacred>\n <crossref>\n <citeinfo>\n <origin>Flynn, K.M., Kirby, W.H., and Hummel, P.R.</origin>\n <pubdate>2006</pubdate>\n <title>User\'s Manual for Program PeakFQ, Annual Flood-Frequency Analysis Using Bulletin 17B Guidelines</title>\n <serinfo>\n <sername>U.S. Geological Survey, Techniques and Methods</sername>\n <issue>Book 4, Chapter B4</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://pubs.usgs.gov/tm/2006/tm4b4/#file</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Norman E. Hutchison</origin>\n <pubdate>1975</pubdate>\n <title>WATSTORE: National Water Data Storage and Retrieval System of the U. S. Geological Survey</title>\n <serinfo>\n <sername>U. S. Geological Survey Open-File Report</sername>\n <issue>75-426</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U. S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://pubs.er.usgs.gov/publication/ofr75426</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>U.S. Geological Survey</origin>\n <pubdate>2016</pubdate>\n <title>NWISWeb: Peak Streamflow for the Nation</title>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://nwis.waterdata.usgs.gov/usa/nwis/peak</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>U.S. Geological Survey</origin>\n <pubdate>2016</pubdate>\n <title>National Water Information System Web Interface: Peak Streamflow for the Nation</title>\n <geoform>online</geoform>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://nwis.waterdata.usgs.gov/usa/nwis/peak</onlink>\n </citeinfo>\n </srccite>\n <typesrc>annual peak-flow data</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1908</begdate>\n <enddate>2016</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>through 2016</srccurr>\n </srctime>\n <srccitea>NWIS</srccitea>\n <srccontr>Peak-flow data obtained from NWIS</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Data obtained from NWIS.</procdesc>\n <procdate>2016</procdate>\n </procstep>\n <procstep>\n <procdesc>Peak flows were modified using one of the three methods described in Sando and McCarthy, 2018, Sections "Pre-Analysis Data Combination", "Pre-Analysis Data Correction", and "Procedures for Modified Maintenance of Variance Extension Type III record Extension". USGS streamgage identification number (columns 2 - 9) is appended with analysis designation in the format XXXXXXXX.AB where XXXXXXXX is the streamgage identification number, A is the regulation status for the analysis period, and B is the type of peak-flow frequency analysis. Values of A (regulation status) are defined as: A = 0, unregulated; A = 1, regulated by major regulation; and A =2, total; that is, the combined unregulated and regulated peak-flow records for streamgages with peak-flow records before and after the start of regulation. Values of B (type of peak-flow frequency analysis) are defined as: B = 0, at-site peak-flow frequency analysis conducted on recorded data; B = 1, peak-flow frequency analysis conducted on combined recorded and synthesized data; synthesized data from Maintenance of Variance Extension Type III (MOVE.3) record extension procedure; B =2, peak-flow frequency analysis determined from regional regression equations (RREs); and B = 3, at-site peak-flow frequency analysis weighted with results from RREs. A peak flow in the WATSTOR file that is appended with the letter "e" was added using Maintenance of Variance Extension Type III .</procdesc>\n <procdate>2016</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <overview>\n <eaover>PeakFQ User\'s Manual \n"Peak Streamflow Records" section. \nAppendices B.2 (Station Header Records) and B.4 (Peak-Flow Records). \nPeak flows obtained from NWIS were modified as documented in Sando and McCarthy, 2018, Sections "Pre-Analysis Data Combination", "Pre-Analysis Data Correction", and "Procedures for Modified Maintenance of Variance Extension Type III Record Extension".</eaover>\n <eadetcit>Flynn, K.M., Kirby, W.H., and Hummel, P.R., 2006, User\xe2\x80\x99s Manual for Program PeakFQ Annual Flood-Frequency Analysis Using Bulletin 17B Guidelines: U.S. Geological Survey, Techniques and Methods Book 4, Chapter B4; 42 pgs. https://pubs.usgs.gov/tm/2006/tm4b4/</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <techpreq>Users should be familiar with hydrologic and statistical methods used for calculating, interpreting and applying these data.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200831</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Katherine Chase</cntper>\n <cntorg>USGS</cntorg>\n </cntperp>\n <cntpos>Surface-Water Specialist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3162 Bozeman Ave</address>\n <city>Helena</city>\n <state>MT</state>\n <postal>59601</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>406-457-5957</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Data Release Products](/catalog/item/5474ec49e4b04d7459a7eab2)
3. [Water chemistry data for selected hot springs and rivers in Southwest Yellowstone National Park, Wyoming](/catalog/folder/5c8a9de7e4b093882450c88b)
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## Dates
Publication Date2019-12-17Start Date2009End Date2018
## Citation
McCleskey, R.B., Roth, D.A., Hurwitz, S., Bergfeld, D., Peek, S.E., Susong, D.D., White, E.B., Hungerford, J., Hunt, A.G., Paces, J.B., and Olson, L., 2019, Water chemistry data for selected hot springs and rivers in Southwest Yellowstone National Park, Wyoming: U.S. Geological Survey data release, https://doi.org/10.5066/P9MJ0HYM.
## Summary
Water analyses are reported for 66 samples collected from numerous thermal and non-thermal (rivers and streams) features in the southwestern areas of Yellowstone National Park (YNP) during 2009, 2017, and 2018. Water samples were collected from sources near Boundary Creek, Bechler River, Falls River, Mountain Ash Creek, Upper Snake River, Spirea Creek, and Lewis Lake. These water samples were collected and analyzed as part of research investigations on the chemistry of Yellowstone’s hydrothermal system and on the distribution of dissolved arsenic and mercury. Most samples were analyzed for major cations and anions, trace metals, redox species of arsenic, iron, nitrogen, and sulfur, and isotopes of hydrogen and oxygen. Radiogenic isotopes \[...\]
## Summary
Water analyses are reported for 66 samples collected from numerous thermal and non-thermal (rivers and streams) features in the southwestern areas of Yellowstone National Park (YNP) during 2009, 2017, and 2018. Water samples were collected from sources near Boundary Creek, Bechler River, Falls River, Mountain Ash Creek, Upper Snake River, Spirea Creek, and Lewis Lake. These water samples were collected and analyzed as part of research investigations on the chemistry of Yellowstone’s hydrothermal system and on the distribution of dissolved arsenic and mercury. Most samples were analyzed for major cations and anions, trace metals, redox species of arsenic, iron, nitrogen, and sulfur, and isotopes of hydrogen and oxygen. Radiogenic isotopes of strontium and tritium concentrations were also determined in selected samples. In addition, river and stream discharge data were obtained to determine the flux of chloride and other solutes from thermal areas in the southwest YNP.
## Contacts
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[R. Blaine McCleskey](/catalog/catalogParty/show?partyId=R.+Blaine+McCleskey),
[USGS Branch of Regional Research, Central Region](/catalog/catalogParty/show?partyId=USGS+Branch+of+Regional+Research%2C+Central+Region)
Originator
:
[R. Blaine McCleskey](/catalog/catalogParty/show?partyId=R.+Blaine+McCleskey),
[David A. Roth](/catalog/catalogParty/show?partyId=David+A.+Roth),
[Shaul Hurwitz](/catalog/catalogParty/show?partyId=Shaul+Hurwitz),
[Deborah Bergfeld](/catalog/catalogParty/show?partyId=Deborah+Bergfeld),
[Sara E. Peek](/catalog/catalogParty/show?partyId=Sara+E.+Peek),
[David D. Susong](/catalog/catalogParty/show?partyId=David+D.+Susong),
[Erin B. White](/catalog/catalogParty/show?partyId=Erin+B.+White),
[Jeff Hungerford](/catalog/catalogParty/show?partyId=Jeff+Hungerford),
[Andrew G. Hunt](/catalog/catalogParty/show?partyId=Andrew+G.+Hunt),
[James B. Paces](/catalog/catalogParty/show?partyId=James+B.+Paces),
[Lonnie Olson](/catalog/catalogParty/show?partyId=Lonnie+Olson)
Metadata Contact
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[R. Blaine McCleskey](/catalog/catalogParty/show?partyId=R.+Blaine+McCleskey),
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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| YNP\_Southwest.xml<br>“Metadata”<br>_Original FGDC Metadata_ | View | 67.09 KB | application/fgdc+xml |
| YNP\_WQ.csv<br>“Water quality and discharge data” | | 33.4 KB | text/csv |
## Related External Resources
Type: Publication that references this resource
| | |
| --- | --- |
| McCleskey, R.B., Hurwitz, S., White, E.B., Roth, D.A., Susong, D.D., Hungerford, J.D.G., Olson, L.A., 2020, Sources, fate, and flux of riverine solutes in the Southwest Yellowstone Plateau Volcanic Field, USA: Journal of Volcanology and Geothermal Research, 107021, https://doi.org/10.1016/j.jvolgeores.2020.107021. | [https://doi.org/10.1016/j.jvolgeores.2020.107021](https://doi.org/10.1016/j.jvolgeores.2020.107021 "https://doi.org/10.1016/j.jvolgeores.2020.107021") |
Type: Related Primary Publication
| | |
| --- | --- |
| Hurwitz, S., McCleskey, R. B., Bergfeld, D., Peek, S. E., Susong, D. D., Roth, D. A., Hungerford, J.D.G., White, E.B, Harrison, L.N., Hosseini, B., Vaughan, R.G., Hunt, A.G., Paces, J.B., 2020, Hydrothermal activity in the southwest Yellowstone plateau volcanic field: Geochemistry, Geophysics, Geosystems, 21, e2019GC008848, https://doi.org/10.1029/2019GC008848. | [https://doi.org/10.1029/2019GC008848](https://doi.org/10.1029/2019GC008848 "https://doi.org/10.1029/2019GC008848") |
## Purpose
The purpose of this data release is to provide water chemistry and discharge data for streams, rivers, and hydrothermal features in Southwest Yellowstone National Park.
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>R. Blaine McCleskey</origin>\n <origin>David A. Roth</origin>\n <origin>Shaul Hurwitz</origin>\n <origin>Deborah Bergfeld</origin>\n <origin>Sara E. Peek</origin>\n <origin>David D. Susong</origin>\n <origin>Erin B. White</origin>\n <origin>Jeff Hungerford</origin>\n <origin>Andrew G. Hunt</origin>\n <origin>James B. Paces</origin>\n <origin>Lonnie Olson</origin>\n <pubdate>20191217</pubdate>\n <title>Water chemistry data for selected hot springs and rivers in Southwest Yellowstone National Park, Wyoming</title>\n <geoform>.csv</geoform>\n <pubinfo>\n <pubplace>Boulder, Colorado</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9MJ0HYM</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Water analyses are reported for 66 samples collected from numerous thermal and non-thermal (rivers and streams) features in the southwestern areas of Yellowstone National Park (YNP) during 2009, 2017, and 2018. Water samples were collected from sources near Boundary Creek, Bechler River, Falls River, Mountain Ash Creek, Upper Snake River, Spirea Creek, and Lewis Lake. These water samples were collected and analyzed as part of research investigations on the chemistry of Yellowstone\xe2\x80\x99s hydrothermal system and on the distribution of dissolved arsenic and mercury. Most samples were analyzed for major cations and anions, trace metals, redox species of arsenic, iron, nitrogen, and sulfur, and isotopes of hydrogen and oxygen. Radiogenic isotopes of strontium and tritium concentrations were also determined in selected samples. In addition, river and stream discharge data were obtained to determine the flux of chloride and other solutes from thermal areas in the southwest YNP.</abstract>\n <purpose>The purpose of this data release is to provide water chemistry and discharge data for streams, rivers, and hydrothermal features in Southwest Yellowstone National Park.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2009</begdate>\n <enddate>2018</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-111.1487</westbc>\n <eastbc>-110.4291</eastbc>\n <northbc>44.3435</northbc>\n <southbc>44.0757</southbc>\n </bounding>\n <descgeog>Yellowstone National Park</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>geoscientificInformation</themekey>\n <themekey>inlandWaters</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>Yellowstone, Bechler River, Boundary Creek, Falls River, Lewis Lake, Snake River</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5c8a9de7e4b093882450c88b</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Yellowstone National Park</placekey>\n </place>\n </keywords>\n <accconst>Public</accconst>\n <useconst>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Although this information product, for the most part, is in the public domain, it also contains copyrighted materials as noted in the text. Permission to reproduce copyrighted items must be secured from the copyright owner whenever applicable. The data have been approved for release and publication by the U.S. Geological Survey (USGS). Although the data have been subjected to rigorous review and are substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the data are released on the condition that neither the USGS nor the U.S. Government may be held liable for any damages resulting from authorized or unauthorized use. Although the data have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the display or utility of the data on any other system, or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The U.S. Geological Survey shall not be held liable for improper or incorrect use of the data described and/or contained herein. Users of the data are advised to read all metadata and associated documentation thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>R. Blaine McCleskey</cntper>\n <cntorg>USGS Branch of Regional Research, Central Region</cntorg>\n </cntperp>\n <cntpos>Research Chemist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3215 Marine St.</address>\n <city>Boulder</city>\n <state>Colorado</state>\n <postal>80303</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-541-3071</cntvoice>\n <cntfax>303-541-3084</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Yellowstone Volcano Observatory and the National Park Service</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Quality Assurance and Quality Control\n\nSeveral techniques were used to assure the quality of the ionic analytical data. These techniques included calculation of charge balance, specific conductance imbalance (McCleskey et al., 2012), analysis of blanks, analyses by alternate methods, analysis of U.S. Geological Survey SRWS, and analysis of replicate samples.\n\nThe charge balance calculation is a common quality-assurance/quality-control procedure to check the accuracy of a water analysis (Nordstrom and Munoz, 1994). For samples that were analyzed for major cations and anions, the accuracy of the analyses was checked for charge balance using the geochemical code PHREEQCI (Parkhurst and Appelo, 1999). The mean charge balance was -0.3 percent with a standard deviation of 2.0 percent. Analyses having a charge balance less than \xc2\xb1 10 percent are considered reliable for speciation calculations (Nordstrom and Munoz, 1994). All 66 samples had charge balances less than \xc2\xb1 10 percent. By coupling charge balance and specific conductance imbalance, the measurement most likely in error can be identified or narrowed down to a few possibilities (McCleskey, 2018; McCleskey et al., 2012). \n\nThree field blanks were analyzed along with the samples as unknowns. Field blanks consisted of deionized water that was filtered and preserved in the same manner as the samples. Constituents were below detection in all these blanks, with a few exceptions. Low levels of calcium, iron, zinc, and mercury were detected in at least one blank. The constituents measured in the blanks were less than the typical error associated with the analyses and are typically a small fraction of the measured concentrations.\n\nSeveral standard reference water samples were analyzed as unknowns multiple times during each analytical run to check for accuracy. U.S. Geological Survey standard reference water samples (SRWS) were used to check the analytical methods for major and trace metals, ammonium, anions, and mercury (U.S. Geological Survey, 2019). The SRWS PPREE and SCREE were used to check the analytical methods for rare earth elements (Verplanck et al., 2001). The National Institute of Standards and Technology (NIST) standard NIST1643d (NIST, 1999) was used to check the accuracy of trace metals determined by ICP-MS. The Environment Canada standards were used to check the CVAFS determination of Hg (Environment Canada, 2018). \n\nReferences Cited\n\nEnvironment Canada, 2018, Certified Reference Materials: http://ec.gc.ca/inre-nwri/Default.asp?lang=En&n=D3D76BEC-1.\n\nMcCleskey, R.B., 2018, Calculated specific conductance using PHREEQCI: U.S. Geological Survey software release, https://doi.org/10.5066/F7M907VD.\n\nMcCleskey, R.B., Nordstrom, D.K., Ryan, J.N., and Ball, J.W., 2012, A new method of calculating electrical conductivity with applications to natural waters: Geochimica et Cosmochimica Acta, v. 77, no. 0, p. 369-382.\n\nNIST, 1999, National Institute of Standards and Technology, Certificate of Analysis, Standard Reference Sample 1643d, Trace Elements in Water, https://www-s.nist.gov/srmors/certificates/archive/1643d.pdf.\n\nNordstrom, D.K., and Munoz, J.L., 1994, Geochemical Thermodynamics, 2nd edition (second edition ed.): Caldwell, New Jersey, Blackwell Scientific Publications, 493 p.\n\nParkhurst, D.L., and Appelo, C.A.J., 1999, User's guide to PHREEQC (Version 2) - A computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical calculations: U.S. Geological Survey Water-Resources Investigations Report 99-4259, 312 p.\n\nU.S. Geological Survey, 2019, Standard Reference Sample Project: U.S. Geological Survey accesed June 3, 2019 at http://bqs.usgs.gov/srs/.\n\nVerplanck, P.L., Antweiler, R.C., Nordstrom, D.K., and Taylor, H.E., 2001, Standard reference water samples for rare earth element determinations: Applied Geochemistry, v. 16, p. 231-244.</attraccr>\n </attracc>\n <logic>Yes</logic>\n <complete>The dataset represent the conditions and concentrations of samples collected at the time and location described.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Methods \n\nCollection and Preservation of Water Samples\n\nTwo general types of water samples were collected, river/stream water and thermal water. For rivers and streams, water samples were collected using a DH-81 depth-integrating sampler with a clean 2-L HDPE bottle in approximately equal-width increments across the river. For small streams, water samples were collected as close to the center of flow as possible and in areas that appeared to be well mixed. Water samples from hot springs and pools were collected as close to the discharge source as possible. Extreme care was taken to safely collect water samples from the thermal sites, to protect fragile hot-spring mineral formations, and to minimize changes in temperature, pH, and water chemistry during sampling. Samples were collected from the middle of large springs, pools, and geysers by positioning the sample tubing intake using an extendable aluminum pole. At more easily accessible sites, the tubing intake was positioned in the source or channel by hand. The latitude and longitude (NAD83) for each synoptic sample site are listed in the accompanying data file (YNP_WQ.csv).\n\nSamples were collected and filtered on site by one of two techniques. The first technique, used for most thermal samples, consisted of pumping water directly from the source with a battery-operated peristaltic pump fitted with silicone tubing through a cartridge filter having a 0.45-micrometer (\xc2\xb5m) pore size. The second technique, used for most stream and river samples, consisted of filling a 1- or 2-L bottle with source water and filtering the sample by filling a 60-milliliter (mL) syringe with sample water, rinsing three times, and immediately forcing the water through a 33-mm disposable filter having a mixed-cellulose-ester membrane with a pore size of 0.2 \xc2\xb5m. Raw (unfiltered) water was collected in 500-mL plastic bottles for determination of tritium (3H) contents.\n\nSequential aliquots were filtered into separate containers for the determination of inorganic constituents, redox species (iron, arsenic, and sulfur), stable hydrogen and oxygen isotopes of water, dissolved organic carbon (DOC), strontium (Sr) isotopes, and tritium. The sample bottles were rinsed with filtered water, the samples were then collected, and stabilizing reagents, if needed, were added. \n\nField Measurements\n\nMeasurements of temperature, pH, and specific conductance were performed on site. Measurements of pH were made on unfiltered sample water pumped from the source through an acrylic plastic flow-through cell or directly in the source water, if safe. The flow-through cell contained a combination pH electrode, a thermistor, and test tubes containing buffer solutions for pH calibration. All components were thermally equilibrated with the sample water before obtaining measurements. Where practical, specific conductance and source temperature were measured by immersing the combined conductance/temperature probe directly into the source as close to the sampling point as possible. Otherwise, the probe was immersed in the flow-through cell.\n\nBecause field measurement of pH in thermal waters is challenging and accurate pH measurements are critical for interpreting analytical results (Ball et al., 2006), special care was taken when measuring this parameter. At each site, the flow-through cell, temperature probe, electrode, and calibration buffers were thermally equilibrated prior to calibration and measurement. The system was calibrated using at least two bracketing standard buffers (chosen from among 1.68, 4.01, 7.00, or 10.00) using their pH values at the sample temperature (Midgley and Torrance, 1991). After calibration, the pH electrode was placed in the sample water in the flow-through cell and monitored until no changes in temperature (\xc2\xb1 0.1\xc2\xb0C) or pH (\xc2\xb1 0.01 standard unit) were detected for at least 30 seconds. Following sample measurement, the electrode was immersed in the standard buffer of pH closest to that of the sample and allowed to equilibrate. The entire calibration and measurement process was repeated as many times as necessary until the measured value for the buffer differed by no more than 0.05 standard units from its certified pH at the measured temperature.\n\nStreamflow Measurements\n\nThe discharge data were obtained by direct measurement of stream velocity and stream cross-sectional area using standard USGS methods (Carter and Davidian, 1968; Turnipseed and Sauer, 2010). All velocity determinations were wading measurements made with an acoustic Doppler velocimeter (FlowTracker Handheld-ADV) (Turnipseed and Sauer, 2010). Discharges were assigned a qualitative uncertainty of \xc2\xb1 5% based on the measurement method and general characteristics of the measurement section and velocity distribution.\n\nLaboratory Methods\n\nAll laboratory measurements were made at U.S. Geological Survey Laboratories. All reagents were of equal or higher purity than the reagent-grade standards of the American Chemical Society. Deionized water and redistilled or trace-metal-grade acids were used in all preparations. Samples were diluted as necessary to bring the analyte concentration within the optimal range of the method. The detection limits for anions and ammonium were determined using the U.S. Environmental Protection Agency method detection limit (U.S. Environmental Protection Agency, 2016). The detection limits for inductively coupled plasma\xe2\x80\x93 optical emission spectroscopy (ICP\xe2\x80\x93OES), inductively coupled plasma\xe2\x80\x93mass spectrometry (ICP\xe2\x80\x93MS), and cold vapor atomic fluorescence spectrometry (CVAFS) were determined using the method presented by Skogerboe and Grant (1970). Details on the instrumentation, techniques, general conditions, and variants from standard procedures are discussed in following sections.\n\nMajor Cation and Trace Metal Determinations\n\nConcentrations of dissolved major cations (Ca, Mg, Na, and K), silica (SiO2), and selected trace metals (Li, P, Al, B, Cr, Fe, Rb, Se, Sr, V, and Zn) were determined using ICP\xe2\x80\x93OES (Leeman Labs DRE, 2009 samples; PerkinElmer 7300 DV, 2017 and 2018 samples). The axial plasma viewing orientation was used for the major cations and trace metals, except for potassium. The radial plasma viewing orientation was used for potassium. A cesium chloride ionization buffer was added in-line prior to sample nebulization to suppress the ionization of potassium and lithium in the plasma. The concentrations of trace metals (Ba, Be, Bi, Cd, Ce, Cs, Co, Cu, Dy, Er, Eu, Gd, Ho, La, Pb, Lu Mn, Mo, Nd, Ni, Pr, Sb, Sm, Te, Tb, Tl, Th, Tm, Sn, W, U, Yb, Y, and Zr) were also determined using ICP\xe2\x80\x93MS (PerkinElmer Elan DRC II, 2009 samples; PerkinElmer NexION 300Q, 2017 and 2018 samples). An internal standard was added to the sample stream for ICP\xe2\x80\x93MS measurements. The concentration of many trace elements were only determined by ICP-MS. However, several trace metal concentrations were determined by ICP-OES and ICP-MS and the data from the analytical technique that produced the most accurate and precise data were selected. The selection is based on potential interferences, the analyte concentration in relation to the method detection limit, and in cases where the two techniques were comparable, ICP-OES was often selected because the technique was used in previous YNP studies. Analytical errors for these constituents are typically less than 5 percent.\n\nAnion and Alkalinity Determinations\n\nConcentrations of bromide (Br), chloride (Cl), fluoride (F), nitrate (NO3), and sulfate (SO4) were determined by ion chromatography (IC, Dionex DX 600) with suppressed electrical conductivity detection (Brinton et al., 1995). An IonPac AS18 Analytical Column (4 mm), AG18 Guard Column, and an Anion Self-Regenerating Suppressor (ASRS ULTRA II (4 mm)) were used. Thirty-millimolar sodium hydroxide (NaOH) eluent was pumped through the columns at 1 milliliter per minute (mL/min). Analytical errors for these constituents are typically less than 5 percent. \nAlkalinity was determined by automated titration (Thermo, 940-960 autotitrator) using standardized sulfuric acid (Barringer and Johnsson, 1996; Fishman and Friedman, 1989). Fifteen milliliters of sample were titrated with 0.01 normal (equivalents per liter) sulfuric acid to the bicarbonate end-point. The analytical error in alkalinity concentrations is less than 3 percent. \n\nArsenic Redox Determinations\n\nHydride-generation atomic absorption spectrometry (HGAAS; PerkinElmer PinAAcle 900T) was used to measure total dissolved arsenic (As(T)) and dissolved arsenite (As(III)) concentrations in HCl-acidified samples. A flow-injection analysis system (Perkin Elmer, FIAS 100) was used to generate arsine from As(III) with sodium borohydride mixed in a gas-liquid separator with a 10% v/v HCl carrier solution (McCleskey et al., 2003). The determination of total dissolved arsenic (As(T)) concentrations required pre-reduction of As(V) using potassium iodide (KI), ascorbic acid, and hydrochloric acid. Arsenic redox species are routinely collected by filtering (0.1 \xc2\xb5m) the water sample into an opaque HDPE bottle and then adding 1% (v/v) 6M HCl (McCleskey et al., 2004). \n\nIron Redox Determinations\n\nTotal dissolved iron (Fe(T)) and ferrous iron (Fe(II)) concentrations (filtered and acidified with HCl) were determined in samples preserved with HCl using a modification of the FerroZine colorimetric method (Gibbs, 1976; To et al., 1999). All iron determinations were prepared in 25-mL volumetric flasks and then their absorbances were measured at 562 nm using a diode array spectrometer (Hewlett-Packard model 8452A). For total dissolved iron determinations, hydroxylamine hydrochloride was first added to the sample to pre-reduce any ferric iron, then the FerroZine reagent and acetate buffer were added. Ferrous iron was determined by only adding FerroZine reagent and acetate buffer.\n\nAmmonium Determinations\n\nConcentrations of ammonium (filtered and acidified with H2SO4) were determined by ion chromatography (Dionex ICS-5000) with suppressed electrical conductivity detection. An IonPac CS12A Analytical Column (4mm), an CG12A Guard Column, and a Cation Self-Regenerating Suppressor (CSRS 500 (4-mm)) were used. A gradient pump was used to pump 20 mM methanesulfonic acid (MSA) eluent through the system. The method detection limit was 0.05 milligrams per liter (mg/L).\n\nMercury Determinations\n\nDissolved mercury (Hg) concentrations (filtered and preserved with HNO3/BrCl) and total Hg concentrations (unfiltered and preserved with HNO3/BrCl) were determined by direct cold-vapor atomic fluorescence spectroscopy (CVAFS) using the method of Roth et al. (2001). The method detection limit was 0.2 nanograms per liter.\n\nDissolved Organic Carbon\n\nDissolved organic carbon (DOC) concentrations were measured using the wet oxidation method (Aiken, 1992) with an Oceanography International Model 700 TOC Analyzer. Potassium biphthalate was used to calibrate the instrument, and sodium benzoate was used as a different organic carbon source to check the calibration. The method detection limit for DOC was 0.4 mg/L.\n\nTritium\n\nTritium analysis was adapted from Hunt, 2015 by using total measured gas pressure in the extraction line (total volume of gas measured) to compute mole fraction of gas measured ([ccSTP/ccSTP] see Hunt, 2015 for full details). \n\nWater Isotope Determinations\n\nHydrogen and oxygen isotope ratios were determined at the USGS Reston Stable Isotope Laboratory in Reston, Virginia (http://isotopes.usgs.gov/). Hydrogen isotope ratios were determined using a hydrogen equilibration technique (Coplen, 1991; Revesz and Coplen, 2003a). Oxygen isotope ratios were determined using the CO2 equilibration technique of Epstein and Mayeda (1953), which has been automated by Revesz and Coplen (2003b). The isotopic concentration is reported in \xe2\x80\x9cdelta notation,\xe2\x80\x9d which compares the isotope ratio of a sample to that of a reference standard.\nOxygen and hydrogen isotopic results are reported relative to the standard VSMOW (Vienna Standard Mean Ocean Water) and normalized (Coplen et al., 1984) on scales such that the oxygen and hydrogen isotopic values of SLAP (Standard Light Antarctic Precipitation) are \xe2\x80\x9355.5 per mil and \xe2\x80\x93428 per mil, respectively.\n\nStrontium Isotope Determinations\n\nData were determined at the USGS Geosciences and Environmental Change Science Center radiogenic isotope laboratory in Denver, CO (https://www.usgs.gov/centers/gecsc/science/denver-radiogenic-isotope-lab?qt-science_center_objects=0#qt-science_center_objects). Between 8 and 150 grams of filtered and acidified water were weighed and evaporated in Teflon\xe2\x84\xa2 PFA fluoroplastic beakers for determination of Sr-isotope composition. A separate aliquot of water (~0.5 gram) was spiked with a known amount of 84Sr-enriched tracer solution, processed to provide purified Sr, and run separately to determine Sr concentration by isotope dilution. All determinations of 87Sr/86Sr were done on unspiked aliquots. Double-distilled, trace-element-grade nitric acid (HNO3) was used in all processing steps.\nDried salts were dissolved in 7N HNO3 and transferred to 7-mL Teflon\xe2\x84\xa2 PFA fluoroplastic vials. After heating, sample solutions were centrifuged at 10,000 rpm. The supernate was transferred to a separate centrifuge tube and any remaining solid or gel was transferred to the same 7-mL vials using a small amount of concentrated HF and HNO3. After heating, solutions containing residues were evaporated on a hotplate, redissolved in 7N HNO3, and centrifuged again. The supernate from the second digestion was added to the first, and any remaining residue (insoluble fluorides or sulfates) was discarded. The combined supernate solutions where equilibrated, and Sr was separated and purified by ion chromatographic separation using small (2.0 mL) columns containing 0.25 mL of Eichrom\xe2\x84\xa2 Sr resin following methods outlined in De Muynck et al. (2009). Warm sample solutions were loaded onto Sr resin and then washed with ~ 32 resin volumes (~8 mL) of 7N HNO3. Sr was eluted using ~16 resin volumes of 0.05N HNO3. \nPurified Sr salts were loaded on single Re center filaments on top of a small bead of evaporated tantalum-oxide solution. 87Sr/86Sr ratios were collected on a Thermo Finnigan Triton\xe2\x84\xa2 thermal-ionization mass spectrometer using multiple faraday cups and a triple-jump multi-dynamic peak-hopping routine. 87Sr/86Sr ratios were normalized for instrumental fractionation using the accepted 86Sr/88Sr value of 0.1194. Static, normalized 84Sr/86Sr ratios were collected during the same run to monitor the effectiveness of the fractionation correction. Total-process blank contributions for Sr varied between 20 and 100 picograms, which is negligible relative to total Sr abundances present (82 to >1,000,000 picograms).\nThe mean 87Sr/86Sr value obtained for 374 analyses of the NIST international Sr-isotope standard, SRM 987, between 2011 and 2019 was 0.710250 \xc2\xb10.000007 (2\xc3\x97standard deviation), which is within uncertainty of the accepted value of 0.710248\xc2\xb10.000006 (McArthur et al., 2001). The mean 84Sr/86Sr value for those same analyses is 0.056497\xc2\xb10.00009 (2\xc3\x97standard deviation). Measured 87Sr/86Sr values determined for unknown samples were normalized to the accepted value of SRM 987 using the average value of SRM 987 obtained for each batch of analyses. A secondary USGS Sr-isotope standard, EN-1, analyzed as an unknown with each batch, yielded a mean normalized 87Sr/86Sr value of 0.709174 \xc2\xb10.000009 (2\xc3\x97standard deviation for 224 analyses) which is identical to the accepted value of 0.709174\xc2\xb10.000002 ((\xc2\xb12\xc3\x97standard error; McArthur et al., 2006).\n\nReferences Cited\n\nAiken, G.R., 1992, Chloride interference in the analysis of dissolved organic carbon by the wet oxidation method: Environmental Science and Technology, v. 26, p. 2435-2439.\n\nBall, J.W., McCleskey, R.B., Nordstrom, D.K., and Holloway, J.M., 2006, Water-chemistry data for selected springs, geysers, and streams in Yellowstone National Park, Wyoming, 2003-2005: U.S. Geological Survey Open-File Report 2006-1339, 137 p.\n\nBarringer, J.L., and Johnsson, P.A., 1996, Theoretical considerations and a simple method for measuring alkalinity and acidity in low-pH waters by Gran titration: U.S. Geological Survey Water Resources Investigations Report 89-4029, 36 p.\n\nBrinton, T.I., Antweiler, R.C., and Taylor, H.E., 1995, Method for the determination of dissolved chloride, nitrate, and sulfate in natural water using ion chromatography: U.S. Geological Survey Open-File Report 95-426A, 16 p.\n\nCarter, R.W., and Davidian, J., 1968, General procedures for gaging streams: U.S. Geological Survey Techniques of Water-Resources Investigations, Book 3, Chapter A6, 13 p.\n\nCoplen, T.B., Friedman, I., and O'Neil, J.R., 1984, Comment on the International Atomic Energy Agency Report on the Advisory Group Meeting on Stable Isotope Reference Samples for Geochemical and Hydrological Investigation, Vienna, Austria, September 19-21, 1983: U.S. Geological Survey Water Resources Investigations Report 84-4136, iii, 7 p. ;28 cm. p.\n\nCoplen, T.B., Wildman, J.D., and Chen, J., 1991, Improvements in the gaseous hydrogen-water equilibrium technique for hydrogen isotope ratio analysis: Analytical Chemistry, v. 63, p. 910-912.\n\nDe Muynck, D., Huelga-Suarez, G., Van Heghe, L., Degryse, P., and Vanhaecke, F., 2009, Systematic evaluation of a strontium-specific extraction chromatographic resin for obtaining a purified Sr fraction with quantitative recovery from complex and Ca-rich matrices: Journal of Analytical Atomic Spectrometry, v. 24, p. 1498\xe2\x80\x931510.\n\nEpstein, S., and Mayeda, T., 1953, Variation of O 18 content of water from natural sources: Geochimica and Cosmochimica Acta, v. 4, p. 213-224.\n\nFishman, M.J., and Friedman, L.C., 1989, Methods for determination of inorganic substances in water and fluvial sediments: Techniques of Water-Resources Investigations of the U.S. Geological Survey, Book 5, Chapter A1, p. 55-56, 55-56 p.\n\nGibbs, C.R., 1976, Characterization and application of FerroZine iron reagent as a ferrous iron indicator: Analytical Chemistry, v. 48, no. 8, p. 1197-1201.\n\nHunt, A.G., 2015, Noble Gas Laboratory\xe2\x80\x99s standard operating procedures for the measurement of dissolved gas in water samples: U.S. Geological Survey Techniques and Methods, book 5, chap. A11, 22 p., http://dx.doi.org/10.3133/ tm5A11.\n\nMcArthur, J.M., Howarth, R.J., and Bailey, R.R., 2001, Strontium isotope stratigraphy: LOWESS version 3: best fit to the marine Sr-isotope curve for 0\xe2\x80\x93509 Ma and accompanying look-up table for deriving numerical age: Journal of Geology, v. 109, p. 155-170.\n\nMcArthur, J.M., Rio, D., Massari, F., Castradori, D., Bailey, T.R., Thirlwall, M., and Houghton, S., 2006, A revised Pleocene record for marine-87Sr/86Sr used to date an interglacial event recorded in the Cockburn Island Formation, Antarctic Peninsula: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 242, p. 126-136.\n\nMcCleskey, R.B., Ball, J.W., and Nordstrom, D.K., 2003, Metal interferences and their removal prior to the determination of As(T) and As(III) in acid mine waters by hydride generation atomic absorption spectrometry: U.S. Geological Survey Water-Resources Investigations Report 03-4117, 14 p.\n\nMcCleskey, R.B., Nordstrom, D.K., and Maest, A.S., 2004, Preservation of water samples for arsenic(III/V) determinations: an evaluation of the literature and new analytical results: Applied Geochemistry, v. 19, no. 7, p. 995-1009.\n\nMidgley, D., and Torrance, K., 1991, Potentiometric water analysis (Second ed.): National Power plc, Technology and Environmental Centre, Kelvin Avenue, Leatherhead, Surrey, UK, John Wiley and Sons.\n\nRevesz, K., and Coplen, T.B., 2003a, Hydrogen isotope ratio analysis of water by gaseous hydrogen-water equilibration: Standard Operating Procedure (SOP) #1574: Techniques of the U.S. Geological Survey.\n\nRevesz, K., and Coplen, T.B., 2003b, Oxygen isotope ratio analysis of water by gaseous carbon dioxide-water equilibration: Standard Operating Procedure (SOP) #489: Techniques of the U. S. Geological Survey.\n\nRoth, D.A., Taylor, H.E., Domagalski, J., Dileanis, P., Peart, D.B., Antweiler, R.C., and Alpers, C.N., 2001, Distribution of inorganic mercury in Sacramento River water and sediment: Archives of Environmental Contamination and Toxicology, v. 40, p. 161-172.\n\nSkogerboe, R.K., and Grant, C.L., 1970, Detection limits and sensitivities for spectroscopic methods: Spectroscopic Letters, v. 3, p. 215-219.\n\nTo, T.B., Nordstrom, D.K., Cunningham, K.M., Ball, J.W., and McCleskey, R.B., 1999, New method for the direct determination of dissolved Fe(III) concentration in acid mine waters: Environmental Science & Technology, v. 33, no. 5, p. 807-813\n\nTurnipseed, D.P., and Sauer, V.B., 2010, Discharge measurements at gaging stations: U.S. Geological Survey Techniques and Methods book 3, chap. A8, 87 p.\n\nU.S. Environmental Protection Agency, 2016, Definition and procedure for the determination of the method detection limit, revision 2: EPA 821-R-16-006, 6 p.</procdesc>\n <procdate>20190624</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>YNP_WQ.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>ID</attrlabl>\n <attrdef>sample label</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>A unique identification code assigned to a sample for tracking purposes.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample site</attrlabl>\n <attrdef>description of site</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Description or name of sample site</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Area</attrlabl>\n <attrdef>Sample area or general location</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The geographic area that the sample was collected</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Type</attrlabl>\n <attrdef>stream or geothermal source</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv><< empty cell >></edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <udom>describes whether the sample was collected from a geothermal source or a stream (which includes streams, creeks, and rivers)</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collection date</attrlabl>\n <attrdef>Date sample was collected</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv><< empty cell >></edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>9/21/2009</rdommin>\n <rdommax>9/22/2018</rdommax>\n <attrunit>Date</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collection time</attrlabl>\n <attrdef>Mountain Daylight Time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>09:30 Mountain Daylight Time</rdommin>\n <rdommax>17:20 Mountain Daylight Time</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>NAD83</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>44.138</rdommin>\n <rdommax>44.315</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>NAD83</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-111.047</rdommin>\n <rdommax>-110.586</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Discharge</attrlabl>\n <attrdef>cubic feet per second</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.05</rdommin>\n <rdommax>231</rdommax>\n <attrunit>cubic feet per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pH</attrlabl>\n <attrdef>standard units</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6.16</rdommin>\n <rdommax>8.96</rdommax>\n <attrunit>standard pH units</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Specific conductance</attrlabl>\n <attrdef>microSiemens per centimeter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>33</rdommin>\n <rdommax>2468</rdommax>\n <attrunit>microSiemens per centimeter</attrunit>\n <attrmres>1</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Temperature</attrlabl>\n <attrdef>degrees Celsius</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6.7</rdommin>\n <rdommax>91.7</rdommax>\n <attrunit>degrees Celsius</attrunit>\n <attrmres>0.1</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calcium (Ca)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.57</rdommin>\n <rdommax>194</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnesium (Mg)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.012</rdommin>\n <rdommax>39.4</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sodium (Na)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.3</rdommin>\n <rdommax>345</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Potassium (K)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.79</rdommin>\n <rdommax>56.3</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lithium (Li)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>2000</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Silica (SiO2)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>28.5</rdommin>\n <rdommax>299</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Alkalinity</attrlabl>\n <attrdef>milligrams per liter as HCO3</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>13</rdommin>\n <rdommax>729</rdommax>\n <attrunit>milligrams per liter as HCO3</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fluoride (F)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.44</rdommin>\n <rdommax>16.7</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Bromide (Br)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>1.0</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chloride (Cl)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29</rdommin>\n <rdommax>253</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sulfate (SO4)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.76</rdommin>\n <rdommax>551</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sulfide (H2S)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.003</rdommin>\n <rdommax>0.417</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Thiosulfate (S2O3)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1</rdommin>\n <rdommax>1.39</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nitrate (NO3)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.02</rdommin>\n <rdommax>3.78</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ammonium (NH4)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.05</rdommin>\n <rdommax>1.33</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dissolved Organic Carbon (DOC)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.4</rdommin>\n <rdommax>8.6</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Phosphorus (P)</attrlabl>\n <attrdef>milligrams per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin><0.04</rdommin>\n <rdommax><0.05</rdommax>\n <attrunit>milligrams per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Aluminum (Al)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>289</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Antimony (Sb)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.003</rdommin>\n <rdommax>7.9</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenic (As)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2</rdommin>\n <rdommax>474</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenite (As(III))</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>326</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Barium (Ba)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22</rdommin>\n <rdommax>128</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Beryllium (Be)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2</rdommin>\n <rdommax>4.7</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Bismuth (Bi)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.03</rdommin>\n <rdommax>0.15</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Boron (B)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6</rdommin>\n <rdommax>8670</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cadmium (Cd)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.002</rdommin>\n <rdommax>0.22</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cerium (Ce)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.004</rdommin>\n <rdommax>1.4</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cesium (Cs)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.6</rdommin>\n <rdommax>88</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chromium (Cr)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3</rdommin>\n <rdommax>2</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cobalt (Co)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.005</rdommin>\n <rdommax>1.1</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Copper (Cu)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.04</rdommin>\n <rdommax>5.8</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dysprosium (Dy)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>0.27</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Erbium (Er)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.008</rdommin>\n <rdommax>0.17</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Europium (Eu)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0003</rdommin>\n <rdommax>0.011</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Gadolinium (Gd)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.008</rdommin>\n <rdommax>0.19</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Holmium (Ho)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.002</rdommin>\n <rdommax>0.057</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Iron (Fe)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>283</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ferrous Iron (Fe(II))</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>280</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lanthanum (La)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.005</rdommin>\n <rdommax>0.53</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lead (Pb)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.002</rdommin>\n <rdommax>0.9</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lutetium (Lu)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>Not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>0.024</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Manganese (Mn)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.5</rdommin>\n <rdommax>1232</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mercury (Hg)</attrlabl>\n <attrdef>nanograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2</rdommin>\n <rdommax>99.9</rdommax>\n <attrunit>nanograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Total mercury (Hg, unfiltered)</attrlabl>\n <attrdef>nanograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>---</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.3</rdommin>\n <rdommax>2170</rdommax>\n <attrunit>nanograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Molybdenum (Mo)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2</rdommin>\n <rdommax>118</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Neodymium (Nd)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.02</rdommin>\n <rdommax>0.53</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nickel (Ni)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.016</rdommin>\n <rdommax>3.7</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Praseodymium (Pr)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.003</rdommin>\n <rdommax>0.14</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rubidium (Rb)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>265</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Samarium (Sm)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.006</rdommin>\n <rdommax>0.13</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Selenium (Se)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin><30</rdommin>\n <rdommax><30</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Strontium (Sr)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>1890</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tellurium (Te)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.003</rdommin>\n <rdommax>0.007</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Terbium (Tb)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>0.036</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Thallium (Tl)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.003</rdommin>\n <rdommax>0.66</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Thorium (Th)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>0.036</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Thulium (Tm)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>0.025</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tin (Sn)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.007</rdommin>\n <rdommax>0.8</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tungsten (W)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3</rdommin>\n <rdommax>80</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Uranium (U)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.009</rdommin>\n <rdommax>9.2</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Vanadium (V)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>2</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ytterbium (Yb)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.007</rdommin>\n <rdommax>0.18</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Yttrium (Y)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>2.2</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Zinc (Zn)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>20</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Zirconium (Zr)</attrlabl>\n <attrdef>micrograms per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.023</rdommin>\n <rdommax>1.1</rdommax>\n <attrunit>micrograms per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>\xce\xb418O</attrlabl>\n <attrdef>per mil (\xe2\x80\xb0)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-18.52</rdommin>\n <rdommax>-14.02</rdommax>\n <attrunit>per mil (\xe2\x80\xb0)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>\xce\xb4D</attrlabl>\n <attrdef>per mil (\xe2\x80\xb0)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-143.25</rdommin>\n <rdommax>-124.03</rdommax>\n <attrunit>per mil (\xe2\x80\xb0)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>87Sr/86Sr</attrlabl>\n <attrdef>mass ratio</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.70985</rdommin>\n <rdommax>0.71031</rdommax>\n <attrunit>mass ratio</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>\xce\xb487Sr</attrlabl>\n <attrdef>per mil (\xe2\x80\xb0)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.953</rdommin>\n <rdommax>1.595</rdommax>\n <attrunit>per mil (\xe2\x80\xb0)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3H</attrlabl>\n <attrdef>Tritium units (T.U.) regressed</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.2</rdommin>\n <rdommax>6</rdommax>\n <attrunit>Tritium units regressed</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Charge balance</attrlabl>\n <attrdef>percent (%)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-8.92</rdommin>\n <rdommax>6.27</rdommax>\n <attrunit>percent (%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Specific conductance imbalance</attrlabl>\n <attrdef>percent (%)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-13</rdommin>\n <rdommax>6</rdommax>\n <attrunit>percent (%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9MJ0HYM</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20211027</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>R. Blaine McCleskey</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Chemist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3215 Marine Street</address>\n <city>Boulder</city>\n <state>Colorado</state>\n <postal>80303</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>(303)541-3079</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>" |
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## Dates
Publication Date2017Start Date2001End Date2014
## Citation
McCleskey, R.B., Mahony, Dan, Hurwitz, Shaul, Heasler, Henry, Huebner, M.A., Lowenstern, J.B., 2017, River chemistry in Yellowstone National Park: U.S. Geological Survey data release, https://doi.org/10.5066/F7GF0RRD.
## Summary
Falls River near Squirrel, Idaho (YFAL) Sample Collection: Samples were collected near the USGS stream gage 13046995 (Latitude 44°03'43", Longitude 111°09'07" NAD83). At the time of collection, all waters samples were filtered through a syringe filter (0.45-micrometer). Two splits of the filtered water were retained for chemical analyses, including an unacidified (FU) sample for determination of anion concentrations and a nitric acid preserved (FA; 1% volume-to-volume concentrated trace-metal grade nitric acid) sample for cation and trace metal analyses. During sample collection, the water temperature, specific conductance, and pH were often measured. Sample Analyses: Concentrations of chloride, fluoride, bromide, and sulfate \[...\]
## Summary
**Falls River near Squirrel, Idaho (YFAL)**
**Sample Collection:** Samples were collected near the USGS stream gage 13046995 (Latitude 44°03'43", Longitude 111°09'07" NAD83). At the time of collection, all waters samples were filtered through a syringe filter (0.45-micrometer). Two splits of the filtered water were retained for chemical analyses, including an unacidified (FU) sample for determination of anion concentrations and a nitric acid preserved (FA; 1% volume-to-volume concentrated trace-metal grade nitric acid) sample for cation and trace metal analyses. During sample collection, the water temperature, specific conductance, and pH were often measured.
**Sample Analyses:** Concentrations of chloride, fluoride, bromide, and sulfate were determined with an ion chromatograph (Dionex ICS-2000). Analytical errors for these constituents were typically less than 2%. Total alkalinity as bicarbonate was determined on stored samples, usually within several months after collection. Ten milliliters of sample were titrated with 0.05 Normal sulfuric acid to the bicarbonate end-point. The analytical error in alkalinity concentrations was roughly ± 5%. Concentrations of cations and trace metals were determined with an inductively coupled plasma-optical emission spectroscopy (Perkin Elmer Optima 7300 DV) following the methods described in Ball and others (2010).
**Database Contents**
The data file (YFAL.csv) contains the solute concentrations and the water discharge at the time of sampling for each of the rivers studied.
The entries in the data file appear in the following columns:
A. Date sample collected
B. Time sample collected
C. Water discharge (cubic feet per second) obtained from the [U.S. Geological Survey's National Water Information System (NWIS)](https://waterdata.usgs.gov/nwis/rt)
D. Water discharge (cubic meter per second) - obtained by multiplying column C by 0.02832
E. Chloride concentration (milligrams per liter)
F. Fluoride concentration (milligrams per liter)
G. Bromide concentration (milligrams per liter)
H. Sulfate concentration (milligrams per liter)
I. Alkalinity (milligrams per liter as bicarbonate)
J. Chloride flux (grams/second)
K. pH (standard units)
L. Specific conductance (microSiemens per centimeter)
M. Temperature (degrees Celsius)
N. Calcium concentration (milligrams per liter)
O. Magnesium concentration (milligrams per liter)
P. Sodium concentration (milligrams per liter)
Q. Potassium concentration (milligrams per liter)
R. Iron concentration (milligrams per liter)
S. Silica concentration (milligrams per liter)
T. Boron concentration (milligrams per liter)
U. Aluminum concentration (milligrams per liter)
V. Lithium concentration (milligrams per liter)
W. Strontium concentration (milligrams per liter)
X. Barium concentration (milligrams per liter)
Y. Rubidium concentration (milligrams per liter)
Z. Manganese concentration (milligrams per liter)
AA. Molybdenum concentration (milligrams per liter)
AB. Copper concentration (milligrams per liter)
AC. Zinc concentration (milligrams per liter)
AD. Cadmium concentration (milligrams per liter)
AE. Chromium concentration (milligrams per liter)
AF. Cobalt concentration (milligrams per liter)
AG. Lead concentration (milligrams per liter)
AH. Nickel concentration (milligrams per liter)
AI. Vanadium concentration (milligrams per liter)
AJ. Arsenic concentration (milligrams per liter)
AK. Antimony concentration (milligrams per liter)
**References**
Ball, J.W., McCleskey, R.B., and Nordstrom, D.K., 2010, [Water-chemistry data for selected springs, geysers, and streams in Yellowstone National Park, Wyoming, 2006-2008](https://pubs.er.usgs.gov/publication/ofr20101192?from=home): U.S. Geological Survey Open-File Report 2010-1192, 109 p.
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## Contacts
Point of Contact
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[R. Blaine McCleskey](/catalog/catalogParty/show?partyId=R.+Blaine+McCleskey)
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[R. Blaine McCleskey, Dan Mahony, Shaul Hurwitz, Henry Heasler, Mark A. Huebner, Jacob B. Lowenstern](/catalog/catalogParty/show?partyId=R.+Blaine+McCleskey%2C+Dan+Mahony%2C+Shaul+Hurwitz%2C+Henry+Heasler%2C+Mark+A.+Huebner%2C+Jacob+B.+Lowenstern)
Metadata Contact
:
[Richard Blaine McCleskey](/catalog/catalogParty/show?partyId=Richard+Blaine+McCleskey)
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| YFAL.csv | | 38.03 KB | text/csv |
## Purpose
The purpose of this Data Release is to provide chemical data from the Falls River near Squirrel, Idaho.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>R. Blaine McCleskey</origin>\n <origin>Dan Mahony</origin>\n <origin>Shaul Hurwitz</origin>\n <origin>Henry Heasler</origin>\n <origin>Mark A. Huebner</origin>\n <origin>Jacob B. Lowenstern</origin>\n <pubdate>2017</pubdate>\n <title>Falls River near Squirrel, ID (YFAL)</title>\n <geoform>spreadsheet (.CSV)</geoform>\n <pubinfo>\n <pubplace>Boulder, CO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7GF0RRD</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Falls River near Squirrel, Idaho (YFAL) \n\nSample Collection: Samples were collected near the USGS stream gage 13046995 (Latitude 44\xc2\xb003\'43", Longitude 111\xc2\xb009\'07" NAD83). At the time of collection, all waters samples were filtered through a syringe filter (0.45-micrometer). Two splits of the filtered water were retained for chemical analyses, including an unacidified (FU) sample for determination of anion concentrations and a nitric acid preserved (FA; 1% volume-to-volume concentrated trace-metal grade nitric acid) sample for cation and trace metal analyses. During sample collection, the water temperature, specific conductance, and pH were often measured. \n\nSample Analyses: Concentrations of chloride, fluoride, bromide, and sulfate were determined with an ion chromatograph (Dionex ICS-2000). Analytical errors for these constituents were typically less than 2%. Total alkalinity as bicarbonate was determined on stored samples, usually within several months after collection. Ten milliliters of sample were titrated with 0.05 Normal sulfuric acid to the bicarbonate end-point. The analytical error in alkalinity concentrations was roughly \xc2\xb1 5%. Concentrations of cations and trace metals were determined with an inductively coupled plasma-optical emission spectroscopy (Perkin Elmer Optima 7300 DV) following the methods described in Ball and others (2010). \n\nDatabase Contents \nThe data file (YFAL.csv) contains the solute concentrations and the water discharge at the time of sampling for each of the rivers studied. \n\nThe entries in the data file appear in the following columns: \nA. Date sample collected \nB. Time sample collected \nC. Water discharge (cubic feet per second) obtained from the U.S. Geological Survey\'s National Water Information System (NWIS) \nD. Water discharge (cubic meter per second) - obtained by multiplying column C by 0.02832 \nE. Chloride concentration (milligrams per liter) \nF. Fluoride concentration (milligrams per liter) \nG. Bromide concentration (milligrams per liter) \nH. Sulfate concentration (milligrams per liter) \nI. Alkalinity (milligrams per liter as bicarbonate) \nJ. Chloride flux (grams/second) \nK. pH (standard units) \nL. Specific conductance (microSiemens per centimeter) \nM. Temperature (degrees Celsius) \nN. Calcium concentration (milligrams per liter) \nO. Magnesium concentration (milligrams per liter) \nP. Sodium concentration (milligrams per liter) \nQ. Potassium concentration (milligrams per liter) \nR. Iron concentration (milligrams per liter) \nS. Silica concentration (milligrams per liter) \nT. Boron concentration (milligrams per liter) \nU. Aluminum concentration (milligrams per liter) \nV. Lithium concentration (milligrams per liter) \nW. Strontium concentration (milligrams per liter) \nX. Barium concentration (milligrams per liter) \nY. Rubidium concentration (milligrams per liter) \nZ. Manganese concentration (milligrams per liter) \nAA. Molybdenum concentration (milligrams per liter) \nAB. Copper concentration (milligrams per liter) \nAC. Zinc concentration (milligrams per liter) \nAD. Cadmium concentration (milligrams per liter) \nAE. Chromium concentration (milligrams per liter) \nAF. Cobalt concentration (milligrams per liter) \nAG. Lead concentration (milligrams per liter) \nAH. Nickel concentration (milligrams per liter) \nAI. Vanadium concentration (milligrams per liter) \nAJ. Arsenic concentration (milligrams per liter) \nAK. Antimony concentration (milligrams per liter) \n\nReferences \nBall, J.W., McCleskey, R.B., and Nordstrom, D.K., 2010, Water-chemistry data for selected springs, geysers, and streams in Yellowstone National Park, Wyoming, 2006-2008: U.S. Geological Survey Open-File Report 2010-1192, 109 p.</abstract>\n <purpose>The purpose of this Data Release is to provide chemical data from the Falls River near Squirrel, Idaho.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2001</begdate>\n <enddate>2014</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-110.151944</westbc>\n <eastbc>-110.151944</eastbc>\n <northbc>44.061944</northbc>\n <southbc>44.061944</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Chloride Flux Yellowstone National Park</themekt>\n <themekey>Geothermal</themekey>\n <themekey>chloride flux</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:58e56a4be4b09da679997f75</themekey>\n </theme>\n <place>\n <placekt>Yellowstone National Park</placekt>\n <placekey>Yellowstone National Park</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>R. Blaine McCleskey</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3215 Marine St.</address>\n <city>Boulder</city>\n <state>Colorado</state>\n <postal>80303</postal>\n <country>Boulder</country>\n </cntaddr>\n <cntvoice>(303) 541-3079</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Yellowstone National Park Service</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>Data was checked for consistency, charge balance, and logical temporal variations.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>with GPS</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Shaul Hurwitz, Sean Eagan, Henry Heasler, Dan Mahony, Mark A. Huebner, and Jacob B. Lowenstern</origin>\n <pubdate>2012</pubdate>\n <title>River Chemistry and Solute Flux in Yellowstone National Park</title>\n <geoform>speadsheet</geoform>\n <pubinfo>\n <pubplace>Menlo Park, California</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://pubs.usgs.gov/ds/2007/278/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Water Chemistry</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20020101</begdate>\n <enddate>20101230</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>Hurwitz, S., Eagan, S., Heasler, H., Mahony, D., Huebner, M.A., and Lowenstern, J.B., 2007, revised 2012, River chemistry and solute flux in Yellowstone National Park: U.S. Geological Survey Data Series 278, v. 4.0. (Available at https://pubs.usgs.gov/ds/2007/278/.)</srccurr>\n </srctime>\n <srccitea>DS 278</srccitea>\n <srccontr>Historical chloride data</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Water samples were collected onsite, shipped to laboratories for analyses, and the results were then compiled.</procdesc>\n <procdate>2016</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <overview>\n <eaover>Results of water analyses from the Falls River. The data includes date sample collected, time sample collected (local time: MST or MDT), water discharge (cubic feet per second) obtained from the U.S. Geological Survey\'s National Water Information System (NWIS), water discharge (cubic meter per second), chloride concentration (milligrams per liter), fluoride concentration (milligrams per liter), bromide concentration (milligrams per liter), sulfate concentration (milligrams per liter), alkalinity (milligrams per liter as bicarbonate), chloride flux (grams/second), pH (standard units), specific conductance (microSiemens per centimeter), temperature (degrees Celsius), calcium concentration (milligrams per liter), magnesium concentration (milligrams per liter), sodium concentration (milligrams per liter), potassium concentration (milligrams per liter), iron concentration (milligrams per liter), silica concentration (milligrams per liter), boron concentration (milligrams per liter), aluminum concentration (milligrams per liter), lithium concentration (milligrams per liter), strontium concentration (milligrams per liter), barium concentration (milligrams per liter), rubidium concentration (milligrams per liter), manganese concentration (milligrams per liter), molybdenum concentration (milligrams per liter), copper concentration (milligrams per liter), zinc concentration (milligrams per liter), cadmium concentration (milligrams per liter), chromium concentration (milligrams per liter), cobalt concentration (milligrams per liter), lead concentration (milligrams per liter), nickel concentration (milligrams per liter), vanadium concentration (milligrams per liter), arsenic concentration (milligrams per liter), and antimony concentration (milligrams per liter).</eaover>\n <eadetcit>The data (YFAL.csv) supersedes data in USGS Data Series 278 v. 4.0 (https://pubs.usgs.gov/ds/2007/278/).</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>Colorado</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Although this information product, for the most part, is in the public domain, it also contains copyrighted materials as noted in the text. Permission to reproduce copyrighted items must be secured from the copyright owner whenever applicable. The data have been approved for release and publication by the U.S. Geological Survey (USGS). Although the data have been subjected to rigorous review and are substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the data are released on the condition that neither the USGS nor the U.S. Government may be held liable for any damages resulting from authorized or unauthorized use. Although the data have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the display or utility of the data on any other system, or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The U.S. Geological Survey shall not be held liable for improper or incorrect use of the data described and/or contained herein. Users of the data are advised to read all metadata and associated documentation thoroughly to understand appropriate use and data limitations.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200831</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Richard Blaine McCleskey</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Chemist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3215 Marine St.</address>\n <city>Boulder</city>\n <state>Colorado</state>\n <postal>80303</postal>\n <country>Boulder</country>\n </cntaddr>\n <cntvoice>(303)541-3079</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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3. [Data Collected in Support of the Longshore Water-Current Velocity and the Potential for Transport of Contaminants pilot study in Lake Erie](/catalog/item/5764424fe4b07657d19ba8a0)
4. [Nearshore Water Quality Collected on Lake Erie on June 24, 2015, August 11, 2015, and August 19, 2015](/catalog/folder/58700453e4b01a71ba0c5f7b)
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## Dates
Publication Date2017Time Period2015-06-24Time Period2015-08-11Time Period2015-08-19
## Citation
Hittle, E.A., 2017, Data Collected in Support of the Longshore Water-Current Velocity and the Potential for Transport of Contaminants Pilot Study in Lake Erie: U.S. Geological Survey data release, https://doi.org/10.5066/F7KP808D.
## Summary
This data release supports the following publication: Hittle, Elizabeth, 2017, Longshore water-current velocity and the potential for transport of contaminants: A pilot study in Lake Erie from Walnut Creek to Presque Isle State Park Beaches, Erie, Pennsylvania, June and August 2015: U.S. Geological Survey Open-File Report 2016–1206 126 p., https://doi.org/10.3133/ofr20161206 Water-quality grab samples were collected about a meter from shore and coincide with the 25 longshore water-current velocity transects as closely as conditions would allow. Nearshore water-quality grab samples were collected on June 24, August 11, and August 19, 2015. Samples were analyzed for bacteria concentration, temperature, specific condictivity, pH, turbidity, \[...\]
## Summary
This data release supports the following publication: Hittle, Elizabeth, 2017, Longshore water-current velocity and the potential for transport of contaminants: A pilot study in Lake Erie from Walnut Creek to Presque Isle State Park Beaches, Erie, Pennsylvania, June and August 2015: U.S. Geological Survey Open-File Report 2016–1206 126 p., https://doi.org/10.3133/ofr20161206
Water-quality grab samples were collected about a meter from shore and coincide with the 25 longshore water-current velocity transects as closely as conditions would allow. Nearshore water-quality grab samples were collected on June 24, August 11, and August 19, 2015. Samples were analyzed for bacteria concentration, temperature, specific condictivity, pH, turbidity, and suspended sediment concentration. Not all parameters were analyzed for every sample. Samples were collected by Erie County Department of Health (ECDH) employees and Regional Science Consortium (RSC) interns. The nearshore water-quality samples were collected using grab-sample techniques. To maintain sterile conditions, grab samples were collected in at least 1 meter of water at approximately 0.3 meters below the water surface, being careful not to stir up bottom sediments. Water samples for bacteria analysis were collected in pre-sterilized 500-mL polypropylene bottles, allowing about 2 inches of head space for proper mixing, and were kept on ice prior to processing. Bacteria samples were analyzed for Escherichia coli (E. coli) using modified mTEC membrane-filtration techniques and were processed by RSC staff in the RSC laboratory within 6 hours of sample collection. Water samples for sediment analysis (June 24 and August 11, 2015) were collected in pre-tared 1000-mL polypropylene bottles by tilting the bottle at about a 45 degree angle away from the sampler and moving it from just under the surface (where the bottle was uncapped) to just above the streambed and back in a smooth vertical motion to get as close to a depth-integrated, single-vertical grab sample as possible. Sediment samples were prepared for shipping and sent to the USGS sediment laboratory at the USGS Kentucky Water Science Center where they were analyzed for total suspended sediment concentration, sand/fine break (percent of sediment less than 4 mm), and fine components including percent fines less than 2 mm, 1 mm, 0.5 mm, 0.25 mm, 0.125 mm, and silt/clay break at <0.0625mm.
## Contacts
Point of Contact
:
[Elizabeth A Hittle](/catalog/catalogParty/show?partyId=4598)
Originator
:
[Elizabeth A Hittle](/catalog/catalogParty/show?partyId=4598)
Metadata Contact
:
[Elizabeth A Hittle](/catalog/catalogParty/show?partyId=4598)
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[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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:
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:
[Pennsylvania Water Science Center](/catalog/catalogParty/show?partyId=17215)
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| | |
| --- | --- |
| Hittle, Elizabeth, 2017, Longshore Water-Current Velocity and the Potential for Transport of Contaminants: A Pilot Study in Lake Erie from Walnut Creek to Presque Isle State Park Beaches, Erie, Pennsylvania, June and August 2015: U.S. Geological Survey Open-File Report 2016–1206 126 p., https://doi.org/10.3133/ofr20161206. | [https://doi.org/10.3133/ofr20161206](https://doi.org/10.3133/ofr20161206 "https://doi.org/10.3133/ofr20161206") |
Type: ScienceBase Repository
| | |
| --- | --- |
| Hittle, Elizabeth, 2017, Data Collected in Support of the Longshore Water-Current Velocity and the Potential for Transport of Contaminants Pilot Study in Lake Erie: U.S. Geological Survey data release, http://dx.doi.org/10.5066/F7KP808D. | [http://dx.doi.org/10.5066/F7KP808D](http://dx.doi.org/10.5066/F7KP808D "http://dx.doi.org/10.5066/F7KP808D") |
## Purpose
Data were collected in support of looking at the water circulation patterns
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Elizabeth Hittle</origin>\n <pubdate>2017</pubdate>\n <title>Nearshore Water Quality Collected on Lake Erie on June 24, 2015, August 11, 2015, and August 19, 2015</title>\n <geoform>Excel workbbok</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.5066/F7KP808D</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Elizabeth Hittle</origin>\n <pubdate>2017</pubdate>\n <title>Hittle, Elizabeth, 2017, Longshore Water-Current Velocity and the Potential for Transport of Contaminants: A Pilot Study in Lake Erie from Walnut Creek to Presque Isle State Park beaches, Erie, Pennsylvania, June and August 2015</title>\n <geoform>Open-File Report</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/ofr20161206</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release supports the following publication: Hittle, Elizabeth, 2017, Longshore water-current velocity and the potential for transport of contaminants: A pilot study in Lake Erie from Walnut Creek to Presque Isle State Park beaches, Erie, Pennsylvania, June and August 2015: U.S. Geological Survey Open-File Report 2016\xe2\x80\x931206 126 p., https://doi.org/10.3133/ofr20161206 \n\nWater-quality grab samples were collected about a meter from shore and coincide with the 25 longshore water-current velocity transects as closely as conditions would allow. Nearshore water-quality grab samples were collected on June 24, August 11, and August 19, 2015. Samples were analyzed for bacteria concentration, temperature, specific condictivity, pH, turbidity, and suspended sediment concentration. Not all parameters were analyzed for every sample. Samples were collected by Erie County Department of Health (ECDH) employees and Regional Science Consortium (RSC) interns. The nearshore water-quality samples were collected using grab-sample techniques. To maintain sterile conditions, grab samples were collected in at least 1 meter of water at approximately 0.3 meters below the water surface, being careful not to stir up bottom sediments. Water samples for bacteria analysis were collected in pre-sterilized 500-mL polypropylene bottles, allowing about 2 inches of head space for proper mixing, and were kept on ice prior to processing. Bacteria samples were analyzed for Escherichia coli (E. coli) using modified mTEC membrane-filtration techniques and were processed by RSC staff in the RSC laboratory within 6 hours of sample collection. \nWater samples for sediment analysis (June 24 and August 11, 2015) were collected in pre-tared 1000-mL polypropylene bottles by tilting the bottle at about a 45 degree angle away from the sampler and moving it from just under the surface (where the bottle was uncapped) to just above the streambed and back in a smooth vertical motion to get as close to a depth-integrated, single-vertical grab sample as possible. Sediment samples were prepared for shipping and sent to the USGS sediment laboratory at the USGS Kentucky Water Science Center where they were analyzed for total suspended sediment concentration, sand/fine break (percent of sediment less than 4 mm), and fine components including percent fines less than 2 mm, 1 mm, 0.5 mm, 0.25 mm, 0.125 mm, and silt/clay break at <0.0625mm.</abstract>\n <purpose>Data were collected in support of looking at the water circulation patterns</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>20150624</caldate>\n </sngdate>\n <sngdate>\n <caldate>20150811</caldate>\n </sngdate>\n <sngdate>\n <caldate>20150819</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-80.240521</westbc>\n <eastbc>-80.151268</eastbc>\n <northbc>42.121237</northbc>\n <southbc>42.07653</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Water Quality</themekey>\n <themekey>Suspended Sediment</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:58700453e4b01a71ba0c5f7b</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Lake Erie</placekey>\n <placekey>Presque Isle State Park</placekey>\n <placekey>Pennsylvania</placekey>\n <placekey>Erie County</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Elizabeth Hittle</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>439 Hepburn St.</address>\n <city>Williamsport</city>\n <state>PA</state>\n <postal>17701</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>570-327-3181</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>PA Sea Grant</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>All nearshore water quality data was input into the USGS QWData database. This spreadsheet is an output of all water quality data for the nearshore stations and Walnut Creek between June 24, 2015 and August 19, 2015. This data was accessed on April 25, 2016 at the following URL. http://nwis.waterdata.usgs.gov/pa/nwis/qwdata?multiple_site_no=04213152%2C420437080142501%2C420437080142201%2C420438080141901%2C420439080135601%2C420439080140301%2C420439080141701%2C420440080141401%2C420441080134701%2C420441080140701%2C420445080133901%2C420452080131601%2C420509080123401%2C420524080115101%2C420533080113101%2C420547080110101%2C420559080103901%2C420611080101701%2C420623080095501%2C420635080094101%2C420643080092701%2C420648080092101%2C420655080091601%2C420703080091201%2C420709080090801%2C420715080090501&group_key=NONE&sitefile_output_format=html_table&column_name=agency_cd&column_name=site_no&column_name=station_nm&inventory_output=0&rdb_inventory_output=file&begin_date=2015-06-18&end_date=2015-08-21&TZoutput=0&pm_cd_compare=Greater%20than&radio_parm_cds=all_parm_cds&format=html_table&qw_attributes=0&qw_sample_wide=wide&rdb_qw_attributes=0&date_format=YYYY-MM-DD&rdb_compression=file&list_of_search_criteria=multiple_site_no</procdesc>\n <procdate>20160425</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>1.0E-6</latres>\n <longres>1.0E-6</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Nearshore_Sampling_Points_QWDATA.csv</enttypl>\n <enttypd>Results for nearshore sampling points accomplished on June 24, August 11 and August 18, 2015</enttypd>\n <enttypds>USGS database</enttypds>\n </enttyp>\n <attr>\n <attrlabl>agency_cd</attrlabl>\n <attrdef>Agency Code</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; Site Information; http://dx.doi.org/10.5066/F7P55KJN</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>USGS Agency Code</codesetn>\n <codesets>http://help.waterdata.usgs.gov/code/agency_cd_query?fmt=html</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>site_no</attrlabl>\n <attrdef>Unique USGS station number</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; Site Information; http://dx.doi.org/10.5066/F7P55KJN</attrdefs>\n <attrdomv>\n <udom>A list of station numbers where the data was collected</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>sample_dt</attrlabl>\n <attrdef>Date that the sample was collected</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6/24/2015</rdommin>\n <rdommax>8/19/2015</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>sample_tm</attrlabl>\n <attrdef>Time that the sample was collected</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7:45</rdommin>\n <rdommax>12:00</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Waypoint</attrlabl>\n <attrdef>An easy reference that corresponds to the waypoint number. Walnut Creek refers to a sample collected upstream of the lake in Walnut Creek</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>25</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>sample_start_time_datum_cd</attrlabl>\n <attrdef>Time datum for the sample time</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <udom>All data was collected in Eastern Daylight Time</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>tm_datum_rlbty_cd</attrlabl>\n <attrdef>Time datum reliability code</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <udom>The time datum is known (k) for all samples</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>coll_ent_cd</attrlabl>\n <attrdef>Agency that collected the data</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <edom>\n <edomv>USGS-WRD</edomv>\n <edomvd>U.S. Geological Survey-Water Resources Discipline</edomvd>\n <edomvds>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PA-ECHDL</edomv>\n <edomvd>Erie County Health Department, Erie, Pennsylvania</edomvd>\n <edomvds>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PA-RSCPI</edomv>\n <edomvd>Regional Science Consortium at Presque Isle, Erie, PA</edomvd>\n <edomvds>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>medium_cd</attrlabl>\n <attrdef>Medium code</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <edom>\n <edomv>WS</edomv>\n <edomvd>surface water</edomvd>\n <edomvds>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P00010</attrlabl>\n <attrdef>Temperature, water, degrees Celsius</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>18.2</rdommin>\n <rdommax>25.6</rdommax>\n <attrunit>degrees Celsius (C)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>p00095</attrlabl>\n <attrdef>Specific conductance, water, unfiltered, microsiemens per centimeter at 25 degrees Celsius</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>661</rdommin>\n <rdommax>661</rdommax>\n <attrunit>microsiemens per centimeter (uS/cm)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P00400</attrlabl>\n <attrdef>pH, water, unfiltered, field, standard units</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8.3</rdommin>\n <rdommax>8.3</rdommax>\n <attrunit>standard units</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>p63676</attrlabl>\n <attrdef>Turbidity, water, unfiltered, broad band light source (400-680 nm), detectors at multiple angles including 90 +-30 degrees, ratiometric correction, NTRU</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.4</rdommin>\n <rdommax>120</rdommax>\n <attrunit>Nephelometric Turbidity Ratio Unit (NTRU)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P63680</attrlabl>\n <attrdef>Turbidity, water, unfiltered, monochrome near infra-red LED light, 780-900 nm, detection angle 90 +-2.5 degrees, formazin nephelometric units (FNU)</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>formazin nephelometric units (FNU)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P69314</attrlabl>\n <attrdef>Suspended sediment, sieve diameter, percent smaller than 4 millimeters</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>100</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P70331</attrlabl>\n <attrdef>Suspended sediment, sieve diameter, percent smaller than 0.0625 millimeters</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P70332</attrlabl>\n <attrdef>Suspended sediment, sieve diameter, percent smaller than 0.125 millimeters</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>p70333</attrlabl>\n <attrdef>Suspended sediment, sieve diameter, percent smaller than 0.25 millimeters</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>46</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>p70334</attrlabl>\n <attrdef>Suspended sediment, sieve diameter, percent smaller than 0.5 millimeters</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>59</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>p70335</attrlabl>\n <attrdef>Suspended sediment, sieve diameter, percent smaller than 1 millimeters</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>80</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>p70336</attrlabl>\n <attrdef>Suspended sediment, sieve diameter, percent smaller than 2 millimeters</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>91</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>p80154</attrlabl>\n <attrdef>Suspended sediment concentration, milligrams per liter</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>467</rdommax>\n <attrunit>milligrams / liter (mg/l)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>p90902</attrlabl>\n <attrdef>Escherichia coli, modified m-TEC MF method, water, colonies per 100 milliliters</attrdef>\n <attrdefs>U.S Geological Survey - National Water Information System; http://nwis.waterdata.usgs.gov/usa/nwis/qwdata</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2500</rdommax>\n <attrunit>colonies per 100 milliliters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Elizabeth Hittle</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Hydologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>439 Hepburn St.</address>\n <city>Williamsport</city>\n <state>PA</state>\n <postal>17701</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>570-327-3181</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2018-01-31Start Date1996-03-25End Date2012-11-08
## Citation
Morrison, C.L., Cornman, R.S., Iwanowicz, Luke, Iwanowicz, Deborah, Adams, C.R., and Sanders, L.R., 2018, Targeted amplicon resequencing of chelonid alphaherpesvirus 5 from tumor samples collected from Chelonia mydas (green turtle) inhabiting Hawaiian and Florida coastal waters: U.S. Geological Survey data release, https://doi.org/10.5066/F73B5Z3T.
## Summary
The files in this data release are the processed DNA consensus sequence alignment files for the chelonid herpesvirus 5 (ChHV-5) genome plus 66 open reading frames representing protien-coding genes. DNA was extracted from tumor biopsies from green sea turtles (Chelonias mydas) with fibropapillomatosis sampled from Florida and Hawaii coastal waters. We used high-throughput short-read sequencing (Illumina MiSeq and Ion Torrent Personal Genome Machine) of long-range PCR products amplified from tumor tissue using primers designed from the single available ChHV5 reference genome from a Hawaii green sea turtle. The raw sequence data is available at the NCBI Sequence Read Archive under bioproject number PRJNA360405, including biosample numbers \[...\]
## Summary
The files in this data release are the processed DNA consensus sequence alignment files for the chelonid herpesvirus 5 (ChHV-5) genome plus 66 open reading frames representing protien-coding genes. DNA was extracted from tumor biopsies from green sea turtles (Chelonias mydas) with fibropapillomatosis sampled from Florida and Hawaii coastal waters. We used high-throughput short-read sequencing (Illumina MiSeq and Ion Torrent Personal Genome Machine) of long-range PCR products amplified from tumor tissue using primers designed from the single available ChHV5 reference genome from a Hawaii green sea turtle. The raw sequence data is available at the NCBI Sequence Read Archive under bioproject number PRJNA360405, including biosample numbers SAMN06210144- SAMN06210150.
## Contacts
Point of Contact
:
[Cheryl Morrison](/catalog/catalogParty/show?partyId=7204)
Process Contact
:
[Lakyn R Sanders](/catalog/catalogParty/show?partyId=61143),
[Cynthia R Adams](/catalog/catalogParty/show?partyId=65545),
[Robert S Cornman](/catalog/catalogParty/show?partyId=Robert+S+Cornman)
Originator
:
[Cheryl L Morrison](/catalog/catalogParty/show?partyId=Cheryl+L+Morrison),
[Robert S Cornman](/catalog/catalogParty/show?partyId=59182),
[Luke Iwanowicz](/catalog/catalogParty/show?partyId=4946),
[Deborah Iwanowicz](/catalog/catalogParty/show?partyId=4945),
[Cynthia R Adams](/catalog/catalogParty/show?partyId=65545),
[Lakyn R Sanders](/catalog/catalogParty/show?partyId=61143)
Metadata Contact
:
[Cheryl Morrison](/catalog/catalogParty/show?partyId=7204)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Ecosystems](/catalog/catalogParty/show?partyId=Ecosystems)
SDC Data Owner
:
[Eastern Ecological Science Center](/catalog/catalogParty/show?partyId=17184)
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## Purpose
Samples were collected to assess genomic variation in ChHV-5 among five Hawaii and three Florida green sea turtles infected with fibropapillomatosis. , This strategy recovered sequence data from both geographic regions for approximately 75% of the predicted ChHV5 coding sequences. This study significantly increased the amount of sequence data available from ChHV5 strains, enabling informed selection of loci for future population genetic and natural history studies, and suggesting the (possibly latent) co-infection of individuals by well-differentiated geographic variants.
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## Communities
- Eastern Ecological Science Center
- Leetown Science Center (LSC)
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## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F73B5Z3T |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Morrison, Cheryl L.</origin>\n <origin>Cornman, Robert S.</origin>\n <origin>Iwanowicz, Luke</origin>\n <origin>Iwanowicz, Deborah</origin>\n <origin>Adams, Cynthia Ruth</origin>\n <origin>Sanders, Lakyn R.</origin>\n <pubdate>2018</pubdate>\n <title>Targeted amplicon resequencing of chelonid alphaherpesvirus 5 from tumor samples collected from Chelonia mydas (green turtle) inhabiting Hawaiian and Florida coastal waters</title>\n <geoform>spreadsheet</geoform>\n <pubinfo>\n <pubplace>Kearneysville, WV, U.S. Geological Survey, Leetown Science Center</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F73B5Z3T</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Morrison, Cheryl</origin>\n <origin>Iwanowicz, Luke</origin>\n <origin>Work, Thierry M.</origin>\n <origin>Fahsbender, Elizabeth</origin>\n <origin>Breitbart, Mya</origin>\n <origin>Adams, Cynthis Ruth</origin>\n <origin>Iwanowicz, Deborah</origin>\n <origin>Sanders, Lakyn R.</origin>\n <origin>Ackermann, Mathias</origin>\n <origin>Cornman, Robert S.</origin>\n <pubdate>2018</pubdate>\n <title>Genomic evolution, recombination, and inter-strain diversity of chelonid herpesvirus 5 (ChHV5) from Florida and Hawaii green sea turtles with fibropapillomatosis</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>ScienceBase</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The files in this data release are the processed DNA consensus sequence alignment files for the chelonid herpesvirus 5 (ChHV-5) genome plus 66 open reading frames representing protien-coding genes. DNA was extracted from tumor biopsies from green sea turtles (Chelonias mydas) with fibropapillomatosis sampled from Florida and Hawaii coastal waters. We used high-throughput short-read sequencing (Illumina MiSeq and Ion Torrent Personal Genome Machine) of long-range PCR products amplified from tumor tissue using primers designed from the single available ChHV5 reference genome from a Hawaii green sea turtle. The raw sequence data is available at the NCBI Sequence Read Archive under bioproject number PRJNA360405, including biosample numbers SAMN06210144- SAMN06210150.</abstract>\n <purpose>Samples were collected to assess genomic variation in ChHV-5 among five Hawaii and three Florida green sea turtles infected with fibropapillomatosis. ,\nThis strategy recovered sequence data from both geographic regions for approximately 75% of the predicted ChHV5 coding sequences. This study significantly increased the amount of sequence data available from ChHV5 strains, enabling informed selection of loci for future population genetic and natural history studies, and suggesting the (possibly latent) co-infection of individuals by well-differentiated geographic variants.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>19960325</begdate>\n <enddate>20121108</enddate>\n </rngdates>\n </timeinfo>\n <current>observed</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-158.90625000000003</westbc>\n <eastbc>-68.90625000000001</eastbc>\n <northbc>30.751277776257812</northbc>\n <southbc>17.97873309555617</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>genetics</themekey>\n <themekey>endangered species</themekey>\n <themekey>marine biology</themekey>\n <themekey>DNA sequencing</themekey>\n <themekey>polymerase chain reaction</themekey>\n <themekey>virology</themekey>\n <themekey>viruses</themekey>\n <themekey>reptiles</themekey>\n </theme>\n <theme>\n <themekt>Marine Realms Information Bank (MRIB) keywords</themekt>\n <themekey>sea turtles</themekey>\n <themekey>disease research</themekey>\n </theme>\n <theme>\n <themekt>USGS Biocomplexity Thesaurus</themekt>\n <themekey>Genetic Diversity</themekey>\n <themekey>Virology</themekey>\n </theme>\n <theme>\n <themekt>Integrated Taxonomic Information System</themekt>\n <themekey>Kingdom Animalia</themekey>\n <themekey>Subkingdom Bilateria</themekey>\n <themekey>Infrakingdom Deuterostomia</themekey>\n <themekey>Phylum Chordata</themekey>\n <themekey>Subphylum Vertebrata</themekey>\n <themekey>Infraphylum Gnathostomata</themekey>\n <themekey>Superclass Tetrapoda</themekey>\n <themekey>Class Reptilia</themekey>\n <themekey>Order Testudines</themekey>\n <themekey>Suborder Cryptodira</themekey>\n <themekey>Superfamily Chelonioidea</themekey>\n <themekey>Family Cheloniidae</themekey>\n <themekey>Subfamily Cheloniinae</themekey>\n <themekey>Genus Chelonia</themekey>\n <themekey>Species Chelonia mydas</themekey>\n <themekey>Green Sea Turtle</themekey>\n </theme>\n <theme>\n <themekt>International Committee on Taxonomy of Viruses, 2016 release</themekt>\n <themekey>Order Herpesvirales</themekey>\n <themekey>Family Herpesviridae</themekey>\n <themekey>Subfamily Alpheherpesvirinae</themekey>\n <themekey>Genus Scutavirus</themekey>\n <themekey>Species Chelonid alphaherpesvirus 5</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:59c01bede4b091459a5e0aaa</themekey>\n </theme>\n <place>\n <placekt>CommonGeographicAreas</placekt>\n <placekey>Earth, Oceans, Atlantic, North Atlantic</placekey>\n <placekey>Earth, Oceans, Pacific</placekey>\n </place>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Hawaii, Oahu, Honolulu County</placekey>\n <placekey>Hawaii, Maui County 2</placekey>\n <placekey>Hawaii, Hilo</placekey>\n <placekey>Florida, Indian River County, Martin County, Sarasota</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>None. Users are advised to read the data set's metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Cheryl Morrison</cntper>\n <cntorg>U.S. Geological Survey, Northeast Region</cntorg>\n </cntperp>\n <cntpos>RESEARCH GENETICIST</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>11649 Leetown Road</address>\n <city>Kearneysville</city>\n <state>WV</state>\n <postal>25430</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>304-724-4464</cntvoice>\n <cntfax>304-724-4424</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Individual sample ID's, collection dates, and sampling locations contained in the accompanying worksheet were verified and cross-referenced to field notes.\nWe observed sterile technique in the handling of all DNA, and all procedures were performed with positive and negative controls to provide evidence of replication without contamination.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>Geospatial data were acquired from the contributing data sources. These methods were not documented in the source data. All reported locations were verified with Google Earth.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Biopsies of skin tumors were obtained from green sea turtles that had stranded with fibropapillomatosis. Sections of tumors were excised, placed in cryovials, and stored at -70\xc2\xb0C. DNA was extracted from 10 mg sections of tumor tissue using DNeasy Blood and Tissue Kit (Qiagen, Valencia, CA). DNA, quantified with the Qubit double-stranded (ds) DNA High Sensitivity (HS) Assay Kit (ThermoFisher Scientific, Grand Isle, NY), then normalized to 20 - 45 ng/\xc2\xb5l, with one or both concentrations, was used for long-range PCR.</procdesc>\n <procdate>2014</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Lakyn R Sanders</cntper>\n <cntorg>U.S. Geological Survey, Northeast Region</cntorg>\n </cntperp>\n <cntpos>CONTRACTOR</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>11649 Leetown Road</address>\n <city>Kearneysville</city>\n <state>WV</state>\n <postal>25430</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>304-724-4456</cntvoice>\n <cntfax>304-724-4465</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Long-range (LR) PCR primers were designed from the ChHV5 reference genome (sequenced by Ackermann et al. 2012; GenBank HQ870327) using Geneious v 6.1.8 (Biomatters Ltd.) to amplify overlapping fragments of approximately 5 kb (kilobase pairs). Long-range PCR reactions were performed using the standard manufacturers protocol from the Qiagen LongRange PCR Kit (Qiagen, Valencia, CA). For LR PCR primer pairs that failed to amplify in a few samples, the TaKaRa LA Taq polymerase kit (ClonTech, Palo Alto, CA), was used, following the standard protocol. PCR products were quantified using the Qubit double-stranded (ds) DNA High Sensitivity (HS) Assay Kit (ThermoFisher Scientific, Grand Isle, NY), then normalized to 1 ng/\xc2\xb5l. Amplicons from each sample were then pooled in equal volumes, barcoded, and sequenced simultaneously.</procdesc>\n <procdate>2013</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Lakyn R Sanders</cntper>\n <cntorg>U.S. Geological Survey, Northeast Region</cntorg>\n </cntperp>\n <cntpos>CONTRACTOR</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>11649 Leetown Road</address>\n <city>Kearneysville</city>\n <state>WV</state>\n <postal>25430</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>304-724-4456</cntvoice>\n <cntfax>304-724-4465</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Two samples (FL_F5 and HI_21553) were run separately on an Ion Torrent Personal Genome Machine (PGM\xe2\x84\xa2, Life Technologies, Foster City, CA). For each sample, 20 LR PCR products were analyzed separately with the Bioanalyzer 2100 (Agilent Technologies, Santa Clara, CA) using the DNA1000 reagent kit. For each sample, PCR products were pooled in equimolar concentrations and frozen at -20\xcb\x9aC. Libraries were made from pooled PCR products for each sample following the manufacturer\xe2\x80\x99s protocol for the Ion Xpress Plus Fragment Library Kit (Publication # 4471989, Revision N). The final libraries were prepared for sequencing using the Ion PGM\xe2\x84\xa2 Sequencing 200 Kit v2 (Publication no. MAN0007273) using the Ion 318 v2 and Ion 316 semiconductor chips for the FL and HI samples, respectively.\nFor Illumina MiSeq\xc2\xae runs, cleaned PCR-products were quantified using the Qubit\xc2\xae 2.0 Fluorometer with the Qubit\xc2\xae double-stranded (ds)DNA HS Assay Kit (ThermoFisher Scientific, Grand Isle, NY) and normalized to 0.2 ng/\xc2\xb5l using 10 mM Tris, pH 8.5. Libraries were prepared using 1 ng total input DNA and the Nextera\xc2\xae XT DNA Library Prep Kit following the Illumina Library Preparation Guide (Illumina, San Diego, CA). The only modification to the protocol was to the PCR clean-up step, in which we used 0.5x Agencourt\xc2\xae AMPure XP beads (Beckman Coulter, Indianapolis, IN) to select for a larger insert size. Final library size was validated using the BioAnalyzer HS DNA Kit (Agilent Technologies, Santa Clara, CA). Prepared libraries were quantified using the Qubit 2.0 Fluorometer with the Qubit dsDNA HS Assay Kit (ThermoFisher Scientific, Grand Isle, NY) and normalized to 4 nM using 10 mM Tris, pH 8.5. The pooled libraries were run at 15 pM with a 5% PhiX174 spike on the Illumina MiSeq\xc2\xae with a 600 cycle v3 reagent kit (Illumina, San Diego, CA).</procdesc>\n <procdate>2015</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Cynthia R Adams</cntper>\n <cntorg>U.S. Geological Survey, Northeast Region</cntorg>\n </cntperp>\n <cntpos>PATHWAYS INTERN</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>11649 Leetown Road</address>\n <city>Kearneysville</city>\n <state>WV</state>\n <postal>25430</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>304-724-4433</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Machine-demultiplexed fastq files were imported into CLC Genomics Workbench v. 8 (https://www.qiagenbioinformatics.com) for trimming of exogenous sequences and low-quality base calls. Sequencing adapters were removed using the default scoring algorithm, bases were trimmed on an error probability of 0.05, and at most three ambiguous bases per read were allowed. Reads containing less than 50 bp after trimming were discarded. For Illumina paired-end reads, reads orphaned after the trimming step were discarded.\nThe combined filtered short-read data from all runs were mapped to the ChHV5 reference genome sequence of Ackermann et al. (2012; accession no. HQ878327). Mapping was performed with smalt (http://www.sanger.ac.uk/science/tools/smalt-0) version 0.7.6 with a word size of 13 and a step size of 5. Mappings for separate sequencing runs of the same biological sample were merged in samtools v. 1.3 (Li et al., 2009). Mappings were filtered to exclude those with Phred-scaled quality less than 20.\nConsensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons.</procdesc>\n <procdate>2016</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Robert S Cornman</cntper>\n <cntorg>U.S. Geological Survey, SOUTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2150 Centre Avenue Bldg C</address>\n <city>Fort Collins</city>\n <state>CO</state>\n <postal>80526</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>970-226-9380</cntvoice>\n <cntfax>970-226-9230</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>ABX60166_Fsial.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.Data represents aligned DNA consensus sequences for the ChHV-5 F-sial gene (Similarity to Glycosyltransferase family 29) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples with the exception of the first entry, which is the GenBank accession number for the ChHV5 genomic sequence for F-sial from Ackermann et al., 2012. See Metadata file for additional sample information.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-sial gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-sial consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGAGGCGCAATGTAAAAGCGTGTTTTGTGCTTATATTCATCACCGTCGTTATTGCGTGGTGGTTATGTTTTCTGCCCAAGCGGTCACGGGAGCCTGTTTGCGTTCCCGGTTCTGCCCCGAAAAAAGCCGCTGTTCTTTTAGGATTTATTTCGCCCGTCGAACGCAGAGCCTTTTTAACGTTTGAGTCTTTACGCGAACGCGAGGTCAATCAGTTCGAGTTGCCTTACGGGTTGCGCTCCGCAAGGCAAGAAGCCGAAAAAGCGCTTACGTCGGTCGAATATAACCATCCGATCGCGTGGACGAAAAATACGTGTAGGAGTTGCGTGGTGGTCGGAAATGGACGGCAAATATTGAACTCTGGCTTAGGGTCCGTTATCGACGGCTTTGATGTAGTCATACGGTTAAATCAAGCACCTACGGCGGGATTTGAACAAGACGTGGGAAGTCGAACTACTTTAAGGCTTTTTTATCCGGAATCGGCGAAGTTTCCACCCGGGTTTTCGCCAGCCGCAGAAGAGCATCTGGTATTAATGTCCTTCAAGCCTTCGGATTTTAATTGGTTACACTCGGTTATGTCCGGCCACGAGCCTCCGGCTGATATCAAATTTTGGCAAAAGGTGCCCCGGTGGTGGAACTTTCCGGCTAAGCGAGTGCGAATTTTGGACCCTTACTATTTTCAGGTGGCCGGGTTTCGGTTACTTAATGTTACGGGAGCCACTTACGACAAGCAGCGACCCAGTAGCGGTTTATTAGCCGTAAGTCTCGCTCTTCATCACTGTGATCGAGTTGCTATCACTGGTTTTGGGTACCCGGATTCCGGCGACTCAAGTGCGTGGGTCCATTATTTTGACGCCGCGCTTTTAAAGGATACATCTTCCGTTCCGCATGACTTTCCAAAAGAGAAAAAGGTTCTCCAACAGTTAGTTAAGCTAGGAGCAATCGAACGTCTGCCTAACGTATGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-sial. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAGGCGCAATGTAAAAGCGTGTTTTGTGCTTATATTCATCACCGTCGTTATTGCGTGGTGGTTATGTTTTCTGCCCAAGCGGTCACGGGAGCCTGTTTGCGTTCCCGGTTCTGCCCCGAAAAAAGCCGCTGCTCTTTTAGGATTTATTTCGCCCGTCGAACGCAGAGCCTTTTTAACGTTTGAGTCTTTACGCGAACGCGAGGTCAATCAATTCGAGTTGCCTTACGGGTTGCGCTCCGCAAGGCAAGAAGCCGAAAAAGCGCTCACGTCGGTCGAGTATAATCATCCAATCGCGTGGACGAAAAATACGTGTAGGAGTTGCGTGGTGGTCGGAAATGGACGGCAAATATTGAACTCTGGCTTAGGGTCCGTTATCGACGGCTTTGATGTAGTCATACGGTTAAATCAAGCACCTACGGCGGGATTTGAACAAGACGTGGGAAGTCGAACTACTTTAAGGCTTTTTTATCCGGAATCGGCGAAGTTTCCACCCGGGTTTTCGCCAGCCGCAGAAGAGCATCTGGTACTAATGTCCTTCAAGCCTTCGGATTTTCATTGGTTACACTCGGTTATGTCCGGCCACGAGCCTCCGGCTGATAGCAAATTTTGGCAAAAGGTGCCCCGGTGGTGGAACTTTCCGGCTAAGCGAGTGCGAATTTTGGACCCTTACTATTTTCAGGTGGCCGGGTTTCGGTTACTTAATGTTACGGGAGCCACTTACGACAAGCAGCGACCCAGTAGCGGTTTATTAGCCGTAAGTCTCGCTCTTCATCACTGTGATAGAGTTGCTATCACTGGTTTTGGGTACCCGGATTCCGGCGACTCAAGTGCGTGGGTCCATTATTTTGACGCCGCGCTTTTAAAGGATACATCTTTCGTTCCGCATGACTTTCCAAAAGAGAAAAAGGTTCTCCAACAGTTAGTTAAGCTAGGAGCAATCGAACGTCTGCCTAACGTATAA</edomv>\n <edomvd>Consensus DNA sequence for F-sial. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AEZ68791_FUL52.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL52 gene (predicted feature= UL52 helicase-primase) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>LABORATORY_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL52 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL52 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTTAAACCTAATTGTTTTTTTATTTTCATTGTGGGCGGGCAACAGCGAATCAGTGCCCACCGATACAGAGGGCGAGGTAAAGACCTGCGATTACGACCTGGGCTACTTGATAAGGGAACTCGAACAAGATGGAAATAACACTTGGTGGTATCCGAATCAAAAAACGGTAATTGAAAATTTAAAAGGAAAGTTCCAAAATTGTACAGTACCTGAAGCGTCCACTTGGAACGAATTTTTTTGGGCCACGACTAACAGAACTCAACCAGAAAAAACAATACAATGCTTACTGAATTCGTGCCTCTTGGGTAACCGCGGGGCGGAGGAATATCCCCAACGGGTCAGGCCGGTTTTTTTGTGCGATTTTGACGGGGATCCTTTTTTCGCTCGTTGTCTGTCGGAGGGGTGTCCCGTGGCCACCGAATACCTTTTGAAACACCTGGAGGAAGAAACCTCTCTGCTATATCACGGCGACATTATTTGGGGCATGTCGACTGCGTTTACGAGGCCCGGGGACTTTATCCGCCCTTCTAGCGCCACCTTGCGTTCCACGCTTACCTGCCTGCTGCTGGAGCACGCTGACCGCACGGCGGCCGTTTTCCGCCGGCTGTTTAATACTCTGGTCACGCCGTTTTGGCTCGTTTCTAAATTCGGGCCCACCGAGAAGGGCCTCACGGTTTTGACCCGGTACTATCTTTTGGACGCCGTCGGCGAAGGCGACGATCTCGATCTGCAGTCTCTCAAAGACGCGTTGGCCGTTTTCGATTTTTTCCCAGGGGAAAATGACGCCGCCGACCCTTCCGAATTAATTAGCTTTCGCGCTCTTTCGGCCTTTTTCTGTCAGAGCCGCTACACGCGGCAAGGGGCCGTTCTGGCTTTCGCTCGCTTTCTGGCTTTCCGGGACGAGACGGATCGCCGGGAGTTTGGCTACATGCAAGCGCTCATTGATAAATTTCGTGGGGCCTTACGCGTTCCCCCGGTGGATTTCGTCACCTATCTGTACTTGGCGCATTTTGAGTGCTACGGAAAAGAGGCCCTCTGGGCTCACCTCGACGCCACCCGGTTTTCGCGGGCCGCGACCTACGATCCAGCTCGCGGAGTGGGCCGTCGAGCTTACGATTCTTTTTTCGTGCATTTGCGAGAACGTTTTCATTTGGAGACCCACCTAAAAAAGAACGTTTTTTTACGGCGCGTGGTTTTAGAGGATGAGCGCGTGGCGGCGCGGTACGCCGAAGAAAAATTTTACAACGCGTTCTCCGGCTCCGATCTGGTGGTGGTGGCCGAGGACCGTCAACGAATGAATCGGTTGATCTCGTTGACCGCTGAAAAATTGCGGCGTCGCGGTTACACACTAGAACCGGAAGAGACCTTCGCCAAACGTCTTCTGACGCTGGCCACGGGGTCCTGCCGGGTCGGAGAAACGGGTTTGACCGACCGGGATGTTTTTCTGGGTCGGCGGTGCCCACCGGGGGCCTCGCCCGTTTATCGAGCGGTTTTAGATGGAGACACGCACGTGTTTTGCTTGGTGGGAGAAGAAGACTGGAGCGCGGGACCCCTTCGGGATTACGAGCCTCCAACGGTTCCGCGCGGACCTTTGCCGCGCGACGAACATACGGACGCTCGACTCACGCGGCTCGCCCGAGTCCAGCCGCGCTTTTACGGGGCTCGGGAAGGTTGGCGCCAGTTGGACTTTAGCCGCAACGAGATGTTCAACGACCGCTTGGCGTGCGTGAATCTCGTGCTCGACCTCGATTTTCGCTTGCAGCGAGCGCTCACTCCGCTAGAGATTCACGGTCTGGTCAGGCGCTTTCGCGCCTGCTTTGTGCGGGTCCTGGAAACCCTTTTGCGTCCACCGGGAGAGTGGGATCGCGATTCGCATCCCGTTTACTTTTTCAAAACCGAGTGCCCGGTAATCATTTCTGCGGCAACGGACGAGGCCGATTTCGATTTCGATTTTGAGGAGGAAAACGGACCGGATTTCGACCGGCGTCCTTGCGGATGCCGGGAAAAGTTGGGTCTGAGGGCCGTGTGTCCGCTGCCGGCGCCCTTCGCCGCGGCCTCGGCCGGCGTTGTCGCCGGCCTGGCCAAGTTGATCCAGCAAGCGGCGCTCGTGGATCCGGAACTCCTGGCCGTCTTGGACGATTGTCTGCAGAGCTTCGAGTTTATCGATTCCGCGGTGTACGCTCACGGGCGGAGCCTGCGCACGCCTTACTCGTATAAGGTATCGCCCGACGGTGGGCTTTTTGGCCGCCTGTTACCGTTGTACTGCTTGCCTCCCAGTCTCGCCGTAGACGCGGAAACCTTTGTGTCCGAGCACTCCGATCCCGCTCGATTGCTGTTTCACGCTTTGCCTCCGGGCCGGGCTGCACCCACTATCTATTTGACGGAATTGAAGGGAGCGGAAGATTCCGCGATGGTCGAAAAGTGCTTAGGGCGATCCGAGAGCGCGCATCGCATTACCGGACGGTCGTTAATCGTGGCTTTGATGGCCCGCGGCGTCGACTGCGACGAGGCGGAGGGCGGCGACGCCGCCTTATTGGCGTTTATCGCCGGAGAGCCCTGGAGTAGAGTGACGGCCTACTTGCGAGAGCATTACTGCTCCGAAAAGGCGGAAGAGTACGCCCGCGCAGAGCTCTCCGTGTCCAAGAAAACGGGGACCTACTGTTATTTTACTCTCGCTCCTTCGGGGCGTTGGGGCCCCAAAACTTTTTCCTGTTTGCGGTACGAGCACAGTCGAACGGGAAGAAGCGTGCGCGCTTCCCTCGGCCTCTCTTTGGGCGCCCAAAATCAGCTGTGCCTTAGCTTTCTCTGTCAGTGTTTCGCCGCTAGGTGCGGACGGAACGCCCAGCAGACTTTGTTCGCCGTGCGGTTTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL52. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGAATACCTTTTGAAACACCTGGAGGAAGAAACCTCTCTGCTGTATCACGGCGACATTATTTGGGGCATGTCGACTGCGTTTACGAGGCCCGGAGACTTTATCCGCCCTTCTAGCGCCACCTTGCGTTCCACGCTTACCTGCCTGCTGCTGGAGCACGCTGACCGCACAGCGGCCGTTTTCCGCCGGCTGTTTAATACTCTGGTCACGCCGTTTTGGCTCGTTTCAAAATTCGGGCCCACCGAGAAGGGCCTCACGGTTTTGACCCGGTACTATCTTTTGGACGCCGTCGGCGAAGGCGACGATCTCGATTTGCAGTCTCTCAAAGACGCGTTGGCCGTTTTCGATTTTTTCCCAGGGGAAAATGACGCCGCCGACCCTTCCGAATTAATTAGCTTTCGCACCCTTTCGGCCTTTTTCTGTCAGAGCCGCTACACGCGGCAAGGGGCCGTTCTGGCTTTCGCTCGCTTTTTGGCTTTCCGGGACGAGACGGATCGCCGGGAGTTTGGCTACATGCAAGCGCTTATCGATAAATTTCGTGGGGCCTTACGCGTTCCTCCGGTTGATTTTGTGACCTATCTGTACTTAGCGCATTTTGAGTGTTACGGAAAGGAGGCCCTTTGGGCTCACCTCGACGCCACCCGGTTTTCGCGGGCCGCGACCTACGATTCAGCTCGCGGAGTGGGCCGTCGAGCTTACGATTCTTTTTTCGTGCACTTGCGAGAACGTTTTCATTTGGAAACCCACCTAAAAAAGAACGTTTTTTTACGGCGCGTGGTTTTAGAGGATGAGCGCGTGGCGGCGCGGTACGCCGAAGAAAAATTTTACAACGCGTTCTCCGGCTCCGATCTGGTGGTGGTGGCCGAGGACCGCCAGCGAATGAATCGGTTGATCTCGTTGACCGCTGAAAAATTGCGGCGTCGCGGTTACACGCTAGAACCGGAAGAGACCTTCGCCAAACGTCTTCTGACGCTGGCCACGGGGTCCTGCCGGGTCGGAGAAACGGGTTTGACCGACCGGGATGTTTTTCTGGGTCGGCGGTGCCCACCGGGGGCCTCGCCCGTTTATCGAGCGGTTTTAGATGGAGACACGCACGTGTTTTGCTTGGTGGGAGAAGAAGACTGGAGCGCGGGACCCCTTCGGGATTACGAGCCTCCAACGGTTCCGCGCGGACCTTTGCTGCGCAACGAACACACGGACGCTCGGCTCACGCGGCTCGCCCGAGTCCAGCCGCGCTTTTACGGGGCTCGGGACGGTTGGCGCCAGTTGGACTTTAGCCGCAACGAGATGTTCAACGACCGCTTGGCGTGCGTGAACCTCGTGCTCGACCTCGATTTTCGCTTGCAGCGAGCGCTCACTCCGCTAGAGATTCACGGTCTGGTCAGGCGCTTTCGCGCCTGCTTTCTGCGGGTCCTGGAAACCCTTTTACGTCCACCGGGAGAGTGGGATCGCGATTCGCATCCCGTTTACTTTTTTAAAACCGAGTGCCCGGTTACCATTTCTGCGGCAACGGACGAGGCCGATTTCGATTTCGATTTCGATGAGGAAAACGGACCGGATCTCGACCGGCGTCCTTGCGGATGCCGGGAAAAGTTGGGTCTGAGGGCCGTCTGTCCGCTGCCGGCGCCCTTCGCCGCGGCCTCGGCCGGCGTCGTCGCCGGCCTGGCCAAGTTGATCCAGCAAGCGGCGCTCATGGATCCGGAACTCCTGGCCGTCCTGGACGATTGTCTGCAGAGCTTCGAGTTTATCGATTCCGCGGTGTACGCTCACGGGCGGAGCCTGCGCACGCCTTACTCGTACAAGGTCTCGCTGGACGGTGGGCTTTTTGGCCGCCTGTTGCCGTTGTACTGCTTGCCCCCCAGTCCCGCCGTAGACGCGGAAACCTTTGTGTCCGAGCACTCCGATCCCGCTCGATTGCTGTTTCACGCTTTGCCTCCGGGCCGGGCTGCACCCACTATCTATCTGACGGAATTGAAGGGAGCGGAATCTTCCGCGATGGTCGAAAAGTGCTTAGGGCGCTCCGAGAGCGCGCATCGCACTACCGGACGATCGTTAATCGTGGCTTTGCTGGCCCGTGGGGTCGACTGCGACGAGACGGAGGGCGGCGACGCCGCCTTATTGGCGTTTATCGCCGGAGAGCCCTGGAGTAGAGTGACGGCCTACTTGCGGGAGCATTACTGCTCCGAAAAGGCGGAAGAGTACGCCCGCGCAGAGCTCTCCGTGTCCAAGAAAACGGGGACCTACTGTTATTTTACTCTCGCTCCTTCGGGGCGTTGGGGCCCCAAAACTTTTTCCTGTTTGCGGTACGAGCACAGTCGAACGGGAAGAAGCGTGCGCGCTTCCCTCGGCCTCTCTTTGGGCGCCCAAAATCAGCTGTGCCTTAGCTTTCTCTGTCAGTGTTTCGCCGCTAGGTGCGGACGGAACGCCCAGCAGACTTTGTTCGCCGTGCGGTTTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL52. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGAATACCTTTTGAAACACCTGGAGGAAGAAACCTCTCTGCTGTATCACGGCGACATTATTTGGGGCATGTCGACTGCGTTTACGAGGCCCGGAGACTTTATCCGCCCTTCTAGCGCCACCTTGCGTTCCACGCTTACCTGCCTGCTGCTGGAGCACGCTGACCGCACAGCGGCCGTTTTCCGCCGGCTGTTTAATACTCTGGTCACGCCGTTTTGGCTCGTTTCAAAATTCGGGCCCACCGAGAAGGGCCTCACGGTTTTGACCCGGTACTATCTTTTGGACGCCGTCGGCGAAGGCGACGATCTCGATTTGCAGTCTCTCAAAGACGCGTTGGCCGTTTTCGATTTTTTCCCAGGGGAAAATGACGCCGCCGACCCTTCCGAATTAATTAGCTTTCGCACCCTTTCGGCCTTTTTCTGTCAGAGCCGCTACACGCGGCAAGGGGCCGTTCTGGCTTTCGCTCGCTTTTTGGCTTTCCGGGACGAGACGGATCGCCGGGAGTTTGGCTACATGCAAGCGCTTATCGATAAATTTCGTGGGGCCTTACGCGTTCCTCCGGTTGATTTTGTGACCTATCTGTACTTAGCGCATTTTGAGTGTTACGGAAAGGAGGCCCTTTGGGCTCACCTCGACGCCACCCGGTTTTCGCGGGCCGCGACCTACGATTCAGCTCGCGGAGTGGGCCGTCGAGCTTACGATTCTTTTTTCGTGCACTTGCGAGAACGTTTTCATTTGGAAACCCACCTAAAAAAGAACGTTTTTTTACGGCGCGTGGTTTTAGAGGATGAGCGCGTGGCGGCGCGGTACGCCGAAGAAAAATTTTACAACGCGTTCTCCGGCTCCGATCTGGTGGTGGTGGCCGAGGACCGCCAGCGAATGAATCGGTTGATCTCGTTGACCGCTGAAAAATTGCGGCGTCGCGGTTACACGCTAGAACCGGAAGAGACCTTCGCCAAACGTCTTCTGACGCTGGCCACGGGGTCCTGCCGGGTCGGAGAAACGGGTTTGACCGACCGGGATGTTTTTCTGGGTCGGCGGTGCCCACCGGGGGCCTCGCCCGTTTATCGAGCGGTTTTAGATGGAGACACGCACGTGTTTTGCTTGGTGGGAGAAGAAGACTGGAGCGCGGGACCCCTTCGGGATTACGAGCCTCCAACGGTTCCGCGCGGACCTTTGCTGCGCGACGAACACACGGACGCTCGGCTCACGCGGCTCGCCCGAGTCCAGCCGCGCTTTTACGGGGCTCGGGACGGTTGGCGCCAGTTGGACTTTAGCCGCAACGAGATGTTCAACGACCGCTTGGCGTGCGTGAACCTCGTGCTCGACCTCGATTTTCGCTTGCAGCGAGCGCTCACTCCGCTAGAGATTCACGGTCTGGTCAGGCGCTTTCGCGCCTGCTTTGTGCAGGTCCTGGAAACCCTTTTACGTCCACCGGGAGAGTGGGATCGCGATTCGCATCCCGTTTACTTTTTTAAAACCGAGTGCCCGGTTACCATTTCTGCGGCAACGGACGAGGCCGATTTCGATTTCGATTTCGATGAGGAAAACGGACCGGATCTCGACCGGCGTCCTTGCGGATGCCGGGAAAAGTTGGGTCTGAGGGCCGTGTGTCCGCTGCCGGCGCCCTTCGCCGCGGCCTCGGCCGGCGTCGTCGCCGGCCTGGCCAAGTTGATCCAGCAAGCGGCGCTCATGGATCCGGAACTCCTGGCCGTCCTGGACGATTGTCTGCAGAGCTTCGAGTTTATCGATTCCGCGGTGTACGCTCACGGGCGGAGCCTGCGCACGCCTTACTCGTACAAGGTCTCGCTGGACGGTGGGCTTTTTGGCCGCCTGTTACCGTTGTACTGCTTGCCCCCCAGTCCCGCCGTAGACGCGGAAACCTTTGTGTCCGAGCACTCCGATCCCGCTCGATTGCTGTTTCACGCTTTGCCTCCGGGCCGGGCTGCACCCACTATCTATCTGACGGAATTGAAGGGAGCGGAATCTTCCGCGATGGTCGAAAAGTGCTTAGGGCGCTCCGAGAGCGCGCATCGCACTACCGGACGATCGTTAATCGTGGCTTTGCTGGCCCGTGGGGTCGACTGCGACGAGACGGAGGGCGGCGACGCCGCCTTATTGGCGTTTATCGCCGGAGAGCCCTGGAGTAGAGTGACGGCCTACTTGCGGGAGCATTACTGCTCCGAAAAGGCGGAAGAGTACGCCCGCGCAGAGCTCTCCGTGTCCAAGAAAACGGGGACCTACTGTTATTTTACTCTCGCTCCTTCGGGGCGTTGGGGCCCCAAAACTTTTTCCTGTTTGCGGTACGAGCACAGTCGAACGGGAAGAAGCGTGCGCGCTTCCCTCGGCCTCTCTTTGGGCGCCCAAAATCAGCTGTGCCTTAGCTTTCTCTGTCAGTGTTTCGCCGCTAGGTGCGGACGGAACGCCCAGCAGACTTTGTTCGCCGTGCGGTTTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL52. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCGAATACCTTTTGAAACACCTGGAGGAAGAAACCTCTCTGCTGTATCACGGCGACATTATTTGGGGCATGTCGACTGCGTTTACGAGGCCCGGAGACTTTATCCGCCCTTCTAGCGCCACCTTGCGTTCCACGCTTACCTGCCTGCTGCTGGAGCACGCTGACCGCACAGCGGCCGTTTTCCGCCGGCTGTTTAATACTCTGGTCACGCCGTTTTGGCTCGTTTCAAAATTCGGGCCCACCGAGAAGGGCCTCACGGTTTTGACCCGGTACTATCTTTTGGACGCCGTCGGCGAAGGCGACGATCTCGATTTGCAGTCTCTCAAAGACGCGTTGGCCGTTTTCGATTTTTTCCCAGGGGAAAATGACGCCGCCGACCCTTCCGAATTAATTAGCTTTCGCACCCTTTCGGCCTTTTTCTGTCAGAGCCGCTACACGCGGCAAGGGGCCGTTCTGGCTTTCGCTCGCTTTTTGGCTTTCCGGGACGAGACGGATCGCCGGGAGTTTGGCTACATGCAAGCGCTTATCGATAAATTTCGTGGGGCCTTACGCGTTCCTCCGGTTGATTTTGTGACCTATCTGTACTTAGCGCATTTTGAGTGTTACGGAAAGGAGGCCCTTTGGGCTCACCTCGACGCCACCCGGTTTTCGCGGGCCGCGACCTACGATTCAGCTCGCGGAGTGGGCCGTCGAGCTTACGATTCTTTTTTCGTGCACTTGCGAGAACGTTTTCATTTGGAAACCCACCTAAAAAAGAACGTTTTTTTACGGCGCGTGGTTTTAGAGGATGAGCGCGTGGCGGCGCGGTACGCCGAAGAAAAATTTTACAACGCGTTCTCCGGCTCCGATCTGGTGGTGGTGGCCGAGGACCGCCAGCGAATGAATCGGTTGATCTCGTTGACCGCTGAAAAATTGCGGCGTCGCGGTTACACGCTAGAACCGGAAGAGACCTTCGCCAAACGTCTTCTGACGCTGGCCACGGGGTCCTGCCGGGTCGGAGAAACGGGTTTGACCGACCGGGATGTTTTTCTGGGTCGGCGGTGCCCACCGGGGGCCTCGCCCGTTTATCGAGCGGTTTTAGATGGAGACACGCACGTGTTTTGCTTGGTGGGAGAAGAAGACTGGAGCGCGGGACCCCTTCGGGATTACGAGCCTCCAACGGTTCCGCGCGGACCTTTGCTGCGCGACGAACACACGGACGCTCGGCTCACGCGGCTCGCCCGAGTCCAGCCGCGCTTTTACGGGGCTCGGGACGGTTGGCGCCAGTTGGACTTTAGCCGCAACGAGATGTTCAACGACCGCTTGGCGTGCGTGAACCTCGTGCTCGACCTCGATTTTCGCTTGCAGCGAGCGCTCACTCCGCTAGAGATTCACGGTCTGGTCAGGCGCTTTCGCGCCTGCTTTGTGCAGGTCCTGGAAACCCTTTTACGTCCACCGGGAGAGTGGGATCGCGATTCGCATCCCGTTTACTTTTTTAAAACCGAGTGCCCGGTTACCATTTCTGCGGCAACGGACGAGGCCGATTTCGATTTCGATTTCGATGAGGAAAACGGACCGGATCTCGACCGGCGTCCTTGCGGATGCCGGGAAAAGTTGGGTCTGAGGGCCGTGTGTCCGCTGCCGGCGCCCTTCGCCGCGGCCTCGGCCGGCGTCGTCGCCGGCCTGGCCAAGTTGATCCAGCAAGCGGCGCTCATGGATCCGGAACTCCTGGCCGTCCTGGACGATTGTCTGCAGAGCTTCGAGTTTATCGATTCCGCGGTGTACGCTCACGGGCGGAGCCTGCGCACGCCTTACTCGTACAAGGTCTCGCTGGACGGTGGGCTTTTTGGCCGCCTGTTACCGTTGTACTGCTTGCCCCCCAGTCCCGCCGTAGACGCGGAAACCTTTGTGTCCGAGCACTCCGATCCCGCTCGATTGCTGTTTCACGCTTTGCCTCCGGGCCGGGCTGCACCCACTATCTATCTGACGGAATTGAAGGGAGCGGAATCTTCCGCGATGGTCGAAAAGTGCTTAGGGCGCTCCGAGAGCGCGCATCGCACTACCGGACGATCGTTAATCGTGGCTTTGCTGGCCCGTGGGGTCGACTGCGACGAGACGGAGGGCGGCGACGCCGCCTTATTGGCGTTTATCGCCGGAGAGCCCTGGAGTAGAGTGACGGCCTACTTGCGGGAGCATTACTGCTCCGAAAAGGCGGAAGAGTACGCCCGCGCAGAGCTCTCCGTGTCCAAGAAAACGGGGACCTACTGTTATTTTACTCTCGCTCCTTCGGGGCGTTGGGGCCCCAAAACTTTTTCCTGTTTGCGGTACGAGCACAGTCGAACGGGAAGAAGCGTGCGCGCTTCCCTCGGCCTCTCTTTGGGCGCCCAAAATCAGCTGTGCCTTAGCTTTCTCTGTCAGTGTTTCGCCGCTAGGTGCGGACGGAACGCCCAGCAGACTTTGTTCGCCGTGCGGTTTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL52. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTTAAAACTAAATGTTTTTTTATGTTCATTGTGGGCGAGCAACAGCGAATNNNNNNNNNNNNNNNNNNNNNNCGAGGTAAAGACCTGCGATTACGACCTGGGCTACTTGATAAGGGAACTCGAACAAGATGGAAATAACACTTGGTGGTATCCGAATCAAAAAACGGTAATTGAAAATTTAAAAGGAAAGTTCCAAAATTGTACAGTACCTGAAGCGTCCACTTGGAACGAATTTTTTAGGGACACGACTAACAGAACTCAAAGAGAAAAAACAATACAAGGCTTACTGAATTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCGAATACCTTTTGAAACACCTGGAGGAAGAAACCTCTCTGCTATATCACGGCGACATTATTTGGGGCATGTCGACTGCGTTTACGAGGCCCGGGGACTTTATCCGCCCTTCTAGCGCCACCTTGCGTTCCACGCTTACCTGCCTGCTGCTGGAGCACGCTGACCGCACGGCGGCCGTTTTCCGCCGGCTGTTTAATACTCTGGTCACGCCGTTTTGGCTCGTTTCTAAATTCGGGCCCACCGAGAAGGGCCTCACGGTTTTGACCCGGTACTATCTTTTGGACGCCGTCGGCGAAGGCGACGATCTCGATCTGCAGTCTCTCAAAGACGCGTTGGCCGTTTTCGATTTTTTCCCAGGGGAAAATGACGCCGCCGACCCTTCCGAATTAATTAGCTTTCGCGCTCTTTCGGCCTTTTTCTGTCAGAGCCGCTACACGCGGCAAGGGGCCGTTCTGGCTTTCGCTCGCTTTCTGGCTTTCCGGGACGAGACGGATCGCCGGGAGTTTGGCTACATGCAAGCGCTCATTGATAAATTTCGTGGGGCCTTACGCGTTCCCCCGGTGGATTTCGTCACCTATCTGTACTTGGCGCATTTTGAGTGCTACGGAAAAGAGGCCCTCTGGGCTCACCTCGACGCCACCCGGTTTTCGCGGGCCGCGACCTACGATCCAGCTCGCGGAGTGGGCCGTCGAGCTTACGATTCTTTTTTCGTGCATTTGCGAGAACGTTTTCATTTGGAGACCCACCTAAAAAAGAACGTTTTTTTACGGCGCGTGGTTTTAGAGGATGAGCGCGTGGCGGCGCGGTACGCCGAAGAAAAATTTTACAACGCGTTCTCCGGCTCCGATCTGGTGGTGGTGGCCGAGGACCGTCAACGAATGAATCGGTTGATCTCGTTGACCGCTGAAAAATTGCGGCGTCGCGGTTACACACTAGAACCGGAAGAGACCTTCGCCAAACGTCTTCTGACGCTGGCCACGGGGTCCTGCCGGGTCGGAGAAACGGGTTTGACCGACCGGGATGTTTTTCTGGGTCGGCGGTGCCCACCGGGGGCCTCGCCCGTTTATCGAGCGGTTTTAGATGGAGACACGCACGTGTTTTGCTTGGTGGGAGAAGAAGACTGGAGCGCGGGACCCCTTCGGGATTACGAGCCTCCAACGGTTCCGCGCGGACCTTTGCCGCGCGACGAACATACGGACGCTCGACTCACGCGGCTCGCCCGAGTCCAGCCGCGCTTTTACGGGGCTCGGGAAGGTTGGCGCCAGTTGGACTTTAGCCGCAACGAGATGTTCAACGACCGCTTGGCGTGCGTGAATCTCGTGCTCGACCTCGATTTTCGCTTGCAGCGAGCGCTCACTCCGCTAGAGATTCACGGTCTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGATCTCGACCGGCGTCCTTGCGGAGGCCGGGAAAAGTTGGGTCTGAGGGCCGTGTGACCGCTGCCGGCGCCCTTCGCCGCGGCCTCGGCCGGCGTCGTCGCCGGCCTGGCCCAGTTGATCCAGCAAGCGGCTCTCATGGATCCGGAACTCCTGGCCGTCCTGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCCCAGTCCCGCCGTAGACGCGGAAACCTTTGTGTCTGAGCACTCCGATCCCGCTCGATTGCTGTTTCACGCTTTGCCTCCGGGCCGGGCTGCACCCACTATCTATCTGACGGAATTGAAGGGAGCGGAATCTTCCGCGATGGTCGAAAAGTGCTTAGGGCGCTCCGAGAGCGCGCATCGCACTACCGGACGATCGTTAATCGTGGCTTTGCTGGGCCGTGGGGTCGACTTCGACGAGACGGAGGGCGGCGACGCCGCCTTATTGGCGTGTATCGCCGGAGAGCCCTGGAGTAGAGTGACGGCCTCCTTGCGGGAGCACTACTGCTCCGAAAAGGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL52. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGAATACCTTTTGAAACACCTGGAGGAAGAAACCTCTCTGCTATATCACGGCGACATTATTTGGGGCATGTCGACTGCGTTTACGAGGCCCGGGGACTTTATCCGCCCTTCTAGCGCCACCTTGCGTTCCACGCTTACCTGCCTGCTGCTGGAGCACGCTGACCGCACGGCGGCCGTTTTCCGCCGGCTGTTTAATACTCTGGTCACGCCGTTTTGGCTCGTTTCTAAATTCGGGCCCACCGAGAAGGGCCTCACGGTTTTGACCCGGTACTATCTTTTGGACGCCGTCGGCGAAGGCGACGATCTCGATCTGCAGTCTCTCAAAGACGCGTTGGCCGTTTTCGATTTTTTCCCAGGGGAAAATGACGCCGCCGACCCTTCCGAATTAATTAGCTTTCGCGCTCTTTCGGCCTTTTTCTGTCAGAGCCGCTACACGCGGCAAGGGGCCGTTCTGGCTTTCGCTCGCTTTCTGGCTTTCCGGGACGAGACGGATCGCCGGGAGTTTGGCTACATGCAAGCGCTCATTGATAAATTTCGTGGGGCCTTACGCGTTCCCCCGGTGGATTTCGTCACCTATCTGTACTTGGCGCATTTTGAGTGCTACGGAAAAGAGGCCCTCTGGGCTCACCTCGACGCCACCCGGTTTTCGCGGGCCGCGACCTACGATCCAGCTCGCGGAGTGGGCCGTCGAGCTTACGATTCTTTTTTCGTGCATTTGCGAGAACGTTTTCATTTGGAGACCCACCTAAAAAAGAACGTTTTTTTACGGCGCGTGGTTTTAGAGGATGAGCGCGTGGCGGCGCGGTACGCCGAAGAAAAATTTTACAACGCGTTCTCCGGCTCCGATCTGGTGGTGGTGGCCGAGGACCGTCAACGAATGAATCGGTTGATCTCGTTGACCGCTGAAAAATTGCGGCGTCGCGGTTACACACTAGAACCGGAAGAGACCTTCGCCAAACGTCTTCTGACGCTGGCCACGGGGTCCTGCCGGGTCGGAGAAACGGGTTTGACCGACCGGGATGTTTTTCTGGGTCGGCGGTGCCCACCGGGGGCCTCGCCCGTTTATCGAGCGGTTTTAGATGGAGACACGCACGTGTTTTGCTTGGTGGGAGAAGAAGACTGGAGCGCGGGACCCCTTCGGGATTACGAGCCTCCAACGGTTCCGCGCGGACCTTTGCCGCGCGACGAACATACGGACGCTCGACTCACGCGGCTCGCCCGAGTCCAGCCGCGCTTTTACGGGGCTCGGGAAGGTTGGCGCCAGTTGGACTTTAGCCGCAACGAGATGTTCAACGACCGCTTGGCGTGCGTGAATCTCGTGCTCGACCTCGATTTTCGCTTGCAGCGAGCGCTCACTCCGCTAGAGATTCACGGTCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAAAAGTTCTTATGGCGCTCCGAGAGCGCGCATCGCACTACCGGAAGAGTGTTAACCGTGGCTGCGCTGGGCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGCTCCTGCGGGGCGTTGGGGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL52. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGAATACCTTTTGAAACACCTGGAGGAAGAAACCTCTCTGCTATATCACGGCGACATTATTTGGGGCATGTCGACTGCGTTTACGAGGCCCGGGGACTTTATCCGCCCTTCTAGCGCCACCTTGCGTTCCACGCTTACCTGCCTGCTGCTGGAGCACGCTGACCGCACGGCGGCCGTTTTCCGCCGGCTGTTTAATACTCTGGTCACGCCGTTTTGGCTCGTTTCTAAATTCGGGCCCACCGAGAAGGGCCTCACGGTTTTGACCCGGTACTATCTTTTGGACGCCGTCGGCGAAGGCGACGATCTCGATCTGCAGTCTCTCAAAGACGCGTTGGCCGTTTTCGATTTTTTCCCAGGGGAAAATGACGCCGCCGACCCTTCCGAATTAATTAGCTTTCGCGCTCTTTCGGCCTTTTTCTGTCAGAGCCGCTACACGCGGCAAGGGGCCGTTCTGGCTTTCGCTCGCTTTCTGGCTTTCCGGGACGAGACGGATCGCCGGGAGTTTGGCTACATGCAAGCGCTCATTGATAAATTTCGTGGGGCCTTACGCGTTCCCCCGGTGGATTTCGTCACCTATCTGTACTTGGCGCATTTTGAGTGCTACGGAAAAGAGGCCCTCTGGGCTCACCTCGACGCCACCCGGTTTTCGCGGGCCGCGACCTACGATCCAGCTCGCGGAGTGGGCCGTCGAGCTTACGATTCTTTTTTCGTGCATTTGCGAGAACGTTTTCATTTGGAGACCCACCTAAAAAAGAACGTTTTTTTACGGCGCGTGGTTTTAGAGGATGAGCGCGTGGCGGCGCGGTACGCCGAAGAAAAATTTTACAACGCGTTCTCCGGCTCCGATCTGGTGGTGGTGGCCGAGGACCGTCAACGAATGAATCGGTTGATCTCGTTGACCGCTGAAAAATTGCGGCGTCGCGGTTACACACTAGAACCGGAAGAGACCTTCGCCAAACGTCTTCTGACGCTGGCCACGGGGTCCTGCCGGGTCGGAGAAACGGGTTTGACCGACCGGGATGTTTTTCTGGGTCGGCGGTGCCCACCGGGGGCCTCGCCCGTTTATCGAGCGGTTTTAGATGGAGACACGCACGTGTTTTGCTTGGTGGGAGAAGAAGACTGGAGCGCGGGACCCCTTCGGGATTACGAGCCTCCAACGGTTCCGCGCGGACCTTTGCCGCGCGACGAACATACGGACGCTCGACTCACGCGGCTCGCCCGAGTCCAGCCGCGCTTTTACGGGGCTCGGGAAGGTTGGCGCCAGTTGGACTTTAGCCGCAACGAGATGTTCAACGACCGCTTGGCGTGCGTGAATCTCGTGCTCGACCTCGATTTTCGCTTGCAGCGAGCGCTCACTCCGCTAGAGATTCACGGTCTGGTCAGGCGCTTTCGCGCCTGCTTTGTGCGGGTCCTGGAAACCCTTTTGCGTCCACCGGGAGAGTGGGATCGCGATTCGCATCCCGTTTACTTTTTCAAAACCGAGTGCCCGGTAATCATTTCTGCGGCAACGGACGAGGCCGATTTCGATTTCGATTTTGAGGAGGAAAACGGACCGGATTTCGACCGGCGTCCTTGCGGATGCCGGGAAAAGTTGGGTCTGAGGGCCGTGTGTCCGCTGCCGGCGCCCTTCGCCGCGGCCTCGGCCGGCGTTGTCGCCGGCCTGGCCAAGTTGATCCAGCAAGCGGCGCTCGTGGATCCGGAACTCCTGGCCGTCTTGGACGATTGTCTGCAGAGCTTCGAGTTTATCGATTCCGCGGTGTACGCTCACGGGCGGAGCCTGCGCACGCCTTACTCGTATAAGGTATCGCCCGACGGTGGGCTTTTTGGCCGCCTGTTACCGTTGTACTGCTTGCCTCCCAGTCTCGCCGTAGACGCGGAAACCTTTGTGTCCGAGCACTCCGATCCCGCTCGATTGCTGTTTCACGCTTTGCCTCCGGGCCGGGCTGCACCCACTATCTATTTGACGGAATTGAAGGGAGCGGAAGATTCCGCGATGGTCGAAAAGTGCTTAGGGCGATCCGAGAGCGCGCATCGCATTACCGGACGGTCGTTAATCGTGGCTTTGATGGCCCGCGGCGTCGACTGCGACGAGGCGGAGGGCGGCGACGCCGCCTTATTGGCGTTTATCGCCGGAGAGCCCTGGAGTAGAGTGACGGCCTACTTGCGAGAGCATTACTGCTCCGAAAAGGCGGAAGAGTACGCCCGCGCAGAGCTCTCCGTGTCCAAGAAAACGGGGACCTACTGTTATTTTACTCTCGCTCCTTCGGGGCGTTGGGGCCCCAAAACTTTTTCCTGTTTGCGGTACGAGCACAGTCGAACGGGAAGAAGCGTGCGCGCTTCCCTCGGCCTCTCTTTGGGCGCCCAAAATCAGCTGTGCCTTAGCTTTCTCTGTCAGTGTTTCGCCGCTAGGTGCGGACGGAACGCCCAGCAGACTTTGTTCGCCGTGCGGTTTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL52. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCGAATACCTTTTGAAACACCTGGAGGAAGAAACCTCTCTGCTATATCACGGCGACATTATTTGGGGCATGTCGACTGCGTTTACGAGGCCCGGGGACTTTATCCGCCCTTCTAGCGCCACCTTGCGTTCCACGCTTACCTGCCTGCTGCTGGAGCACGCTGACCGCACGGCGGCCGTTTTCCGCCGGCTGTTTAATACTCTGGTCACGCCGTTTTGGCTCGTTTCTAAATTCGGGCCCACCGAGAAGGGCCTCACGGTTTTGACCCGGTACTATCTTTTGGACGCCGTCGGCGAAGGCGACGATCTCGATCTGCAGTCTCTCAAAGACGCGTTGGCCGTTTTCGATTTTTTCCCAGGGGAAAATGACGCCGCCGACCCTTCCGAATTAATTAGCTTTCGCGCTCTTTCGGCCTTTTTCTGTCAGAGCCGCTACACGCGGCAAGGGGCCGTTCTGGCTTTCGCTCGCTTTCTGGCTTTCCGGGACGAGACGGATCGCCGGGAGTTTGGCTACATGCAAGCGCTCATTGATAAATTTCGTGGGGCCTTACGCGTTCCCCCGGTGGATTTCGTCACCTATCTGTACTTGGCGCATTTTGAGTGCTACGGAAAAGAGGCCCTCTGGGCTCACCTCGACGCCACCCGGTTTTCGCGGGCCGCGACCTACGATCCAGCTCGCGGAGTGGGCCGTCGAGCTTACGATTCTTTTTTCGTGCATTTGCGAGAACGTTTTCATTTGGAGACCCACCTAAAAAAGAACGTTTTTTTACGGCGCGTGGTTTTAGAGGATGAGCGCGTGGCGGCGCGGTACGCCGAAGAAAAATTTTACAACGCGTTCTCCGGCTCCGATCTGGTGGTGGTGGCCGAGGACCGTCAACGAATGAATCGGTTGATCTCGTTGACCGCTGAAAAATTGCGGCGTCGCGGTTACACACTAGAACCGGAAGAGACCTTCGCCAAACGTCTTCTGACGCTGGCCACGGGGTCCTGCCGGGTCGGAGAAACGGGTTTGACCGACCGGGATGTTTTTCTGGGTCGGCGGTGCCCACCGGGGGCCTCGCCCGTTTATCGAGCGGTTTTAGATGGAGACACGCACGTGTTTTGCTTGGTGGGAGAAGAAGACTGGAGCGCGGGACCCCTTCGGGATTACGAGCCTCCAACGGTTCCGCGCGGACCTTTGCCGCGCGACGAACATACGGACGCTCGACTCACGCGGCTCGCCCGAGTCCAGCCGCGCTTTTACGGGGCTCGGGAAGGTTGGCGCCAGTTGGACTTTAGCCGCAACGAGATGTTCAACGACCGCTTGGCGTGCGTGAATCTCGTGCTCGACCTCGATTTTCGCTTGCAGCGAGCGCTCACTCCGCTAGAGATTCACGGTCTGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL52. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGAATACCTTTTGAAACACCTGGAGGAAGAAACCTCTCTGCTATATCACGGCGACATTATTTGGGGCATGTCGACTGCGTTTACGAGGCCCGGGGACTTTATCCGCCCTTCTAGCGCCACCTTGCGTTCCACGCTTACCTGCCTGCTGCTGGAGCACGCTGACCGCACGGCGGCCGTTTTCCGCCGGCTGTTTAATACTCTGGTCACGCCGTTTTGGCTCGTTTCTAAATTCGGGCCCACCGAGAAGGGCCTCACGGTTTTGACCCGGTACTATCTTTTGGACGCCGTCGGCGAAGGCGACGATCTCGATCTGCAGTCTCTCAAAGACGCGTTGGCCGTTTTCGATTTTTTCCCAGGGGAAAATGACGCCGCCGACCCTTCCGAATTAATTAGCTTTCGCGCTCTTTCGGCCTTTTTCTGTCAGAGCCGCTACACGCGGCAAGGGGCCGTTCTGGCTTTCGCTCGCTTTCTGGCTTTCCGGGACGAGACGGATCGCCGGGAGTTTGGCTACATGCAAGCGCTCATTGATAAATTTCGTGGGGCCTTACGCGTTCCCCCGGTGGATTTCGTCACCTATCTGTACTTGGCGCATTTTGAGTGCTACGGAAAAGAGGCCCTCTGGGCTCACCTCGACGCCACCCGGTTTTCGCGGGCCGCGACCTACGATCCAGCTCGCGGAGTGGGCCGTCGAGCTTACGATTCTTTTTTCGTGCATTTGCGAGAACGTTTTCATTTGGAGACCCACCTAAAAAAGAACGTTTTTTTACGGCGCGTGGTTTTAGAGGATGAGCGCGTGGCGGCGCGGTACGCCGAAGAAAAATTTTACAACGCGTTCTCCGGCTCCGATCTGGTGGTGGTGGCCGAGGACCGTCAACGAATGAATCGGTTGATCTCGTTGACCGCTGAAAAATTGCGGCGTCGCGGTTACACACTAGAACCGGAAGAGACCTTCGCCAAACGTCTTCTGACGCTGGCCACGGGGTCCTGCCGGGTCGGAGAAACGGGTTTGACCGACCGGGATGTTTTTCTGGGTCGGCGGTGCCCACCGGGGGCCTCGCCCGTTTATCGAGCGGTTTTAGATGGAGACACGCACGTGTTTTGCTTGGTGGGAGAAGAAGACTGGAGCGCGGGACCCCTTCGGGATTACGAGCCTCCAACGGTTCCGCGCGGACCTTTGCCGCGCGACGAACATACGGACGCTCGACTCACGCGGCTCGCCCGAGTCCAGCCGCGCTTTTACGGGGCTCGGGAAGGTTGGCGCCAGTTGGACTTTAGCCGCAACGAGATGTTCAACGACCGCTTGGCGTGCGTGAATCTCGTGCTCGACCTCGATTTTCGCTTGCAGCGAGCGCTCACTCCGCTAGAGATTCACGGTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL52. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AEZ68793_Flec2.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-lec2 gene (similar to type II membrane protein CD69, C-type lectin domain family (poxvirus) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-lec2 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-lec2 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGAAAATCTTTTATGACCGCCCCAAGGACGGAGCAGATGACATTCCACCACCTTACGACGAAACTTCGGACATCAAAAAATGTTCTACGGAAGAGATGATCCTCAGCGCAGTTCTGCTTCTAGCTGCGTTTGCGCTTACCGTTTTGGTATTTCTGTTTTTTGCCTTTTGGGGACATCCGATCGATCCTTGCGCTGAAACGGTATGTCCGCCTGCATGGTTCGAGCAAGGAAGGAAGTGTTTCCACGCCTCTCTTCGCCAAGGCAATTGGTCGGAAGCCCGCAGCGCCTGCAAGGGCTTTGGTGCTACTCTACCCTCTGACGACTCAGAATTGGAAGTGAAAGTTACGGCTTCCTACGAAACTGAGACCATTAAATGGTTGGCGTTGAGTAACCATACGAACCGTGAAAGCGCTACAAACGGCCTAAAGAAAAAGCAGGAAGGATGCCCTTTCGTTGATGTGACGGGGGTGCGAAATGCTACCTCATGTAGCAAAAGAGGCAGTTGGCTGTGTGTTAAAACTAAATGTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-lec2. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAAAATCTTTTATGACCGCCTCAAGGACGGAGCAGATGACATTCCACCACCTTACGACGAAACTTCGGACATCAAAAAATGTTCTACGGAAGAGCTGATCCTCAGCGCAGTTCTGCTTCTAGCTGCGTTCGCGCTTACCGTTTTGGTATTTCTGTTTTTTGCCTTTTGGGGACATCCGATCGATCCTTGCGCTGAAACGGTATGTCCGCCTGCATGGTTCGAGCAAGGAAGGAAGTGTTTCCACGCCTCTCTTCGCCAAGGCAATTGGTCGGAGGCCCGCAGCGCCTGCAAGGGCTTTGGTGCTACTCTACCCTCTGACGACTCAGAATCGGAAGTGAAAGTTACGGCTTCCTACGAAACTGACACCATTAAATGGTTGGCGTTGAGTAACCATACGAACCGTGAAAGCGCTACAGACGGCCTAAAGAAAAAGCAGGAAGGATGCCCTTTCGTTGATGTGACGGGGGTGCGAAATGCTACCTCATGTAGCAAAAGAGGCAGTTGGCTGTGTGTTAAAACTAAATGTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-lec2. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AEZ68794_Flec1.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-lec1 gene (predicted feature= C-type lectin) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-lec1 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-lec1 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCACTACGAAGAACTGTCACTCGCCTCCCCGCCACGCGGTAACAAAACACGAAGGCCCAAACGGTCTGTTGGGTGGTTATTGGCTTTAAAATGCTGCCGCGATGGAGCCCTCATCAGCCTTTGCGTATTTTTATTAGCCCTCATGGCCGTATTATTGTTTCGAGCGTTAAGGGCTCCTCTGCGCCACCGACCCTGCCCTGACGATTGGATCACTTTTCGGAAAACCTGCTATTTTATTTCCGGGAACGCGGACAGCTGGGACAGGGCGCAAAGCAATTGCTCTGGGCAAGGCGCCGTTTTGAGCAACGTGGAGGAACTGGAGTTATTGAGTCCACTATCGCAGTGTCAGAAATATTGGACAAATCTTGCCTACAGTCAAAAATCTCTAAAAAGGCCCGACGGCACAATAGTCGTAAACGCCACCGCGGCGTCTGGATCCGGCGTCTGTGTGACTTTTGAAAACCACCAATATGTGCCTACGTCGTGCGACCACGCGGCCCGCTGGTTATGTAAAAAACGGCCTGTTTTCAATTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-lec1. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCACTACGAAGAACTGTCACTCGCCTCCCCGCCACGCGGTAACAAAACACGAAGGCCCAAACGGTCTGTTGGGTGGTTATTGGCTTTAAAATGCTGCCGCGATGGAGCCCTCATCAGCCTTTGCGTATTTTTATTAGCCCTCATGGCCGTATTATTGTTTCGAGCGTTAAGGGCTCCTCTGCGCCACCGACCCTGCCCTGACGATTGGATCACTTTTCGCAAAACCTGCTATTTTATTTCCGGAAACGCGGACAGCTGGGACAGGGCGCAAAGCAATTGCTCTGGGCAAGGCGCCGTTTTGAGCAACGTGGAGGAACTGGAGATATTGAGTCCACTATCGCAGTGTCAGAAATATTGGACAAATCTTGCCTACAGTCAAAAATCTCTAAAAAGGCCCGACGGCACAATAGTCGTAAACGCCACCGCGGCGTCTGGATCCGGCGTCTGTGTGACTTTTAAAAACTACCAATATGTGCCTACGTCGTGCGACCACGCGGCCCGCTGGTTATGTAAAAAACGGCCTGTTTTCAATTAA</edomv>\n <edomvd>Consensus DNA sequence for F-lec1. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93301_FUS8.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-US8 gene (predicted feature= glycoprotein E) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-US8 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-US8 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCGTCTTTCTTTTTCGCTGCTCGCGTGCACCGCAATGTGCTTGGCGGTTCCGAATCTAGCCTCTGTCTTTAACTTGACGGCCCCTAAACGCACGGCCGCGGCCGAAGAAGGCCAAAGTGTCAGCTTTCCGTTTTCTGTCACGATCACCTCTGAGGAAAACGAGGAAAGGGTAGAACTCGATCTTTGGCATTACCGTACCAAGGAGTGCTCGGTGGCAAGTTTCGAAAAAGTTTGCTCGCACGACGGTCAGTGCGTGGAGGACCTTCGCCTGCCTTTAGGTTGCCACTATTCCCAGGGAGATGGTGTGAAATTGGTGGAGATCTCCTGCGACTTCACTCATTTTCAGAAGGGTCATTGCGCGGACGGACAGATCGCAGAACTGAAAGCCCGCATAGCGAAAAGGGGCAATCGCTCTTCAGAATTTTCAATCGAGATCCCCTTCGTACATCTTAACGATTCAGGAATTTACTCCGTAGCGGTGTCGTCGGGTGACGACGATCTCAGCATAGATTTCGTCTTGACCGTTGTGGAAGCGACGATGACTACTCCGAACCCAACCTCCGCCTCGAACCGCTCGACGCCCGTAAACGAGACTCTTTCCACCGTTCCGGTGACCCCGGCGTTGACCACGGTCTCCGAGAGCCGCAACGAAACGGAAACGACCGTTTCGAAGCCGGTTGTCGCGAACGAACGTTTCTGGATACCGCAGTCAATGACCGTGATGAAAGGAGAAGGTCCGGTCACGCTGTATTTGGACATAGTGGACAATATGACTCTACCCCAATTTAACGTGTCCGTAGAGTGGTTCCACATGAACACCGCCCCGGGCTGCAAATCTCTGCTCGTGTACAGCGATTGTTTGACGGCGGGCATGCTACCCGAATGCCTGCATCCGGCTAACGACGACGGTTGCGTGATAAGCAGTTTTTTCAAAGCCACTCTTTTGGCCAGAACAGACTACTTCTGCGGCAATAGTGCCGAGTGGAAAACGCGGTGTCCCGTCAAAAAGGTAATTAATTCTAGTTGGCGCGACAAGGCAGAAATGGACGGACAAAACCGTTTAATTTTCGCCTCCGCCACGGACGCACAGCCGGGCTTTTATGTACTGACGGCCGCTCTGAACGGCCGGTACGAATCGGCGGTGTGGAATTTCGTCTTGCTGATCGACCAGGACAGCGCCGCGGCCGTTCAAGTGCTATCGGGTTATCCAAAAGAAGATAAAAACCGCAAAGTCCACCTCGGCCCTCATCACCTCCTGGTGTCGGTAATCTGCATTATCGCCGCGCTCTTTGCCACCGCCTTGACGGCAGCTTGCGTGGCCACGTGCATGTGCTGCTTTCAAAGCAAGAAAAGGGGCGGCAAGCGGCCCTCCGGTCCGGCCATACAGCAAACCGTTTACTTTAACTCTTTGAGCCGACGAAGCTCGTACCGTTCGCTGCCAACTCGGGAAGAAGATTTCGACAGCGACGATTCGGTCGAATTTTTCCCCCCTCCCTCTCCGATAATGCCCAGCAAGAGCCCGGTGGACGAGGGGCCGCGATTCGAGCAAGCGCGGAGTATGCTCATGGACCTTTTGGGGGCGAGAAGCAAAGTGACGGGAAACCTAGACGATTTTTATTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-US8. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCGTCTTTCTTTTTCGCTGCTCGCGTGCACCGCAATGTGCTTGGCGGTTCCGAATCTAGCCTCTGTCTTTAACTTGACGAGCCCTAAACGCACGGCCGCGGCCGAAGAAGGCCAAAGTGTCAGCTTCCCGTTTTCTGTCACGATCACCTCTGAGGAAAACGAGGAAAGGGTAGAACTCGATCTTTGGCATTACCGTACCAAGGAGTGCTCGGTGGCAAGTTTCGAAAAAGTTTGCTCGCACGACGGTCAGTGCGTGGAGGACCTTCGCCTGCCTTTAGGTTGCCACTATTCCCAGGGAGATGGCGTGAAATTGGTGGAGATCTCCTGCGACTTCACTCATTTTCAGAAGGGTCATTGCGCGGACGGACAGATCGCAGAACTGAAAGCCCGCATAGCGAAAAGGGGCAATCGCTCTTCAGAATTTTCAATCGAGATCCCCTTCGTACATCTGAACGATTCAGGAATTTACTCCGTAGCGGTCTCGTCGGGTGACGACGATCTCAGCATAGATTTCGTCTTGACCGTTATGGAAGCGACGATGACTACTAAGAACCCAACCTCCGCCTCGAACCGCTCGACGCCCGTAAACGAGACTCTTTCCACCGTTCCGGTGACCCCGGCGTTGACCACGGTCTCCGAGAGCCGCAACGAAACGGAAACGACCGTTTCGAAGCCGGTTGTCGCGAACGAACGTTTCTGGATACCGCAGTCAATGACCGTGATGAAAGGAGAAGGTCCGGTCACGCTGTACTTGGACATCGTGGACAATATGACTCTACCCCAATTTAACGTGTCCGTAGAGTGGTTCCACATGAACACCGCCCCGGGCTGCAAATCTCTGCTCGTGTACAGCGATTGTTTGACGGCGGGCATGCTACCCGAATGCCTGCATCCGGCTAACGACGACGGTTGCGTGATAAGCAGTTTTTTCAAAGCCACTCTTTTGGCCAGAACAGACTACTTCTGCGGCAATAGTGCCGAGTGGAAAACGCGGTGTCCCGTCAAAAAGGTAATTAACTCTAGTTGGCGCGACAAGGCAGAAATGGACGGACAAAACCGTTTAATTTTCGCCTCCGCCACGGACGCGCAGCCGGGCTTTTATGTACTGACGGCCGCTCTGAACGGCCGGTACGAATCGGCGGTGTGGAATTTTGTCTTGCTGATCGACCAGGACAGCGCCGCGGCCGTTCAAGTGGTATCGGGTTATCCAAAAGAAGATAAAAACCGCAAAGTCCACCTCGGTCCTCATCACCTTCTGGTGTCGGTGATCTGCATTATCGCCGCGCTGTTTGCCACCGCCTTGACGGCAGCTTGCGTGGCCACGTGCATGTGCTGCTTTCAAAGCAAGAAAAAGGGCGGCAAGCGGCCCTCCGGTCCGGCCATACAGCAAAACGTTTACTTTAACTCTTTGAGCCGACGAAGCTCGTACCGTTCGCTGCCCACTCGGGAAGAAGATTTCGACAGCGACGATTCGGTCGAATTTTTCCCCCCTCCCTCTCCGATAATGCCCAGCAAGAGCCCGGTGGACGAGGGGCCGCGATTCGAGCAAGCGCGGAGTATGCTCATGGACCTTTTGGGGGCGAGAAGCAAAGTGACGGGAAACCTAGACGATTTTTATTAA</edomv>\n <edomvd>Consensus DNA sequence for F-US8. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93302_HP10.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP10 gene (predicted feature= nuclear localization, leuzine-rich) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP10 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP10 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGAGCGAAGAAGTCAATCCCTGGCTGTGCCTTGGCGGAGGAGACGACGAAACCGTCCCTAAGGCTTTAGGATCCGCCATGGAGCGAGACTTGCGGTACTTCATGGATCGAACGAAAGTGACCAAGGCCGAGTCCGATTGCCGCGGCCGCCCCTCGCGACGGGAACGTTGGAAAAAACCGGAACTGTCAAACGTAGATGAGTTTCTTTACTGCGTTCGAAGCCCGGCAAACGCCGACGGACCGGAAAAAGAGGAAGCGGTCTCAAAGCTCTTGAAAGACATGCGGTTATTCATCGAATGTTTTCGACAGGTCGGAGCAGCCGGGAAATGCACAGGCGTTCTGCAACCGTTTCGATGCGCTTTGGATCAGGACGAAACCGCTGACGAAATTTTAGCCGCGGCTGCAGTAACGCCGAAAAAAGAGCGCCGCATACGGTCGACGGCACCGCGGGGCCATTTTATTATATGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP10. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAGCGAAGAAGTCAATCCCTGGCTGTGCCTTGGCGGAGGAGACGACGAAACCGTCCCTAAGGCTTTAGGATCCGCCATGGAGCGAGACTTGCGGTACTTCATGGATCGAACGAAAGTGACCAAGGCCGAGTCCGATTGCCGCGGCCGCCCCTCGCGACGGGAACGTTGGAAAAAACCGGAACTGTCGAACGTAGATGAGTTTCTTTACTGCGTTCGAAGCCCGGCAGACGCCGACGGACCGGAAAAAGAGGAAGCGGTCTCTAAGCTCTTGAAAGACATGCGGTTATTCATCGAATGTTTTCGAGAGGTCGGAGCAGCCGGGAAATGCACAGGCGTTCTGCAACCGTTTCGATGCGCTTTGGATCAGGACGAAACCGCTGACGAAATTTTAGCCGCGGCAGCAGTAACGCCGAAAAAAGAGCGCCGCATACGGTCGACGGCACCGCGGGGCCATTTTATTATATGA</edomv>\n <edomvd>Consensus DNA sequence for HP10. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93303_FUS4.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 FUS4 gene (predicted feature= Glycoprotein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-US4 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-US4 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTGGTACCCGCTTATGTACGTTTTTCTCGCGGTCGCGCGGCCCTTAGCCGCCGTCATCCTAAGCGGAAACGATTTCTCCTTGAACCTTCGCAGCGGCGTATCGCAGGTGTGCCGCAGAAGCACTTGCTCGCTTAAAGCGAGCCTAATCATCCACGAGGCCGCGCTCGCTCATCCCAGCTCGGTTAGTATTTACGTAGGATACGAAAAGAGGACTGGTTGCCGAGTGCCCCTCGTGAGTACTCTTCTTTCCGACTGCTCACCAGGAGCGGGTAATCAACACCGACCTTGCGGCCACATGACCTTAGCCAAAATACCGCGTTTCGACTTGACGTTTAACGGATTGGAGGCAACGTTTTCTATCTACAACGCAACGAAGGACGATTCTGGTACTTACAAAACGGTCGTAGTGATGGACGAAAAGCAACACACGTTTGGTGTGACGCTAACAGTGGCAAATAGCAACGTTTCTCCTTCGGACCGCAAACCGCTTAAAGACTTGCCGTGCGACGACGGGAAGACTCTCACCACCACTAAGACCCCCGTTTCGAAGGCTCCAACACCTGCGAGTCCGAAAGGAACGATCGTCTTGATTTTCTTCCTTTTTTCTCTTTCGGTAGCAATCGCGTTTTTGCTGGGCGTGTACATAAAGCGCCTTGGTGTGTGCGGGCGCATTAAAAACATCTTGGAATACCGCCGAGCCACTCATCTGATCGATGCCACGTGTGAACCAGAGATCGACCATCTACCCCCGGAGAAGCAAGCATATGTAATTTTACCCCCGGAAAGCAATGTCTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-US4. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTGGTACCCGCTTATGTACGTTGTTCTCGCGGTCGCGCGGCCCTTAGGCGCCGTCATCCTGAGCGGAAACGATTTCTCTTTGAACCTTCGCAGCGGCGTATCGCAGGTGTGCCGAAGAAGCACTTGCTCGCTTAAAGCGAGTCTAATCATCCACGAGGCCGCGCTCGCTCATCCCAGCTCGGTTAGTATTTACGTAGGATACGAAAAGAGGACTGGTTGCCGAGTGCCCCTCGTGAGTACTCTTCTTTCCGACTGCTCACCAGGAGCGGGTAATCAACACCGACCTTGCGGCCACATGACCTTAGCCAAAATACCGCGTTTCGACTTGACGTTTAACGGATTGGAGGCAACGTTTTCTATCTACAACGCAACGAAGGACGATTCCGGTACTTACAAAACGGTCGTAGTGATGGACGAAAAGCAACACACGTTTGGTGTGACGCTAACAGTGGCAAATAGCAACGTTTCTCCTTCGGACCGCACACCGCTTAAAGGCTTGCCGTGCGACGACGGGAAGACTCTCACCACCACTAAGACTCCCGTTCCGAAGGCTCCAACACCTGCGAGTCCGAAAGGAACGATCGTCTTGATTTTCTTCCTTTTCTCTCTTTCGGTAGCAATCGCGTTTTTGCTGGGCGCGTACATAAAGCGCCTTGGTGTGTGCGGGCGCATTAAAAACGTCTTGGAATACCGCCGAGCCACTCATCTGATCGATGCCACGTGTGACCTAGAGATCGACCATCTACCCCCGGAAAAGCAAGCATATGTAATTTTACCCCCGGAAAGCAATGTCTAA</edomv>\n <edomvd>Consensus DNA sequence for F-US4. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTGGTACCCGCTTATGTACGTTGTTCTCGCGGTCGCGCGGCCCTTAGGCGCCGTCATCCTGAGCGGAAACGATTTCTCTTTGAACCTTCGCAGCGGCGTATCGCAGGTGTGCCGAAGAAGCACTTGCTCGCTTAAAGCGAGTCTAATCATCCACGAGGCCGCGCTCGCTCATCCCAGCTCGGTTAGTATTTACGTAGGATACGAAAAGAGGACTGGTTGCCGAGTGCCCCTCGTGAGTACTCTTCTTTCCGACTGCTCACCAGGAGCGGGTAATCAACACCGACCTTGCGGCCACATGACCTTAGCCAAAATACCGCGTTTCGACTTGACGTTTAACGGATTGGAGGCAACGTTTTCTATCTACAACGCAACGAAGGACGATTCTGGTACTTACAAAACGGTCGTAGTGATGGACGAAAAGCAACACACGTTTGGTGTGACGCTAACAGTGGCAAATAGCAACGTTTCTCCTTCGGACCGCAAACCGCTTAAGGACTTGCCGTGCGACGACGGGAAGACTCTCACCACCACTAAGACTCCCGTTTCGAAGGCTCCAACACCTGCGAGTCCGAAAGGAACGATCGTCTTGATTTTCTTCCTTTTTTCTCTTTCGGTAGCAATCGCGTTTTTGCTGGGCGTGTACATAAAGCGCCTTGGTGTGTGCGGGCGCATTAAAAACATCTTGGAATACCGCCGAGCCACTCATCTGATCGATGCCACGTGTGAACCAGAGATCGACCATCTACCCCCGGAGAAGCAAGCATATGTAATTTTACCCCCGGAAAGCAATGTCTAA</edomv>\n <edomvd>Consensus DNA sequence for F-US4. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93304_FUS3B.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 FUS3B gene (predicted feature= similarity to US3 serine/threonine protein kinase (PK) and to cyclin-dependent kinase 2) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-US3B gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-U3B consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCGGAACGGGTAAACCAAACGCTTGACCTTCTCTCCGCGCTGGGGAAGGGGACCTACGGGCAGGTAGTGAAGGCCGTCGATAAGGCTACCGGCAACGTCATAGCCGTTAAGATAACCCGTAAAGGCAAGGACCGCCTTACTCAGGCGACCATCAACGAGTATGATATTCTGACCATGATGCGCCACTCTAACATCATCACCGCCATTCAGTTGCTCGAAGACGATTCGCGGGTTTTTTTGCAAATGGAATACGTTCACGCATCCCTAAAGGATTTCATTCGCATCAATTCTTGCATCAGGCGAGACCATCGCCGCAGGATCGTCTCCCAGCTCCTGAGCGCTCTCATTTACCTGCGGGAACATCGGATCATCCACCGAGACCTGAAACCCGATAACATCCTGATGAACTCGGTGGACGATGTCAAAGTGGCGGATTTTGGATTGGCCAAATTTTGGCACTCTGCAAACGGCCGCGAGCGCGGGAAACATAGTTTAGACGTTTGCACTTCCTGGTACCGATCACCGGAAGTTTTTCTCTGTCACGAGTACGGTTACGGCCTGGACGTGTGGTCTCTCGGGTGCGTGTTTTACTATCTCATTAAACGAGAATCCCCGTTTCGGGCCGAAACGGACGAGGTGTGTTTCTTGACAATTCTGTGCCGCATGGGCGTTACCCGGTCCACTCGCGGCTGGGAAAGTCCGAAAGAAGCCGATTGTTTCTATTTAAAGGTTCCTCAGCACCTCTGGCAAAGGGCGAATCACGAGTCAATACCCGAGGACGAAAGCATCGTCCTCGAGGAGCGGAAACTGCTTTGTCGCATGCTCACCTTTTGCCCCGATGCGAGACCCACCGCGGAAAACCTTTCCGCAGATAAGTATCTTTCAGACCGGCCTTGCACCCGCAGCCAAAGCCGAACCTCTACTTCCAGTTGGAGGTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-US3B. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCGGACCGGGTAAACGAAACGCTTGACCTTCTCTCCGCGCTGGGAAAGGGAACCTACGGGCAGGTAGTGAAGGCCGTCGATAAGGCTACCGGCAACGTCATAGCCGTTAAGATAACCCGTAAAGGCAAGGACCGCCTTACTCAGGCGACCGTCAACGAGTACGACATTCTGACCATGATGCGCCACTCTAACATCATCACCGCCATTCAGTTGCTCGAGGACGATTCGCGGGTCTTTTTGCAAATGGAATACGTTCACGCGTCCCTAAAAGATTTCATTCGCATCAATTCTTGCATCAGGCGGGATCACCGCCGCAGGATTGTCTCCCAGCTCCTGAGCGCTCTCATTTACCTACGAGAACATCGGATCATCCACCGAGACCTGAAACCCGACAACATCCTGATGAACTCGGTAGACGATATCAAAGTGGCGGACTTTGGGTTAGCCAAATTTTGGCACTCGGCGAACGGGCGCGAGCGCGGGAAACATAGTTTGGACGTTTGCACTTCCTGGTACCGATCTCCGGAAGTTTTTCTCTGTCACGAGTACGGTTACGGCCTGGATGTGTGGTCGCTCGGGTGCGTGTTTTACTACCTCATTAAACGGGAATCTCCGTTTCGCGCCGAAACGGACGAGGTGTGTTTCTTGACGATTTTGTGCCGCATGGGAGTGACCCGGTCCACTCGCGGCTGGGAAAGCCCCAAAGAAGCCGATTGCTTCTACCTAAAGGTTCCTCAGCACCTCTGGGAAAGGGCGAATCACGAATCAATACCCGAGGACGAAGGCATCGTCCTTGAGGAGCGGAAACTGCTATGTCGCATGCTCACCTTTTGCCCCGATGCGAGACCCACCGCGGAAAATCTTTCTGCAGATTCGTATCTTTCAGATCGGCCTTGCACTCGCAGCCAAAGCCGAACCTCTACTTCCAGTTGGAGGTAA</edomv>\n <edomvd>Consensus DNA sequence for F-US3B. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCGGAACGGGTAAACCAAACGCTTGACCTTCTCTCCGCGCTGGGGAAGGGGACCTACGGGCAGGTAGTGAAGGCCGTCGATAAGGCTACCGGCAACGTCATAGCCGTTAAGATAACCCGTAAAGGCAAGGACCGCCTTACTCAGGCGACCATCAACGAGTATGATATTCTGACCATGATGCGCCACTCTAACATCATCACCGCCATTCAGTTGCTCGAAGACGATTCGCGGGTTTTTTTGCAAATGGAATACGTTCACGCATCCCTAAAGGATTTCATTCGCATCAATTCTTGCATCAGGCGAGATCATCGCCGCAGGATCGTCTCCCAGCTCCTGAGCGCTCTCATTTACCTGCGGGAACATCGGATCATCCACCGAGACCTGAAACCCGACAACATCCTGATGAACTCGGTGGACGATGTCAAAGTGGCGGATTTTGGATTGGCCAAATTTTGGCACTCTGCGAACGGCCGCGAGCGCGGGAAACATAGTTTAGACGTTTGCACTTCCTGGTACCGATCACCGGAAGTTTTTCTCTGTCACGAGTACGGTTACGGCCTGGACGTGTGGTCTCTCGGGTGCGTGTTTTACTACCTCATTAAACGAGAATCCCCGTTTCGGGCCGAAACGGACGAGGTGTGTTTCTTGACAATTCTGTGCCGCATGGGCGTTACCCGGTCCACTCGCGGCTGGGAAAGTCCGAAAGAAGCCGATTGCTTCTACCTAAAGGTTCCTCAGCACCTATGGCAAAGGGCGAATCACGAGTCAATACCCGAGGACGAAAGCATCGTCCTCGAGGAGCGGAAACTGCTTTGTCGCATGCTCACCTTTTGCCCCGATGCGAGACCCACCGCGGAAAACCTTTCCGCAGATAAGTATCTTTCAGACCGGCCTTGCACCCGCAGCCAAAGCCGAACCTCTACTTCCAGTTGGAGGTAA</edomv>\n <edomvd>Consensus DNA sequence for F-US3B. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93305_FUS3A.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 FUS3A gene (predicted feature= similarity to US3PK and catalytic domain of the Protein Serine/Threonine Kinase) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-US3A gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-U3A consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGAGTTTCGCGGCCGAGATGCGTACGCCCTCCCCCGCCGTCGGCGAAATGAGTACGGACGCAGTGGCGAATCCGACCCGCTGCTCGGCATCGATCGTCCCCTCGAGTTTATCTTGTAATTCCGACTCGCGCCAGGACCAAGAAATGGAAGAATGTCGCGTCGTGGATCCAAACGACATTTCGCACGCGGTGCCTATCATGAACGAATACCATTTTGGACGGCTGTTGGGACAAGGCGCCAGCGCTTGCGTCTACCGCTGCCGCAAACGAGCGGACGGTTCTATGTGCGCTTTAAAAGCGGCCCCGCTAAATAACAAAAACGGCCTCACCTCCGAGCTCATGCACCTGGAGACCAACTTGGCGCTCGCGGCGAGGCATCGGAACGTCATTAAAACGATGCGGGTCATTTATCACCCAAAGGTGTGTTACATGGAGTTGGAGCTGATGGCGGGGGACCTGAGCTACTATTTGCGGCGCTTGCGCAGACCGCTGACGGAGGAGGAGATGCGACACGTGCTTCGGGACTGCCTGCGCGGGCTGCAGTATCTTCACAGCCTCAACATCCTCCATCGCGACGTTAAACTGGAAAACATATTCGTCCGCGATTTGACGACGGACGCCAAGCTCGGGGATCTGGGGTTGGCTTTGAAAGTGAAGGACTCGCGGCTGTGGGGGCAGTACGGGATTTCGGGTACCCCTAGCACATCGTCCCCCGAGATGATGTTGGGAGATCCTTACTGCCGGACGACCGACGTATGGTCGATGGGAGTGGCCGCTTTCGAAATGCTGTCGGCTCCGGCCTCTATGTTCCCGGCCAAGGACACCATGACCCACATTCTGAAAAAAATGGAAATAGACGCTTATGATTTCCCGCCGCCCAATCTCTTTGCGAACTTGGATCGGATGCGACCGGTCGTACCGGCGGAGCGAGACTGCACGATCGTCTGCGACTGCGTAGAAAAACTAAGCATCGGTCAGGAGGCAAAAAAAGTGATTATTCGCATGCTTAGCCTCAACGCGATTAAAAGGCCATCGGCGAGCAAGGTGCTCACCTACCCGTTTTTCAAAAAGCGTCACACGCTGCCCGGGTTTTCCATAACGCGCAAAGATTCCCGAAAGCGCCATGGCGGAACGGGTAAACCAAACGCTTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-US3A. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAGTTTCGCGGCCGAGATGCGTACGCCCTCCCCCGTCCTTGGCGAAATGAACACGGATGCCGTGGCGAATCCGACCCGCTGCTCGGCGTCGATCGTCGCCTCGAGTTTATCTTGTAATTCCGATTCGCTCCAGGACCAAGAAATGGAAGAATGCCGCGTCGTGGATCCCAACGATATTTCGCACGCGGCGCCTATAATGAACGAATACCATTTCGGAAGGCTGTTGGGACAAGGCGCCAGCGCTTGCGTTTACCGCTGCCGCAAACGAGCGGACGGTTCCTTGTGCGCCTTAAAGGCGGCCCCGTTAAATAGCAAGAACGGCCTCACTTCCGAACTCATGCACCTGGAGACCAACTTGGCGCTCGCGGCGAGACATCGGAACGTCATTAAGACTATGCGGGTCATTTATCACCCCAAGGTGTGCTACATGGAATTGGAGCTGATGGCAGGGGACCTGAGCTACTATTTGCGGCGCTTGCGCAGACCGCTGACGGAGGAGGAGATGCGACACGTGCTGCGGGACTGCCTGCGCGGGCTGCAGTATCTCCACAGCCTCAACGTCCTCCACCGCGACGTCAAGCTGGAAAACATATTCGTCCGCGATTTGACGACGGACGCCAAGCTCGGGGACTTGGGATTGGCTTTGAAAGTGAAGGACTCTCGGCTTTGGGGCCAGTACGGGATTTCGGGCACCCCTAGCACATCGTCACCCGAGATGATGTTGGGAGATCCTTATTGCCGGACGACCGACGTATGGTCGATGGGAGTGGCCGCTTTTGAAATGCTGACGGCTCCGGCCTCTATGTTCCCTGCCAAGGACACCATGACCCACATTCTGAAAAAAATGGAAATAGACGCTTATGATTTCCCGCCGCCCAAGCTCTTTGCAAACTTGGATCGGATGCGACCGGTCGTACCGGCGGAGCGGGACTGCACGATCGTCTGCGACTGCGTGGAAAAACTAAGCATCGGTCAGGAGGCAAAAAAAGTGATTATTCGCATGCTTAGGCTCAACGCGATTAAAAGGCCATCGGCGAGCAAGTTGCTCACCTACCCGTTTTTCAAAAAGCGTCATACGCTGCCCGGGTTTTCCATAACGCGCAGAGATTCCCGAAAGCGCCATGGCGGACCGGGTAAACGAAACGCTTGA</edomv>\n <edomvd>Consensus DNA sequence for F-US3A. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAGTTTCGCGGCCGAGATGCGTACGCCCTCCCCCGCCGTTGGCGAAATGAATACGGACGCAGTGGCGAATCCGACCCGCTGCTCGGCATCGATCGTCCCCTCGAGTTTATCTTGTAATTCCGACTCGCTCCAGGACCAAGAAATGGAAGAATGTCGCGTCGTGGATCCAAACGACATTTCGCACGCGGTGCCTATCATGAACGAATACCATTTTGGACGGCTGTTGGGACAAGGCGCCAGCGCTTGCGTTTACCGCTGCCGCAAACGAGCGGACGGTTCTTTGTGCGCTTTAAAAGCGGCCCCGCTAAATAGCAAAAACGGCCTCACCTCCGAGCTCATGCACCTGGAGACCAACTTGGCGCTCGCGGCGAGGCATCGGAACGTCATTAAAACGATGCGGGTAATTTATCACCCAAAGGTGTGCTACATGGAGTTGGAGCTGATGGCGGGGGACCTGAGCTACTATTTGCGGCGCTTGCGCAGACCGCTGACGGAGGAGGAGATGCGACACGTGCTGCGGGACTGCCTGCGCGGGCTGCAGTATCTTCACAGCCTCAACATCCTCCATCGCGACGTTAAACTGGAAAACATATTCGTCCGCGATTTGACGACGGACGCCAAGCTCGGGGATCTGGGGTTGGCTTTGAAAGTGAAGGACTCGCGGCTGTGGGGGCAGTACGGGATTTCGGGCACCCCTAGCACATCGTCCCCCGAGATGATGTTGGGAGATCCTTACTGCCGGACGACCGACGTATGGTCGATGGGAGTGGCCGCTTTTGAAATGCTGTCGGCTCCGGCCTCTATGTTCCCGGCCAAGGACACCATGACCCACATTCTGAAAAAAATGGAAATAGACGCTTATGATTTCCCGCCGCCCAATCTCTTTGCGAACTTGGATCGGATGCGACCGGTCGTACCGGCGGAGCGAGACTGCACGATCGTCTGCGACTGCGTAGAAAAACTAAGCATCGGTCAGGAGGCAAAAAAAGTGATTATTCGCATGCTTAGCCTCAACGCGATTAAAAGGCCATCGGCGAGCAAGGTGCTCACCTACCCGTTTTTCAAAAAGCGTCACACGCTGCCCGGGTTTTCCATAACGCGCAAAGATTCCCGAAAGCGCCATGGCGGAACGGGTAAACCAAACGCTTGA</edomv>\n <edomvd>Consensus DNA sequence for F-US3A. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAGTTTCGCGGCCGAGATGCGTACGCCCTCCCCCGCCGTTGGCGAAATGAATACGGACGCAGTGGCGAATCCGACCCGCTGCTCGGCATCGATCGTCCCCTCGAGTTTATCTTGTAATTCCGACTCGCTCCAGGACCAAGAAATGGAAGAATGTCGCGTCGTGGATCCAAACGACATTTCGCACGCGGTGCCTATCATGAACGAATACCATTTTGGACGGCTGTTGGGACAAGGCGCCAGCGCTTGCGTTTACCGCTGCCGCAAACGAGCGGACGGTTCTTTGTGCGCTTTAAAAGCGGCCCCGCTAAATAGCAAAAACGGCCTCACCTCCGAGCTCATGCACCTGGAGACCAACTTGGCGCTCGCGGCGAGGCATCGGAACGTCATTAAAACGATGCGGGTCATTTATCACCCAAAGGTGTGCTACATGGAGTTGGAGCTGATGGCGGGGGACCTGAGCTACTATTTGCGGCGCTTGCGCAGACCGCTGACGGAGGAGGAGATGCGACACGTGCTGCGGGACTGCCTGCGCGGGCTGCAGTATCTTCACAGCCTCAACATCCTCCATCGCGACGTTAAACTGGAAAACATATTCGTCCGCGATTTGACGACGGACGCCAAGCTCGGGGATCTGGGGTTGGCTTTGAAAGTGAAGGACTCGCGGCTGTGGGGGCAGTACGGGATTTCGGGCACCCCTAGCACATCGTCCCCCGAGATGATGTTGGGAGATCCTTACTGCCGGACGACCGACGTATGGTCGATGGGAGTGGCCGCTTTTGAAATGCTGTCGGCTCCGGCCTCTATGTTCCCGGCCAAGGACACCATGACCCACATTCTGAAAAAAATGGAAATAGACGCTTATGATTTCCCGCCGCCCAATCTCTTTGCGAACTTGGATCGGATGCGACCGGTCGTACCGGCGGAGCGAGACTGCACGATCGTCTGCGACTGCGTAGAAAAACTAAGCATCGGTCAGGAGGCAAAAAAAGTGATTATTCGCATGCTTAGCCTCAACGCGATTAAAAGGCCATCGGCGAGCAAGGTGCTCACCTACCCGTTTTTCAAAAAGCGTCACACGCTGCCCGGGTTTTCCATAACGCGCAAAGATTCCCGAAAGCGCCATGGCGGAACGGGTAAACCAAACGCTTGA</edomv>\n <edomvd>Consensus DNA sequence for F-US3A. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAGTTTCGCGGCCGAGATGCGTACGCCCTCCCCCGCCGTCGGCGAAATGAGTACGGACGCAGTGGCGAATCCGACCCGCTGCTCGGCATCGATCGTCCCCTCGAGTTTATCTTGTAATTCCGACTCGCGCCAGGACCAAGAAATGGAAGAATGTCGCGTCGTGGATCCAAACGACATTTCGCACGCGGTGCCTATCATGAACGAATACCATTTTGGACGGCTGTTGGGACAAGGCGCCAGCGCTTGCGTCTACCGCTGCCGCAAACGAGCGGACGGTTCTATGTGCGCTTTAAAAGCGGCCCCGCTAAATAACAAAAACGGCCTCACCTCCGAGCTCATGCACCTGGAGACCAACTTGGCGCTCGCGGCGAGGCATCGGAACGTCATTAAAACGATGCGGGTCATTTATCACCCAAAGGTGTGTTACATGGAGTTGGAGCTGATGGCGGGGGACCTGAGCTACTATTTGCGGCGCTTGCGCAGACCGCTGACGGAGGAGGAGATGCGACACATGCTTCGGGACTGCCTGCGCGGGCTGCAGTATCTTCACAGCCTCAACATCCTCCATCGCGACGTTAAACTGGAAAACATATTCGTCCGCGATTTGACGACGGACGCCAAGCTCGGGGATCTGGGGTTGGCTTTGAAAGTGAAGGACTCGCGGCTGTGGGGGCAGTACGGGATTTCGGGTACCCCTAGCACATCGTCCCCCGAGATGATGTTGGGAGATCCTTACTGCCGGACGACCGACGTATGGTCGATGGGAGTGGCCGCTTTCGAAATGCTGTCGGCTCCGGCCTCTATGTTCCCGGCCAAGGACACCATGACCCACATTCTGAAAAAAATGGAAATAGACGCTTATGATTTCCCGCCGCCCAATCTCTTTGCGAACTTGGATCGGATGCGACCGGTCGTACCGGCGGAGCGAGACTGCACGATCGTCTGCGACTGCGTAGAAAAACTAAGCATCGGTCAGGAGGCAAAAAAAGTGATTATTCGCATGCTTAGCCTCAACGCGATTAAAAGGCCATCGGCGAGCAAGGTGCTCACCTACCCGTTTTTCAAAAAGCGTCACACGCTGCCCGGGTTTTCCATAACGCGCAAAGATTCCCGAAAGCGCCATGGCGGAACGGGTAAACCAAACGCTTGA</edomv>\n <edomvd>Consensus DNA sequence for F-US3A. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93306_FUS2.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 FUS2 gene (predicted feature= Ser/Arg-rich protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-US2 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-US2 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCTTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAAAGCCTGAAAAAAATGCTCTCGGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGGCCGAGGAAAGGGAGAACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGTGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCCGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCGACGGATCAAGAGCAGACGTACTACGGCGATTTCCGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-US2. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGACCTCGCGTCCGCGCCAAAAATCGGCGCGTGCCAATCGCCGGATGTATTGCGGCGAGAGCTCTCCTGACTCGACCGCGTGCTCGCCTTCACCTGCGAAAAGGGAAAATTCCGCCTACGTGCGCGTACCCTTAACGCCTCCTCGGAGGCACAGTCCGAGCGGGAAGCCGGGGCAAAAAATCCTCTCAGCCCCCGACGAGCGCCCTTGGGAACGCAACGGACAATGGACGAACGACGAACCGGAAGACGGCAACCGAGTTTTGCGGCTGCGGCAATTGAACGACGTTCTTACGCTGTTAACCGATCATCGACAGCGCCTAAGCGAAGCGCCGTTTTTCAACGGTCACGAGCCTTTTTACCGAGAAGCCGCAAACATGCTGCTTTTGATCGCGGCCATCGCCCAAAAGGCGATCGCCGTTTCGCCTATGACGCTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTTACGGACGAGTGTTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCACCGCAAACTTTTAACTTTCGCGAATTCGAGGGCTTGCTCATCAGTTTGTGGCACGTGATCGACCGTCTATCGCGCTGCTCGGTGCCCATTTTGGAGGCCACTCGCAGCTGCGCATTGTGCCTGGCAGCGTGCCGCAGCTATTTTTGGTGCCTCTTGCCTTTGACTAATTTCACCTTGCCCGAATCCTTACCTTTCGACGACCTGGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTTACTCAAAAAGCGCAGCGCTCCACGGAACAGGAACAGGCGTACTACGGCGACTTCAGGGCGCTGCTGGACCTAGGTCGCTTTTCTCGCCGGAGCGACGCGCGACTTACCTGA</edomv>\n <edomvd>Consensus DNA sequence for F-US2. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCCTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAGAGCCTGAAAAAAATGCTCTCAGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGACCGAGGAAAGGGAGGACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGCGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCGGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCCACGGATCAAGAGCAGACGTACTACGGCGATTTCAGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGA</edomv>\n <edomvd>Consensus DNA sequence for F-US2. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93307_FUS1.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-US1 gene (secretory pathway) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-US1 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-US1 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGTCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGATTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCTAGCAAAACGAAAAGATCGAAAAATATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTGCCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTACCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGCCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTTAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATTCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTGTCCGAGACCCTGTACTTAAACCCCCCGGTAGTAAAAAGCCGCGTCGGCGACTCAGTAAAACTTTGTCCGAAGAATGAAGAGGGTCCGTTTTCCAAAATAATTTGGGTGGCCAAAGGAAAAAAAGTTTTCGATTGTGCAAACGGCGTTCGTTGCGAACCTCAACAAATCAAAGAACCGTGGCGTGTTTCGATCGCAGACCGTCGATGTTATTTCATTCAAGACGTTCGTCTTTCGGACGGGGGCGCCTACGTTTTTTTCTTTAAAACGGGACGCCAAGTAGTAACCGGGCGGATCGATCTCATCGTCCACCGTAAAGGAGACCGTGTTGTGGAAATCAGTGATCGTCCAACAATATCGGTTGAACGAGCGACGCAAAAACCTGTTGGAACTTCGATCTCGGAGACTGGCTCGCCACCGAAAATAGAAGACGAAGTCGCCGTAAAAACTTTACCCGACCCGAAAATTTTCCCCATTTTAGAACTCAAAAACGAAACAACCGGCCGCTGTCGCGCGCGATTGGAATGTGATGTCTACGGCCTCGATGAAAGCGAAATGCCACAATTTATTTGGCACGTGACCGAATCGCAGCACGTGTATAGTAGAGGGCTTGCGGGCGATCCTAGCATTCTAGTAGTTAGCTCCGAGAATACCAACGCTAAAGGGATTTTTACATGTGTCGTTCGCAAAAACGGAGAGGTTAAGGAAACCTCAATCCGTTTTTCAAACGTGTGCGTGTTCAAGCGAAGCAAGGCTGTGATGTATGTGGCGTTAGGAGTGCTTCTGGGCCTGCTGCTCCTCATCGGGGTCTGTGTCGGGTTGTTCTTTTACTTGCAAAAAAAGGGACATTGTTATAAGCCGCGTTCACAGCCCGACGTCATTCCCAAAGAACCCGAAATGTCTTTGAGTGTTGTTAACGAGAATGTCTCTGTTCAATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-US1. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine;</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGCTTGCCCGCTCGAGCGTGTGTTCTTGTGGTTTTACTAAGTGGCGGGGTTTTTTCGCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTACCCGAGGTCCCAGCGGATAACGTGGTACGGTGGGCGTATCAGAATCGCACTGTGCTCGACTGTCGAGCGAAAGACGCCTGCCATCTCTCGGCGCAAGCCGGCCCGCTGTTTGCTTTTGAGTACGTATCGAACTGCCTGCGTTTTAACGCGGCCATATCCGGGTTTTACGGTACCTGGCAAGCAAAACGAAAAGATAGAAAAACATTGGCCAACTTCGAGGTAGACCGCTTGGACGTTTTTCAACACGTAATCAGTACCTGGCCTAGAAATTCAGATTTTTTCGTGTGTCCAAAACGCCCCGTACCGTGGGACTACAGTATCGATTGGTATTATAACGGGTTGCTAATTTACTCCAAAGCGACTTTGCTCGAAAAAGGAACGCCGCGTTCCGGATCGCGGTTTGAACAAAGGCTAACCGACTTTTTTCACTACTGCTTGAAAATTAGCGGCTCGCAAAACGGCGACGCCGGCGATTACGCCTTAATCGCGCAAAAAGAAGACAACGCTGTTCTTCAAACAGTTACGATTCAGATAAAAACCGCGACTTTGTGGTCGAAAGAGTTAACAGCGGAAGCCGCTTCTGCATTTGTAGTCGGAGCCGGCGTATGGAAAGAGTTTGATTTTCGACTCGGCCTGTGGTATCACAACGGGACGCTGTTTCGCGTATGCGGCCTGGAAAACGCGTGTCAAGCGGTCGGCCCCGATCGATTTGCCAACCGTGCCCCGATGGTAGAAAAATATAGCCTTATGATCCAAGACGTCAAACCCGGAGATGCGGGTCGCTATCGGCTTGTCACATCGTCCGCTTTAGAGAGTCGAGTGATTACCTACGAGGTGAAAGAACTTATGCCGGAGTCACACCAAGGCCCTAAGAGGGTCGACGTGTTAGAATTTTCTTCAGCGGAATTATGCGCTCCCTCTCCGGCCTCAACAATCGGATATTCGTGGGTGTTCAACAACGAAACCTTTTACGAGTGTAAAACCCGCTCGGCATGTCGGACCGTCGTCGGATGGAGACATCCGATTTTCGGTCGTTTTCGATTAAGCGATAAAACAGCGGAAACCGCATCCGGCGAGGAAAATTTGCATTGTCTTCGATTGGTTTCCGCGCTACGCGAGCAAGCCGGAGATTATCAGCTAACCTTCTTCGATGAGAACGGATCACTCGTTAACTGGCAATTTAAACTGACGGTAGAGGTTAAGGTTTTCTTGCCGAATACCACGCGGAAGCAGCGTGTTTCTTCCCTCGAAGGGAGAAACATCTCGCTGTGCTCTCAAAAGCCAAGTTCTACAAGCTTCTCAGAAGCAGAATCGTTCATCGTCTCCTTTCAAGGAGCGGTGCTTTTTGAATGCCCCGAAGGCCCGCGTTGTAAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACGTTGTTTGGGGTCGTGCAAAGCGATTCGGGATTGTACGTGCTGAGTTCTTTTCACGGTGAGGAACCGCAAAGTGACTCGTACGAGCTAACCGTAGTTCAAGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTCACGCTGTGCGCCAGCGGGCCTTTACCGGAAAAAAGCCACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAACACAGTAGTATTGTGTGAAAGTAAAACGAATTGCGCTTTAACGGGCGAGGCCCAAGTAAGATATAACAACTTTATGCCCATGAATGTAACGTGTTTGACCATCGATCGCGTGAGCACCCAGAATGCCGGCTCCTACTTTTTCAGATTGGAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACGTCAATGTCGAAAATTCTAAGGAGAAATCGGACCCAGCGGAGGAAACTGCAGATGAAATGCTGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-US1. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGGCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGCTTGCCATCTGTCGGAGCAAGCCGCGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCAAGCAAAACGAAAAGATCGAAAAACATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTACCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTATCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGTCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTGAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATGCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTGTCCGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-US1. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGGCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGCTTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCAAGCAAAACGAAAAGATCGAAAAACATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTACCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTATCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGTCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTGAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATGCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGCGGGCGACCCTAGCGTTCTAGTAGTTAGCTCCGAGAATACCAACGCTAAAGGGACTTTTACATGTGTCGTTCGCAAAAACGGAGAGGTAAAGGAAACCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-US1. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGTCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGATTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCTAGCAAAACGAAAAGATCGAAAAATATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTGCCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTACCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGATCAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGCCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTTAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATTCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTGTCCGGGACACGGGCCTAAAAGCTCCCGGTAGTAAAAAGCCGCGTCGGCGACCCAGCAAAACTTTGNNNNNNNNNNNNNNAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAACCTNNNNNNNTCAATGACCCGTGGCGTGTTTCGTTCGCAGACCGTCGATGTTATTTCATTCAAGACGTTCGTCTTTCGGACGGGGGCGCCTACGTTTTTTTCTATAAAACGGGACGCCAAGTAGTAACCGGGCGGATCGATCTCATCGTCCACCGTAAAGGAGACCGTGTTGTGGAAATCAGTGATCGTCCAACAATATCGGTTGAACGAGCGACGCAAAAACCTGTTGGAACTTCGATCTCGGAGACTGGCTCGCCACCGAAAATAGAAGACGAAGTCGCCGTAAAAACTTTACCCGACCCGAAAATTTTCCCCATTTTAGAACTCAAAAACGAAACAACCGGCCGCTGTCGCGCGCGATTGGAATGTGATGTCTACGGCCTCGATGAAAGCGAAATGCCACAATTTATTTGGCACGTGACCGAATCGCAGCACGTGTATAGTAGAGGGCTTGCGGGAGATCCTAGGATTCTGGTAGTGAGCACCGGGAATACCAACGCTAACTGGATTTTTACATGTGTCGTGCGCGAAGGCGGAGAGGTTAAGGAAACCTCAATCCGTATTTCAAACGTGTGCGTGTTCAAGCGAAGCAAGGCTGTGATGTATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-US1. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGTCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGATTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCTAGCAAAACGAAAAGATCGAAAAATATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTGCCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTACCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGCCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTTAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATTCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-US1. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93319_FUL01.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL01 gene (predicted feature= Glycoprotein L) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL01 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL01 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGAAAGCCTTGCTCTTTTTCCTCCTTATCTTAACCTCCGCGAGCGAGGCTTTCTTTCCCCTCCGGACCGATCTCACTTGTGTGTGCGGGAACGGAAACGGCTGGAGAGCGTTCGAACCGGTGAACAGCACCGACCCGTTCCTGCTCATTGGCTCGCTGCAACTCAGCGGCCACTGCGTCCCGCCGGAGGCCACGATGACGCTGAAAAGCGATCAGAGGCGGCGCTGCGTCAATCCCTTTTTATTGGGCGACGCTCTGCTTTTCGGAGTAGAACAAGGGAAGCCCGAAAGCATTTTGACGGAGGGTTTGAAATCCGAACTTTTACAATTCGTCCATATTTTGAAATCGCATGTCTCGAAGCGACCGCCTAGCTTGCGCTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL01. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAAAGCCTTGCTCTTTTTCCTCCTTATCTTAACCTCCGCGAGCGAAGCTTTCTTTCCCCTCCGGACCGATCTCACTTGTGTATGCGGGAACGGAAACGGCTGGAGAGCGTTCGAACCGGTGAACAGCACCGACCCGTTCCTGCTCATTGGCTCGCTGCAACTCAGCGGCCACTGCGTCCCGCCGGAGGCCACGATGACGCTGAAAAGCGATCAGAGGCGGCGCTGCGTCAATCCCTTTTTATTGGGCGACGCTCTGCTTTTCGGAGTAGAACAAGGGAAGCCTGAAAGCATTTTGACGGAGGGTTTGAAATCCGAACTTTTACAATTCGTCCATATTTTGAAATCGCATGTCTCGAAGCGACCGCCTAGCTTGCGCTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL01. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93320_FUL02.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL02 gene (predicted feature= Uracil DNA glycosylase) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL02 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL02 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTCTCGAAGCGACCGCCTAGCTTGCGCTGACCGCGGCCGCCGTCGAAGACGGTCGTCGGACGATGAGGAGGAGAGCTCGCGCGCGAAAAAACCGCGGCCGGAAGAGAGCTATCTCACGCTGGACGATGAGGAACCGGAAAACGCGAGCGATCCGTTCCTCATCTCGGACAGCTGGCGTGAGTTTCTCGCTCCGGAACTGCGGTCGGAATGGTTCAAACGTTTGACCGATACTTTGCGTCGCGAAGCGCGACGGCAACCCTTGTGTCCCAAGCTCGAGGACGTTTTTGCTTGGACGCGTTACTGCGGCCCGGAAAGCGTGAAGGTAGTTATTTTGGGCCAAGATCCGTACCACACCCCCGGTTGTGCTCACGGGCTGGCGTTCAGCGTCCCTTTCGGACGCTCGGTGCCTCCCAGCCTTCGGGCGGTTTACAACGAGCTTTCGTTGACGATTCCAGGGTTCTCCGCCCCCACCCACGGGCATCTAACGGCATGGGCTCGTCGAGGCGTCCTGTTGCTCAACGCGACGCTTACGGTTTGCGCTCATCGCCCCGGGTCTCACGCCGCCCTCGGTTGGCAGAGGTTGACTAAGGCCGCCCTGGCGCGCCTGCAGGAGCGCGTGCCCAACATTGTTTTTATGCTCTGGGGAAAGGCGGCTCAAAACACGTTCCGACCCGACGAAAAGCGGCACTTGGCTTTGCGGTCCTGTCACCCCTCTCCTCTGGCGCAGAGCCGAGAATCGTTCGTCGGGAACCGGCATTTTTTGAAAGCCAACGCGTTTTTGGAAAAACACGGGCGGGGTTCAATCGATTGGCGTTTGCCTTGTGGCGAATTCACTGATCTCTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL02. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCTCGAAGCGACCGCCTAGCTTGCGCTGATCGCGGCAGCCGTCGAAGACGGTTGTCGGACGATGAGGAGGAAAGCTCGCGCGCGAAAAAACCGCGGCCGGAAGAGAGCTATCTCACGCTGGACGATGAGGAACCGGAAAACGCGAGCGATCCGTTCCTCATCTCGGACAGCTGGCGTGAGTTTCTAGCTCCGGAACTGCGGTCGGAATGGTTCAAACGTTTGACCGATACTTTGCGTCGCGAAGCGCGACGGCAACCCTTATGTCCCAAGCTCGAGGACGTTTTTGCTTGGACGCGTTACTGCGGCCCGGAAAGCGTGAAGGTAGTTATTTTGGGCCAAGATCCGTACCACACCCCCGGTTGTGCTCACGGGCTAGCGTTCAGCGTCCCTTTCGGACGCTCGGTGCCTCCCAGCCTTCGGGCGGTTTACAACGAGCTTTCGTTGACGATTCCAGGGTTCTCCGCCCCCACCCACGGGCATCTAACGGCATGGGCTCGTCGAGGCGTCCTGTTGCTCAACGCGACGCTTACTGTTTGCGCTCATCGCCCCGGGTCTCACGCCGCCCTCGGTTGGCAGAGGTTGACTAAGGCCGCGCTGGCGCGCCTGCAGGAGCGCGTGCCCAACATTGTTTTTATGCTCTGGGGGAAGGCGGCTCAAAACACGTTCCGACCCGACGAAAAGCGGCACTTGGCTTTACGGTCCTGTCACCCCTCTCCCCTGGCGCAGAGCCGAGAATCGTTCGTCGGGAACCGGCATTTTTTGAAAGCCAACGCGTTTTTGGAAAAACACGGGCGGGGTCCAATCGATTGGCGTTTGCCTTGTGGCGAATTCACTGATCTCTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL02. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93321_FUL03.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL03 gene (predicted feature= nuclear phosphoprotein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL03 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL03 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGAAGCTGGAGGAGTTCCTTCGGTGGTCAGGCTGCTCTCGCGGCCGCGGTCGCGCCCAGCGCTCGCGTCCCCGAGCCAGCTCGCGCCAACCCCTTCGTCTCCCGCTGAGCCGGACGCAAGCGAATCCGCGTCCGGCTCAGCGGGAGGCGGCCGGCCGAGCCCTTCAAAAAACGAAAAGCGGGTGGTGTATCGGGCTCGCTTTCCGACTTCGACGGACGAGATGGCCGACGACCCGACTTATCGGCTGTACGACACGCTTTTCGTCGTGTCGTCCACCGACGAGCTGGGTCGCCGGCAGATCACGGACACCATTCGCAAAGAGCTGAAGCGGACCCTGGCCCCGCTAAACATCGCCTGCACCAAAACCTCCTCGTTCAGCTGCGAGACCCGCAAGCGAACGCGAGACGGGACGTCGATGACCGGGCCGGCCGCTCACAAATGCCTTCAGATGACCATTTTTTGCCGGCGCGAGCAAGCGGACCTGGTCCGCCAGCTCTTGAGCAAGCTCATCGAGTCGCGAAAATCGCGGAAATACTTTACGTGCACGCGCGATGGGACCACAAAGCCGGGAATTCCGATATTTTACTCGGAGTTTGAGGCCAAAGACCCCGTTTATTTACACGAGGAAAACACGGTGCGGACCGCTCCGGCGTCGCGACCACCGCCTCCGGTGCCGGGGGTTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL03. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGAAGCTGGAGGAGTTCCTTCGGTGGTCAGGCTGCTCTCGCGGCCGCGGTCGCGCCCAGCGCTCGCGTCCCCGAGCCAGCTCGCGACAACCCCTTCGTCTCCCGCTGAGCCGGACGCAAGCGAATCCGCGTCCGGCTCAGCGGGAGGCGGCCGGCCGTGCCCTTCAAAAAACGAAAAGCGGGTGGTGTATCGGGCTCGCTTTCCGACTTCGACGGACGAGATGGCCGACGACCCGACTTATCGGCTGTACGACACGCTTTTCGTCGTGTCGTCCACCGACGAGCTGGGTCGCCGGCAGATCACGGACACCATTCGCAAAGAGCTGAAGCGGACCCTGGCCCCGCTAAACATCGCCTGCACCAAAACCTCCTCGTTCAGCTGCGAGACCCGCAAGCGAACGCGAGACGGGACGTCGATGACCGGGCCGGCCGCTCACAAATGCCTTCAGATGACCATTTTTTGCCGGCGCGAGCAAGCGGAGCTGGTCCGCCAGCTCTTGAGCAAGCTCATCGAGTCGCGAAAATCGCGGAAATACTTTACGTGCACGCGCGATGGGACCACAAAGCCGGGAATCCCGATATTTTACTCGGAGTTTGAGGCCAAAGACCCCGTTTATTTACACGAGGAAAACACGGTGCGGACCGCTCCGGCGTCGCGACCACCGCCTCCGGTGCCGGGGGTTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL03. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGAAGCTGGAGGAGTTCCTTCGGTGGTCAGGCTGCTCTCGCGGCCGCGGTCGCGCCCAGCGCTCGCGTCCCCGAGCCAGCTCGCGACAACCCCTTCGTCTCCCGCTGAGCCGGACGCAAGCGAATCCGCGTCCGGCTCAGCGGGAGGCGGCCGGCCGTGCCCTTCAAAAAACGAAAAGCGGGTGGTGTATCGGGCTCGCTTTCCGACTTCGACGGACGAGATGGCCGACGACCCGACTTATCGGCTGTACGACACGCTTTTCGTCGTGTCGTCCACCGACGAGCTGGGTCGCCGGCAGATCACGGACACCATTCGCAAAGAGCTGAAGCGGACCCTGGCCCCGCTAAACATCGCCTGCACCAAAACCTCCTCGTTCAGCTGCGAGACCCGCAAGCGAACGCGAGACGGGACGTCGATGACCGGGCCGGCCGCTCACAAATGCCTTCAGATGACCATTTTTTGCCGGCGCGAGCAAGCGGAGCTGGTCCGCCAGCTCTTGAGCAAGCTCATCGAGTCGCGAAAATCGCGGAAATACTTTACGTGCACGCGCGATGGGACCACAAAGCCGGGAATCCCGATATTTTACTCGGAGTTTGAGGCCAAAGACCCCGTTTATTTACACGAGGAAAACACGGTGCGGTCCGCTCCGGCGTCGCGACCACCGCCTCCGGTGCCGGGGGTTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL03. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93322_FUL04.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL04 gene (predicted feature= nuclear protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL04 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL04 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCCGACGGCCGCGCCGGTCTTACCTCGGTCACCTACGTACTGCAAACGGCCGAGCCGGCGCTCCGCAGCGGAGCGCCGGGCTTCGAGCAGCTGGCCGGGCGTTTCGCGGAGAGCACCCGGCTGGTAACGCTGGCCGGGGCGACGGAACGACAGAGCCACCGATTGGTTTTCGGAGGGCGATATCAGATCCAACGGTCACCCAGCCACCTCACGGTACTGATCGACGGCCCGGAGGATTTCTGTTTCTTTAAAATGGACGTGCGGCCCAATCCCAATTTTTCGCACGGCCGGACGGTGCTCGTGGACCCGTTTTACTTTTGTTCCACCACCGGGCGAGAAGACGAGTGCCTGATGCACGCCGGGGGTTTGGCGCACGTGGTCTTAACCTCCGCCTGTGTGACCGTGACGGTGGTGTACGACGGTGAACCGCTCAATCCTTTTTCCGACGCCGAGAGGTCGGTATCCGACCTACTCAGCGAGGCTCTGCTGGAGGCCGATCTCCAGTTCTCCCCGGAAGCGGATTACCGGAGGGAGAACGCCAGCGCTGGTTCCCCTTTTCCGACAGCGGGAGCCGGTTATTCGATGTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL04. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCCGACGGCCGCGCCGGTCTTACCTCGGTCACCTACGTACTGCAAACGGCCGAGCCGGCGCTCCGCAGCGGAGCGCCGGGCTTCGAGCAGCTGGCCGGGCGTTTCGCGGAGAGCACCCGGCTGGTAACGCTGGCCGGGGCGACGGAACGACAGAGCCACCGATTGGTTTTCGGAGGGCGATATCAGATCCAACGGTCACCCAGCCACCTCACGGTACTGATCGACGGCCCGGAGGATTTCTGTTTCTTTAAAATGGACGTGCGACCCAATCCCAATTTTTCGCACGGCCGGACGGTGCTCGTGGACCCGTTTTACTTTTGTTCCACCACCGGGCGAGAAGACGAGTGCCTGATGCACGCCGGGGGTTTGGCGCACGTGGTCTTAACCTCCGCCTGTGTGACCGTGACGGTGGTGTACGACGGTGAACCGCTCAATCCTTTTTCCGACGCCGAGAGGTCGGTATCCGACCTACTCAGCGAGGCTCTGCTGGAGGCCGATCTCCAGTTCTCCCCGGAAGCGGATTACCGGAGGGAGAACGCCAGCGCTGGTTCCCCTTTTCCGACAGCGGGAGCCGGTTATTCGATGTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL04. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCCGACGGCCGCGCCGGTCTTACCTCGGTCACCTACGTACTGCAAACGGCCGAGCCGGCGCTCCGCAGCGGAGCGCCGGGCTTCGAGCAGCTGGCCGGGCGTTTCGCGGAGAGCACCCGGCTGGTAACGCTGGCCGGGGCGACGGAACGACAGAGCCACCGATTGGTTTTCGGAGGGCGATATCAGATCCAACGGTCACCCAGCCACCTCACGGTACTGATCGACGGCCCGGAGGATTTCTGTTTCTTTAAAATGGACGTGCGACCCAATCCCAATTTTTCGCACGGCCGGACGGTGCTCGTGGACCCGTTTTACTTTTGTTCCACCACCGGGCGAGAAGACGAGTGCCTGATGCACGCCGGGGGTTTGGCGCACGTGGTCTTAACCTCCGCCTGTGTGACCGTGACGGTGGTGTACGACGGTGAACCGCTCAATCCTTTTTCCGACGCCGAGAGGTCGGTATCCGACCTACTCAGCGAGGCTCTGCTGGAGGCCGATCTCCAGTTCTCCCCGGAAGCGGATTACCGGAGGGAGAACGCCAGCGCTGGTTCCCCTTTTCCGACAGCGGGAGCAGGTTATTCGATGTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL04. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93323_FUL05.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL05 gene (predicted feature= DNA helicase/primase) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL05 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL05 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCGGCGGCCGGAGACGCGACCCGGGAATTTTCGGAAGCTCTTTACTTAAATTATGCCACCTCCCAACCGGTACGGAACATCGTGCGGAAGGTCAAGTCGCTGGCTCGCCGCTCGCTGGTTCCGGAAGAGCTGGCGCGGCGGCGGCCCGCGCTCGACTGGTTTCGCCTCCTGGCGAAAACGGAGGACCCCGTTTCTACGCTCCCGATTCAGGAGTTGCCCTTCTCCGCCTACCTAATTACCGGCACGGCCGGATCAGGAAAAAGCACGTCCATTCAAAGCCTTTACGAGGCGCTCAATTGCACGGTGACGGGCGCCACGCGCTTGGCCTCCCAGGCCGTGTACGAAAAACTCAACGCGCAATATTTCTGCCGCCGAGTGAACACCGTGTACTTCGAGTTTGGGTTCCGTTCGCATCACGTGGCCATGAGCGCCGGCCGGCACGTGTACCAGCCGGCTTCGGACGACGTCGCAGAACTGCAAAAGCGCGACCTGTGCTACTACTGGGACGTCGTGCGCGATATTACGGAAGGGGCGCTGGCGGAAACCGAGAACAAAAAAGAGCGCGACAAAACCGTCTCCCGGCTCCTGACGGCCGCCGCGGCCCAGCGGCGCGACGCGCACCGCTGCCTGTGTTTCCTCTCGTCGGGGACGCCCAACCTGATCAAGAGCTCGACTGTCGTAGTGGACGAGGCGGGCCTGCTCAGCCGCCACCTGCTAACGGCCTTGGTCTACGGCTGGTGGCTGCTCAACGCGGTGTACGATACGGTCTTTTACCGCCAGGGGCGCGTGCCGACGGTGGTGCTGGTGGGCTCACCCACGCAAACGAACTCGCTCGAGTCCAATTTCGAGCACCCCACGCAGCGGCACAGTGTGCGCGCTTCCGAAAACATCCTTTCTTATTTGATTTGCAACCCCGCCATGGCCCGCTACGTGGAGCTCAGCGACCACTGGACGATTTTCATCAACAACAAACGTTGTTGTGAAATGGACTTTGCCAACGTGCTCAAGGTGCTCGAATTCGGCCTCCCGGTCACCGACGAGGCCGTGCGCTACCTGGATCAGTTCGTCGAGTCTGACGCTTACATCATGAACCCCGCCAACCTGACGGGCTGGACGCGGCTCTTTCTGTCGCACGAGGAGGCAAAGGGGTACACGGCCCGCCTGCACAACCATCTGAGAGAGAGCCCCGGGGGTCGCTACCTGGTTTTCTCCCTCCCCATGTACGTGTTTGTCTCCGTTTCCGAGTTTGAGAGCTACCGGCGTCTGACCGGGCGCGCCGAGCTGACGCTGGAGCGCTGGCTCGACGGCAACCTGGCCAGGATCAACAACTATTCCCAGTTTCGCGACCTGGACCTGCGGCGTGGCGCGGCCAACCTCCTGAGCAACGACGAGGAAACGGCCATGGCCGTGTTGGATATCAGTCACGTGCTGCATTCGAGCGTCTCGGTGACGACCAAATTGCGAAAGTATATGGTGGGATACGAGGGGACGTGGCGCGGCTTCGAAAGGGCTCTGATGGACGACGCCTTTCTCAAAGCGCGCGCTTCGGAGCACTTCGTGAAACGCTGTTACGCTTTTCTTGCCCTCTTGGTGTACAACGGCATGGCGCGCTTTTACGAATGGCTGGCGTCCCGTGACCCTTCGGACGCGGACGCTCTTTATCGGTCGCTGGCATCGTTGACGCCGCAGCCCGAAACCGCACCGATCGAAACCGAGGCCGAACAGAACGGCCTGCACGTTTATCACGTGCCACCGGGTCCGGAGGAGGACGAGCCGTTCGAGGACGAACTGACCCGGGCCTTCCAGAACCAGACGATCGATTTGTTCTACCTCAACTACGTTTTTCGTCGCGATTGCGACGATCGCGCCCTATACGACCAGTTTCGCGAGCTGCGCGATCTATACGTGGCCCGTTATCGCCTATTAACGGAGCGCTTCGGCGACCAGTTCGCCGACTCCCCTTTCGTCACTTTCGTCAACAACGTGACGGAAGCCGGAGCCGAAATCAAGTCTCGCGACTGGAGCGGGGGACTGTTGGGCGAAGCCCTGCAAACGGAAGACTACGTCCTCCGGGGATGGACCGCCACTCCCGTCCCCCTCTTTCAGGAGGAATTGCGAAACCGCCGTCCGCACGGAGCGGCGGTGGCGGAGGCCGGCGTACCCTCCGCCGTTTTACGCGACGAAGCGGGTTTCGTCTCGGTGATGAGCCCCAACGTGTGCGACTTGGTCGACACGGTAGAGGACCGCGAGCTGCGTCTCAGCACGTCGGTCGATCACGGGCTTAGCTCCAAGCTGGCCATGACCGTGGCCTGCTCGCAGGGCCTCAGCCTCGGCCGCGTGGCCATTCGATTCCCCTTAGGTGGTCGCCACCTAAAAATGAGTCACGTTTACGTGGCCGTTTCCCGGGTGATATCCTCTCGTTACCTGCGCATGAACCTCAACCCCCTGCGGCAACCCGACGTGGAACGCAATCAGACCATCTGCGAATATATTTTGCGGGCGCTGCGGGACGGCCGGGTGGGAACGGTCTATTAG</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL05. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCGGCGGCCGGAGACGCGACGCGGGAATTTTCGGAAGCTCTTTACTTAAATTATGCCACCTCCCAACCGGTACGGAACATCGTGCGGAAGGTCAAGTCGCTGGCTCGCCGCTCGCTGGTTCCGGAAGAGCTGGCGCGGCGGCGGCCCGCGCTCGACTGGTTTCGCCTCCTGGCGAAAACGGAGGACCCCGTTTCTACGCTCCCGATTCAGGAGTTGCCCTTCTCCGCCTACCTAATTACCGGCACGGCCGGATCAGGAAAAAGCACGTCCATTCAAAGCCTTTACGAGGCGCTCAATTGCACGGTGACGGGCGCCACGCGCTTGGCCTCCCAGGCCGTGTACGAAAAACTCAACGCGCAATATTTTTGCCGCCGAGTGAACACCGTGTACTTCGAGTTTGGGTTCCGTTCGCATCACGTGGCCATGAGCGCCGGCCGGCACGTGTACCAGCCGGCTTCGGACGACGTCGCAGAACTGCAAAAGCGCGACCTGTGCTACTACTGGGACGTCGTGCGCGATATTACGGAAGGGGCGCTGGCGGAAACCGAGAACAAAAAAGAGCGCGACAAAACCGTCTCCCGGCTCCTGACGGCCGCCGCGGCCCAGCGGCGCGACGCGCACCGCTGCCTCTGTTTCCTCTCGTCGGGGACGCCCAACCTGATCAAGAGCTCGACTGTCGTAGTGGACGAGGCGGGCCTGCTCAGCCGCCACCTGCTAACGGCCTTGGTCTACGGTTGGTGGCTGCTCAACGCGGTGTACGATACGGTCTTTTACCGCCAGGGGCGCGTGCCGACGGTGGTGCTGGTGGGCTCACCCACGCAAACGAACTCGCTCGAGTCCAATTTCGAGCACCCCACGCAGCGGCACAGCGTGCGCGCTTCCGAAAACATCCTTTCTTATTTGATTTGCAACCCCGCCATGGCCCGCTACGTGGAGCTCAGCGACCACTGGACGATTTTCATCAACAACAAACGTTGTTGTGAAATGGACTTTGCCAACGTGCTCAAGGTGCTCGAATTCGGCCTCCCGGTCACCGACGAGGCCGTGCGCTACCTGGATCAGTTCGTCGAGTCTGACGCTTACATCATGAACCCCGCCAACCTGACGGGCTGGACGCGGCTCTTTCTGTCGCACGAGGAGGCAAAGGGGTACACGGCCCGCCTGCACAACCATCTGAGAGAGAGCCCCGGGGGTCGCTACCTGGTTTTCTCCCTCCCCATGTACGTGTTTGTCTCCGTTTCCGAGTTCGAGAGCTACCGGCGTCTGACCGGGCGCGCCGAGCTGACGCTGGAGCGCTGGCTCGACGGCAACCTGGCCAGGCTCAACAACTATTCCCAGTTTCGCGACCTGGACCTGCGCCGTGGCGCGGCCAACCTCCTGAGCAACGACGAGGAAACGGCCGTGGCCGTTTTGGATATCAGTCACGTGCTGCATTCCAGCGTCTCGGTGACGACCAAATTGCGAAAGTACATGGTGGGATACGAGGGGACGTGGCGCGGCTTCGAAAGGGCTCTGATGGACGACGCCTTTCTCAAAGCGCGCGCTTCGGAGCACTTCGTCAAACGCTGTTACGCTTTTCTCGCCCTCTTGGTGTACAACGGCATGGCGCGCTTTTACGAATGGCTGGCGTCCCGCGACCCTTCGGACGCGGACGCTCTTTATCGGTCGCTGGCATCGTTGACGCCGCAGCCCGAAACCGCACCGATCGAAACCGAGGCCGAACAAAACGGCCTGCACGTGGATAACGTGCCACCGGATCCGGAGGAGGACGAGCCGTTCGAGGACGAACTGACCCGGGCCTTCCAGAACCAGACGATCGATTTGTTCTACCTCAACTACGTTTTTCGTCGCGATTGCGACGATCGCGGTCTATACGACCAGTTTCGCGAGCTGCGCGATCTATACGTGGCCCGTTATCGCCTATTAACGGAGCGCTTCGGCGACCAGTTCGCCGACTCCCCTTTCGTCACTTTCGTCAACAACGTGACGGAAGCCGGAGCCGAAATCAAGTCTCGCGACTGGAGCGGGGGACTGTTGGGCGAAGCCCTGCAAACGGAAGACTACGTCCTCCGGGGATGGACCGCCACTCCCGTCCCCCTCTTTCAGGAGGAATTGCGAAACCGCCGTCCGCACGGAGCGGCGGTGGCGGAGGCCGGCGTACCCTCCGCCGTTTTACGCGACGAAGCGGGTTTCGTCTCGGTGATGAGCCTCAACGTTTGCGACCTGGTCGACACGGTAGAGGACCGCGAGCTGCGCCTCAGCACGTCGGTCGATCACGGGCTTAGCTCCAAGCTGGCCATGACCGTGGCCTGCTCGCAGGGCCTCAGCCTCGGCCGCGTGGCCATTCGATTCCCTTTAGGTGGTCGCCACCTAAAAATGAGTCACGTTTACGTGGCCGTTTCCCGGGTGATATCCTCTCGTTACCTGCGCATGAACCTCAACCCCCTGCGGCAACCCGACGTGGAACGCAATCAGACCATCTGCGAATATATTTTGCGGGCGCTGCGGGACGGCCGGGTGGGAACGGTCTATTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL05. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCGGCGGCCGGAGACGCGACGCGGGAATTTTCGGAAGCTCTTTACTTAAATTATGCCACCTCCCAACCGGTACGGAACATCGTGCGGAAGGTCAAGTCGCTGGCTCGCCGCTCGCTGGTTCCGGAAGAGCTGGCGCGGCGGCGGCCCGCGCTCGACTGGTTTCGCCTCCTGGCGAAAACGGAGGACCCCGTTTCTACGCTCCCGATTCAGGAGTTGCCCTTCTCCGCCTACCTAATTACCGGCACGGCCGGATCAGGAAAAAGCACGTCCATTCAAAGCCTTTACGAGGCGCTCAATTGCACGGTGACGGGCGCCACGCGCTTGGCCTCCCAGGCCGTGTACGAAAAACTCAACGCGCAATATTTTTGCCGCCGAGTGAACACCGTGTACTTCGAGTTTGGGTTCCGTTCGCATCACGTGGCCATGAGCGCCGGCCGGCACGTGTACCAGCCGGCTTCGGACGACGTCGCAGAACTGCAAAAGCGCGACCTGTGCTACTACTGGGACGTCGTGCGCGATATTACGGAAGGGGCGCTGGCGGAAACCGAGAACAAAAAAGAGCGCGACAAAACCGTCTCCCGGCTCCTGACGGCCGCCGCGGCCCAGCGGCGCGACGCGCACCGCTGCCTCTGTTTCCTCTCGTCGGGGACGCCCAACCTGATCAAGAGCTCGACTGTCGTAGTGGACGAGGCGGGCCTGCTCAGCCGCCACCTGCTAACGGCCTTGGTCTACGGTTGGTGGCTGCTCAACGCGGTGTACGATACGGTCTTTTACCGCCAGGGGCGCGTGCCGACGGTGGTGCTGGTGGGCTCACCCACGCAAACGAACTCGCTCGAGTCCAATTTCGAGCACCCCACGCAGCGGCACAGCGTGCGCGCTTCCGAAAACATCCTTTCTTATTTGATTTGCAACCCCGCCATGGCCCGCTACGTGGAGCTCAGCGACCACTGGACGATTTTCATCAACAACAAACGTTGTTGTGAAATGGACTTTGCCAACGTGCTCAAGGTGCTCGAATTCGGCCTCCCGGTCACCGACGAGGCCGTGCGCTACCTGGATCAGTTCGTCGAGTCTGACGCTTACATCATGAACCCCGCCAACCTGACGGGCTGGACGCGGCTCTTTCTGTCGCACGAGGAGGCAAAGGGGTACACGGCCCGCCTGCACAACCATCTGAGAGAGAGCCCCGGGGGTCGCTACCTGGTTTTCTCCCTCCCCATGTACGTGTTTGTCTCCGTTTCCGAGTTCGAGAGCTACCGGCGTCTGACCGGGCGCGCCGAGCTGACGCTGGAGCGCTGGCTCGACGGCAACCTGGCCAGGCTCAACAACTATTCCCAGTTTCGCGACCTGGACCTGCGCCGTGGCGCGGCCAACCTCCTGAGCAACGACGAGGAAACGGCCGTGGCCGTTTTGGATATCAGTCACGTGCTGCATTCCAGCGTCTCGGTGACGACCAAATTGCGAAAGTACATGGTGGGATACGAGGGGACGTGGCGCGGCTTCGAAAGGGCTCTGATGGACGACGCCTTTCTCAAAGCGCGCGCTTCGGAGCACTTCGTCAAACGCTGTTACGCTTTTCTCGCCCTCTTGGTGTACAACGGCATGGCGCGCTTTTACGAATGGCTGGCGTCCCGCGACCCTTCGGACGCGGACGCTCTTTATCGGTCGCTGGCATCGTTGACGCCGCAGCCCGAAACCGCACCGATCGAAACCGAGGCCGAACAAAACGGCCTGCACGTGGATAACGTGCCACCGGATCCGGAGGAGGACGAGCCGTTCGAGGACGAACTGACCCGGGCCTTCCAGAACCAGACGATCGATTTGTTCTACCTCAACTACGTTTTTCGTCGCGATTGCGACGATCGCGCCCTATACGACCAGTTTCGCGAGCTGCGCGATCTATACGTGGCCCGTTATCGCCTATTAACGGAGCGCTTCGGCGACCAGTTCGCCGACTCCCCTTTCGTCACTTTCGTCAACAACGTGACGGAAGCCGGAGCCGAAATCAAGTCTCGCGACTGGAGCGGGGGACTGTTGGGCGAAGCCCTGCAAACGGAAGACTACGTCCTCCGGGGATGGACCGCCACTCCCGTCCCCCTCTTTCAGGAGGAATTGCGAAACCGCCGTCCGCACGGAGCGGCGGTGGCGGAGGCCGGCGTACCCTCCGCCGTTTTACGCGACGAAGCGGGTTTCGTCTCGGTGATGAGCCTCAACGTTTGCGACCTGGTCGACACGGTAGAGGACCGCGAGCTGCGCCTCAGCACGTCGGTCGATCACGGGCTTAGCTCCAAGCTGGCCATGACCGTGGCCTGCTCGCAGGGCCTCAGCCTCGGCCGCGTGGCCATTCGATTCCCTTTAGGTGGTCGCCACCTAAAAATGAGTCACGTTTACGTGGCCGTTTCCCGGGTGATATCCTCTCGTTACCTGCGCATGAACCTCAACCCCCTGCGGCAACCCGACGTGGAACGCAATCAGACCATCTGCGAATATATTTTGCGGGCGCTGCGGGACGGCCGGGTGGGAACGGTCTATTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL05. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93324_HP14.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP14 gene (predicted feature= Hypothetical protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP14 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP14 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCAGCACGTGACTGATATCCAACACGGCCATGGCCGTTTCCTCGTCGTTGCTCAGGAGGTTGGCCGCGCCACGCCGCAGGTCCAGGTCGCGAAACTGGGAATAGTTGTTGATCCTGGCCAGGTTGCCGTCGAGCCAGCGCTCCAGCGTCAGCTCGGCGCGCCCGGTCAGACGCCGGTAGCTCTCAAACTCGGAAACGGAGACAAACACGTACATGGGGAGGGAGAAAACCAGGTAGCGACCCCCGGGGCTCTCTCTCAGATGGTTGTGCAGGCGGGCCGTGTACCCCTTTGCCTCCTCGTGCGACAGAAAGAGCCGCGTCCAGCCCGTCAGGTTGGCGGGGTTCATGATGTAAGCGTCAGACTCGACGAACTGATCCAGGTAGCGCACGGCCTCGTCGGTGACCGGGAGGCCGAATTCGAGCACCTTGAGCACGTTGGCAAAGTCCATTTCACAACAACGTTTGTTGTTGATGAAAATCGTCCAGTGGTCGCTGAGCTCCACGTAGCGGGCCATGGCGGGGTTGCAAATCAAATAAGAAAGGATGTTTTCGGAAGCGCGCACACTGTGCCGCTGCGTGGGGTGCTCGAAATTGGACTCGAGCGAGTTCGTTTGCGTGGGTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP14. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCAGCACGTGACTGATATCCAAAACGGCCACGGCCGTTTCCTCGTCGTTGCTCAGGAGGTTGGCCGCGCCACGGCGCAGGTCCAGGTCGCGAAACTGGGAATAGTTGTTGAGCCTGGCCAGGTTGCCGTCGAGCCAGCGCTCCAGCGTCAGCTCGGCGCGCCCGGTCAGACGCCGGTAGCTCTCGAACTCGGAAACGGAGACAAACACGTACATGGGGAGGGAGAAAACCAGGTAGCGACCCCCGGGGCTCTCTCTCAGATGGTTGTGCAGGCGGGCCGTGTACCCCTTTGCCTCCTCGTGCGACAGAAAGAGCCGCGTCCAGCCCGTCAGGTTGGCGGGGTTCATGATGTAAGCGTCAGACTCGACGAACTGATCCAGGTAGCGCACGGCCTCGTCGGTGACCGGGAGGCCGAATTCGAGCACCTTGAGCACGTTGGCAAAGTCCATTTCACAACAACGTTTGTTGTTGATGAAAATCGTCCAGTGGTCGCTGAGCTCCACGTAGCGGGCCATGGCGGGGTTGCAAATCAAATAAGAAAGGATGTTTTCGGAAGCGCGCACGCTGTGCCGCTGCGTGGGGTGCTCGAAATTGGACTCGAGCGAGTTCGTTTGCGTGGGTGA</edomv>\n <edomvd>Consensus DNA sequence for HP14. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93325_FUL06.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL06 gene (predicted feature= capsid portal protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL06 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL06 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCCCGCCTCGCGAGGCCGCGAGGCCGCGGAACGCGAAATCGCGCGCCTTCTGCGGGACCCGGACGCGGTTCTCCTTCACCCGTCTGAAAAAACCATGGCCTTCGCAGAGATATTGGCCGGCAAGTGGATTTACACCGAGGGTCAGGGCGTATACAATTCTGTCAAGAGCGCCGAGGTGGTCAAGAGGCAGCTGCAGGCCGCGCTCTTGCGCGACACCTTGGCCTCCGCCGTCTACCGGGATCTCAAGACCGACTGGGATCGACACGCTCGGGCGGCGGCCGCCGCTTGGGGAGAGTCGGAGCTCTTAAACGAGGACCCGGAGGCAGCCCGGGTGGCCTTCGAGACCTGGGCCCAGACCCTGGCGCAGAGTCTGCTCGAGTTTGCGCACGAGACGGCGGCCGGATTCGTTGGAGCTATGACGGCGGGCGAAGCCAGCTTCGATAAGTACGTCGATTGGCTCACGTGCCTCGGGGTGGTGCCCGTCATTCGCCTGTCGGCGCCTCGAAAGAGGAAGCGCGACGAAGATCAAACGCCCCGGCTCGATCTCTTTCCGGCCGTCTCGCGTCCGGCGGCCGACGCGGTCTCTCGCGCTTTGCGCGATAGGGCGTTGCAAGCGGCCGCCGCTCTTGCGGAGCGGTTGGAACTGACCCGCATTCCGGAGTACGACCGGACGGCTTTGATATGGAACGCCAGGTCTCGGGAAGTGGTCAGCGTCGACCTGGTTACGGCCGCGTCGGGCCGGGGGCTCGTTTTGCGTCCCTTCTCGTACATCCGCGGCGAGGTGCTTTTCGACTCTCCGCTCGAACGGCTTTACGTGGCCTGCGCGCGGGCCGACCGCATGCGGGAGCACGGGAAAATATGCGAGTTGATCAACACTCAGCCGGTGCGCGTCGTGTTGGGCCGCAAACCGGTCGATTCCGATTCGGCCGCCCAGGCCGCGGCCCTGGTGGATGGCAAGGACCGGGCTCGGAACGATTCTTCCGCCGCCAAGTTGGTGGGCCTGATCGTGCGTCTTCAGAAAATGGAAAGCCCCAAAGACGTCGCGGAAACCCTCCGCGCTTATCTGGACGATCAAGATGGACGTGTGCTCGACGCGGAGCAGATCAATACCTCCAGGGTGGGTTTCGGGCAGAGCAGGCCAGCCGCGGTGGCGGCCAAAAAGCCCCCCGCTTTGACGCTTCGCGAAGCGTTCCGTGAGAACGCTACCGCGGGCGTTAATCGCATTTTGGAGGCGCACGTACACAAGCAATTCGAAACTCTATCCCAGTACCGAGAAACCAACGCCTCCTTGCGTCGCGAATTGGAAGGGGTGAAAGATCGGCTCCGCCGAGCCGATCGTCGGCTGTTCGAGGAGGTGCCGCCGGGCGTCGAGTCGAACCCGTCCGTGTGCCGGCACGGCGGTCCTCCGGACTTGGAGTGCCAGGCCGCGCTCTCCGCCCTAAGCCGAGATCTAATCGTGCAAACGGCGGACCTGTCGGACCGAATGGCGGCGGCCGGCTCCGACTCCGCGGTGCTCAATAGCTTCTTTTCGCGTTTCGTGCCGCCCTATCGCGAAGAAGAGGCGGCGCTTTCTCGGCTCTGGGAGCAGGAGCTGATGCGGTTCTTCAAACTCACGCGCCTCACCAATAACCAGGGTCAAGAACTAGGCGTGGCCTACTCCAACAGCGCCATCGACCTCATCGTCGAGCCCTACCTGAGTCGCGTGCTGCGCTTCACCAGTTTGGGCCACCTGGTTTCCAGCAAGGACGCCTACGTTTCGACGGACGAACTCTTCCGCTTGGTCTTTAAAAGGTCTAGGGTCAACGCCTACCTAGAAGAGATCAGGGAACGGTTCCTGGCTCGGGTGCGCCGCCATGCTGCCGATGTCGCTCGAGGAGCTAGAACCGCAGAACGCGGAGAGCCTGGTGCAGGAAGCGCTGGCGCTGACCCTGGGCCGCTATGTTCTGGAATGCCATCGGGTAACCGCGACGACCGCCGTTTTTAG</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL06. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCCCGCCTCGCGAGGCCGCGAGGCCGCGGAACGCGAAATCGCGCGCCTTCTGCGGGACCCGGACGCGGTTCTCCTTCACCCGTCTGAAAAAACCCTGGCCTTCGCAGAGATATTGGCCGGCAAGTGGATTTACACCGAGGGTCAGGGCGTATACAATTCGGTCAAGAGCGCCGAGGTGGTCAAGAGGCAGCTGCAGGCCGCGCTCTTGCGCGACACCTTGGCCTCCGCCGTCTACCGGGATCTCAAGACCGACTGGGATCGACACGCTCGGGCGGCGGCCGCCGCTTGGGGAGAGTCGGAGCTCTTAAACGAGGACCCGGAGGCAGCCCGGGTGGCCTTCGAGACCTGGGCCCAGACCCTGGCGCAGAGTCTGCTCGAGTTTGCGCACGAGACGGCGGCCGGATTCGTGGGAGCTATGACGGCGGGCGAAGCCAGCTTCGATAAGTACGTCGATTGGCTCACGTGCCTCGGGGTGGTGCCCGTCATTCGCCTGTCGGCGCCTCGAAAGAGGAAACGCGACGAAGATCAAACGCCCCGGCTCGATCTCTTTCCGGCCGTCTCGCGTCCGGCGGCCGACGCGGTCTCTCGCGCTTTGCGCGATAGGGCGTTGCAAGCGGCCGCCGCTCTTGCGGAGCGGTTGGAACTGACCCGCATTCCGGAGTACGACCGGACGGCTTTGATATGGAACGCCAGGTCTCGGGAAGTGGTCAGCGTCGACCTGGTTACGGCCGCGTCGGGCCGGGGGCTCGTTTTGCGTCCCTTCTCGTACATCCGCGGCGAGGTGCTTTTCGACTCTCCGCTCGAACGGCTTTACGTGGCCTGCGCGCGGGCCGACCGCATGCGGGAGCACGGGAAAATATGCGAGTTGATCAACACTCAGCCGGTGCGCGTCGTGTTGGGCCGCAAACCGGGCGATTCCGATTCGGCCGCCCAGGCCGCGGCCCTGGTGGATGGCAAGGACCGGGCTCGGAACGATTCTTCCGCCGCCAAGTTGGTGGGCCTGATCGTGCGTCTTCAGAAAATGGAAAGCCCCAAAGACGTCGCGGAAACCCTCCGCGCTTATCTGGACGATCAAGATGGACGTGTGCTCGACGCGGAGCAGATCGATACCTCCAGGGTGGGTTTCGGGCAGAGCAGGCCAGCCGCGGTGGCGGCCAAAAAGCCCCCCGCTTTGACGCTTCGCGAAGCGTTCCGTGAGAACGCTACCGCGGGCGTTAATCGCATTTTGGAGGGGCACGTGCACAAGCAATTCGAAACTCTATCCCAGTACCGAGAAACCAACGCCTCCTTGCGTCGCGAATTGGAAGGGGTGAAAGATCGGCTCCGCCGAGCCGATCGTCGGCTGTTCGAGGAGGTGCCGCCGGGCGTCGAGTCGAACCCGTCCGTGTGCCGGCACGGCGGTCCTCCGGACTTGGAGTGCCAGGCCGCGCTCTCCGCCCTAAGCCGAGATCTAATCGTGCAAACGGCGGACCTGTCGGACCGAATGGCGGCGGCCGGCTCCGACTCCGCGGTGCTCAATAGCTTCTTTTCGCGCTTCGTGCCGCCCTATCGCGAAGAAGAGGCGGCGCTTTCTCGGCTCTGGGAGCAGGAGCTGATGCGGTTCTTCAAACTCACGCGCCTCACCAATAACCAGGGTCAAGAACTAGGCGTGGCCTACTCCAACAGCGCCATCGACCTCATCGTCGAGCCCTACCTGAGTCGCGTGCTGCGCTTCACCAGTTTGGGCCACCTGGTTTCCAGCAAGGACGCCTACGTTTCGACGGACGAACTCTTCCGCTTGGTCTTTAAAAGGTCTAGGGTCAACGCCTACCTAGAAGAGATCAGGGAACGGTTCCTGGCTCGGGTGCGCCGCCATGCTGCCGATGTCGCTCGAGGAGCTAGAAGCGCAGAACGCGGAGAGCCTGGTGCAGGAAGCGCTGGCGCTGACCCTGGGCCGCTATGTTCTGGAATGCCATCGGGTAACCGCGACGACCGCCGTTTTTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL06. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93326_HP15.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP15 gene (predicted feature= Hypothetical nuclear protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP15 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP15 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGAACGCCAGGTCTCGGGAAGTGGTCAGCGTCGACCTGGTTACGGCCGCGTCGGGCCGGGGGCTCGTTTTGCGTCCCTTCTCGTACATCCGCGGCGAGGTGCTTTTCGACTCTCCGCTCGAACGGCTTTACGTGGCCTGCGCGCGGGCCGACCGCATGCGGGAGCACGGGAAAATATGCGAGTTGATCAACACTCAGCCGGTGCGCGTCGTGTTGGGCCGCAAACCGGTCGATTCCGATTCGGCCGCCCAGGCCGCGGCCCTGGTGGATGGCAAGGACCGGGCTCGGAACGATTCTTCCGCCGCCAAGTTGGTGGGCCTGATCGTGCGTCTTCAGAAAATGGAAAGCCCCAAAGACGTCGCGGAAACCCTCCGCGCTTATCTGGACGATCAAGATGGACGTGTGCTCGACGCGGAGCAGATCAATACCTCCAGGGTGGGTTTCGGGCAGAGCAGGCCAGCCGCGGTGGCGGCCAAAAAGCCCCCCGCTTTGACGCTTCGCGAAGCGTTCCGTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP15. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGAACGCCAGGTCTCGGGAAGTGGTCAGCGTCGACCTGGTTACGGCCGCGTCGGGCCGGGGGCTCGTTTTGCGTCCCTTCTCGTACATCCGCGGCGAGGTGCTTTTCGACTCTCCGCTCGAACGGCTTTACGTGGCCTGCGCGCGGGCCGACCGCATGCGGGAGCACGGGAAAATATGCGAGTTGATCAACACTCAGCCGGTGCGCGTCGTGTTGGGCCGCAAACCGGGCGATTCCGATTCGGCCGCCCAGGCCGCGGCCCTGGTGGATGGCAAGGACCGGGCTCGGAACGATTCTTCCGCCGCCAAGTTGGTGGGCCTGATCGTGCGTCTTCAGAAAATGGAAAGCCCCAAAGACGTCGCGGAAACCCTCCGCGCTTATCTGGACGATCAAGATGGACGTGTGCTCGACGCGGAGCAGATCGATACCTCCAGGGTGGGTTTCGGGCAGAGCAGGCCAGCCGCGGTGGCGGCCAAAAAGCCCCCCGCTTTGACGCTTCGCGAAGCGTTCCGTGA</edomv>\n <edomvd>Consensus DNA sequence for HP15. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93327_FUL07.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL07 gene (predicted feature= Herpes_UL7 superfamily) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL07 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL07 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCTGCCGATGTCGCTCGAGGAGCTAGAACCGCAGAACGCGGAGAGCCTGGTGCAGGAAGCGCTGGCGCTGACCCTGGGCCGCTATGTTCTGGAATGCCATCGGGTAACCGCGACGACCGCCGTTTTTAGCGGGGATTCCATTTGCGCAATCCGACTGGGAAACGGCCATTTGCGGCCATGGGTGAGGCTACGCCGCGGAGGCCGAGAACTCTTGCTCGACGAGTATCGGCAACGCTGCTTGGCTTCTCAGGCCTTCCAAGGGTTTATTTTTCTGCCCTGCTTGGCTACCGAGGACCGTCCCGGTGGGCCCGAGCACCCCGCGCCCCTTTTGGCGCGCAAGTTAGTGCTTTGGCGCCCCCGTGAACCAGAGGACTTTGATTTGTGTCTCTATTTGGCCTTCCTTGAAAACTGCGATACGAACGACAAGGGTTCCGTGGAGGCGGTGGGCCTTATGTTGCAAGCCATGAGGCCAAAATTAAATTTAAGAGATAAGACCCGAAATTTGCTCTTTCGCGGTTGTCGCTGGACGCTGAACACCCTTCGTTTTTGGCACGATTTGAGCCCCTGGGAGGAAAACTTCATTTTGCCGCGCTTCTATCTATACCGCCGCCTGTCCCAAGGCGTCTCGCCACCTACCGATCTGTTGGAATTGCGGCTTTGTTCCGCCCACGGTCTCTCGGGGCGCTTGGCCTTTCTCGCGCCCTACGGAGCGCGAGCTCCGGCGGTCGAGGATGAAACCGCAAATGACGTGAGAAAAAAAGCGGAACCGCCGGTTAAAGCCTTGCTGACTTACTGGCCGTCGCCGCTTAATGCCGCGTACCGGCACCCCGCCTTTTCGGAGGCTTTGGCGGCTTGGTGGACGCACCCCGATAAAACCACTGAAGAGTTATTGTACCGAAAGCACTTTATTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL07. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCTGCCGATGTCGCTCGAGGAGCTAGAAGCGCAGAACGCGGAGAGCCTGGTGCAGGAAGCGCTGGCGCTGACCCTGGGCCGCTATGTTCTGGAATGCCATCGGGTAACCGCGACGACCGCCGTTTTTAGCGGGGATTCCATTTGCGCAATCCGGCTGGGGAACGGCCATCTGCGGCCATGGGTGAGGCTCCGTCGCGGCGGCCGAGAACTCTTGCTCGACGAGTATCGGCAACGCTGCCTGGCGTCTCAGGCCTTCCAAGGGTTCGTTTTTCTCCCCTGCTTGGCCACCGATGACCGTCCCGGTGGGCCCGAGCACCCCGCGCCCCTCTTGGCGCGAAAGTTAGTGCTGTGGCGCCCCCAAGAACCAGAGGACTTTGATTTGTGTCTCTATTTGGCCTTTCTTGAAAACTGCGACACGAACGACAAAAGCTCCGTGGAGGCGGTGGGCCTTATGTTGCAAGCCCTGAGGCCCAAATTAAATTTAAGAGATAAGACCCGAAATTTGCTCTTTCGCGGTTGTCGCTGGACGCTGAACACCCTTCGTTTTTGGCACGATTTGAGCCCCTGGGAGGAAAACTTCATTTTGCCGCGCTTCTATCTGTACCGCCGCCTGTCTCAAGGCGGAGAGCCGCCTACCGATCTGTTGGAATTGCGGCTCTGTTCCGCCCACGGTCTCTCCGGGCGCTTGGCCTTTCTCGCGCCTTACGGAGCGGGAACGCCGGCGGTCGCGGATGAAACCGCGGCTGACATGAGAAAAAAACCGGAGCCGCCGGCTAAAGCCTTGCTGACCTACTGGCCGTCACCGCTCAACGCCGCGTACCGACACCCCGCCTTTTCGGAGGCTTTGGCGGCTTGGTGGACGCACCCAGATAAAACCACGGAAGAATTGTTGTACCGAAAGCACTTTATTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL07. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCTGCCGATGTCGCTCGAGGAGCTAGAAGCGCAGAACGCGGAGAGCCTGGTGCAGGAAGCGCTGGCGCTGACCCTGGGCCGCTATGTTCTGGAATGCCATCGGGTAACCGCGACGACCGCCGTTTTTAGCGGGGATTCCATTTGCGCAATCCGACTGGGAAACGGCCATTTGCGGCCATGGGTGAGGCTACGCCGCGGAGGCCGAGAACTCTTGCTCGACGAGTATCGGCAACGCTGCTTGGCTTCTCAGGCCTTCCAAGGGTTTATTTTTCTGCCCTGCTTGGCTACCGAGGACCGTCCCGGTGGGCCCGAGCACCCCGCGCCCCTTTTGGCGCGCAAGTTAGTGCTTTGGCGCCCCCGAGAACCAGAGGACTTTGATTTGTGTCTCTATTTGGCCTTCCTTGAAAACTGCGATACGAACGACAAGGGTTCCGTGGAGGCGGTGGGCCTTATGTTGCAAGCCATGAGGCCAAAATTAAATTTAAGAGATAAGACCCGAAATTTGCTCTTTCGCGGTTGTCGCTGGACGCTGAACACCCTTCGTTTTTGGCACGATTTGAGCCCCTGGGAGGAAAACTTCATTTTGCCGCGCTTCTATCTATACCGCCGCCTGTCCCAAGGCGGCTCGCCGCCTACCGATCTGTTGGAATTGCGGCTTTGTTCCGCCCACGGTCTCTCCGGGCGCTTGGCCTTTCTCGCGCCTTACGGAGCGCGAGCTCCGGCGGTCGAGGATGAAACCGCGGATGACGTGAGAAAAAAAGCGGAGCCGCCGGTTAAAGCCTTGCTGACTTACTGGCCGTCGCCGCTTAACGCCGCGTACCGGCACCCCGCCTTTTCGGAGGCTTTGGCGGCTTGGTGGACGCACCCAGATAAAACCACTGAAGAGTTATTGTACCGAAAGCACTTTATTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL07. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACTGAAGANNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL07. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTGTACCGAAAGCACTTTNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL07. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93328_FUL08.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL08 gene (predicted feature= UL8 Herpesvirus DNA helicase/primase complex) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL08 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL08 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGAACCCGAATCCAAAACGCGCTTGTCCGGGCCTTTGGGTCACGCGACGGTCGGGTGAGGTGTGCTCCGTAAAAATTTACGCCCTAGAGGAGCGCGGAGCTCTGTATCAGGTTTTCTTCCTGAATCGCGACACGGGTTGCTATGAAACCTTGTTCGCGCACCTGAATCGCGCGTGGAACGAACCGCTCCACTGGGGGCCTTCGATCCAGGATGCCAAGGACGCGAAGCGAGAAGACCGGTCGGTCCTGGAGGCGTGGAACGCGTGCTGCCGACCGGGCCTCGATTTACAAAACACGTTTGCGGGCTTTTCGAGCTACCGTCGATACGCGTCACTCAAAGCGGCGACCGGCCGCGCCCTGGCTTATTTTTACTCCCGGCCGGAATTCGACGTCCGGCCACACTGCCCCTGCGTGGCGATTGTCGATCAGCGGTCCGGCCTCTTGGCGGGCCTGTGGCCCGCCAAGGAGGCGGCAACGGAAAAAGAAGCGAGGGCACCCAAAGCGGCGGTGGCCGCCGTTCGAGCAGAAGTGGAAATTTCCTGTCCGGAAAAAGGAGAGTTCTCGAGCGACCGTACTTTTGCTTACAATTATTTGGCCCTGTTGGCCGCCGGTGGCGGCAAATTGTTAGACCTTCCTTTCGATCTCCGAACCGAAACTGCTTTTTTGAGCGGGGGTCGCCGGCGACCCCCGCCGTCCACAAAAGCGTTTGACGCCGTATTCGCGTTTCGCGATCAATGTTTACATCTTCCCGACGGGCGAGAAGTGCGGGTGCGTTCGTTAGAGCCGTTGAACTTTCAACTCCTCTTTCTAACGGACGGCGAAGGGAGCTTTTGTCTGACTGGCGCCCTGAGCTGGTACAAGACGCTGTGGAATAAGGCGTACTTAAATTTTGAAGGCGTACGGCCCGCGTTTTTTTACTTGGGCCCGGAAGGGCGACCGAGAGGGGAAGAATCGGAAGCGGATTGCTTCACGACGCCGAGTTTTCCGCCTTGGGAAACCGTAAAAATGCCCGCCGATGCCAGCGGAGTCAAGGAGGCGCGCGCCTTGCGCGTCTCACTGGACCGCCTTTTTCGGCAGGCGGAAGAGGGCGCCTTTGGCATGCGCGCTCTTTACGTGGCTGAAGGACGACAGGAAGCTCTGCTCAGGCCCGTTACCTTGAACGCCGTAGAGGAGCGTCTGCTTTCGGAATGGCCTGCCGGGGTGATCAAGGCGAGCTTTCGTTCGCCCCGTTTCCTTGAAGAACCCGGCCTCCGATTGATCAAAATGGACTTCGTTTCCTGTTATCCGCGCTTGTACGCCTGCGTGCTGGGTGGCTGCCGGTCTCTGGACGCGGCCCTCAAAGCCCGCGAAAGCGCGGATGCCTCCCCAGCCTTGCGAAAACGCATCAAACGCGTTCTCAACGGTTTCTGCGGTTCACTGGGCCTGACTAACCGCACGGCGTACCGCAAAGTGATCGCGGTCGCGGCCGCTCTGGCCGAAGGTTTGGAAGACACGTTAGACGAGCTGGGCGCCGGCGTCCTTACGTACGTCAAAGACGGGTTTTTGGCGGTGACTCGTGAAAGCGCGCCGTCGCCTGAACTCATACGGGAAACCTGTCAAAAACAAGCGGAAAAAACGCTCGGTCCCGGAGCACCGGAGCTGCGCCTGGAAGGCGTGTACACGCACGGCGCTTTGTTCGACGTTCACCGGTACTGGTTGTGGAACGCCGAAACCGGGGAAGAAGCGCTGGCCGGTTTTCCTCGTCGCGGCCCATTAGAAACGGCCGCGTGTGGACTGGCCGGCCGCCTGCTGCGGGAAGCTTTAGTGGGGACCGGGAATCTTAAGGAGGCCGACGCCCGGGCGCGGCGACTGGTGGGGGAATTCGCTCGCGCTCAGTACGCGCGAAAAAACGAAACGGTCTTTTGGACTCGTACCGCGCGCCTTCCGGAGGTCGGAGAAGCTTATTCGGACGAAAACCTTTTTCGGCGGCTCTGTCGGGAAGCTCCGCCATCCCGCCTGACCCTAGATTGGACCGTGCGACGCACGGTGCCGGTAGAGGGTTCTCCGGAGCCGGTTTTTCTAGATCTGCTACCCGAAGGGGCGGCCTCAGGCGCCTTGCGGATCGACCGGGCGACGGCCCTGCGCAAAGCTTTGCGGCCGGCGACGGAAGCTTTCCGGCGCGCCGTAGAAGTAAAATTTCAGCTGGAACCGGGAACATACGAGTTCGAATCGAGCGAATCGGAATGGATTTTTTTATTTAAATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL08. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAACCCGAATCCAAAACGCGCTTGTCCGGGCCTTTGGGTCACGCGACGGTCGGGTGAGGTGTGCTCCGTAAAAATTTACGCCCTGGAGGAGCGCGGAGCTCTGTATCAGATTTTCTTCCTGAATCGCGACACGGGTTGCTATGAAACCTTGTTCGCGCACCTGAATCGCGCGTGGAACGAACCGCTCCACTGGGGGCCTTCGATCCAGGATGCCAGGGACGCGAAGCGAGAAGACCGGTCGGTCCTGGAGGCGTGGGACGCGTGCTGCCGACCGGGCCTCGATTTACAAAACACGTTTGCGGGCTTTTCGAGCTACCGCCGCTACGCGTCACTAAAAGCGGCGACCGGCCGCGCCCTGGCTTATTTTTACTCCCGGCCGGAATTCGACGTCCGGCCACACTGCCCCTGCGTGGCGATTGTCGATCAGCGGTCCGGCCTCTTGGCGGGCCTGTGGCCCGCCAAGGAGGCGGTAACGGAAAAAGAAGCGAGGGCACCCAAAGCGGCGGTGGCCGCCGTTCGAGCAGAAGTGGAAATTTCCTGTCCGGAAAAAGCCGATTTCTCGAGCGACCGTACTTTTGCTTACAATTATTTGACCCTGCTGGCCGCCGGTGGCGGCAGATTGTTAGACCTTCCTTTCGATCTCCGAACCGAAACTGCTTTTTTGAGCGGGGGTCGCCGGCGACCCCCGCCGTCCAAAGAAGCGTTTGACGCCGTATTTGCGCTTCGCGATCAATGTTTACGTCTTCCCGACGGGCGAGAAGCGCGGGTGCGTTCGCTAGAGCCGTTGAACTTTCAATTCCTTTTTGTAACGGACGGGGAGGGGAGCTTTTGCCTGACCGGCGCCCTGAGCTGGTACAAGACGCTGTGGAATAAGGCGTACTTAGATTTTGAAGGCGTACGGCCCGCGTTTTTTTACTTGGGCCCGGAAGGGCGGCCAAGAGGCGAGGAACCGGAAGCGGATTGCTTCACGACGCCAAGTTTTCCGCCTTGGGAGACCATGAAAATGCCCGCCGATGCGAGCGGAGTCAAGGAGGCGCGCGCCTTGCGCGTCTCACTGGACCGCCTTTTCCGGCAGGCGGAAGAGGGCGCCTTTGGCATGCGTGCTCTTTACGTAGCTGAAGGACGACAGGAAGCTCTGCTCAGGCCTGTTACCTTGAACGCCTTAGAGGAGCGTATGTTATCGGCATGGCCTGCCGGGGTGATCAAGGCGAGCTTTCGTTCGCCCCGTTTCCTCGAAGAACCCGGCCTCCGATTGATCAGGATGGACTTCGTTTCCTGCTATCCGCGCTTGTACGCCTGCGCGCTGGGTAGCTGCCGGTCTCTGGCCGCGGCTCTCAAAGCCCGCGAAAGTGCGGATGCTCCCCCAGCCTTGCGAAAACGCATCAAACGCGTTCTTAACGGTTTCTGCGGTTCCCTGGGGCTGACTAACCGCACGGCGTACCGCAAAGTGATCGCGGTCGCTGACGCTCTGGCCGAAGGTTTGGAAGACACGTTAGACGAGCTCGGCGCCGGCGTCCTAACGTACGTCAAAGACGGTTTTTTGGCGGTGACTCGCGAAAGCGCGCCCTCGCCTGAACTCATACGGGAAACCTGTCAAAAGCAAGCGAAAAGAACGCTCGGTCCCGGAGCGCCGGTGCTGCGCCTGGAGGGCGTATACACGCACGGCGCTTTGTTCGACGTTCACCGATACTGGTTGTGGAACGCCGAAACCGGGGAAGAGGCGCTGGCCGGTTTTCCCCGCCGCGGCCCGTTAGAAACGGCCGCGTGTGGACTGGCCGGCCGCCTGCTGCGGGAAGCTTTAGCGGGGACCGGGAACCTGAAGGAGGCCGACTCCCGGGCGCGGCGACTGGTGGCGGAATTCGCTCGCGCTCAGTACGCGCGAAAAGACGAAACGGTCTTTTGGACTCGAACGGCGCGCCTTCCGGAGGTCGGGGAATCTTATTCGGACGAAAACATTTTTCGGCGGCTCTGTCGGGAAGCTCCGCCATCCCGCCTGACCCTAGATTGGACCGTGCGACGCACGGTACCGGTGGAGGGCTCTCCAGAGCCGCTATTTTTAGATCTGCTTCCCGAAGGGGCGGCGTCCGGCGCCTTGCGGATCGACCGGACGACGGCCCTGCGCAAAGCTTTGCGGCCTGTGACGGAAGCTTTCCGGCGCGCCGTCGAAGTAAAATTTCAGCTGGAACCGGGAACATACGAGTTCGACCCGAGCGAATCGGAGTGGATTTTTTTATTTAAATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL08. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAACCCGAATCCAAAACGCGCTTGTCCGGGCCTTTGGGTCACGCGACGGTCGGGTGAGGTGTGCTCCGTAAAAATTTACGCCCTGGAGGAGCGCGGAGCTCTGTATCAGATTTTCTTCCTGAATCGCGACACGGGTTGCTATGAAACCTTGTTCGCGCACCTGAATCGCGCGTGGAACGAACCGCTCCACTGGGGGCCTTCGATCCAGGATGCCAGGGACGCGAAGCGAGAAGACCGGTCGGTCCTGGAGGCGTGGGACGCGTGCTGCCGACCGGGCCTCGATTTACAAAACACGTTTGCGGGCTTTTCGAGCTACCGCCGCTACGCGTCACTAAAAGCGGCGACCGGCCGCGCCCTGGCTTATTTTTACTCCCGGCCGGAATTCGACGTCCGGCCACACTGCCCCTGCGTGGCGATTGTCGATCAGCGGTCCGGCCTCTTGGCGGGCCTGTGGCCCGCCAAGGAGGCGGTAACGGAAAAAGAAGCGAGGGCACCCAAAGCGGCGGTGGCCGCCGTTCGAGCAGAAGTGGAAATTTCCTGTCCGGAAAAAGGAGAGTTCTCGAGCGACCGTACTTTTGCTTACAATTATTTGGCCCTGTTGGCCGCTGGTGGCGGCAAATTGTTAGACCTTCCTTTCGATCTCCGAACCGAAACTGCTTTTTTGAGCGGGGGTCGCCGGCGACCCCCGCCGTCCACAAAAGCGTTTGACGCCGTATTTGCGTTTCGCGATCAATGTTTACGTCTTCCCGACGGGCGAGAAGTGCGGGTGCGTTCGTTAGAGCCGTTGAACTTTCAATTCCTCTTTCTAACGGACGGCGAAGGGAGCTTTTGTCTGACTGGCGCCCTGAGCTGGTACAAGACGCTGTGGAATAAGGCGTACTTAAATTTTGAAGGCGTACGGCCCGCGTTTTTTTACTTGGGCCCGGAAGGGCGACCGAGAGGCGAAGAATCGGAAGCGGATTGCTTCACAACGCCGAGTTTTCCGCCTTGGGAAACCATAAAAATGCCCGCCGATGCCAGCGGAGTCAAGGAGGCGCGCGCCTTGCGCGTCTCACTGGACCGCCTTTTTCGGCAGGCGGAAGAGGGCGCCTTTGGCATGCGCGCTCTTTACGTGGCTGAAGGACGACAGGAAGCTCTGCTCAGGCCCGTTACCTTGAACGCCGTAGAGGAGCGTCTGCTATCGGAATGGCCTGCCGGGGTGATCAAGGCGAGCTTTCGTTCGCCCCGTTTCCTTGAAGAACCCGGCCTCCGATTGATCAAAATGGACTTCGTTTCCTGTTATCCGCGCTTGTACGCCTGCGTGCTGGGTGGCTGCCGGTCTCTGGACGCGGCCCTCAAAGCCCGCGAAAGTGCGGAGGCCTCCCCAGCCTTGCGAAAACGCATCAAACGCGTTCTCAACGGTTTCTGCGGTTCACTGGGCCTGACTAACCGCACGGCGTACCGCAAAGTGATCGCGGTCGCTGACGCTCTGGCCGAAGGTTTGGAAGACACGTTAGACGAGCTCGGCGCCGGCGTCCTAACGTACGTCAAAGACGGTTTTTTGGCGGTGACTCGCGAAAGCGCGCCGTCGCCTGAACTCATACGGGAAACCTGTCAAAAACAAGCGGAAAGAACGCTCGGTCCCGGAGCACCGGAGCTGCGCCTGGAAGGCGTGTACACGCACGGCGCTTTGTTCGACGTTCACCGGTACTGGTTGTGGAACGCCGAAACCGGGGAAGAGGCGCTGGCCGGTTTTCCTCGTCGCGGCCCGTTAGAAACGGCCGCGTGTGGACTGGCCGGCCGCCTGCTGCGGGAAGCTTTAGTGGGGACCGGGAATCTTAAGGAGGCCGACGCCCGGGCGCGGCGACTGGTGGCGGAATTCGCTCGCGCTCAGTACGCGCGAAAAAACGAAACGGTCTTTTGGACTCGTACCGCGCGCCTTCCGGAGGTCGGAGAAGCTTATTCGGACGAAAACCTTTTTCGGCGGCTCTGTCGGGAAGCTCCGCCATCCCGCCTGACCCTAGATTGGACCGTGCGACGCACGGTGCCGGTAGAGGGTTCTCCGGAGCCGGTTTTTCTAGATCTGCTACCCGAAGGGGCGGCCTCAGGCGCCTTGCGGATCGACCGGGCGACGGCCCTGCGCAAAGCTTTGCGGCCGGTGACGGAAGCTTTCCGGCGCGCCGTAGAAGTAAAATTTCAGCTGGAACCGGGAACATACGAGTTCGAACCGAGCGAATCGGAATGGATTTTTTTATTTAAATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL08. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAACCCGAATCCAAAACGCGCTTGTCCGGGCCTTTGGGTCACGCGACGGTCGGGTGAGGTGTGCTCCGTAAAAATTTACGCCCTGGAGGAGCGCGGAGCTCTGTATCAGATTTTCTTCCTGAATCGCGACACGGGTTGCTATGAAACCTTGTTCGCGCACCTGAATCGCGCGTGGAACGAACCGCTCCACTGGGGGCCTTCGATCCAGGATGCCAGGGACGCGAAGCGAGAAGACCGGTCGGTCCTGGAGGCGTGGGACGCGTGCTGCCGACCGGGCCTCGATTTACAAAACACGTTTGCGGGCTTTTCGAGCTACCGCCGCTACGCGTCACTAAAAGCGGCGACCGGCCGCGCCCTGGCTTATTTTTACTCCCGGCCGGAATTCGACGTCCGGCCACACTGCCCCTGCGTGGCGATTGTCGATCAGCGGTCCGGCCTCTTGGCGGGCCTGTGGCCCGCCAAGGAGGCGGTAACGGAAAAAGAAGCGAGGGCACCCAAAGCGGCGGTGGCCGCCGTTCGAGCAGAAGTGGAAATTTCCTGTCCGGAAAAAGGAGAGTTCTCGAGCGACCGTACTTTTGCTTACAATTATTTGGCCCTGTTGGCCGCTGGTGGCGGCAAATTGTTAGACCTTCCTTTCGATCTCCGAACCGAAACTGCTTTTTTGAGCGGGGGTCGCCGGCGACCCCCGCCGTCCACAAAAGCGTTTGACGCCGTATTTGCGTTTCGCGATCAATGTTTACGTCTTCCCGACGGGCGAGAAGTGCGGGTGCGTTCGTTAGAGCCGTTGAACTTTCAATTCCTCTTTCTAACGGACGGCGAAGGGAGCTTTTGTCTGACTGGCGCCCTGAGCTGGTACAAGACGCTGTGGAATAAGGCGTACTTAAATTTTGAAGGCGTACGGCCCGCGTTTTTTTACTTGGGCCCGGAAGGGCGACCGAGAGGCGAAGAATCGGAAGCGGATTGCTTCACGACGCCGAGTTTTCCGCCTTGGGAAACCATAAAAATGCCCGCCGATGCCAGCGGAGTCAAGGAGGCGCGCGCCTTGCGCGTCTCACTGGACCGCCTTTTTCGGCAGGCGGAAGAGGGCGCCTTTGGCATGCGCGCTCTTTACGTGGCTGAAGGACGACAGGAAGCTCTGCTCAGGCCCGTTACCTTGAACGCCGTAGAGGAGCGTCTGCTATCGGAATGGCCTGCCGGGGTGATCAAGGCGAGCTTTCGTTCGCCCCGTTTCCTTGAAGAACCCGGCCTCCGATTGATCAAAATGGACTTCGTTTCCTGTTATCCGCGCTTGTACGCCTGCGTGCTGGGTGGCTGCCGGTCTCTGGACGCGGCCCTCAAAGCCCGCGAAAGTGCGGAGGCCTCCCCAGCCTTGCGAAAACGCATCAAACGCGTTCTCAACGGTTTCTGCGGTTCACTGGGCCTGACTAACCGCACGGCGTACCGCAAAGTGATCGCGGTCGCTGACGCTCTGGCCGAAGGTTTGGAAGACACGTTAGACGAGCTCGGCGCCGGCGTCCTAACGTACGTCAAAGACGGTTTTTTGGCGGTGACTCGCGAAAGCGCGCCGTCGCCTGAACTCATACGGGAAACCTGTCAAAAACAAGCGGAAAGAACGCTCGGTCCCGGAGCACCGGAGCTGCGCCTGGAAGGCGTGTACACGCACGGCGCTTTGTTCGACGTTCACCGGTACTGGTTGTGGAACGCCGAAACCGGGGAAGAGGCGCTGGCCGGTTTTCCTCGTCGCGGCCCGTTAGAAACGGCCGCGTGTGGACTGGCCGGCCGCCTGCTGCGGGAAGCTTTAGTGGGGACCGGGAATCTTAAGGAGGCCGACGCCCGGGCGCGGCGACTGGTGGCGGAATTCGCTCGCGCTCAGTACGCGCGAAAAAACGAAACGGTCTTTTGGACTCGTACCGCGCGCCTTCCGGAGGTCGGAGAAGCTTATTCGGACGAAAACCTTTTTCGGCGGCTCTGTCGGGAAGCTCCGCCATCCCGCCTGACCCTAGATTGGACCGTGCGACGCACGGTGCCGGTAGAGGGTTCTCCGGAGCCGGTTTTTCTAGATCTGCTACCCGAAGGGGCGGCCTCAGGCGCCTTGCGGATCGACCGGGCGACGGCCCTGCGCAAAGCTTTGCGGCCGGTGACGGAAGCTTTCCGGCGCGCCGTAGAAGTAAAATTTCAGCTGGAACCGGGAACATACGAGTTCGAACCGAGCGAATCGGAATGGATTTTTTTATTTAAATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL08. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93329_FUL09.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL09 gene (predicted feature= Origin binding protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL09 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL09 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCACCCGCCCCTTCAACAGCGAGCACCGCCTTGCCGGGGCCGAAACAACTCTATCGCGCTGGGCTGCGGCTGGCGCAAACTTTATACGGTTCCGACCTGATCTCGGGACCGTGCCCCGTTACCCGATGGCTTCAAACTGAGGGACACGTGAGATTAGATTCGCCTGCGGGCGACGACAAACCGGTTCGCTTGGTCCGAGCACCCATGGGCTCAGGAAAAACCACCGCCCTCGTCCTTCATCTGCGCGCGTTTTTGAATGCGGCGCCGCAGCGGCGCGTTTTAATCGTGTCTTGTCGCCGCAGTTTTACCCAGGCCACGCTGGACCGTTTGGAACGAGACGGAGTTACGGGGTTTGTGTCCTATTTGGACGCCCCCACCCGCGTCCTCGACCCCGCGGTCTATCCTCTGCTCATCGTCCAGCTCGAGAGCTTACACCGGTTGAAACTAACCGCGGGTTCCCGGCCCCCTTACGATTTTCTAATTTTGGACGAGATCATGAGCCTCGTGAATCAATTTTTTTCGGACACCATCCGCGCCTACGTGACGGAGGTGGACCGCGTATTCCTCGCGCTACTGCGCGATTGCCCGAGGATACTCGCTATGGACGCGGCCGCCAACCGGCAGATCCTAGAAATGCTCGTCCGCTTGCGCGGAGCCGATCGCGTCGGGTTGCTAATCAACACGTACGCCTCGCCAGGTTTTTCTCAACGAAAAGTTTTCCTCGTGCCCAAGCTGGGTCTCGACCACCTGTTGGGCGTCCTGGACCCCGAGGACGAGGCCGCGCACAGTTCGGAAACCGCTACGTTTTTCGGGCTCTTGCGACTTGCGCTAGAGGCCGGCGAAAACCTCGCGATATTCTGCTCTATCAGCACGTTCGCACACGCCATCGAAAAGTTCGCGGCGCGTTTCGCGACCTCCGTCCGTCTTATCAAGGGCGGCGACCGGGTAGGCGACGTGAACAACTGGAGCGAGTCGCAAGTCGTGATATACACTTCGGTGGTCACCGTGGGGTTGAGTTTTGACGCCGAGCATTTTCATTCCATGTTCGCCTATGTTAGGCCCACGCAAGGAGGCCCGGATATGATGACGGCCTATCAGGCCTTGGGTCGCGTCCGGACGTTGCTACGCAACCGCGTATATTTGCATTTGGACGCTTGCGGCTGTCGCTGCGACAGCACGGTGGCCCCCATGCTTCTGAACCGAGAACCGGACTGGCCGCCGGAATTCGTCGCCGAAGCCGAAGGCTTCGTTTTAGATTTCGCCGCGCGCGTGGCTGGCGAGCCCCGAGGACAAGAGTCAGTCCTGCGCCGCTTTTTCCGATCGCGACATTTCGTCGAAAGCCGCACGCTGTGCAGCTTGAACGACTCCTTCAGCCTTCTCCACGAGCTGTTGACCAACAATCGAATGACCGTCGGCCTGTGGTCCGAGTACGGCCGTCCCCTCGATTTACCGGGTTACCTCGCCTTTTTGCGCGAAGCTCGGGCCGACGCCCGGGCCAGCGTTCGCCTGCACGGCAAGGTCCGCGCCGCGATCCAAAAGCGCAAAAATGTAGACGCTCTCGACCCCGGAACGGTGGATCTGGAGGACCGGGCCTGCGCTTTCCGCCGAAAGTATTTGCGACCCGGCGTCGGAACGCCGGATTTTCTCTACCTGGTCGACTTGTTCGCCTCGGCTCCGAACCGCGCGCGCTTTTTCAACGCGGTCATGACCGCCGTAGCCAGCTCGGGAATCACGTGCCGAGAGCAGTTGTACCGACTTACTGCCTACTACCAACAAGACTGGGTTCCGGTCAACGTCGCGGGAGCCTTGCGGTATGAGCTTTTTCGCCGCCGCGCGCCCGGCGCGTCCGGGTGGCCAGAGGTTTTCGTTTTGTGCTCAGAACTCACCGCCGACCTGGGTCTGACCGGTTTCTCGGATCTCACGACCATCGTGGAAGAAACCGCTATCGCGAGGGCCGTGGGTCGACGCTACGAGCGTTGCCAACGGGCGCTATTCCACACGTTGGGCAGATACTTTCGGCACGCGAGTCGCCTGAATCGCGAATCGCTTATTTACGGCGCAAAGTTAAGTGGCGCGTCGCTCCGCGAAACAATGACCGAGCCCAAATTTGCCGACCACTGCCTGGCCGTGCTCAACGGCCTGTGGACGCACGTTTACGGCAATAAGTGGATTCGAAAACAGGGCTCTTTCACCGGAGAAAAAAGGATGAAAAATTTAACAAAAAAGGAAATCGGGCGATTGCTCACGGCCAAAGGGGTGGATGTCTCCAGCCTAAAAACTTTTCGGGAACTGTACGAGACGCTCAAATCGTTCCGCCACCTGTTTCAGATCAAGCGTTACAGGCAGCGAGGTTTTTCCTGGCATACCTACGTACCCGCCGCGCTGCAGCCCCCGGCTCTCGAGCCTTGGCCGGCCGATGAACCCGAATCCAAAACGCGCTTGTCCGGGCCTTTGGGTCACGCGACGGTCGGGTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL09. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAGACGNAGTTACGGGGTTTGTGTCCTATGTGGACGCCCCTACCCGCGCCCTCGACCCGGCGGTCTATCCTCTGCTTATCGTCCAACTCGAGAGTTTACATCGTTTGAAATTAACCGCGGGTTCCCGGCCCGCTTACGATTTTTTAATTTTGGACGAGATCATGAGCCTCGTGAATCAATTTTTTTCGGACACCATCTGCGCCTACGTGACGGAGGTGGACCGCGTCCTCGTCGCGCTACTGCGCGATTGCCCGAAGGTACTGGCTATGGACGCGGCCGCCAACAGGCAGATCCTAGAAATGCTCGTCCGCTTGCGCGGAGCCGACCGCGTCGGGCTGCTAATCAACACGTACGCCTCGCCAGGTTTTTCCCAACGACAAGTTTTCCTCGTGCCCAAGCTGGGCCTCGACCACCTGTTGGCCGTCCTGGACCCCGAGGGCAATGCCGCGCACAGTCCGGAAACCGCTACGTTTTTCGGGCTCTTGCGACTTGCGCTAGAGGCGGGCGAAAACCTCGCGATATTCTGCTCTATCAGCACGTTCGCGCACGCCATCGAAAAGTTCGCGGCGCGTTTCGCGACCTCCGTCCGTCTTATCAAGGGCGGCGACCGGGTAGGCGACGTGAACAACTGGAGCGAGTCACGAGTCGTGATATACACTTCGGTGGTCACCGTGGGGTTAAGTTTTGACGCCGAGCACTTTCATTCCATGTTCGCCTACGTTAGGCCCACGCAAGGAGGCCCGGACATGATGACGGCCTATCAGGCTTTGGGTCGCGTCCGGACGTTGCTAAGCAACCGCGTGTATCTGCATTTGGACGCTTGCGGCTGTCGCAGCGACAGCACGGTGGCCCCCATGCTCCTGAACCGAGACTTGGACTGGCCCCCGGAATTCGTCACCGAGGCCGAAGGCTTCGTTTTAGATTTCGCCGCACGCGTCGCTGGCGAGCCCCGAGGGCAAGAGTCGGTCCTGCGCCGGTTTTTCCGATCGCGGCATTTCGTCGAAAGCCGCACGCTGTGCAGCTTGAACGACTCCTTCAGCCTCCTGCACGAACTGTTGACCAACAATCGAATGACCGTCGGCCTGTGGTCCGAGTGCGGCCGTCCCATCGATTTACGGAGCTATCTCGCCTTTTTGCGCGAAGCTCGGGCGGACGCCCGGGCCAGCGTTCGCCTGCACCGCCAGGTGCGCGCCGCTATCCAGAAGCGCGAAAAGTTGGACGCTCTCGACCCCGGAACGGTGGATCTGGAGGACCGGGCCTGCGCTTTCCGCCGCAAGTATTTGCGGCCCGGCGTCGAAACGCCGGATTTTCTGTACCTGGTTGACCTGTTCGCCTCGGCTCCAAACCGCGCGCGCTTTTTCAACGCGGTCATGACCGCCGTGGCCAGCTCCGGAATCACGTGCCGAGAGCAGTTGTACCGGCTTACTTCCTACTACCAACAAGACTGGGTTCCGGTCACCGTCGCGGGAGCCTTGCGATATGAGCTTTTTCGCCGCCGCGCGCCCGGCGCTTCCGGGTGGCCAGAGGTTTTCGTCCTGTGCTCAGAACTAACCGCCGACTTGGGCCTGGCCGGTTTCTCGGACCTCACGACCATCGTGGAAGAAAGCGCGATCGCGCGGGCCGTGGGTCGGCGCTACGAGCGCTGCCAACGGGCGCTGTTCCACACGTTGGGTAGATACTTTCGGCACGCGAGTCGCCTGAATCGGGAATCGCTTATTTACGGCGCGAAGTTGAGTGGCGCGTCGCTCGGCGAGGCGATGACCGAGCCCAAATTTGCCGACCACTGCCTGGCCGTGCTCAACGGCCTGTGGACGCACGTTTACGGCAATAAGTGGATTCGAAAACAGGGCTCTTTCACCGGAGAAAAGAGGATGAAAAATCTAACGAAAGAGGAAATCGGGCGATTGCTGACGGCCAAAGGGGTGGACGTCTCCGGTCTAAAAACTTTTCGGGAGCTGTACGAGACGCTCAAATCGTTCCGCCACCTGTTTCAGATCAAGCGTTACAGGCAGCGAGGTTTTTCCTGGCATACCTACGTACCCGCCGCGCTGCAGCCCCCAGCTCTCGAGCCTTGGCCGGCCGATGAACCCGAATCCAAAACGCGCTTGTCCGGGCCTTTGGGTCACGCGACGGTCGGGTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL09. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCACCCTCCCCTTCAACAGCGAGCACCGCCTTGCCGGGGCCGAAACAACTCTATCGCGCTGGGCTGCGACTGGCGCAAACTTTATACGGTTCCGACCTGATCTCGGGACCTTGCCCCGTTACCCGATGGCTTCAAACTGAGGGACACGTGAGATTAGATTCGCCTGCGGGCGACGACAAACCGGTTCGTTTGGTCCGAGCACCTATGGGCTCAGGAAAAACCACCGCCCTCGTCCTTCATCTGCGCGCGTTTTTGAATGCGGCGCCGCAGCGGCGCGTTTTAATCGTGTCTTGTCGCCGCAGTTTTACCCAGGCCACGCTGGACCGTTTGGAACGAGACGGAGTTACGGGGTTTGTGTCCTATCTGGACGCCCCCACCCGCGTCCTCGACCCCGCGGTCTATCCTCTGCTCATCGTCCAGCTCGAGAGCTTACATCGGTTGAAACTAACCGCGGGTTCCCGGCCCCCTTACGATTTTCTAATTTTGGACGAGATCATGAGCCTAGTGAATCAATTTTTTTCGGACACCATCCGCGCCTACGTGACGGAGGTGGACCGCGTATTCCTCGCGCTACTGCGCGATTGCCCGAGGATACTCGCTATGGACGCGGCCGCCAACCGGCAGATCCTAGAAATGCTCGTCCGCTTGCGCGGAGCCGACCGCGTCGGGTTGCTAATCAACACGTACGCCTCGCCAGGTTTTTCTCACCGAAAAGTTTTCCTCGTGCCCAAGCTGGGTCTCGACCACCTTTTGGGCGTCCTAGACCCCGAGGACGAGGCCGCGCAAAGTTCGGAAACCGCTACGTTTTTCGGGCTCTTGCGACTCGCGCTAGAGGCCGGCGAAAACCTCGCGATATTCTGCTCTATCAGCACGTTCGCACACGCCATCGAAAAGTTCGCGGCGCGTTTCGCGACCTCCGTCCGTCTTATCAAGGGCGGCGACCGGGTAGGCGACGTGAACAACTGGAGCGAGTCGCAAGTCGTGATATACACTTCGGTGGTCACCGTGGGGTTGAGTTTTGACGCCGAGCATTTTCATTCCATGTTTGCCTATGTTAGGCCCACGCAAGGAGGCCCGGACATGATGACCACCTATCAGGCTTTGGGTCGCGTCCGGACATTGCTACGCAACCGCGTATATTTGCATTTGGACGCTTGCGGCTGTCGCTGCGACAGCACGGTGGCCCCCATGCTTCTGAACCGAGAACCGGACTGGCCGCCGGAATTCGTCGCCGAATCCGAAGGCTTCGTTTTAGATTTCGCCGCGCGCGTGGCTGGCGAGCCCCGAGGGCAAGAGTCAGTCCTGCGCCGCTTTTTCCGATCGCGACATTTCGTCGAAAGCCGCACGCTGTGCAGCTTGAACGACTCCTTCAGCCTCCTCCACGAGCTGTTGACCAACAATCGAATGACCGTCGGCCTGTGGTCCGAGTACGGCCGTCCCCTCGATTTACCGGGTTACCTCGCCTATTTGCGCGAAGCTCGGGCCGACGCCCGGGCCTGCGTTCGCCTGCACGGCAAGGTCCGCGCCGCGATCCAAAAGCGCAAAAATGTAGACGCTCTCGACCCCGGAACGGTGGATCTGGAGGACCGGGCCTGCGCTTTCCGTCGAAAGTATTTGCGACCCGGCGTCGGAACGCCGGATTTTCTCTACCTGGTCGACTTGTTCGCCTCGGCTCCGAACCGCGCGCGCTTTTTCAACGCGGTCATGACCGCCGTAGCCAGCTCGGGAATCACTTGCCGAGAGCAGTTGTACCGACTTACTGCCTACTACCAACAAGACTGGGTTCCGGTCAACGTCGCGGGAGCCTTGCGGTATGAGCTTTTTCGCCGCCGCGCGCCCGGCGCGTCCGGGTGGCCAGAGGTTTTCGTCCTGTGCTCAGAACTCACCGCCGACCTGGGTCTGACCGGTTTCTCGGATCTCACGACCATCGTGGAAGAAACCGCTATCGCGAGGGCCGTGGGTCGACGCTACGAGCGTTGCCAACGGGCGCTATTCCACACGTTGGGTAGATACTTTCGGCACGCGAGTCGCCTGAATCGCGAATCGCTTATTTACGGCGCAAAGTTAAGTGGCGCGTCGCTCCGCGAAACAATGACCGAGCCCAAATTTGCCGACCACTGCCTGGCCGTGCTCAACGGCCTGTGGACGCACGTTTACGGCAATAAGTGGATTCGAAAACAGGGCTCTTTCACCGGAGAAAAAAGGATGAAAAATTTAACGAAAGAGGAAATCGGGCGATTGCTGACGGCCAAAGGGGTGGATGTCTCCGGTCTAAAAACTTTTCGGGAGCTGTACGAGACGCTCAAATCGTTCCGCCACCTGTTTCAGATCAAGCGTTACAGGCAGCGAGGTTTTTCCTGGCATACCTACGTACCCGCCGCGCTGCAGCCCCCAGCTCTCGAGCCTTGGCCGGCCGATGAACCCGAATCCAAAACGCGCTTGTCCGGGCCTTTGGGTCACGCGACGGTCGGGTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL09. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGACGCCGAGCATTTTCATTCCATGTTTGCCTATGTTAGGCCCACGCAAGGAGGCCCGGACATGATGACCACCTATCAGGCTTTGGGTCGCGTCCGGACATTGCTACGCAACCGCGTATATTTGCATTTGGACGCTTGCGGCTGTCGCTGCGACAGCACGGTGGCCCCCATGCTTCTGAACCGAGAACCGGACTGGCCGCCGGAATTCGTCGCCGAATCCGAAGGCTTCGTTTTAGATTTCGCCGCGCGCGTGGCTGGCGAGCCCCGAGGGCAAGAGTCAGTCCTGCGCCGCTTTTTCCGATCGCGACATTTCGTCGAAAGCCGCACGCTGTGCAGCTTGAACGACTCCTTCAGCCTCCTCCACGAGCTGTTGACCAACAATCGAATGACCGTCGGCCTGTGGTCCGAGTACGGCCGTCCCCTCGATTTACCGGGTTACCTCGCCTATTTGCGCGAAGCTCGGGCCGACGCCCGGGCCTGCGTTCGCCTGCACGGCAAGGTCCGCGCCGCGATCCAAAAGCGCAAAAATGTAGACGCTCTCGACCCCGGAACGGTGGATCTGGAGGACCGGGCCTGCGCTTTCCGTCGAAAGTATTTGCGACCCGGCGTCGGAACGCCGGATTTTCTCTACCTGGTCGACTTGTTCGCCTCGGCTCCGAACCGCGCGCGCTTTTTCAACGCGGTCATGACCGCCGTAGCCAGCTCGGGAATCACTTGCCGAGAGCAGTTGTACCGACTTACTGCCTACTACCAACAAGACTGGGTTCCGGTCAACGTCGCGGGAGCCTTGCGGTATGAGCTTTTTCGCCGCCGCGCGCCCGGCGCGTCCGGGTGGCCAGAGGTTTTCGTCCTGTGCTCAGAACTCACCGCCGACCTGGGTCTGACCGGTTTCTCGGATCTCACGACCATCGTGGAAGAAACCGCTATCGCGAGGGCCGTGGGTCGACGCTACGAGCGTTGCCAACGGGCGCTATTCCACACGTTGGGTAGATACTTTCGGCACGCGAGTCGCCTGAATCGCGAATCCCTTATTTACGGCGCAAAGTTAAGTGGCGCGTCGCTCCGCGAAACAATGACCGAGCCCAAATTTGCCGACCACTGCCTGGCCGTGCTCAACGGCCTGTGGACGCACGTTTACGGCAATAAGTGGATTCGAAAACAGGGCTCTTTCACCGGAGAAAAAAGGATGAAAAATTTAACGAAAGAGGAAATCGGGCGATTGCTGACGGCCAAGGGGGTGGATGTCTCCGGTCTAAAAACTTTTCGGGAGCTGTACGAGACGCTCAAATCGTTCCGCCACCTGTTTCAGATCAAGCGTTACAGGCAGCGAGGTTTTTCCTGGCATACCTACGTACCCGCCGCGCTGCAGCCCCCAGCTCTCGAGCCTTGGCCGGCCGATGAACCCGAATCCAAAACGCGCTTGTCCGGGCCTTTGGGTCACGCGACGGTCGGGTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL09. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93330_FUL10.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL10 gene (predicted feature= Glycoprotein M). See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL10 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL10 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCGACGCTTTCGCGTACCGACCGTATCCACTGGCGGCTCTGGGCGGTACAGATCGTCGTGGCGCTCCTGGCGATGATTCTGTTGATAATATCCGCTACAGCAGCGGCCTTTCCCGGCTTGGGATATCCGTGTTATTTTGCCGTGCTAGTAGATTACGGCGCTTTCGATCCGGGGCGATACGGGGCCTTCAGTCCCGTTTTGACGCCGGTTTTGTTCTTGGAGAAACCGGAAATGGCGTTCTACGTTTATTTAACGCTTATTTTGCTAATGGCCTTTGGTGTTTACCTCGTGGCGGGCGTCGTTATCCTATATCGCATGACTCACTCGGTGGCCGAACTTTACCAGGGCGTCAAACGCTATGCGCGAATGGTCGCGTCCGGTCAGTTAGTTTTTATCATCACCATGATGGTGTGGTGCTTCGAAGTGTTCGTAGAGCTCATTTCCTTTAAGCTGGTGTCCCTGGCCGCCGGATTTCACACCGTATATTTTGCCCTTTTTTGTGTTTATTTAGTGAGCGGGACCACGCGCATGACCAGCCCTAAAACCTACAAGGTCGAGGATCTCGTAGCGAAGGAGAGCTATCGCTCTTTTTATCACCTCGTCCTCTACGGCAAAGGCGTCGCGGCTAATTGCATGTACGCGGCCTTTATGTTAGCCCTTTTAATGCAGTGTCTCCTCATCGAGATGGTCATCGCCAACAGCTTTCGCTTGATGGTGGCGGACGCCATCCTCATCGCTTTGGGTCTTTTTGCCGTGTTGGCCTTCATCGTGTTGCTGATCGGCGAGGTGGCCCTGAGTCGTTACGTTCCCGGGTGTGTGGGGTTGGGACTGGGGGCTCTGCTTGCATGCGTACTGATCGGCGTGCCGACCCTAAGGTACGCCGATAAGTTTAAGTACACCGTTTCGGGGGGGCAAAGAAGCCTTAACTCGGCTATTTCGGGAATCCTCGGGTTCGTTGCCGTTCTGGCTCTCGTCATGCTCATCGTGCGCCTGGCTCGGTACTTCACGGATGCAAAAAAGGAGAATCGTTTCACGTACCGGCTTTTGGACCAAATTAGATCGCGTATGAAAAACCAGATGCAGGCCAGGAGGCGACTCCTGGACCACGAACACACGACCCCTATCGATTCCTTGCCGATGAACGGATATTTACCCAGCGTCGAAGACAGCGCGTCGTACTTCGACGTCGACGACTTCGAGGATTCGCTGGAGGACGAAGAGCACATTTACGAAAGAGTACCCCCTAGCTCCCCTAATTACTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL10. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCGACGCTTTCGCGTACCGACCGTATCCACTGGCGGCTCTGGGCGGTACAGATCGTCGTGGCGCTCCTGGCGATGATTCTGTTGATAATATCCGCTACAGCAGCGGCCTTTCCCGGCTTGGGATATCCGTGTTATTTTGCCGTGCTAGTAGATTACGGCGCTTTCGATCCGGGGCGATACGGGGCCTTCAGTCCCGTTTTGACGCCGGTTTTGTTCTTGGAGAAACCGGAAATGGCGTTCTACGTTTATTTAACGCTTATTTTGCTAATGGCCTTTGGTGTTTACCTCGTGGCGGGCGTCGTTATCCTATATCGCATGACTCACTCGGTGGCCGAACTTTACCAGGGCGTCAAACGCTATGCGCGAATGGTCGCGTCCGGTCAGTTAGTATTTATCATTACCATGATGGTGTGGTGCTTCGAAGTGTTCGTAGAGCTCATTTCCTTTAAGCTGGTGTCCCTGGCCGCCGGATTTCACACCGTATATTTTGCCCTTTTTTGTGTTTATTTAGTGAGCGGGACCACGCGCATGACCAGCCCTAAAACCTACAAGGTCGAGGATCTCGTAGTGAAGGAGAGCTATCGCTCTTTTTATCACCTCGTCCTCTACGGCAAAGGCGTCGCGGCTAATTGCATGTACGCGGCCTTTATGTTAGCCCTTTTAATGCAGTGTCTCCTCATCGAGATGGTCATCGCCAACAGCTTTCGCTTGATGGTGGCGGACGCCATCCTCATCGCTTTGGGTCTTTTTGCCGTGTTGGCCTTCATCGTGTTGCTGATCGGCGAGGTGGCCCTGAGTCGTTACGTTCCCGGGTGTGTGGGGTTGGGACTGGGGGCTCTGCTGGCATGCGTACTGATCGGCGTGCCGACCCTAAGGTACGCCGATAAGTTTAAGTACACCGTTTCGGGGGGGCAAAGAAGCCTTAACTCGGCTATTTCGGGAATCCTCGGGTTCGTTGCCGTTCTGGCTCTCGTCATGCTCATCGTGCGCCTGGCTCGGTACTTCACGGATGCAAAAAAGGAGAATCGTTTCACGTACCGGCTTTTGGACCAAATCAGATCGCGTATGAAAAACCAGATGCAGGCCAGGAGGCGACTCCTGGACCACGAACACACGACCCCTATCGATTCCTTGCCGATGAACGGATATTTACCCAGCGTCGAAGACAGCGCGTCGTACTTCGACGTCGACGACTTCGAGGATTCGCTGGAGGACGAAGAGCACATTTACGAAAGAGTACCCCCTAGCTCCCCTAATTACTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL10. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93331_FUL11.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-F-UL11 gene (predicted feature= myristylated proten) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL11 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL11 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGGATGTCGGTGTAGCCGAAGCGCCGAGGGGCTCGGTTACCAGGGCAGCGTCCCCAGTCTCGGATGGTGCCGCCGTGACCCGGGAGACGTGATTTACCAAGACTCGGGAGTATCGCTGTCCCTTGGCGACGACTACGCGCCGCTAGCCGGGGAGGACCGACCTTCCGCTCCCATAGTGAGTCAGCCCAGCGATTGGACGCCCCCAGGCATGATGCGACTACCCCCGGTCAAGAATGTTTCTCGACAAAACGGCGCCGTCAAATACAGGGAAAATCCTTACTAG</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL11. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGATGTCGGTGTAGCCGAAGCGCCGAGGGGCTCGGTTACCAGGGCAGCGTCCCCAGTCTCGGATGGTGCCGCCGTGACCCGGGAGACGTGATTTACCAAGACTCGGGAGTATCGCTGTCCCTTGGCGACGACTACGCGCCGCTAGCCGGGGAGGACCGACCTTCCGCTCCCATAGTGAGTCAGCCCAGCGATTGGACGCCCCCAGGCATGATGCGACTACCCCCGGTCAAGAATGTTTCCCGAAAAAACGGCGCCGTCAAATACAGGGAAAATCCTTACTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL11. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93332_FUL12.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL12 gene (predicted feature= Yqa-J-like viral recombinase domain) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL12 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL12 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGAATCCGTTCGAAGGCGCAGAGACCGCTAGCTATGACTCGGACTTTTTCCCGCCGGCTTCGAAACGTCGGCGCGTCCAAGCTTACGATCCCTCTTTTTACACGGAAGACAGCAGTCAGCTTTACGGACCTTTGCCGGAGACGGAAATTATTTGTTTCCGCGATGCCCTCTTGATGGGCGCTCCGCAAAGGCTGGAAGAAAGTCTCCGAAATTTTAGTTTTCCTCGCTACGCGGCGGAAGCCGCCGCTAGCGAGGAAGGTCTTGCCGCCTTGCGCGACCTGCCACCGCGGTGCCACCGCTTGGCCTATCTTTACGAGCTGGCTCATCGCCTGGAGCTGGAGGGATTTTACATAGGGGTCACGGAACGTCTTTTCGGGCAAAGCGCGTACGCGCCGCCCGATCGCTGCGCGAGGCGGCTCATGACTTCCATGAGCGACGCCCAAGCGGCTGCGGTTTTTCTCGCTTTCGAGCGGGAGACGATCCTTCAGCGAGATTGCGACCTGTGGCTTACGCTGAGACAGGGCCTGATGACCGCCTCCGCGGTCCAAGCTTTTTTGAAACGGGCGCCGGAGCATCAGCCCGACGTCTTGGGATTGAGTAAGAATCTGAGCTTCGCTTCGGAGGCCGCAGCCTTCGGTTGCGTTAACGAGCGTTGCGCGCGACTTCTTTTGTTAACCTACGTTTGCGGACATCCTAAGCGACAATTTCGCAGCGGCCAAACCTGTAATGACGATAGCGCATCGTCGGCTTTTAACGAGCACGGTTCGGGTCTATTGATGGACCTGAACACGGGCATGATCGGGGCTTCCATGGATGTTTTTTCCTGTCCGCGAGACGAGCGATTGTGCTTGCAACTACCAAACCCGGAGCTCGGTGACGCGCTGGGAATTTACGAAATTAAATGTCGCGCGAAATACAATTTCTCTCCCGTTTTTTCGTCCGGCCTCATGAACGCCTACGAGGCCATGATCGCCGACCCGGGCCCAAAAACGTTCGCGGACTTTTTGTTTTCGATTCGCGCACCCGGCGTAAATTGGTTTTCCTCCAACGGCATGCCCAGCGCTCGCGAAGCGCTGGTCACCACCGACGAGGCTTGGCAGCGCGGCCCCAAAAAAGTGCGCGCTTGTTACATCGGTACCGATTTAGAAAAACGCCTTTTGGCTCTGAACCGGGAAAACCGGTCTCTGGTCACGGTGTTCCGCGTCTGCGCGGAAAACCGGACCGTTCAGCCGTACCGCTTTAAGAACGGTACCTGCGCTTTTCAGGTACCCGTGTTTTTGAACCCTAAGCACGAAAACGCGAAGCAGCTCCTCGTGCAGAGTTACGTCGCCGCCTCGTATTACCCAGGGCGCTTGCTTCGAGCGCACCTGGTTACCCTATACGCTCGTGAACGAGCGCCGGAGGAGTCCGGCGTCGCCTTCTCGCTTTTGGGCGGCTTGGATCCCGAACGTCCTCCCGCCAGCTTGCCCGCTTGTCTGGGTTTACCGGTGGCTTTGCAAGTCACGCCGTTCGTTTTCGACGAAGGCTGTTTGAACGAAATTCAACGGACAGCTGTGGGGGCTTGGAAGCGGGCGGTTTACGAGAGATGGGATGTCGGTGTAGCCGAAGCGCCGAGGGGCTCGGTTACCAGGGCAGCGTCCCCAGTCTCGGATGGTGCCGCCGTGACCCGGGAGACGTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL12. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAATCCGTTCGAAGGCGCAGAGACCGCTAGCTATGACTCGGACTTTTTCCCGCCGGCTTCGAAACGTCGGCGCGTCCAAGCTTACGATCCCTCTTTTTACACGGAAGACAGCAGTCAGCTTTACGGACCTTTGCCGGAGACGGAAATTATTTGTTTTCGCGATGCCCTCTTGATGGGCGCTCCGCAAAGGCTGGAGGAAAGTCTCCGAAATTTTAGTTTTCCTCGCTACGCGGCGGAAGCCGCCGCTAGCGAGGAAGGTCTTGCCGCCTTGCGCGACCTGCCACCGCGGTGCCACCGCTTGGCCTATCTTTACGAGCTGGCTCATCGCCTGGAGCTGGAGGGCTTTTACATAGGCGTCACGGAACGTCTTTTCGGGCAAAGCGCGTACGCGCCGCCCGATCGCTGCGCGAGGCGGCTCATGACTTCCATGAGCGACGCCCAAGCGGCAGCGGTTTTTCTCGCTTTCGAGCGGGAGACGATCCTTCAGCGAGATTGCGACCTGTGGCTTACGCTGAGACAGGGCCTGATGACCGCCTCCGCGGTCCAAGCTTTTTTGAAACGGGCGCCGGAGCAGCAGCCCGACGTCTTGGGATTGAGTAAGAATCTGAGCTTCGCTTCGGAGGCCGCAGCCTTCGGTTGCGTTAACGAGCGTTGCGCGCGACTTCTTTTGTTAACCTACGTTTGCGGACATCCTCAGCGACAATTTCGCAGCGGCCAAACCTGTAATGACGATAGCGCATCGTCGGCTTTTAACGAGCACGGTTCGGGTCTATTGATGGACCTGAACACGGGCATGATCGGGGCTTCCATGGATGTTTTTTCCTGTCCGCGAGACGAGCGATTGTGCTTGCAACTACCAAACCCGGAGCTCGGTGACGCGCTGGGAATTTACGAAATTAAATGTCGCGCGAAATACAATTTCTCTCCCGTTTTTTCGTCCGGCCTCATGAACGCCTACGAGGCCCTGATCGCCGACCCGGGCCCAAAAACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL12. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAATCCGTTCGAAGGCGCAGAGACCGCTAGCTATGACTCGGACTTTTTCCCGCCGGCTTCGAAACGTCGGCGCGTCCAAGCTTACGATCCCTCTTTTTACACGGAAGACAGCAGTCAGCTTTACGGACCTTTGCCGGAGACGGAAATTATTTGTTTTCGCGATGCCCTCTTGATGGGCGCTCCGCAAAGGCTGGAGGAAAGTCTCCGAAATTTTAGTTTTCCTCGCTACGCGGCGGAAGCCGCCGCTAGCGAGGAAGGTCTTGCCGCCTTGCGCGACCTGCCACCGCGGTGCCACCGCTTGGCCTATCTTTACGAGCTGGCTCATCGCCTGGAGCTGGAGGGCTTTTACATAGGCGTCACGGAACGTCTTTTCGGGCAAAGCGCGTACGCGCCGCCCGATCGCTGCGCGAGGCGGCTCATGACTTCCATGAGCGACGCCCAAGCGGCAGCGGTTTTTCTCGCTTTCGAGCGGGAGACGATCCTTCAGCGAGATTGCGACCTGTGGCTTACGCTGAGACAGGGCCTGATGACCGCCTCCGCGGTCCAAGCTTTTTTGAAACGGGCGCCGGAGCAGCAGCCCGACGTCTTGGGATTGAGTAAGAATCTGAGCTTCGCTTCGGAGGCCGCAGCCTTCGGTTGCGTTAACGAGCGTTGCGCGCGACTTCTTTTGTTAACCTACGTTTGCGGACATCCTCAGCGACAATTTCGCAGCGGCCAAACCTGTAATGACGATAGCGCATCGTCGGCTTTTAACGAGCACGGTTCGGGTCTATTGATGGACCTGAACACGGGCATGATCGGGGCTTCCATGGATGTTTTTTCCTGTCCGCGAGACGAGCGATTGTGCTTGCAACTACCAAACCCGGAGCTCGGTGACGCGCTGGGAATTTACGAAATTAAATGTCGCGCGAAATACAATTTCTCTCCCGTTTTTTCGTCCGGCCTCATGAACGCCTACGAGGCCCTGATCGCCGACCCGGGCCCAAAAACGTTCGCGGACTTTTTGTTTTCGATTCGCGCACCCGGCGTAAATTGGTTTTCCTCCAACGGCATGCCCAGCGCTCGCGAAGCGCTGGTCACCACCGACGAGGCTTGGCAGCGCGGCCCCAAAAAAGTGCGCGCTTGTTACATCGGTACCGATTTAGAAAAACGCCTTTTGGCTCTGAACCGGGAAAACCGGTCTCTGGTCACGGTGTTCCGCGTCTGCGCGGAAAACCGGACCGTTCAGCCGTACCGCTTTAAGAACGGTACCTGCGCTTTTCAGGTACCCGTGTTTTTGAACCCTAAGCACGAAAACGCGAAGCAGCTCCTCGTGCAGAGTTACGTCGCCGCCTCGTATTACCCAGGGCGCTTGCTTCGAGCGCACCTGGTTACCCTATACGCTCGTGAACGAGCGCCGGAGGAGTCCGGCGTCGCCTTCTCGCTTTTGGGCGGCTTGGATCCCGAACGTCCTCCCGCCAGCTTGCCCGCTTGTCTGGGTTTACCGGTGGCTTTGCAAGTCACGCCGTTCGTTTTCGACGAAGGCTGTTTGAACGAAATTCAACGGACAGCTGTGGGGGCTTGGAAGCGGGCGGTTTACGAGAGATGGGATGTCGGTGTAGCCGAAGCGCCGAGGGGCTCGGTTACCAGGGCAGCGTCCCCAGTCTCGGATGGTGCCGCCGTGACCCGGGAGACGTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL12. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAATCCGTTCGAAGGCGCAGAGACCGCTAGCTATGACTCGGACTTTTTCCCGCCGGCTTCGAAACGTCGGCGCGTCCAAGCTTACGATCCCTCTTTTTACACGGAAGACAGCAGTCAGCTTTACGGACCTTTGCCGGAGACGGAAATTATTTGTTTCCGCGATGCCCTCTTGATGGGCGCTCCGCAAAGGCTGGAAGAAAGTCTCCGAAATTTTAGTTTTCCTCGCTACGCGGCGGAAGCCGCCGCTAGCGAGGAAGGTCTTGCCGCCTTGCGCGACCTGCCACCGCGGTGCCACCGCTTGGCCTATCTTTACGAGCTGGCTCATCGCCTGGAGCTGAAGGGATTTTACATAGGGGTCACGGAACGTCTTTTCGGGCAAAGCGCGTACGCGCCGCCCGATCGCTGCGCGAGGCGGCTCATGACTTCCATGAGCGACGCCCAAGCGGCTGCGGTTTTTCTCGCTTTCGAGCGGGAGACGATCCTTCAGCGAGATTGCGACCTGTGGCTTACGCTGAGACAGGGCCTGATGACCGCCTCCGCGGTCCAAGCTTTTTTGAAACGGGCGCCGGAGCATCAGCCCGACGTCTTGGGATTGAGTAAGAATCTGAGCTTCGCTTCGGAGGCCGCAGCCTTCGGTTGCGTTAACGAGCGTTGCGCGCGACTTCTTTTGTTAACCTACGTTTGCGGACATCCTAAGCGACAATTTCGCAGCGGCCAAACCTGTAATGACGATAGCGCATCGTCGGCTTTTAACGAGCACGGTTCGGGTCTATTGATGGACCTGAACACGGGCATGATCGGGGCTTCCATGGATGTTTTTTCCTGTCCGCGAGACGAGCGATTGTGCTTGCAACTACCAAACCCGGAGCTCGGTGACGCGCTGGGAATTTACGAAATTAAATGTCGCGCGAAATACAATTTCTCTCCCGTTTTTTCGTCCGGCCTCATGAACGCCTACGAGGCCATGATCGCCGACCCGGGCCCAAAAACGTTCGCGGACTTTTTGTTTTCGATTCGCGCACCCGGCGTAAATTGGTTTTCCTCCAACGGCATGCCCAGCGCTCGCGAAGCGCTGGTCACCACCGACGAGGCTTGGCAGCGCGGCCCCAAAAAAGTGCGCGCTTGTTACATCGGTACCGATTTAGAAAAACGCCTTTTGGCTCTGAACCGGGAAAACCGGTCTCTGGTCACGGTGTTCCGCGTCTGCGCGGAAAACCGGACCGTTCAGCCGTACCGCTTTAAGAACGGTACCTGCGCTTTTCAGGTACCCGTGTTTTTGAACCCTAAGCACGAAAACGCGAAGCAGCTCCTCGTGCAGAGTTACGTCGCCGCCTCGTATTACCCAGGGCGCTTGCTTCGAGCGCACCTGGTTACCCTATACGCTCGTGAACGAGCGCCGGAGGAGTCCGGCGTCGCCTTCTCGCTTTTGGGCGGCTTGGATCCCGAACGTCCTCCCGCCAGCTTGCCCGCTTGTCTGGGTTTACCGGTGGCTTTGCAAGTCACGCCGTTCGTTTTCGACGAAGGCTGTTTGAACGAAATTCAACGGACAGCTGTGGGGGCTTGGAAGCGGGCGGTTTACGAGAGATGGGATGTCGGTGTAGCCGAAGCGCCGAGGGGCTCGGTTACCAGGGCAGCGTCCCCAGTCTCGGATGGTGCCGCCGTGACCCGGGAGACGTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL12. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>GTGAATCCGTTCGAAGGCGCAGAGACCGGTAGCTATGACTAGGACTTTTTCACGCCGGATTAGAAAAGTCGGAGCGTCCAAGCTTACGATCGCTCTGTTTACACGGAAGACAGCAGTCTGCTTTACGGACAGTTGACGGAGGCGGAAATTAGTTGTGGTCGCGATGCCTTCTTGATGGACGCTCCGCAAAGGCTGGAGGAAAGTCTCCGAAATTTTAGTTTTCCTCGCTACGCGGCGGAATCCGCCGCTAGCGAGGAAGTTCTTGCCTCCTTGCGCTACCTGCCACCGCGGTGCCACCGCTTGGCCTATCTTTACGAGCTGGCTCATCGCCTGGAGCTGGAGGGCTTTTACATAGGCGTCACGGAACGTCTTTTCGGGCAAAGCGCGTACGCGCCGCCCGATCACTGCGCGAGGCGGCTCATGACTTCCATGAGCGACGCCCAAGCGGCAGCGGTTTTTCTCGCTTTCGAGCGGGAGACGATCCTTCAGCGAGATTGCGACCTGTGGCTTACGCTGAGACAGGGCCTGATGACCGCCTCCGCGGTCCAAGCTTTTTTGAAACGGGCGCCGGAGCAGCAGCCCGACGTCTTGGGATTGAGTAAGAATCTGAGCTTCGCTTCGGAGGCCGCAGCCTTCGGTTGCGTTAACGAGCGTTGCGCGCGACTTCTTTTGTTAACCTACGTTTGCGGACATCCTCAGCGACAATTTCGCAGCGGCCAAACCTGTAATGACGATAGCGCATCGTCGGCTTTTAACGGGCACGGTTCGGGTCTATTGATGGACCTGAACACGGGCATGATCGGGGCTTCCATGGATGATTTTTCCTGTCCGCGAGACGAGCGATTGTGCTTGCAACTACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL12. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93337_FUL17.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL17 gene (predicted feature= DNA packaging tegument protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL17 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL17 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGTGGAGGCGCACGCGAGGGGGGAATTAGGATTCGGGGGAGCCTCCTCTTCGGAGGGCAACGTTTTAGTACACCTGATTTTACCGGACGCCCTTTTAGCGGCTCAAGGGATCGCCGCGCTTTTAGACGCGCCTTTTCAGGTGAGGGCGCAAACCCGCTTTCACGGATGCGGGAGCTGTAGTTATTGGAGACCGATTCCGGCATACTACGAGCGTGACGATTTTTTGGCTGCCCTCTTACTGCCGAATCGAAAGATCTTCCGTTTGAGTTACGCCGAAGCGACAAGCGGATCGGTTAGCGGCGGGGGCCTGTTTATCAGCGTACCTCTCTATTGTCGCGACAACGGAGGCGTCAATTGGACTTTTGATGATTTTAACACCTTGGTATTGCGCGTAGTCCCCCTGCAAGACCACGAAGGGCGGCGCGACATCTACCTAAATTACGGAGAAACGTTGGGGCGGTCCCCAGAATACAGCGTCGACGAGGGCCGTTGGCGCTCCCTGGCGGAGCAGGCACGCCGATGGTTATTCAAAAGACCCGAAGCCTTGAGGCGTGACCCCGACCTGTCCGACAATCTGAAAGTGCCGAACGAGCAAGCGGACGCGGATTTGTTAAGAGGGGAAATTTATCTTTCGTCCACGGCATCGACCCCCAAACCCCCAGCCCTACGAAATTTGCCGCAGCCTGCCGATCCGGCCGCCGCGGCGGCCAAAGCGATCTTCGCCGACCGCCTGACCCGCGAAAAACAGAAAAAGCTTTCTCGTCGAATGGATGGGGTAGCCGCCGGTTTGAGTTCTTTGGCGCGTTTCAGCAACGCCCGCGAGGGCGGAAAAACTTTCGCTACCCGCGACGTCGGCCCCTTGGAGCCACCTTCGCACGCTCGCCACTTGGAAACTAATAATTTGCCACCCCCACCCAAACCGTTGGAGGAAATTCTTTACGACCGATCGTCAGAAGCGACCGTTACGCGCGACCCGGTGACATCGCTCCGGGATGCCGTAGAACGCGCTTTGCGCGCGCTGGGCGAGCCGCCCGATCCTTCACGACACTGGCGGGACGGGCTTATCTCCGTTCGCTCGGGGAGGGATTATCTTTCCGGTGAAACCTTTTACGTTGTTAACTACCAAAATTCTTTGCTCCCCCAGCGGCCGGCAGTAAGCGGTCTCGGGCCGCTGTTGGAGCTTTTGCGGCTGCAGCCGGGCGAGAATGACCCCGCGAGGCTGAAAGAGCCGCTCAGGACTCGTGCCCTCGATTCGGCCCCCGTAATGCGGTGCCCTTTGTACGAACCCGCTCCTCACTGTTCTCTCTTCGTGGCCAACGCCGAGAGGGACACTCTTTACCGCGTAAAAAAACTTCTCCTGGTGGCTTTGGCCGAAAGCCTTCGCCAGGCTCTGCGAACCAGCGCTCTGCGGCAAATAATCGCCCTGGACCTGCCCGCGGACTTAGACTACGAGGCTTTGGCGGAAATCGTTCCGGCGGCGCTTCACGGCCTGCTTGTTGCAGAAGCCGAGGCTCCGTTGGATAAATTTTGGCAGGGGGCGCTGGCGAGGGCTTTGGCGGCGGAAGAAGACGAGTTCGGGGACGCGTACCTGTTCGATCGCTACAACCTAAGCGGCGAAGTACAAAAGCTGCCGTTTCGTTCCGCGATCGTTAATTTTCGTCCGGTGAGAGAAGGGCAATACGAGTGCTTCCGAACCAATGGGAGGGGCGAAGAATCGGAGGCCCCTGGAGAGTTTTATTTGCACCTGTGGTTAGGATTTAGGCCCAAAGACCTGTCGGCGGCACTGGTGTTCCCCGGGGGATTCGGAGCGGAATTCAGTTATCGACGCGTTTTTGAAAGGTCCTTCGGGTCCGCGGCGGGTTGGTGGCGTGACCGTCTGAGGGAACGGTTTTCATGGCGCGCCGCGAGGCCCCGTGGGAGCGAAGCACAAATCTGTGCGTCGCTGACGCCTTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL17. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGTGGAGGCGCACGCGAGGGGGGAATTAGGATTCGGGGGAGCCTCCTCTTCGGAGGGCAACGTTTTAGTCCACCTGATTTTACCGGACGCCCTTTTAGCGGCTCAAGGGATCGCCGCGCTTTTAGACGCGCCTTTTCAGGTGAGGGCGCAAACCCGCTTTCACGGATGCGGGAGCTGTAGTTATTGGAGACCGATCCCGGCATACTACGAGCGTGACGATTTTTTGGCTGCCCTCTTACTGCCGAATCGAAAGATCTTCCGTTTGAGTTACGCCGAAGCGACAAGCGGATCGGTTAGCGGCGGGGGCCTGTTTATCAGCGTACCTCTCTATTGTCGCGACAACGGAGGCGTCAACTGGACTTTTGACGATTTTAACACCTTAGTATTGCGCGTAATCCCGCTGGAAGACCACGAGGAGCGTCGCGACATCTACCTAAATTACGGAGAAACGTTGGGGCGGTCCCCCGAATACAGCGTCGACGAGGGCCGTTGGCGCTCCCTGGCGGAGCAGGCACGCCGATGGTTATTTAAAAGACCCGACGCCTTGAGGCGTGACCCCGACCTCTCCGAAGACCTGAAAGTGCCGCACGAGAAAGCAGACGCGGATTTGTTGATAGGGGAAATTTACCTTTCGTCCACGGTGTCGACCCCCAATCCCCCGGCCTTTAGAAATTTGCCGCCTCCTGCCGATCCGGCCGCCGCGGCGGCCAAAGCAATCTTCGCAGACCGGTTGACCCGCGAAAAACAGAAAAAGCTCTCTCGTCGAATGGATGGGGTAGCCGCCGGCCTGAGTTCCTTGGCGCGTTTCAGCAACGCCCGCGAGGGCGGGAAAACTTTCGCTGCCCGCGATTTCGGCCCCTTGGAGCCACCTTCGCACGCTCGCCACGTGGAAACTAACCATTTTCCGACCCCGCCCAAACCGTTGGAGGAAATTCTTTACGACCGATCGTCAGAAGCGACCGTTACGCGCGACCCGGTGACATCGCTCCGGGATGCCGTAGACCGCGCTTTGCGCGCGCTGGGCGAGCCGCCCGACCCTTCACGACACTGGCGGGACGGGCTTATCTCCGTTCGATCGGGGAGGGATTATCTTTCCGGTGAAACCTTTTACGTTGTTAACTACCAAAATTCTTTGCTCCCCCAGCGGCCGGCAGTAAGCGGTCTCGGGCCGCTGTTGGAGCTTTTGCGGCTGCAGCCGGGCGAGAATGACCCCGCGAGGCTGCAAGAGCCGCTGAGGACTCGTGCCCTCGATTCGGCCCCCGTAATGCGGTGCCCTTTGTACGAACCCGCTCCTCACTGTTCTCTCTTCGTGGCCAACGCCGAAAGGGACACTCTTTACCGCGTAAAAAAACTTCTCCTGATGACTTTGGCCGAAAGCCTTCGCCAGGCTCTGCGAACCAGCGCTTTGCGGCAAATAATCGCCCTGGACCTGCCCGCGGACTTAGATTACGAGGCTTTGGCGGAAATCGTTCCGGCGGCGCTTCACGGCCTGCTTGTTGCAGAAGCCGAGGCTCCGTTGGATAAATTTTGGCAGGGGGCGCTGGCGAGGGCTTTGGCGGCGGAAGAAGACGAGTTCGGGGACGCGTACCTGTTCGATCGCTACAACCTAAGCGGCGAAGTACAAAAGCTGCCGTTTCGTTCCGCGATCGTTAATTTTCGTCCGGTGAGAGAAGGGCAATACGAGTGCTTCCGAACCAATGGGAGGGGCGAAGAATCGGAGGGCCCTGGAGAGTTTTATTTGCACCTGTGGTTAGGATTTAGGCCCAAAGACCTGTCGGCGGCACTGGTGTTCCCCGGGGGATTCGGAGCGGAATTCAGTTATCGACGCGTTTTTGAAAGGTCCTTCGGGTCCGCGGCGGGTTGGTGGCGTGACCGTCTGAGGGAAAGGTTTTCATGGCGCGCCGCGAGGCCCCGTGGGAGCGCAGCACCGATCTGTGCGTCGCTGACGCCTTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL17. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGTGGAGGCGCACGCGAGGGGGGAATTAGGATTCGGGGGAGCCTCCTCTTCGGAGGGCAACGTTTTAGTACACCTGATTTTACCGGACGCCCTTTTAGCGGCTCAAGGGATCGCCGCGCTTTTAGACGCGCCTTTTCAGGTGAGGGCGCAAACCCGCTTTCACGGATGCGGGAGCTGTAGTTATTGGAGACCGATTCCGGCATACTACGAGCGTGACGATTTTTTGGCTGCCCTCTTACTGCCGAATCGAAAGATCTTCCGTTTGAGTTACGCCGAAGCGACAAGCGGATCGGTTAGCGGCGGGGGCCTGTTTATCAGCGTACCTCTCTATTGTCGCGACAACGGAGGCGTCAATTGGACTTTTGATGATTTTAACACCTTGGTATTGCGCGTAGTCCCCCTGCAAGACCACGAAGGGCGGCGCGACATCTACCTAAATTACGGAGAAACGTTGGGGCGGTCCCCAGAATACAGCGTCGACGAGGGCCGTTGGCGCTCCCTGGCGGAGCAGGCACGCCGATGGTTATTCAAAAGACCCGAAGCCTTGAGGCGTGACCCCGACCTGTCCGACAATCTGAAAGTGCCGAACGAGCAAGCGGACGCGGATTTGTTAAGAGGGGAAATTTATCTTTCGTCCACGGCATCGACCCCCAAACCCCCAGCCCTACGAAATTTGCCGCAGCCTGCCGATCCGGCCGCCGCGGCGGCCAAAGCGATCTTCGCCGACCGCCTGACCCGCGAAAAACAGAAAAAGCTTTCTCGTCGAATGGATGGGGTAGCCGCCGGTTTGAGTTCTTTGGCGCGTTTCAGCAACGCCCGCGAGGGCGGGAAAACTTTCGCTGCCCGCGATTTCGGCCCCTTGGAGCCACCTTCGCACGCTCGCCACGTGGAAACTAACCATTTTCCGACCCCGCCCAAACCGTTGGAGGAAATTCTTTACGACCGATCGTCAGAAGCGACCGTTACGCGCGACCCGGTGACATCGCTCCGGGATGCCGTAGACCGCGCTTTGCGCGCGCTGGGCGAGCCGCCCGACCCTTCACGACACTGGCGGGACGGGCTTATCCCCGTTCGATCGGGGAGGGATTATCTTTCCGGTGAAACCTTTTACGTTGTTAACTACCAAAATTCTTTGCTCCCCCAGCGGCCGGCAGTAAGCGGTCTCGGGCCGCTGTTGGAGCTTTTGCGGCTGCAGCCGGGCGAGAATGACCCCGCGAGGCTGCAAGAGCCGCTGAGGACTCGTGCCCTCGATTCGGCCCCCGTAATGCGGTGCCCTTTGTACGAACCCGCTCCTCACTGTTCTCTCTTCGTGGCCAGCGCCGAAAGGGACACTCGTTACCGCGTAAAAAAACTTCTCCTGATGACTTTGGCCGAAAGCCTTCGCCAGGCTCTGCGAACCAGCGCTTTGCGGCAAATAATCGCCCTGGACCTGCCCGCGGACTTAGATTACGAGGCTTTGGCGGAAATCGTTCCGGCGGCGCTTCACGGCCTGCTTGTTGCAGAAGCCGAGGCTCCGTTGGATAAATTTTGGCAGGGGGCGCTGGCGAGGGCTTTGGCGGCGGAAGAAGACGAGTTCGGGGACGCGTACCTGTTCGATCGCTACAACCTAAGCGGCGAAGTACAAAAGCTGCCGTTTCGTTCCGCGATCGTTAATTTTCGTCCGGTGAGAGAAGGGCAATACGAGTGCTTCCGAACCAATGGGAGGGGCGAAGAATCGGAGGGCCCTGGAGAGTTTTATTTGCACCTGTGGTTAGGATTTAGGCCCAAAGACCTGTCGGCGGCACTGGTGTTCCCAGGGGGATTCGGAGCGGAATTCAGTTATCGACGCGTTTTTGACAGGTCATTCGGGTCCGGGGCGGGTTGGTGGCGTGACCGTCTGAGGGAAAGGTTTTCATGGCGCGCCGCGAGGCCCCGTGGGAGCGCAGCACCGATCTGTGCGTCGCTGACGCCTTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL17. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGTGGAGGCGCACGCGAGGGGGGAATTAGGATTCGGGGGAGCCTCCTCTTCGGAGGGCAACGTTTTAGTACACCTGATTTTACCGGACGCCCTTTTAGCGGCTCAAGGGATCGCCGCGCTTTTAGACGCGCCTTTTCAGGTGAGGGCGCAAACCCGCTTTCACGGATGCGGGAGCTGTAGTTATTGGAGACCGATTCCGGCATACTACGAGCGTGACGATTTTTTGGCTGCCCTCTTACTGCCGAATCGAAAGATCTTCCGTTTGAGTTACGCCGAAGCGACAAGCGGATCGGTTAGCGGCGGGGGCCTGTTTATCAGCGTACCTCTCTATTGTCGCGACAACGGAGGCGTCAATTGGACTTTTGATGATTTTAACACCTTGGTATTGCGCGTAGTCCCCCTGCAAGACCACGAAGGGCGGCGCGACATCTACCTAAATTACGGAGAAACGTTGGGGCGGTCCCCAGAATACAGCGTCGACGAGGGCCGTTGGCGCTCCCTGGCGGAGCAGGCACGCCGATGGTTATTCAAAAGACCCGAAGCCTTGAGGCGTGACCCCGACCTGTCCGACAATCTGAAAGTGCCGAACGAGCAAGCGGACGCGGATTTGTTAAGAGGGGAAATTTATCTTTCGTCCACGGCATCGACCCCCAAACCCCCAGCCCTACGAAATTTGCCGCAGCCTGCCGATCCGGCCGCCGCGGCGGCCAAAGCGATTATCGCCGACCGCCTGACCCGCGAAAAACAGAAAAAGCTTTCTCGTCGAATGGATGGGGTAGCCGCCGGTTTGAGTTCTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL17. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93338_FUL15B.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL15B gene (predicted feature= DNA packing protein, C-terminus) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL15B gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL15B consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGGTTTTCTCAATCAAGCCAATTGTAAAGTCATCTTTGTTTCTTCGGTTAACACCGGCAAAGCCAGCACCAGCCTTTTGATGAATTTGCGAGACTCGTCCGAGGGGCTCCTCAACCTGGTCACCTACATTTGCGACGACCACATGCGCGACGTGATAAGTCACCGCGACGCCGCGGTGTGCTCCTGTTACGTTTTTCAAAAACCCGTTTTTGTTGCCATGGACTCCTCCGTGCGGAGAACGGCCGATCTTTTTCTCAAAGAGTCTTTTATGAACGAAATTATCGGCGGTCGCACCACCGTGCCCGGAGAGAACACCGTGGTTCCTATTTTTTCCGAGCGGGCGACCGATGAGTTTTTAATTTACCGACCCAGCACCGTTGATTCCAGGAATCTGGATTCCGTTTTGTTCGTTTACGTGGATCCCGCGTACACGAATAATCAAAAGGCTTCGGGAACTGGAGTGGCGGTGATCGGCCGCCTTTTGAACGCTCCCGAAACGCTAGTGGTTTTCGGGCTCGAACATTTTTTTTTAGCGAGCTTGACGGGCGAAGCGTGCGAAGCCATCGCGGAGTGCGTTTCCGCTTGCGTGGCTTCCGTGTGGTTGACTCACGGTCGGCGATTCGCCGAAGTTCGAGTGGCCGTGGAAGGTAACTCCAGCCAGGATTCCGCTGTGGCTATCGCGTGTCGGGTGAATCGTTTTTTGTCCGACACCTCTCTGAAACGTACTTTCTATCACAGTAAAGGTCCGGAGGAGGGCGCTGATCTCGCCCCTTATTACATGTTAAACAAAGACAAATCGCCGGCTTTCGAATATTTTGTGGCGGCGTTCAATTCGGGGCGAATAGTGCTCAGTCAGGAACTGATTTCCAACACCGTGCGGTTGACCGTGGATCCGGCCGATTATCTGCTCGGACAATTGCACAATCTTTCAGAAACCCTCAACTCGGCGGGGCTCAAGACTTATTCCGCCAAAAAGGGCTCCGCGGCGGACGATATGTTGGTGGCGGCCGTCATGGCGGCTTACATGACCCAGTTAAAACGGCCGCCCTTTCACGAGCTGCCACTATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL15B. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGTTTTCTCAATCAAGCCAATTGTAAAGTCATCTTTGTTTCTTCGGTTAACACCGGCAAAGCCAGCACCAGCCTTTTGATGAATTTGCGAGACTCGTCCGAGGGGCTCCTCAACCTGGTCACCTACATTTGCGACGACCACATGCGCGACGTGATAAGTCACCGCGACGCCGCGGTATGCTCCTGTTACGTTTTTCAAAAACCCGTTTTTGTTGCCATGGACTCCTCCGTGCGGAGAACGGCCGATCTTTTTCTCAAAGAGTCTTTTATGAACGAAATTATCGGCGGTCGCACCACCGTGCCCGGAGAGAACACCGCGGTTCCTATTTTTTCCGAGCGGGCGACCGATGAGTTTTTAATTTACCGACCCAGCACCGTTGATTCCAGAAATCTGGATTCCGTTTTGTTCGTGTACGTGGATCCCGCGTACACGAATAATCAAAAGGCTTCGGGAACCGGAGTGGCGGTGATCGGCCGCCTTTTGAACGCTCCCGAAACGCTAGTGGTTTTTGGGCTCGAACATTTCTTTCTAGCAAGCTTGACGGGAGAAGCGTGCGAAGCCATCGCGGAATGCGTTTCCGCTTGTGTGGCTTCCGTGTGGTTGACTCACGGTCGGCGGTTCACCGAAGTTCGAGTGGCCGTGGAGGGTAACTCCAGCCAAGATTCCGCTGTGGCTATCGCGTGTCGGGTGAATCGTTTTTTGTCCGACACCTCTCTGAAACGAACGTTCTATCATAGTAAAGGCCCGGAGGAGGGCGCTAATCTCGCCCCCTATTACATGTTAAACAAAGACAAATCGCCGGCTTTCGAATATTTTGTGGCGGCGTTCAATTCGGGGCGAATAGTGCTCAGTCAGGAACTGATTTCCAACACTGTGCGGTTGACCGTAGATCCGGCCGATTATCTTCTCGGACAATTGCAAAATCTTTCAGAAACCCTCAACTCGGCGGGGCTCAAGACTTATTCCGCAAAAAAGGGCTCCGCGGCGGACGACATGTTGGTGGCGGCCGTCATGGCGGCTTACATGACCCACTTGAAACGGCCGCCCTTTCACGAGCTGCCGCTATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL15B. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine;</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93339_HP17.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP17 gene (predicted feature= Hypothetical protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP17 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP17 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCAGCCGAACAGTCGCCGAGCGTCTCGGAGACCAGGGACTCCGCGCCTGCCGTTTTAACTTTGGATGAAAGAAAAAAAGCGTTTGCGCGCTCTCTGCGCTTGGCTACGCTCTGTCACTACGAAAGCCCCAACGGGGTTTACTCTCACGGGGACCCATCGGTGAACGAAAAATTAAATCTTTTGTGTCAAATGCAAGGGGTCATCTCCGCAAAACTCAAAAAAATTATTTTGGAGGTTTTGGAGGAGTGTGACGAGGACGAAATAGACGACGCGATAGAGCGTATATTTTTGGAATGCGGGTTTGGATCCGAATACGTTCTGAGTGCCACCTGCATTACCACCTTGCGGGGGCCCTATCGCTATTTTTTAGAAACTGCGCGGGTGCGGAAAGCCGCACTCCTACTCATCGCCGTGGCCCGCCGATGCGTGCCCTGGCAGTTCACCTTCTTACCCCAAGCTTCGTAG</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP17. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGATACCGAGCAGTCGCCGAGCGTCTCGGGGACCAGCGATTCCGCGCCTGCCGTTTTAACTTTAAATGAAAGGAAAAAAGCGTTTGCGCGTTCTCTGCGTTTGGCTACGCTCTGTCACTACGAAAGCCCCAACGGGCTTTACGCTCACGGGGACCCGTCGGTGAACGAAAAATTAAATCTTTTGTGTCAAATGCAAGGGGTCATCTCCGCAAAACTCAAAAAAATGATTTTGGAGGTTTTGGAGCAGTGTGATGAGGACGAAGTGGACGAAGCGATAGAGCGCATATTTTTGGAATGCGGGTTTGGGTCCGAATACGTTCTGAGTGCCACCTGCATTACCACCTTGCGGGGGCCCTATCGCTATTTTTTAGAAACGGCGCAAGTGCGGAAAGCCGCACTCCTCCTCATCGCCGTGGCCCGCCGATGCGTGCCCTGGCAGTTTACATTCTTACCCCAAGCTTCGTAA</edomv>\n <edomvd>Consensus DNA sequence for HP17. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93340_HP18.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP18 gene (predicted feature= Hypothetical protein with similarity to RLSA) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP18 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP18 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGAGGCCGCGATCACTCATCTGTACGCTACCGTGCGTTGCTTGATTTGGACCGAGCTGCGCTCGGCCAAGCGCTTGGCCGAAGCCTTCATGATCGCCGTGGCTCTTAAATTAGAGGACCCGGTGTGGGCTCGTAAACTTCGGACGCCTACTCCGGGCGTGAAGGAACTCTACATTGCGCTCCGTCGACTGCAGCTTATTTTCCCGCCCGAACTCGAGTTCGCCGTCCTGCGGGAGCTAGTGAGAATCCCAAACGCGGAACTTATCGCCAAAATTGACGATTTGTTCGCCCGAAGCTTTTTCGGAAAAACTTTGAGTCATACCGCCATTTGCGTGCTCAGCTGCCGAGCCGCGTACCGGGTCGCCTGTAACGTCAGCGAAGAGCGCGGCACCTTATTCCTATTGGGCGTTCTGAACGCATTTAGGGCCGAAAGGTTTGAATTTTTTCATGGATTTTTAAGATCCCCGGCTCGCCGTTCCCCCTATTGGCGTACTCGTCATGTTGATCGTCGCGCGCTCCCGTCAGACCGAGGAGACCCAAGCGCTTCACCAGATAGCCAGCTTCAAAGCGGCGACGAGCATGTTCCTGGCCGGTCTACCGGCTCCCTGCGGAGCCGGTCGGGGTCACTCCGAAGCTCGGTGCGCGGCTCGGTTTCTGACAGAGCTCTGGCAAACCGAGCAAGAGGAGACGAGTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP18. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGAGGCCGCGATCACTCATCTGTACGCCACCGTGCGTTGCTTGATTTGGACCGAGCTGCGCTCGGCCAAGCGCTTGGCCGAAGCCTTCATGATCGCCGTGGCTCTTAAATTAGAGGACCCGGTGTGGGCTCGTAAACTTCGGACGCCTACTCCGGGCGTGAAGGAACTCTACATTGCGCTCCGTCGACTGCAGCTTATTTTCCCGCCCGAACTCGAGTTCGCCGTCCTGCGGGAGCTAGTGAGAATCCCAAACGCGGAACTTATCGCCAGAATTGACGATTTGTTCGCCCGAAGCTTTTTCGGAAAAACTTTGAGTCATACCGCCATTTGCGTGCTCAGCTGCCGAGCCGCGTACCGGGTCGCCTGTAACGTCAGCGAAGAGCGCGGCACCTTATTCCTATTGGGCGTTCTGAACACATTTAGGGCCGAAAGGTTTGAATTTTTTCATGGATTATTAAGATCCCCGGCTCGCTGTTCCCCCTATTGGCGTACTCGTCATGTTGATCGTCGCGCGCTCCCGTCAGACCGAGGAGACCCAAGCGCTTCACCAGATAGCCAGCTTCAAAGCGGCGACGAGCATGTTCCTGGCCGGTCTACCGGCTCCCTGCGGAGCCGGTCGGGGTCGCTCCGAAGCTCGGTGCGCGGCTCGGTTTCTGACCGAGCTCTGGCAAACAGAGCAAGAGGAGACGAGTAA</edomv>\n <edomvd>Consensus DNA sequence for HP18. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGAGGCCGCGATCACTCATCTGTACGCCACCGTGCGTTGCTTGATTTGGACCGAGCTGCGCTCGGCCAAGCGCTTGGCCGAAGCCTTCATGATCGCCGTGGCTCTTAAATTAGAGGACCCGGTGTGGGCTCGTAAACTTCGGACGCCTACTCCGGGCGTGAAGGAACTCTACATTGCGCTCCGTCGACTGCAGCTTATTTTCCCGCCCGAACTCGAGTTCGCCGTCCTGCGGGAGCTAGTGAGAATCCCAAACGCGGAACTTATCGCCAGAATTGACGATTTGTTCGCCCGAAGCTTTTTCGGAAAAACTTTGAGTCATACCGCCATTTGCGTGCTCAGCTGCCGAGCCGCGTACCGGGTCGCCTGTAACGTCAGCGAAGAGCGCGGCACCTTATTCCTATTGGGCGTTCTGAACACATTTAGGGCCGAAAGGTTTGAATTTTTTCATGGATTATTAAGATCCCCGGCTCGCCGTTCCCCCTATTGGCGTACTCGTCATGTTGATCGTCGCGCGCTCCCGTCAGACCGAGGAGACCCAAGCGCTTCACCAGATAGCCAGCTTCAAAGCGGCGACGAGCATGTTCCTGGCCGGTCTACCGGCTCCCTGCGGAGCCGGTCGGGGTCGCTCCGAAGCTCGGTGCGCGGCTCGGTTTCTGACCGAGCTCTGGCAAACAGAGCAAGAGGAGACGAGTAA</edomv>\n <edomvd>Consensus DNA sequence for HP18. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93341_HP19.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP19 gene (predicted feature= Hypothetical protein with similarity to RL6) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP19 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP19 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTTGATCGTCGCGCGCTCCCGTCAGACCGAGGAGACCCAAGCGCTTCACCAGATAGCCAGCTTCAAAGCGGCGACGAGCATGTTCCTGGCCGGTCTACCGGCTCCCTGCGGAGCCGGTCGGGGTCACTCCGAAGCTCGGTGCGCGGCTCGGTTTCTGACAGAGCTCTGGCAAACCGAGCAAGAGGAGACGAGTAACGGCATCGCGGAAGAGCTTATGTGGGTCTTGAGGACCCACGGTCCCGACCCGGCGGCACTCAAAGAACAATTATTAAATTGGGACTTCGGGGACCACTGGGGCGATACGCTGGTTTCTGTGGTCGGCGTAAAGACCGCGTACAGCCGGTGCCACGCGGCCGAAACGCCGGATGACTCGGCCGGCGCTCTCGTCTGCGCTATAGATTCGCTCATCACCGCTGAACACATGCACTGCTTGCGACCCGTGCCACCTGTGCGGCGAGCAGAGAGGCGTGCTTATTTTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP19. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTTGATCGTCGCGCGCTCCCGTCAGACCGAGGAGACCCAAGCGCTTCACCAGATAGCCAGCTTCAAAGCGGCGACGAGCATGTTCCTGGCCGGTCTACCGGCTCCCTGCGGAGCCGGTCGGGGTCGCTCCGAAGCTCGGTGCGCGGCTCGGTTTCTGACCGAGCTCTGGCAAACAGAGCAAGAGGAGACGAGTAACGGCATCGCGGAAGAGCTTATGTGGGTCTTGAGGACTCACGGTCCCGACCCGGCGGCCCTCAAAGAACAATTATTAAATTGGGACTTCGGGGACCACTGGGGCGATACGCTGGTTTCCGTGGTCGGCGTAAAGACCGCGTACAGCCGGTGCCACGCGGCCGAAGCGCCGGATGACTCGGCCGGCGCTCTCGTTTCCGCTGTAGATGCGCTCATCACCGCGGAACACATGCACTGCTTGCGACCCGTGCCACCTGTGCGGCGAGCAGAGAGGCGTGCTTATTTTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP19. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93342_HP20.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP20 gene (predicted feature= Hypothetical protein with similarity to virion transactivator) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP20 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP20 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTTGCTGTTCGGTCGCTCGCTCGAACACGAAGAGGCTCGAGGGGAAGATTTGGTAATCATCTTCCGAGCGGCGGTGAGCCTGTACTTTGCAAATATTCAACCACAGAAAAGAGAGCAAATGAAATGCAGCCGCACGCGATCGGCCGCTTTTTTTTTAAAGCAAATATGGGAGGCGGAAACCCAAGGTTTAGATGTCGAATTGAAAGAATGTCTCTCTCACGTGCTGAAAACTAGTGGGGCCGACGCCCGCGGGTTGGAGGTGGTTTTCTTTACGTGGGATTTCGGTGACACTCTTGAAGAGACGTTATCGTGCGTCGTGACGGCCAAGGCCCTTTATCGCGAGCAGATGGCAAAGGAGGATGAGGAAGAAGACACGAGAATGGAGAAAGCGAGGGCTATTTTGACGGCGCTGGAGGGCAGCGTCAACGTTCGTTTTATGGACTGTTTGTTTCCTCATCCGCCCTGGCAACCCTCCCTCCGGGAAGTTTATAGGCAATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP20. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTTGCTGTTCGGTCGCTCGCTCGAACACGAAGAGGCTCGAGGGGAAGATTTGGTAATAATCTTCCGAGCGGCGGTGAGCCTGTACTTTGCAAATATTCAACCACAGAAAAGAGAGCAAATGAAATGCAGCCGCACGCGATCGGCCGCTTTTTTTTTAAAGCAAATATGGGAGGCAGAAACCCAAGGTTTAGATGTCGAATTGAAAGAATGTCTCTCTCACGTGCTGAAAACTACTGGGGCCGACGCCCGCGGGTTGGAGGTGGTTTTCTTTACGTGGGATTTCGGTGACACTCTCGAAGAGACGTTATCGTGCGTCGTGACGGCCAAGGCCCTTTATCGCGAGCAGATGGCAAAGGAGGGTGAGGAAGAAGACACGAGAATGGAGAAAGCGAGGGCTATTTTGACGGCGCTGGAGGGCAGCGTCAACGTTCGTTTTATGGACTGTTTGTTTCCTCATCCGCCCTGGCAACCCTCCCTCCGGGAAGTTTATAGGCAATAA</edomv>\n <edomvd>Consensus DNA sequence for HP20. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93343_FUL18.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL18 gene (predicted feature= Similar to UL18, VP23 capsid triplex subunit 2) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL18 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL18 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGACGCTGACGGTCAATCAGGCATCCTATTGTTATTTACATTACGGAGACGACATCGCGAATGAAGATTACGCGAAGTTGCGAGACTGCGAAGGAATGGTAGTCTTTTTGCCCACTTTTCAGCCGCACGGCCGTCTTTCGGACGTTTCGCTCGGCTCGTACCGGCGCGGCGGGAACGCACCGGACGCGTTGACGCTTTTGGCCGAATTTCATCGGCGCCTCCCCGCCGTGATATTCGCCGTGGAACCCCGCCGAGTAATCCTCTCCGTTTTGGAAATGAGTACCAGCGCGGCGCTCTGCAAAATTCGAAACACGGGACCCTTCGAGTGGGTTAACGGGGACCGTTTAGCGCTCGTACCACCGCTGCTCGGCCCGGATCACCAGCGGGTGACGCTCCCGTCGCTCGATCTGGTCCTCATTTTTCCCCTCGTGGTGCCGGAACCCCTGGCGCGCGAAATGATGTGTAAGGTGGCCGCGGGCACCCTCTACGAGTACAGTCGGCGCCAGGAGCTGCCGACCCCTCCGAAACCCGATTCTTTAAACCACGTAACGTACCGGGGCCGACGCGTCAACATTTCTGCCTTTCACACCACGGAAGACGTTTTGGAGGGTTTTTTAAAAAATCTCATGACCGTTCTCATGTTTGGGGTTCACGAAGGCCTGTATCTCCTGCTCAGTTTCATGCCTCAGGTTTTGTCGCGCGAAAACCGAGACGTCTTTACCAACACCTTGCTGCAGCTGCAAAACCCGTCGCGCCTCGCCCTGGGAACCGTCCGCCCTCCCTTTCAAAATCCGGAAGAACTGGACGGGGGACCTGCGGGGGTTGCCCAGCCATATAGAGACAACGCTTATGAGATGCTCCGAAATTATTTGGCGCTAACCAGCGAGATCCGCGACCTGCTGAACCTCGATTGTTTCGCGCGGGTGGTGGATTTTAACTCTGGAACCAATGTGGTCCGGGAGGGAGAGCTCGCACGTTGCGCACGAAAGTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL18. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGACGCTGACGGTCAATCAGGCGTCCTATTGTTATTTACATTACGGAGACGACATCACGAATGAAGATTACGCGAAGTTGCGAGACTGCGAGGGAATGGTGGTCTTTTTGCCCACCTTTCAGCCGCACGGCCGTCTTTCCGACGTCTCGCTCGGCTCGTACCGGCGCGGCGGGAACGTACCGGACGCGTTGACGCTTTTGGCCGAATTTCATCGGCGCCTGCCCGCCGTGATATTCGCCGTGGAACCCCGCCGGGTAATTCTCTCCGTCTTGGAAATGAGTACCAGCGCGGCGCTCTACAAAATTCGAAACACGGGACCCTTCGAATGGGTCAACGGGGACCGTTTAGCGCTCGTGCCGCCGCTACTCGGCCCGGATCACCAGCGGGTGACGCTACCGTCGCTCGACCTGGTCCTCATTTTCCCCCTCGTGGTGCCGGAGCCCCTGGCACGCGAACTGATGTGTAAGGTGGCCGCGGGCACCCTCTACGAGTACAGTCGGCGCCAAGAGCTACCGACCCCTCCGAAACCCGATTCTTTAAACCACGTAACGTACCGGGGTCGACGCGTCAACATTTCTGCTTTTCACACCACGGAAGACGTTTTGGAGGGTTTTTTAAAAAATCTCATGACCGTTCTCATGTTTGGGGTTCACGAAGGCCTGTATCTCCTGCTCAGTTTTATGCCTCAGGTTTTGTCGCGGGAAAACCGAGACGTCTTTACCAACACCTTGCTGCAGTTGCAAAACCCGTCGCGCCTCGCCCTGGGAACCGTCCGCCCTCCCTTTCAAAATCCGGAAGAACTGGACGGGGGACCTGCGGGGGTGGCCCAGCCATATAGAGACAACGCTTATGAGATGCTCCGAAATTATTTGGCGCTAACCAGCGAGATCCGCGACCTGCTGAACCTCGATTGTTTCGCGCGGGTGGTGGATTTTAATTCTGGAACCAATGTGGTCCGGGAGGGAGAGCTCGCACGTTGCGCACGAAAGTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL18. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGACGCTGACGGTCAATCAGGCGTCCTATTGTTATTTACATTACGGAGACGACATCACGAATGAAGATTACGCGAAGTTGCGAGACTGCGAGGGAATGGTGGTCTTTTTGCCCACCTTTCAGCCGCACGGCCGTCTTTCCGACGTCTCGCTCGGCTCGTACCGGCGCGGCGGGAACGTACCGGACGCGTTGACGCTTTTGGCCGAATTTCATCGGCGCCTGCCCGCCGTGATATTCGCCGTGGAACCCCGCCGGGTAATTCTCTCCGTCTTGGAAATGAGCACCAGCGCGGCGCTCTGCAAAATTCGAAACACGGGACCCTTCGAATGGGTCAACGGGGACCGTTTAGCGCTCGTGCCGCCGCTACTCGGCCCGGATCACCAGCGGGTGACGCTACCGTCGCTCGATCTGGTCCTCATTTTCCCCCTCGTGGTGCCGGAGCCCCTGGCGCGCGAACTGATGTGTAAGGTGGCCGCGGGCACCCTCTACGAGTACAGTCGGCGCCAAGAGCTACCGACCCCTCCGAAACCCGATTCTTTAAACCACGTAACGTACCGGGGTCGACGCGTCAACATTTCTGCTTTTCACACCACGGAAGACGTTTTGGAGGGTTTTTTAAAAAATCTCATGACCGTTCTCATGTTTGGGGTTCACGAAGGCCTGTATCTCCTGCTCAGTTTTATGCCTCAGGTTTTGTCGCGGGAAAACCGAGACGTCTTTACCAACACCTTGCTGCAGCTGCAAAACCCGTCGCGCCTCGCCCTGGGAACCGTCCGCCCTCCCTTTCAAAATCCGGAAGAACTGGACGGGGGACCTGCGGGGGTGGCCCAGCCATATAGAGACAACGCTTATGAGATGCTCCGAAATTATTTGGCGCTAACCAGCGAGATCCGCGACCTGCTGAACCTCGATTGTTTCGCGCGGGTGGTGGATTTTAATTCTGGAACCAATGTGGTCCGGGAGGGAGAGCTCGCACGTTGCGCACGAAAGTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL18. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93344_FUL19.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL19 gene (predicted feature= Major capsid protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL19 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL19 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCGATCAACGCGTACACGGGTCTAACGGATCAGATTTTCCCGCGAGAGTCTGCTTCCCAGCTTCGCACGGGGAACGTCCTTTCGTTCATTCGCGTTACCTCACACGAAGCTTTTTACGATGGCCTTAAAACCATCATCAGCGATGACCCCGACCTGTACCGAACTCAATTCGATATGTTGCTGGGGAGCTACTGCAACGCTCTCACCCTGGTCAAATTCCTGGAAACCGGTCTCTCCGTGGCCTGTATATGCGTCAAGTACCCGGAGCTCGATTATACGAACAAGGCCACCGTGCAATTCAAAATCATTTTACCTAGCATCGCGCGCAGCAATTTGGAAAACGCCGAAAAGCCCACTTACCTCTACATGACCAAACAGATCGAACGCGATAACCTGCGGGCCGTTTTTAGCATTTCCAGCTTGGCCCTGCGTCACCTGCTGCGCGAGACCGAAGACGGCACGGCCTTGGAGCGTTATCACACGGAGCTGGCTATCGGTCAGTTAACCCAAAACGTGCAAGTAACCTTGGATTCTTTTGAACGGGGAACCGTGCATCAGCTCCTGAGAATTTTTCAGGAAAAGGCCCCTCCGAGCGCCGTTTTGAAAACTCTCAACGTTTACCTGACGCAAAATACTCCTTTGGAAAAAGTACCGCGCGCCAACCTGATTTCGACCATGAAAAGAAACATCATCCTGGATACGTTTTTCGTCAACAAAGCCGTAGGAAGCGCGACTCTGCCGATTAGGCTCTTGGAGATGGTCTCAGCCACCCGCAAAAGCGTCAACGTGCCCGTGGTAACCCATTCGGCCCTGGACGGGACCCCGGTGGATGGCGTGCTCCTGACCACTAAGTTCGTGCGGGATTACCTGCTGACCTTCCGCGAGTATGTTTACGGCGAGGAAGCCCTCGTGCCGGGCGTGTACGCCAACATGATGATAGACGGCAACAACATGGTGACCGCGGTAGCTATGGGAAAGGCGGTTAACACGTTCGAACAGCTGGCGCGCAACGTGCTGAACTACAAAGGCGCGCAGCAGCGCATCAACGAGGAACTGGTGAGCGACGCCTTTGAAACGCAGCAAACGATTCGCGTACCGGCTAAGTTATTGAAAGTGGGCGAAAAACTAGTGTTTTTAGAAGCACTGGAATACGTCTACACGGACACAAAAAACGAGTACCCGCTCGTCTCGCGCCTCGATTTGACGTTTATGATGCCACTGGGGGTTTTTAAACCAGCCTTCGATCGATACGCGGCTAAAGGTACCCAGCCCTTGACCGACGACGCCGATCCTCGGAAATGGCCACCGACCGAGATACATTTCTACAACAAAGACCAGAGTTTGATCCGACTGAAAATGGAACACGCGCTAGGAACGCTCTGTCATCCGCTGAATTTCAACACGGATCAATTTATGGACGCCAGGGACGAGTGGAAAGAAGGAATGCCCGTTCCCAGGCCTTTCGCCTTCAGTCCCTCGCGGGTCGATCCCACCTTGCTCCTAAATCAACGCATGCGTCGCTTCCTGGAGCGAGTGGTCGCGCGCCCCGAAGACTACGTTTTGGACGGAGAAGCAGTAAATCGCATGAGTCCCTGTCAGTTTCTTCGGGCCGATAACCGGTTGCTGACCCTGGAACGGCATCCGTTTTTTGATTTTTTTACCGCGTATCCCACCCCTGAGATGCCGCTTCGCGATTCTTTGGCTCCCGTTGGTCTCGTCAACTTACAGCGCCGCGTTAGAATCATCAACGGCAACATACCGTTGCCGTTGCAACCGGTCGATTATCGCGACGCGCGTGGCGCCGCCCTGGAAGCCCTCTACGGACGAGGGGGCATGTCGCCGAGTACAGTAGCGATAATCCAGGCCACCTACGATGATCGGAATTACCCGCCGGTTCTGTACATGATTGAGGCGGCCGTGCACGGGGACGGAGGGCTTTTTGCGAGTGCCCTCCAGCTCATTCGTCAGTGCATTCTGAGCTACTGGCAGAGCGCCCGAGGCGCGGCCTTCGTCAACAGTTTTCCAATGCTGTACCACATCGTGGCCTCTTTGGGCAACGGCGATCTGCCTCTCGAGCTGCTGACGGTGTACCGCGAGCTCCTGTCTCACGTGGAGAATCTGAGACGACTGATAACGGATTTTACTGTACCGGGGCCGCCGCTCATTAACCACACCCCGGAATCGTTAAACCACCTTCTCGCCGATCCTTGCTTCCTTCCCCCCATCATCTACGACGCCGACCCCCTTTTGACGCCCGAACACCGAGCGGCCGCCGGCGGCCGAGCTTTCAAGTACGATTCGGCAGGAGTTGAGCTGAACATCGAAGTGGGCTGGCCCGCGTTGAACAACGTCTCTTGGTCGGCGAAAGATAACCGCTTGATCCACTCGGGCCCTGCGGTCGACGTACCCGTGAGAGATAACGAATGGCAAATCCATGGCAAGATTTTTTATTACGTGGTTCTGCCGGCTTTCGCCCGCGGCCGGTGCTGTACGGCCGGCGTTAATTATCTCAATCTGTACGATCAGCTGAGCCACCTGGCGACGGACGAAACCGCAGCGAAGAAAACCTCGCCCACGAGCACTCCCAAGCTGACGAAGGTCAACTTGAACACCCTCCTTCACAACTATAACCTAACGGAAGTGGACGCGACCGGTCTGGAAGGCCTGAGGGAATTTTTTTCCCGACCGGTCTCCGGTACGCGCGTCCTCAATTACGAATCTCGCTGCGACCCGGGCCTAGAGACCCGCTCTACCCGTCACCAGACCCTGTACGACGCGGCGCTGATCAACGGCTTGATTTTGATGAACTACCCGAAGCAAGACCGAGCTCTATTTTTCGAAGATTTTTTTTACGCCGTCCCCACCTGCGCCCTTTATGCGAACCGCACCGCGGTGGCGGCCACCCATCGCGCGGCCAATCTTAACCGGCTCGATGCCGGCCTTCCTCTGGTCCCGACTTTTTGCTCCTGCGAGCTGGTGCGCCACGTGCGGCTGCCCGTCGCTAGGTACGCGGAGACTTCGCGCGCTACTGTCAACCGCTTGACCTACGGTCTCATGGCCGGCTACTTCAAAATGACCCCGGTGGCCTTTATCCATCAGCTGCGCCGGGGCCTGCATCCCGGCTTCGCCTTCACGGTGGTCCGGCAGGATAACTTTCAGACCGAGCAAATGCTGTACGCGGAACGGTGCTCAGAAGGGGTTTTCTTCGGTACCACTGATATTTCGCGCGTGGACGAAGCCGATTATCTTACCATGGAGCTAAACCAAAACCGCGCGCACATCGACATGGGCCTGGGCTTCACGGCCTGCGCCGCCACGGCCTATTTGCAGACGCCGGTTAGCGACATGGGCAATTTCCCGCAAAACCTATTCAACGTGAAAAATCTTGGCGATTTTTACCACGACCAAGTGACGGCTTACGTGCGCCAGGCGCTTTGCGACAACGACCGCTCGGCTTTTCCCGCTTCCTCCTCTGAAAGGAGCGCTTTTGGGTTTAATCAAGAAACCCTGTCTGAGCCCCCCGCCCTGGAGAGAGGGCATCCTTCCGTCTGCGAGTTCGTCGTGACGCCCGTTTCCACGGATCTCAAGTATTTTTACGAACCGAATAATCCGCGAGGAAGATCTGGTTGCGTAATCACGAGCAAGAACTTTGGGGGCGAATCGACGCTGGAAGGGCTGCTCTACGATCACTCTTTTCCAGATCCAGCGCACAGGCACCGGGCGACTGCCAATCCTTGGGCCTCGCAACGATTTTCGCTGGGGGACGTGTTGTACAACACGTCCTACACCCACACGGCCACCCACAGCACTTTCTACAGCCCCTGCGCCAAATTTTTTACGGCGCCCGACGTGGCCGCGCGAAACAAAGGCCTTTTAAAGATGCTTGCGGATTACGGAAAGTCCGTAGTGCGAGCGACCACGCGAACGGATTATCAATTCAAATCCCCCGTTCACTCGCGCGAACTAACGCGAGACCCTTGCGCTTTTTTTCAAGAAGCCTATCCGGCCATGTGCAGCTCGGACGCTTCGCTTTTCCGCAAGTACAAAACTTCGGAAACGATGAGCGAAGCGCACGATGAACAATATTACGCCCAGTATCTCGTCGAGGATCACAGCCCCCTGCAGGGTATCCTCTCGCTATTGCGTTAG</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL19. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCGATCAACGCGTACACGGGTCTAACGGATCAGATTTTCCCGCGAGAGTCTGCTGCCCAGCTTCGCACGGGGAACGTCCTTTCGTTCATTCGCGTTACCTCACACGAAGCTTTTTACGATGGCCTTAAAACCATCATCAGCGATGACCCCGACCTGTACCGAACTCAATTCGATATGTTGCTGGGGAGCTACTGCAACGCTCTCACCCTGGTCAAATTCCTGGAAACCGGTCTCTCCGTGGCCTGTATATGCGTCAAGTACCCGGAGCTCGATTATACGAACAAGGCCACCGTGCAATTCAAAATTATTTTACCTAGCATCGCGCGCAGCAATTTGGAAAACGCCGAAAAGCCCACTTACCTCTACATGACCAAACAGATCGAACGCGATAACCTGCGGGCCGTTTTTAGCATTTCCAGTTTGGCCCTGCGTCACCTGCTGCGCGAGACCGAAGACGGCACGGCCTTGGAGCGTTATCACACGGAGCTGGCTATCGGTCAGCTAACCCAAAACGTGCAAGTAACCTTGGATTCTTTTGAACGGGGAACCGTGCATCAGCTCCTGAGAATTTTTCAGGAAAAGGCCCCTCCGAGCGCCGTTTTGAAAACTCTCAACGTTTACCTGACGCAAAATACTCCTTTGGAAAAAGTACCGCGCGCCAACCTGATTTCGACCATGAAAAGAAACATCATCCTGGATACGTTTTTCGTCAACAAAGCCGTAGGAAGCGCGACTCTGCCGATTAGGCTCTTGGAGATGGTCTCAGCCACCCGCAAAAGCGTCAACGTGCCCGTAGTAACCCATTCGGCCCTGGACGGGACCCCGGTGGACGGCGTGCTCCTGACCACTAAGTTCGTGCGGGACTACCTGCTGACCTTCCGGGAGTATGTTTACGGCGAGGAAGCCCTCGTGCCGGGCGTGTACGCCAACATGATGATAGACGGCAACAACATGGTGACCGCGGTAGCTATGGGAAAGGCGGTTAACACGTTCGAACAGCTGGCGCGCAACGTGCTGAACTACAAAGGCGCGCAGCAGCGCATCAACGAGGAACTGGTTAGCGACGCCTTTGAAACGCAGCAAACGATTCGCGTCCCGGCTAAGTTATTGAAAGTGGGCGAAAAACTAGTGTTTTTAGAAGCACTGGAATACGTCTACACGGACACGAAAAACGAATACCCGCTCGTCTCGCGCCTCGACTTAACGTTTATGATGCCACTGGGGGTTTTCAAGCCAGCCTTCGATCGATACGCGGCTAAAGGTACTCAGCCCTTGACCGACGACTCCGATCCTCGGAAATGGCCGCCGACCGAGATACATTTCTACAACAAAGACCAGAGTTTGATCCGACTGAAAATGGAACACGCGCTCGGAACGCTCTGTCATCCGCTGAATTTCAACACGGATCAATTTATGGACGCCAGGGACGAGTGGAAAGAAGGAATGCCCGTTCCCAGGCCTTTCGCCTTCAGTCCCTCGCGGGTCGATCCCACCTTGCTCCTAAATCAACGCATGCGTCGCTTCCTGGAGCGGGTGGTCGCGCGCCCCGAAGACTACGTTTTGGACGGAGAAGCAGTAAATCGCATGAGTCCCTGTCAGTTTCTTCGGGCCGATAACCGGTTGCTGACCCTGGAACGGCATCCGTTTTTTGATTTTTTTACCGCGTATCCCACCCCTGAGATGCCGCTTCGCGATTCTTTGGCTCCCGTTGGTCTCGTCAACTTACAGCGCCGCGTTAGGATCATCAACGGCAACATACCGTTGCCGTTGCAACCGGTCGATTATCGCGACGCGCGTGGCGCCGCCCTGGAAGCCCTCTACGGACGAGGGGGCATGTCGCCGAGTACAGTAGCGATAATCCAGGCCACCTACGACGATCGGAATTACCCGCCGGTTCTGTACATGATTGAGGCAGCCGTGCACGGGGACGGAGGGCTTTTTGCGAGTGCCCTCCAGCTCATTCGTCAGTGCATTCTGAGCTACTGGCAGAGCGCCCGAGGCGCGGCCTTCGTCAACAGTTTTCCAATGCTGTACCACATCGTGGCATCTCTGGGCAACGGCGATCTGCCTCTCGAGCTGCTGACGGTGTACCGCGAGCTCCTGTCTCACGTGGAGAATCTGAGACGCCTGATAACGGATTTTACTTTACCGGGGCCGCCGCTCATTAACCACACCCCGGAATCGTTAAACCACCTTCTCGCCGATCCTTGCTTCCTTCCCCCCATCATCTACGACGCCGACCCCCTTTTGACGCCCGAACACCGAGCGGCCGCCGGCGGCCGAGCTTTCAAGTACGATTCGGCAGGAGTTGAGCTGAAGATCGAAGTGGGCTGGCCCGCGTTGAACAACGTCTCTTGGTCGGCGAAAGATAACCGCTTGATCCACTCGGGCCCCGCGGTCGACGTACCCGTGAGAGATAACGAATGGCAAATCCATGGCAAGATTTTTTATTACGTGGTTCTGCCGGCTTTCGCCCGCGGCCGGTGCTGTACGGCCGGCGTTAACTATCTCAATCTGTACGATCAGTTGAGCCACTTGGCGACGGACGAAACCGCAGCGAAGAAAACCTCGCCCACGAGCGCTCCCAAGCTGACGAAGGTCAACTTGAACACCCTCCTTCACAACTATAACCTAACGGAAGTGGACGCGACCGGTCTGGAGGGCCTGCGGGAATTTTTTTCCCGACCGGTCTCGGGTACGCGTGTCCTCAATTACGAATCTCGCTGCGACCCGGGCCTAGAGACCCGCTCTACCCGTCACCAGACCCTGTACGACGCGGCGCTGATCAACGGCTTGATTTTGATGAACTACCCGAAGCAAGACCGAGCTCTATTTTTCGAAGATTTTTTTTACGCCGTCCCCACCTGCGCCCTTTATGCGAACCGCACCGCGGTGGTCGCCACGCATCGCGCGGCCAATCTTAACCGGCTCGATGCCGGCCTTCCTCTGGTCCCGACTTTTTGCTCCTGCGAGCTGGTGCGCCACGTGCGGCTGCCCGTCGCTAGGTACGCGGAGACTTCGCGCGCTACGGTAAACCGCTTGACCTACGGTCTCATGGCCGGCTACTTCAAAATGACCCCGGTGGCCTTTATCCATCAGCTGCGCCGGGGCCTGCATCCCGGCTTCGCCTTCACGGTGGTCCGGCAGGATAACTTTCAGACCGAGCAAATGCTGTACGCGGAACGGTGCTCAGAAGGGGTTTTCTTCGGTACCACCGATATTTCGCGCGTGGACGAAGCCGATTATCTTACCATGGAGCTAAATCAAAACCGCGCGCACATCGACATGGGCCTGGGCTTCACGGCCTGCGCCGCGACGGCCTATTTGCAGACGCCGGTCAGCGACATGGGCAATTTCCCGCAAAACCTCTTCAACGTGAAAAATCTCGGCGATTTTTATCACGACCAAGTGACGGCTTACGTGCGCCAGGCGCTTTGCGACAACGACCGCTCGGCTTTTCCCGCTTCCTCCTCCGAAAGGAGCGCTTTTGGGTTTAATCAAGAAACACTGTCTGAGCCCCCCGCCCTGGAGAGAGGACATCCTTCCGTCTGCGAGTTCGTCGTGACGCCCGTTTCCACGGATCTCAAATATTTTTACGAACCGAACAATCCGCGAGGAAGATCTGGTTGCGTAATCACGAGCAAGAACTTTGGGGGCGAATCGACGCTGGAAGGGCTGCTCTACGATCACTCTTTTCCAGATCCCGCGCACAGGCACCGGGCGACTGCCAATCCTTGGGCCTCGCAACGATTTTCGCTGGGGGACGTGTTGTACAACACGTCCTACACCCACACGGCCACCCACAGCACTTTCTACAGCCCCTGCGCCAAATTTTTTACGGCGCCCGACGTGGCCGCGCGAAACAAAGGCCTTTTAAAGATGCTTGCCGATTACGGAAAGTCCGTAGTGCGAGCGACCACGCGAACGGATTATCAATTCAAATCCCCCGTTCACTCGCGCGAACTAACGCGAGACCCTTGCGCTTTTTTTCAAGAAGCCTATCCGGCCATGTGCAGCTCGGACGCTTCGCTCTTCCGCAAGTACAAAACTTCGGAAACGATGAGCGAAGCGCACGACGAGCAATATTACGCCCAGTATCTCGTCGAGGATCACAGCCCCCTGCAGGGTATCCTCTCGCTATTGCGTTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL19. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCGATCAACGCGTACACGGGTCTAACGGATCAGATTTTCCCGCGAGAGTCTGCTGCCCAGCTTCGCACGGGGAACGTCCTTTCGTTCATTCGCGTTACCTCACACGAAGCTTTTTACGATGGCCTTAAAACCATCATCAGCGATGACCCCGACCTGTACCGAACTCAATTCGATATGTTGCTGGGGAGCTACTGCAACGCTCTCACCCTGGTCAAATTCCTGGAAACCGGTCTCTCCGTGGCCTGTATATGCGTCAAGTACCCGGAGCTCGATTATACGAACAAGGCCACCGTGCAATTCAAAATTATTTTACCTAGCATCGCGCGCAGCAATTTGGAAAACGCCGAAAAGCCCACTTACCTCTACATGACCAAACAGATCGAACGCGATAACCTGCGGGCCGTTTTTAGCATTTCCAGTTTGGCCCTGCGTCACCTGCTGCGCGAGACCGAAGACGGCACGGCCTTGGAGCGTTATCACACGGAGCTGGCTATCGGTCAGCTAACCCAAAACGTGCAAGTAACCTTGGATTCTTTTGAACGGGGAACCGTGCATCAGCTCCTGAGAATTTTTCAGGAAAAGGCCCCTCCGAGCGCCGTTTTGAAAACTCTCAACGTTTACCTGACGCAAAATACTCCTTTGGAAAAAGTACCGCGCGCCAACCTGATTTCGACCATGAAAAGAAACATCATCCTGGATACGTTTTTCGTCAACAAAGCCGTAGGAAGCGCGACTCTGCCGATTAGGCTCTTGGAGATGGTCTCAGCCACCCGCAAAAGCGTCAACGTGCCCGTAGTAACCCATTCGGCCCTGGACGGGACCCCGGTGGACGGCGTGCTCCTGACCACTAAGTTCGTGCGGGACTACCTGCTGACCTTCCGGGAGTATGTTTACGGCGAGGAAGCCCTCGTGCCGGGCGTGTACGCCAACATGATGATAGACGGCAACAACATGGTGACCGCGGTAGCTATGGGAAAGGCGGTTAACACGTTCGAACAGCTGGCGCGCAACGTGCTGAACTACAAAGGCGCGCAGCAGCGCATCAACGAGGAACTGGTTAGCGACGCCTTTGAAACGCAGCAAACGATTCGCGTCCCGGCTAAGTTATTGAAAGTGGGCGAAAAACTAGTGTTTTTAGAAGCACTGGAATACGTCTACACGGACACGAAAAACGAATACCCGCTCGTCTCGCGCCTCGACTTAACGTTTATGATGCCACTGGGGGTTTTCAAGCCAGCCTTCGATCGATACGCGGCTAAAGGTACTCAGCCCTTGACCGACGACTCCGATCCTCGGAAATGGCCGCCGACCGAGATACATTTCTACAACAAAGACCAGAGTTTGATCCGACTGAAAATGGAACACGCGCTCGGAACGCTCTGTCATCCGCTGAATTTCAACACGGATCAATTTATGGACGCCAGGGACGAGTGGAAAGAAGGAATGCCCGTTCCCAGGCCTTTCGCCTTCAGTCCCTCGCGGGTCGATCCCACCTTGCTCCTAAATCAACGCATGCGTCGCTTCCTGGAGCGGGTGGTCGCGCGCCCCGAAGACTACGTTTTGGACGGAGAAGCAGTAAATCGCATGAGTCCCTGTCAGTTTCTTCGGGCCGATAACCGGTTGCTGACCCTGGAACGGCATCCGTTTTTTGATTTTTTTACCGCGTATCCCACCCCTGAGATGCCGCTTCGCGATTCTTTGGCTCCCGTTGGTCTCGTCAACTTACAGCGCCGCGTTAGGATCATCAACGGCAACATACCGTTGCCGTTGCAACCGGTCGATTATCGCGACGCGCGTGGCGCCGCCCTGGAAGCCCTCTACGGACGAGGGGGCATGTCGCCGAGTACAGTAGCGATAATCCAGGCCACCTACGACGATCGGAATTATCCGCCGGTTCTGTACATGATTGAGGCAGCCGTGCACGGGGACGGAGGGCTTTTTGCGAGTGCCCTCCAGCTCATTCGTCAGTGCATTCTGAGCTACTGGCAGAGCGCCCGAGGCGCGGCCTTCGTCAACAGTTTTCCAATGCTGTACCACATCGTGGCATCTCTGGGCAACGGCGATCTGCCTCTCGAGCTGCTGACGGTGTACCGCGAGCTCCTGTCTCACGTGGAGAATCTGAGACGCCTGATAACGGATTTTACTTTACCGGGGCCGCCGCTCATTAACCACACCCCGGAATCGTTAAACCACCTTCTCGCCGATCCTTGCTTCCTTCCCCCCATCATCTACGACGCCGACCCCCTTTTGACGCCCGAACACCGAGCGGCCGCCGGCGGCCGAGCTTTCAAGTACGATTCGGCAGGAGTTGAGCTGAAGATCGAAGTGGGCTGGCCCGCGTTGAACAACGTCTCTTGGTCGGCGAAAGATAACCGCTTGATCCACTCGGGCCCCGCGGTCGACGTACCCGTGAGAGATAACGAATGGCAAATCCATGGCAAGATTTTTTATTACGTGGTTCTGCCGGCTTTCGCCCGCGGCCGGTGCTGTACGGCCGGCGTTAACTATCTCAATCTGTACGATCAGTTGAGCCACTTGGCGACGGACGAAACCGCAGCGAAGAAAACCTCGCCCACGAGCGCTCCCAAGCTGACGAAGGTCAATTTGAACACCCTCCTTCACAACTATAACCTAACGGAAGTGGACGCGACCGGTCTGGAGGGCCTGCGGGAATTTTTTTCCCGACCGGTCTCGGGTACGCGTGTCCTCAATTACGAATCTCGCTGCGACCCGGGCCTAGAGACCCGCTCTACCCGTCACCAGACCCTGTACGACGCGGCGCTGATCAACGGCTTGATTTTGATGAACTACCCGAAGCAAGACCGAGCTCTATTTTTCGAAGATTTTTTTTACGCCGTCCCCACCTGCGCCCTTTATGCGAACCGCACCGCGGTGGTCGCCACGCATCGCGCGGCCAATCTTAACCGGCTCGATGCCGGCCTTCCTCTGGTCCCGACTTTTTGCTCCTGCGAGCTGGTGCGCCACGTGCGGCTGCCCGTCGCTAGGTACGCGGAGACTTCGCGCGCTACGGTAAACCGCTTGACCTACGGTCTCATGGCCGGCTACTTCAAAATGACCCCGGTGGCCTTTATCCATCAGCTGCGCCGGGGCCTGCATCCCGGCTTCGCCTTCACGGTGGTCCGGCAGGATAACTTTCAGACCGAGCAAATGCTGTACGCGGAACGGTGCTCAGAAGGGGTTTTCTTCGGTACCACCGATATTTCGCGCGTGGACGAAGCCGATTATCTTACCATGGAGCTAAATCAAAACCGCGCGCACATCGACATGGGCCTGGGCTTCACGGCCTGCGCCGCGACGGCCTATTTGCAGACGCCGGTCAGCGACATGGGCAATTTCCCGCAAAACCTCTTCAACGTGAAAAATCTCGGCGATTTTTATCACGACCAAGTGACGGCTTACGTGCGCCAGGCGCTTTGCGACAACGACCGCTCGGCTTTTCCCGCTTCCTCCTCCGAAAGGAGCGCTTTTGGGTTTAATCAAGAAACACTGTCTGAGCCCCCCGCCCTGGAGAGAGGGCATCCTTCCGTCTGCGAGTTCGTCGTGACGCCCGTTTCCACGGATCTCAAATATTTTTACGAACCGAACAATCCGCGAGGAAGATCTGGTTGCGTAATCACGAGCAAGAACTTTGGGGGCGAATCGACGCTGGAAGGGCTGCTCTACGATCACTCTTTTCCAGATCCCGCGCACAGGCACCGGGCGACTGCCAATCCTTGGGCCTCGCAACGATTTTCGCTGGGGGACGTGTTGTACAACACGTCCTACACCCACACGGCCACCCACAGCACTTTCTACAGCCCCTGCGCCAAATTTTTTACGGCGCCCGACGTGGCCGCGCGAAACAAAGGCCTTTTAAAGATGCTTGCCGATTACGGAAAGTCCGTAGTGCGAGCGACCACGCGAACGGATTATCAATTCAAATCCCCCGTTCACTCGCGCGAACTAACGCGAGACCCTTGCGCTTTTTTTCAAGAAGCCTATCCGGCCATGTGCAGCTCGGACGCTTCGCTCTTCCGCAAGTACAAAACTTCGGAAACGATGAGCGAAGCGCACGACGAGCAATATTACGCCCAGTATCTCGTCGAGGATCACAGCCCCCTGCAGGGTATCCTCTCGCTATTGCGTTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL19. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93345_FUL20.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL20 gene (predicted feature= Herpesvirus egress protein UL20) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL20 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL20 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCGGCGGTGTTTACAGCCGAGGCGGCATTGGCAGATCTTGCCGCCGCGCCTCTGATTTCCGGAGTAGAAAACATCGCTTTGACCGAACGGGGCCCCGTGTACCGCACGCACGACGATTATCTGATCAGCACCGGGCAGCTAGAGGACGAAGCTCCCGTTTGCACGAAAAGCACTCTCGTGGCCCTCATAGCTGCCGCCCTTCTCAAATTTGTCAACTGCCTTATTTACTACGTCTATTATCGGTGCACTACGGTAAATGTTTTTTTTATCGTTTCAATATTTATTACCGCGATTTATTACCTCAAAGTGGCGTACATGCTTTTTTGCGCTCACGCCAACATTCGAGCCGACCGCCTGCCCTACACGTGGCACCAGCGAGTGATTTCCTGTTTCATTGACGTCGCCTGCCCTTCCTACTTTGTCTACGTTTTCTACCAAAACGTCTTTGTGCTGGGCGATTTTTTTGTCCACGTGTTTAAGGCGACGGAAGGCGCCTGCGTGGCGGTCTCTTACGTTTTCTTCGTTTCTCTCATGATGTACGTTTTTGGCATCGTATACGACGTCACGGAATTCGTTTTCCCGCGCTTGTGGGCCCGCGCCCTCTTGCGCGTACCCATTTGTTATTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL20. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCGGCGGTGTTCACGGCCGAGGCGGCATTGGCAGATCTTGCCGCCGCGCCTCTGATTTCCGGAGTAGAAAACATCGCTTTGACCGAACGGGGCCCCGTGTACCGCACGCACGACGATTATCTGATCAGCACCGGGCAGCTAGAGGACGAAGCTCCCGTTTGCACGAAAAGCACTCTCGTGGCCCTCATAGCTGCCGCCCTTCTCAAATTTGTCAACTGTCTTATTTACTACGTCTATTATCGGTGCACTACGGTAAATGTTTTTTTTATCGTTTCAATATTTATTACCGCGATTTATTACCTCAAAGTGGCGTACATGCTTTTTTGCGCTCACGCCAACATTCGAGCCGACCGCCTGCCCTACACGTGGCACCAGCGAGTGATTTCCTGTTTCATTGACGTCGCCTGCCCTTCCTACTTTGTCTACGTTTTTTACCAAAACGTCTTCGTGCTGGGCGATTTTTTTGTCCACGTGTTTAAGGCGACGGAAGGCGCCTGCGTGGCGGTCTCTTACGTTTTCTTCGTTTCTCTCATGATGTACGTTTTTGGCATCGTATACGACGTCACGGAATTCGTTTTCCCGCGCTTGTGGGCCCGCGCCCTCTTGCGCGTACCCATTTGTTATTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL20. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93346_FUL21.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL21 gene (predicted feature= Similar to UL21 tegument protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL21 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL21 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGAACGTGATCGTCGGCGAGAGCTTTGAGGTCTGCGGGGTGCGATGTTACGAGGAGCGCGCGGCGGGAACGGTGACTTTCTGGTCCGGAGGCGTGCTTTTCACGTTGGAAGGCGCCACGGGCCGTCTCAAAAAAAGAGGCCACCGGCTGATCGACGGGGCGCTGCTGGCCTACCTCTCGACCGATCTGCAAAAACACGGATCTGCCCGTGTGGACGGCGCGGGGGGGCAGCTTTTTATTGACGACCTGATTAGCGCCTCGCTAAACGCCGCCAGCGAGCTGGACTTGGTCAATCAGACCGGCGGAGACCTATCCGACGATGCGTCCTATTTCTATTTTTTGACGGGTACGCCTTATGCGGTTCCGGTCCGGATCACCTGCGGTGAAACCGGGTCGCACCGCCTGACGTTGCTTGAAAAGCCCCGCCTTTACTCTCTGACTGACAACGGGTTTGATTACCCTCTTCCCGATTCGTTGGTGGAATTAAGCGAGGTGACGTTAGGGTTCATTCCGGCTTCGCTGAAAGTTTTGTACAAAGCCTTGACTCGAGACGCGGGAAACACGAGGGCCAACCTGACGATACCGATGTTACCCCCACCCCCCGATACCAAGCGTCGTTCGGAGGGGAGGAGATCGGTCCGTTATTCCGATTCCGTGAGAGTGTGCAAAATCGAAAGCCGATCGCGGGCCCTTTGGAGTCAGGGGCCAGGAGACACGGCGGCTCGTAACGACCTGCGGCGCCTGAGGCTCGTCCTCAGCCGCGTGGATGACGCCCTGAGCGGCAAAGTGGCAGTCGGGAGCTGGGCCCACGAAGGTCTTTCCCAGCTGACTCCACACTTGCAGCTGTTTCGCGAACCCTTTTTCGGCTCCCGCTCGGAAGGTTCTCTGGGGTCGCTGAGCAACGCCCAGAAACTGCTGATAATTCAATTTATTTTCGACAAGCACGGCATGTCGAGCTGTTACCCCTTCATCGAGACCGTCTGCTTGGGTCCCGGTTCTGGCCCGGACAAAGACGCTCGGGTCAGCGACGACCTGTTGCATTTGACGGCCGAACGCGTCAACTCGCTTTTTCAGGAAGCCTATGTCGTTTCCTCCTGCCTCGAGAGTTTGGCTCGTTCCTCTCCCCCCAGGCGCCAGGAGCCCTGCCGATCCGCGGACGCTTTGGCATTGGAACGGCTGGCTCTCGGACCGGACAGCGGAAAACGGTGGTTGATCGGAGGTGTGTTGGAACGCATATTCAAAGGAGAAGGCTACCGAGCCGCGCTCGAATTTCTAGCCCCTTTTTCCACCTGCCGTATCTTTATTCATCGTTGCTTGGCGTCCGATCGCGTTAGCGCCTTTGAAACGGGAGAATCGCGCCCGGCTTTGGTATTAAAAACGCTTTACGATTCTCGAGTTAAATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL21. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAACGTGATCGTCGGCGAGAGCTTTGAGGTCTGCGGGGTGCGATGTTACGAGGAGCGCGCGGCGGGAACGGTGACTTTCTGGTCCGGAGGCGTGCTATTCACGTTGGAAGGCGCCACGGGCCGTCTTAAAAAAAGAGGCCACCGGCTGATCGACGGGGCGCTGCTGGCCTACCTCTCGACCGATCTGCGAAAACACGGATCTGCCCGTGTGGACGCCGCGGGGGGGCAGCTTTTTATTGACGACCTGATTAGCGCCTCGCTAAACGCCGCCAGCGAGCTGGACTTGGTCAATCAGACCGGCGGAGACCTATCCGACGATGCGTCCTATTTCTATTTTTTGACGGGTACGCCTTATGCGGTTCCGGTCCGGATCACCTGTGGTGAAACCGGGTCGCACCGCTTGACGTTGCTTGAAAAGCCCCGCCTTTACTCTCTGACTGACAACGGGCTTGATTACCCTCTTCCCGATTCGTTGGTGGAATTAAGCGAGGTGACGTTAGGGTTCATTCCGGCTTCGCTGAAAGTTTTGTACAAAGCCTTGACTCGAGACACGGGAAACACGAGGGCCAACCTGACGATCCCGATGTTACCCCCACCCCCCGATACCAAGCGTCGTTCGGAGGGGAGGAGATCGGTCCGTTACTCCGATTCCGTGAGAGTGTGCAAAATCGAAAGCCGATCGCGGGCCCTTTGGAGTCAGGGGCCAGGAGACACGGCGGCTCGTAACGATTTGCGACGCCTGAGGCTCGTCCTCAGCCGCGTGGATGACGCCCTGAGCGGCAAAGTGGCAGTCGGGAGCTGGGCCCACGAAGGTCTTTCCCAGCTGACTCCACACTTGCAGCTGTTTCGCGAACCCTTTTTCGGGTCCCGCTCGGAAGGTTCTCTGGGGTCGCTGAGCGACGCCCAGAAACTGCTGATAATTCAATTTATTTTCGACAAGCACGGCATGTCGAGCTGTTACCCCTTTATCGAGACCGTCTGCTTGGGTCCCGGTTCTGGCCCGGACAAAGACGCTCGGGTCAGCGACGACCTGTTGCATTTGACGGCCGAACGCGTCAACTCGCTTTTTCAGGAAGCCTATGTCGTTTCCTCCTGCCTCGAGAGTTTGGCTCGTTCCTCTCCCCCCAGGCACCAGGAGCCCTGCCGATCCGCGGACGCTTTGGCATTGGAACGGCTGGCTCTCGGACCGGACAGCGGAAAACGGTGGTTGATCGGAGGTGTGTTGGAACGCATATTCAAAGGAGAAGGCTACAGAGCCGCGCTCGAATTTCTAGCCCCTTTTTCCACCTGCCGTATCTTTATTCATCGTTGCTTGGCGTCCGATCGCGTTAGCGCCTTTGAAACGGGAGAATCGCGCCCGGCTTTGGTATTAAAAACGCTTTACGATTCTCGAGTTAAATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL21. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAACGTGATCGTCGGCGAGAGCTTTGAGGTCTGCGGGGTGCGATGTTACGAGGAGCGCGCGGCGGGAACGGTGACTTTCTGGTCCGGAGGCGTGCTATTCACGTTGGAAGGCGCCACGGGCCGTCTCAAAAAAAGAGGCCACCGGCTGATCGACGGGGCGCTGCTGGCCTACCTCTCGACCGATCTGCGAAAACACGGATCTGTCCGTGTGGACGCCGCGGGGGGGCAGCTTTTTATTGACGACCTGATTAGCGCCTCGCTAAACGCCGCCAGCGAGCTGGACTTGGTCAATCAGACCGGCGGAGACCTATCCGACGATGCGTCCTATTTCTATTTTTTGACGGGTACGCCTTATGCGGTTCCGGTCCGGATCACCTGCGGTGAAACCGGGTCGCACCGCTTGACGTTGCTTGAAAAGCCCCGCCTTTACTCTCTGACTGACAACGGGTTTGATTACCCTCTTCCCGATTCGTTGGTGGAATTAAGCGAGGTGACGTTAGGGTTCATTCCGGCTTCGCTGAAAGTTTTGTACAAAGCCTTGACTCGAGACGCGGGAAACACGAGGGCCAACCTGACGATCCCGATGTTACCCCCACCCCCCGATACCAAGCGTCGTTCGGAGGGGAGGAGATCGGTCCGTTACTCCGATTCCGTGAGAGTGTGCAAAATCGAAAGCCGATCGCGGGCCCTTTGGAGTCAGGGGCCAGGAGACACGGCGGCTCGTAACGATTTGCGACGCCTGAGGCTCGTCCTCAGCCGCGTGGATGACGCCCTGAGCGGCAAAGTGGCAGTCGGGAGCTGGGCCCACGAAGGTCTTTCCCAGCTGACTCCACACTTGCAGCTGTTTCGCGAACCCTTTTTCGGCTCCCGCTCGGAAGGTTCTCTGGGGTCGCTGAGCGACGCCCAGAAACTGCTGATAATTCAATTTATTTTCGACAAGCACGGCATGTCGAGCTGTTACCCCTTTATCGAGACCGTCTGCTTGGGTCCCGGTTCTGGCCCGGACAAAGACGCTCGGGTCAGCGACGACCTGTTGCATTTGACGGCCGAACGCGTCAACTCGCTTTTTCAGGAAGCCTATGTCGTTTCCTCCTGCCTCGAGAGTTTGGCTCGTTCCTCTCCCCCCAGGCACCAGGAGCCCTGCCGATCCGCGGACGCTTTGGCATTGGAACGGCTGGCTCTCGGACCGGACAGCGGAAAACGGTGGTTGATCGGAGGTGTGTTGGAACGCATATTCAAAGGAGAAGGCTACAGAGCCGCGCTCGAATTTCTAGCCCCTTTTTCCACCTGCCGTATCTTTATTCATCGTTGCTTGGCGTCCGATCGCGTTAGCGCCTTTGAAACGGGAGAATCGCGCCCGGCTTTGGTATTAAAAACGCTTTACGATTCTCGAGTTAAATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL21. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAACGTGATCGTCGGCGAGAGCTTTGAGGTCTGCGGGGTGCGATGTTACGAGGAGCGCGCGGCGGGAACGGTGACTTTCTGGTCCGGAGGCGTGCTATTCACGTTGGAAGGCGCCACGGGCCGTCTTAAAAAAAGAGGCCACCGGCTGATCGACGGGGCGCTGCTGGCCTACCTCTCGACCGATCTGCGAAAACACGGATCTGCCCGTGTGGACGCCGCGGGGGGGCAGCTTTTTATTGACGACCTGATTAGCGCCTCGCTAAACGCCGCCAGCGAGCTGGACTTGGTCAATCAGACCGGCGGAGACCTATCCGACGATGCGTCCTATTTCTATTTTTTGACGGGTACGCCTTATGCGGTTCCGGTCCGGATCACCTGTGGTGAAACCGGGTCGCACCGCTTGACGTTGCTTGAAAAGCCCCGCCTTTACTCTCTGACTGACAACGGGCTTGATTACCCTCTTCCCGATTCGTTGGTGGAATTAAGCGAGGTGACGTTAGGGTTCATTCCGGCTTCGCTGAAAGTTTTGTACAAAGCCTTGACTCGAGACACGGGAAACACGAGGGCCAACCTGACGATCCCGATGTTACCCCCACCCCCCGATACCAAGCGTCGTTCGGAGGGGAGGAGATCGGTCCGTTACTCCGATTCCGTGAGAGTGTGCAAAATCGAAAGCCGATCGCGGGCCCTTTGGAGTCAGGGGCCAGGAGACACGGCGGCTCGTAACGATTTGCGACGCCTGAGGCTCGTCCTCAGCCGCGTGGATGACGCCCTGAGCGGCAAAGTGGCAGTCGGGAGCTGGGCCCACGAAGGTCTTTCCCAGCTGACTCCACACTTGCAGCTGTTTCGCGAACCCTTTTTCGGCTCCCGCTCGGAAGGTTCTCTGGGGTCGCTGAGCGACGCCCAGAAACTGCTGATAATTCAATTTATTTTCGACAAGCACGGCATGTCGAGCTGTTACCCCTTTATCGAGACCGTCTGCTTGGGTCCCGGTTCTGGCCCGGACAAAGACGCTCGGGTCAGCGACGACCTGTTGCATTTGACGGCCGAACGCGTCAACTCGCTTTTTCAGGAAGCCTATGTCGTTTCCTCCTGCCTCGAGAGTTTGGCTCGTTCCTCTCCCCCCAGGCACCAGGAGCCCTGCCGATCCGCGGACGCTTTGGCATTGGAACGGCTGGCTCTCGGACCGGACAGCGGAAAACGGTGGTTGATCGGAGGTGTGTTGGAACGCATATTCAAAGGAGAAGGCTACAGAGCCGCGCTCGAATTTCTAGCCCCTTTTTCCACCTGCCGTATCTTTATTCATCGTTGCTTGGCGTCCGATCGCGTTAGCGCCTTTGAAACGGGAGAATCGCGCCCGGCTTTGGTATTAAAAACGCTTTACGATTCTCGAGTTAAATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL21. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93352_FUL26.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL26 gene (predicted feature= Similar to UL26 capsid maturation protease) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL26 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL26 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCAAACGGAAGAGGATGCTCCGTTGTACGTGGCCGGCTTCCTTGGCCTCTACGACCGCGGCGGAGAAGAGCGAGGGTTTAGGCTGGACAGGGAAGCCGTGCGTCGCGGGTTGCCGCTCACACAAATCGTCCCTTTGTGCATAGATCACAAGGACCGATGCACGGTGGGCCGGGTGCTGAGCGTGTTAGACGCGGAAAAGGGCGCTTTCTGCGTGGCCAAGGTCACGTCGAAAAACCTTTTCCGAATCATGCTAGAAACGGTGGACCCCCGCGTGTTCGAACTGAAGCCCGGTCTCAGCGAACGAGAAAAGCTTTTGTTGCTTATCAGCAACTTCGTCCCCTCCTTCAGTCTCTCGAGCGTAAAAGTCGATCGACCGGAAGAGGCCGACGAGCGGTTTTTCGTGCACGTTTCCCTCTGCATGCTGGGACGCCGCCAAGGCACCATCGCGATATACGATGAAACCGCTTCGAAAGCCGTAAGCCTGTTTGAGGCTCTTTCCGCCGAGGAAAAACAGCGGGCGATCGCGGAAGCGGTCGCGGCCGACGAGGAAGGGCGGCATTGGGACGAACAGTTTAACGATCCGGAGGCCGCGGAACTTTGCGCCTGCCTCTTTTCTCAGGCGCTGAATACCAATTTCGTGGACGATAGATGGGAGGAGTTACGGAAACAGAAAAGAACGGCTGATATTTCGGGTGCGACCTATTTGCAAGCCAGCGTGACCGAACCCATAATAAAAAAGGACTGCGGGAAAAACCCTTCGCAGAAAATGGAAACGGTCGGACCCGCGCCTCCGCTTCGCCCCACTTCTGTCCCGGCGGCACCGAGCGCCGCGACGAACGATTACGTGTCGGTGCCCATGGAGCATTATCATCAACTGCTGCTGGCACAATCGCGGCCGGCTTCGAGCTCGGCGTCGACATCGACGCCGTACGTACATTCTTCTTACGGTTCTCCTTGCGTGTACCCCGCTCAGTTTCCCGTGTCTCGCGCTCCCGAACATTCCGCGCCCGGGTTCGGTCTGGGACCGGGATATTTCATGCAACCCGGGCCGACGTACGGGGTCTCGGGACCCACTTTCCCTCAAACGGGGCTGGAGGCGAAAATGGAAGCCCTCCTCAAAAAAATCGAAAGCGTGAGTAACGCGGCGGCGCGGCCCCCGCCCCCTTCTTCGTCGGTGCCCGGACGTTTGTATTACGAACGGGTCATGACAAATCGAGGGCCGTGCTTTCGTAAAATATATGCCGGCAGCGAGCGACCGAGGTTCGCACACTGCTTCGCCGAAGAAGGAGAGCGCGGTCAGGAAACGGAGGAAGAGGTCCCGGAATTGATATTTCCGGGTGAAGCTCCACCTCCGACTAAAAAACCGCGCGAAGAAGAGCGCGCGGCGGAGTATCTCGGGCTGCTGGCAAAAACCGTCACAAGCCTGCAGACGCAGGTGGAACAATTGAAGCAGACCTCCGCTCCACCGCCCGTTCACGCGGAGCCCCCTTCGCCACCGCCCGCCGCGGCTCAGCCCGCCGTTCCGTGTGATCCGCCCACGGTGGACGCTAGCGCGGCTCCATCCGTCGGTAAGAATCCCCGGGGCCGTCAGCTAAAGCAGAAGTTTATAACGGCGATGATGGGCTCGAATGCAATAACGAAATCATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL26. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCAAACGGAAGAGGATGCTCCGTTGTACGTGGCCGGCTTCCTTGGCCTCTACGACCGCGGCGGAGAAGAGCGAGGGTTTAGGCTGGACAGGGAAGCCGTGCGCCGCGGGTTGCCGCTCACACAAATCGTCCCTTTGTGCATAGATCACAAGGACCGATGCACGGTGGGCCGGGTGCTGAGCGTGTTAGACGCGGAAAAGGGCGCTTTCTGCGTGGCCAAGGTCACGTCGAAAAACCTTTTCCGAATCATGCTAGAAACGGTGGACCCCCGCGTGTTCGAACTGAAGCCCGGTCTCAGCGAACGCGAAAAGCTTTTGTTGCTTATCAGCAACTTCGTCCCCTCCTTCAGTCTCTCGAGCGTAAAAGTCGATCGACCGGAAGAGGCCGACGAGCGGTTTTTCGTGCACGTTTCCCTCTGCATGCTGGGACGCCGCCAAGGCACCATCGCGATATACGATGAAACCGCTTCGAAAGCCGTAAGCCTGTTTGAGGCTCTTTCCGCCGAGGAAAAACAGCGGGCGATCGCGGAAGCGGTCGCGGCCGACGAGGAAGGGCGGCAATGGGACGAACAGTTTAACGATCCGGAGGCCGCGGAACTTTGCGCCTGCCTCTTTTCTCAGGCGCTGAATACCAATTTCGTGGACGATAGATGGGAGGAGTTACGGAAACAGAAAAGAACGGCTGATATTTCGGGTGCGACCTATTTGCAAGCCAGCGTGACCGAACCGATCATAAAAAAGGACTGCGGGAAAAACGCTTCGCAGAAAATGGAAACGGTCGGACCCGCGCCTCCGCTTCGCCCCACTTCTGTCCCGGCGGCGCCGAGCGCCGCGACGAACGATTACGTGTCGGTGCCCATGGAGCATTATCATCAACTGCTGCTGGCACAATCGCGGCCGGCTTCGAGCTCGGCGTCGACATCGACGCCGTACGTACATTCTTCTTACGGTTCTCCTTGCGTGTACCCCGCTCAGTTTCCCGTGGTTCGCGCTCCCGAACATTCCGCGCCCGGGTTCGGTCTGGGACCGGGATATATCATGCAACCCGGGCCGACGTACGGGGTGTCGGGACCCACTTTCCCTCAAACGGGGCTGGAGGCGAAAATGGAAGCCCTCCTCAAAAAAATCGAAAGCGTGAGTAACGCGGCGGCGCGGCCACCGCCCCCTCCTGCGTCGGTGCCCGGACGTTTGTATTACGAACGGGTCATGACAAATCGAGGGCCGTGCTTTCGTAAAATATATGCCGGCAGCGAGCGACCGAGGTTCGCACACTGCTTCGCCGAAGAAGGAGAGCGCGGTCAGGAAACGGAGGAAGAGGTCCCGGAATTGATATTTCCGGGTGAAGCTCCGCCTCCGACTAAAAAACCGCGCGAAGAAGAGCGCGCGGCGGAGTATCTCGGGCTGCTGGCAAAAACCGTCACAAGCCTGCAGACGCAGGTGGAACAATTGAAGCAGACCTCCGCTCCACCGCCCGTTCACGCGGAGCCCCCTTCGCCACCGCCCGCCGCGGCTCAGCCCGCCGTTCCGTGTGATCCGCCCACGGTGGACGCTAGCGCGGCTCCATCCGTCGGTAAGACTCCCCGGGGCCGTCAGCTAAAGCAGAAGTTTATAACGGCGATGATGGGCTCGAATGCAATAACGAAATCATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL26. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCAAACGGAAGAGGATGCTCCGTTGTACGTGGCCGGCTTCCTTGGCCTCTACGACCGCGGCGGAGAAGAGCGAGGGTTTAGGCTGGACAGGGAAGCCGTGCGCCGCGGGTTGCCGCTCACACAAATCGTCCCTTTGTGCATAGATCACAAGGACCGATGCACGGTGGGCCGGGTGCTGAGCGTGTTAGACGCGGAAAAGGGCGCTTTCTGCGTGGCCAAGGTCACGTCGAAAAACCTTTTCCTAATCATGCTAGAAACGGTGGACCCCCGCGTGTTCGAACTGAAGCCCGGTCTCAGCGAACGCGAAAAGCTTTTGTTGCTTATCAGCAACTTCGTCCCCTCCTTCAGTCTCTCGAGCGTAAAAGTCGATCGACCGGAAGAGGCCGACGAGCGGTTTTTCGTGCACGTTTCCCTCTGCATGCTGGGACGCCGCCAAGGCACCATCGCGATATACGATGAAACCGCTTCGAAAGCCGTAAGCCTGTTTGAGGCTCTTTCCGCCGAGGAAAAACAGCGGGCGATCGCGGAAGCGGTCGCGGCCGACGAGGAAGGGCGGCAATGGGACGAACAGTTTAACGATCCGGAGGCCGCGGAACTTTGCGCCTGCCTCTTTTCTCAGGCGCTGAATACCAATTTCGTGGACGATAGATGGGAGGAGTTACGGAAACAGAAAAGAACGGCTGATATTTCGGGTGCGACCTATTTGCAAGCCAGCGTGACCGAACCCATAATAAAAAAGGACTGCGGGAAAAACGCTTCGCAGAAAATGGAAACGGTCGGACCCGCGCCTCCGCTTCGCCCCACTTCTGTCCCGGCGGCGCCGAGCGCCGCGACGAACGATTACGTGTCGGTGCCCATGGAGCATTATCATCAACTGCTGCTGGCACAATCGCGGCCGGCTTCGAGCTCGGCGTCGACATCGACGCCGTACGTACATTCTTCTTACGGTTCTCCTTGCGTGTACCCCGCTCAGTTTCCCGTGGTTCGCGCTCCCGAACATTCCGCGCCCGGGTTCGGTCTGGGACCGGGATATATCATGCAACCCGGGCCGACGTACGGGGTGTCGGGACCCACTTTCCCTCAAACGGGGCTGGAGGCGAAAATGGAAGCCCTCCTCAAAAAAATCGAAAGCGTGAGTAACGCGGCGGCGCGGCCACCGCCCCCTCCTGCGTCGGTTCCCGGACGTTTGTATTACGAACGGGTCATGACAAATCGAGGGCCGTGCTTTCGTAAAATATATGCCGGCAGCGAGCGACCGAGGTTCGCACACTGCTTCGCCGAAGAAGAAGAGCGCGGTCAGGAAACGGAGGAAGAGGTCCCGGAATTGATATTTCCGGGTGAAGCTCCGCCTCCGACTAAAAAACCGCGCGAAGAAGAGCGCGCGGCGGAGTATCTCGGGCTGCTGGCAAAAACCGTCACAAGCCTGCAGACGCAGGTGGAACAATTGAAGCAGACCTCCGCTCCACCGCCCGTTCACGCGGAGCCCCCTTCGCCACCGCCCGCCGCGGCTCAGCCCGCCGTTCCGTGTGATCCGCCCACGGTGGACGCTAGCGCGGCTCCATCCGTCGGTAAGACTCCCCGGGGCCGTCAGCTAAAGCAGAAGTTTATAACGGCGATGATGGGCTCGAATGCAATAACGAAATCATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL26. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93353_FUL26_5.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL26.5 gene (predicted feature= Virion scaffolding protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL26.5 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL26.5 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGAAACGGTCGGACCCGCGCCTCCGCTTCGCCCCACTTCTGTCCCGGCGGCACCGAGCGCCGCGACGAACGATTACGTGTCGGTGCCCATGGAGCATTATCATCAACTGCTGCTGGCACAATCGCGGCCGGCTTCGAGCTCGGCGTCGACATCGACGCCGTACGTACATTCTTCTTACGGTTCTCCTTGCGTGTACCCCGCTCAGTTTCCCGTGTCTCGCGCTCCCGAACATTCCGCGCCCGGGTTCGGTCTGGGACCGGGATATTTCATGCAACCCGGGCCGACGTACGGGGTCTCGGGACCCACTTTCCCTCAAACGGGGCTGGAGGCGAAAATGGAAGCCCTCCTCAAAAAAATCGAAAGCGTGAGTAACGCGGCGGCGCGGCCCCCGCCCCCTTCTTCGTCGGTGCCCGGACGTTTGTATTACGAACGGGTCATGACAAATCGAGGGCCGTGCTTTCGTAAAATATATGCCGGCAGCGAGCGACCGAGGTTCGCACACTGCTTCGCCGAAGAAGGAGAGCGCGGTCAGGAAACGGAGGAAGAGGTCCCGGAATTGATATTTCCGGGTGAAGCTCCACCTCCGACTAAAAAACCGCGCGAAGAAGAGCGCGCGGCGGAGTATCTCGGGCTGCTGGCAAAAACCGTCACAAGCCTGCAGACGCAGGTGGAACAATTGAAGCAGACCTCCGCTCCACCGCCCGTTCACGCGGAGCCCCCTTCGCCACCGCCCGCCGCGGCTCAGCCCGCCGTTCCGTGTGATCCGCCCACGGTGGACGCTAGCGCGGCTCCATCCGTCGGTAAGAATCCCCGGGGCCGTCAGCTAAAGCAGAAGTTTATAACGGCGATGATGGGCTCGAATGCAATAACGAAATCATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL26.5. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGAAACGGTCGGACCCGCGCCTCCGCTTCGCCCCACTTCTGTCCCGGCGGCGCCGAGCGCCGCGACGAACGATTACGTGTCGGTGCCCATGGAGCATTATCATCAACTGCTGCTGGCACAATCGCGGCCGGCTTCGAGCTCGGCGTCGACATCGACGCCGTACGTACATTCTTCTTACGGTTCTCCTTGCGTGTACCCCGCTCAGTTTCCCGTGGTTCGCGCTCCCGAACATTCCGCGCCCGGGTTCGGTCTGGGACCGGGATATATCATGCAACCCGGGCCGACGTACGGGGTGTCGGGACCCACTTTCCCTCAAACGGGGCTGGAGGCGAAAATGGAAGCCCTCCTCAAAAAAATCGAAAGCGTGAGTAACGCGGCGGCGCGGCCACCGCCCCCTCCTGCGTCGGTGCCCGGACGTTTGTATTACGAACGGGTCATGACAAATCGAGGGCCGTGCTTTCGTAAAATATATGCCGGCAGCGAGCGACCGAGGTTCGCACACTGCTTCGCCGAAGAAGGAGAGCGCGGTCAGGAAACGGAGGAAGAGGTCCCGGAATTGATATTTCCGGGTGAAGCTCCGCCTCCGACTAAAAAACCGCGCGAAGAAGAGCGCGCGGCGGAGTATCTCGGGCTGCTGGCAAAAACCGTCACAAGCCTGCAGACGCAGGTGGAACAATTGAAGCAGACCTCCGCTCCACCGCCCGTTCACGCGGAGCCCCCTTCGCCACCGCCCGCCGCGGCTCAGCCCGCCGTTCCGTGTGATCCGCCCACGGTGGACGCTAGCGCGGCTCCATCCGTCGGTAAGACTCCCCGGGGCCGTCAGCTAAAGCAGAAGTTTATAACGGCGATGATGGGCTCGAATGCAATAACGAAATCATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL26.5. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGAAACGGTCGGACCCGCGCCTCCGCTTCGCCCCACTTCTGTCCCGGCGGCGCCGAGCGCCGCGACGAACGATTACGTGTCGGTGCCCATGGAGCATTATCATCAACTGCTGCTGGCACAATCGCGGCCGGCTTCGAGCTCGGCGTCGACATCGACGCCGTACGTACATTCTTCTTACGGTTCTCCTTGCGTGTACCCCGCTCAGTTTCCCGTGGTTCGCGCTCCCGAACATTCCGCGCCCGGGTTCGGTCTGGGACCGGGATATATCATGCAACCCGGGCCGACGTACGGGGTGTCGGGACCCACTTTCCCTCAAACGGGGCTGGAGGCGAAAATGGAAGCCCTCCTCAAAAAAATCGAAAGCGTGAGTAACGCGGCGGCGCGGCCACCGCCCCCTCCTGCGTCGGTTCCCGGACGTTTGTATTACGAACGGGTCATGACAAATCGAGGGCCGTGCTTTCGTAAAATATATGCCGGCAGCGAGCGACCGAGGTTCGCACACTGCTTCGCCGAAGAAGAAGAGCGCGGTCAGGAAACGGAGGAAGAGGTCCCGGAATTGATATTTCCGGGTGAAGCTCCGCCTCCGACTAAAAAACCGCGCGAAGAAGAGCGCGCGGCGGAGTATCTCGGGCTGCTGGCAAAAACCGTCACAAGCCTGCAGACGCAGGTGGAACAATTGAAGCAGACCTCCGCTCCACCGCCCGTTCACGCGGAGCCCCCTTCGCCACCGCCCGCCGCGGCTCAGCCCGCCGTTCCGTGTGATCCGCCCACGGTGGACGCTAGCGCGGCTCCATCCGTCGGTAAGACTCCCCGGGGCCGTCAGCTAAAGCAGAAGTTTATAACGGCGATGATGGGCTCGAATGCAATAACGAAATCATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL26.5. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93354_HP22.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP22 gene (predicted feature= Hypothetical protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP22 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP22 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGATAATTTTCGTACAACATGTAAACCCCGCCGAACATAAAATACTTGCGGGAGTTTTGCTCGCAACTCTCCGTCAACCCCAAGTAGGGAAGCAGCTCGTTGTGTTCTCCCAAGTGACCGGTGATCAAATCTTCCTGATTTGCGTTGTCGGAAAGAGAAAAGACGACTACCGGCCTGGACCAACACAAGCCCCGGCCCGCGTAAGGCCCGTCGGTGATATACATCGTATTCCACAGTTTCACGTTGGCGGAGTTGACCTTGAGACATTTGCTGACCGCCACCAAATCCCCCATTTTTTTGGCCGCGACCCGTTTTCCCATAACCGTGCTCATCACGGACGAGGCTTTGATGTTCAGCAGCAGCTCCCATACCGTTACGTCGCGGTTCTGAAGCTCGCACCAGGCGTTGACCAAGCGGCTGAAGACCGAGTTAATGTGTTGCCGGAGAACGTCGTAGGTGAATTGCACCTGAGTAAAGGTGGCGTCTCTGGCCGAATTCACTACCCGCAGCGTGCGCTCGAGTGCCTGGCGTCGGACCCTAGAGCGAACCGGCGCCGGAGCCGATCGGGCTCTGGCTCGCGTGTTGTTGACGGCGGAGTCAATGTTCAGGGGCGTCAAAGCCTGATACGCGATCACGAAGCCGCCCGTAGCCAAAAAGTATTGTACGGACCCGTTGCGCGCGTGCGTTAG</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP22. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGATAATTTTCGTACAACATGTAAACCCCGCCGAACATAAAATACTTGCGGGAGTTTTGCTCGCAGCTCTCCGTCAACCCCAAGTAGGGAAGCAGCTCGTTGTGTTCTCCCAAGTGGCCGGTGATCATATCTTCCTGCTTTGCGTTGTCGGAAAGAGAAAAGACGACTACCGGCCTGGACCAACACAAGCCCCGGCCCGCGTAAGGCCCGTCGGTGATATACATCGTATTCCACAGTTTCACGTTGGCGGAGTTGACCTTGAGACATTTGCTGACCGCCACCAAATCCCCCATTTTTTTGGCCGCGACCCGTTTTCCCATAACCGTGCTCATCACGGACGAGGCTTTGATGTTCAGCAGCAGCTCCCATACCGTTACGTCGCGGTTCTGAAGCTCGCACCAGGCGTTGACCAAGCGGCTGAAGACCGAGTTAATGTGTTGCCGGAGAACGTCGTAGGTGAATTGCACCTGAGTAAAGGTGGCGTCTCTGGCCGAATTCACTACCCGCAGCGTGCGCTCGAGTGCCTGGCGTCGGACCCTAGAGCGAGCCGGAGCCGGAGTCGATCGGGCTCTGGCTCGCGTGTTGTTGACGGCGGAGTCAATGTTCAGGGGCGTCAAAGCCTGATACGCGATCACGAAGCCGCCCGTAGCCAAAAAGTATTGTACGGACCCGTTGCGCGCGTGCGTTAG</edomv>\n <edomvd>Consensus DNA sequence for HP22. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93355_HP23.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP23 gene (predicted feature= Hypothetical protein, limited similarity to C3 compliment C3 precursor protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP23 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP23 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGATAGGAAGAAGAGTGGATAACGCGCACCGTTTCGGGCACGGTCTGCCACAGCTTCAGAGTGCAAGTAGCCTGGGTCCGGTTTACCGCGTCCCAAGTAATGTAATAACTTTGCGCCTTGCGTTGAAAATTTCGGTCCGAGGTACGCGTTTCACCCGTTTCCCGGTCTTTCCTTTGGAAATTCTTTATTTGTACGAAACCCAGCAGGTCTTCGTTCATGGTTTCGTTTTTCGCACCCGTATTGTAAAACGGCGACATCTCCACCGTGTCTCCGGTGGCGACGGCCATAAAGTCGTAAGGATAAGGAGATTTGGCCACCGTGTCCACCACCAAGCAGTTGACCGTCACGGACTCTCTTTCCCACACCCATTGGTAATTGACGTGCGTGAAATTCATCGTGCGATAAATGCGCGTGCTCGGGGTGCCTTTGGGCGCTCGTTGCAACTGCCGCCACTCCTGGGTATTGTCGTTGTTGTCCCACATGGTGACGGGGGAGTTGTGTTTGATGGCGGTAGCGGAATTCCCACAAGTGTGATTGCTCTCGATGCGCGTCAGGTCGGCCACGTCCACCGGGTACCTGTCCATTGTGCTGCCCCAAATTTGCTTTTCGCCCAAAAAAGTTTGATAAGAACGCACTATCGTTACTTCTTTGTAAAAAAGGCTGACGTTAAAAATATAAGGCGTGATGTTTTCCTTCCACACGAGCATGATTCCCTCCTCGTAATCTTGTTGATCGGTGTACATGTCGCGACATTTTCGAGGACCTTCGAAGCGCACGAGATCGCTACCCGCCGACAGGCCGCAAACCTCAAAATCTTCAACGGCCGATTCTCCCAGGTTAACTCGCTTGAGCATGTCACTCAAGGTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP23. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGATAGGAAGAAGAGTGGGTAACGCGCACCGTTTCGGGCACGGTCTGCCACAGTTTCAGAGTGCAGGTAGCCTGGGTCCGGTTTACCGCGTCCCAAGTAATGTAATAACTTTGCGCCTTGCGTTGAAAATTTCGGTCCGAGGTATGCGTTTCACCCGTTTCCCGGTCTTTCCTTTGGAAATTCTTTATTTGTACGAAACCCAGCAGGTCTTCGTTCATGGTTTCGTTTTTCGCACCCGTATTGTAAAACGGCGACATCTCCACCGTGTCTCCGGTGGCGACGGCCATAAAGTCGTAAGGATAAGGAGATTTGGCCACCGTGTCCACCACCAAGCAGTTGACGGTCACGGACTCTCTTTCCCACACCCATTGGTAATTGACGTGCGTGAAATTCATCGTCCGGTAAATGCGCGTGCTCGGGGTGCCTTTGGGCGCTCGTTGCAACTGCCGCCACTCCTGGGTATTGTCGTTGTTGTCCCACATGGTGACGGGGGAGTTGTGTTTGATGGCGGTAGCGGAATTCCCGCAAGTGTGATTGCTCTCGATGCGCGTCAGGTCGGCCACGTCCACCGGGTACCTGTCCATGGTGCTGCCCCAAATTTGCTTTTCGCCCAAAAAAGTTTGATAAGAACGCACTATCGTTACTTCTTTGTAAAAAAGGCTGACGTTAAAAATATAAGGCGTGATGTTTTCCTTCCACACGAGCATGATTCCCTCCTCGTAATCTTGTTGATCGGTGTACATGTCGCGACATTTTCGAGGACCTTCGAAGCGCACGAGATCGCTACCCGCCGACAGGCCGCAAACCTCAAAATCTTCAACGGCCGATTCCCCCAGGTTAACTCGCTTGAGCATGTCGCTCAAGGTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP23. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGTCTGCCACAGCTTCAGAGTGCAGGTAGCCTGGGTCCGGTTTACCGCGTCCCAAGTAATGTAATAACTTTGCGCCTTGCGTTGAAAATTTCGGTCCGAGGTATGCGTTTCACCCGTTTCCCGGTCTTTCCTTTGGAAATTCTTTATTTGTACGAAACCCAGCAGGTCTTCGTTCATGGTTTCGTTTTTCGCACCCGTATTGTAAAACGGCGACATCTCCACCGTGTCTCCGGTGGCGACGGCCATAAAGTCGTAAGGATAAGGAGATTTGGCCACCGTGTCCACCACCAAGCAGTTGACGGTCACGGACTCTCTTTCCCACACCCATTGGTAATTGACGTGCGTGAAATTCATCGTCCGGTAAATGCGCGTGCTCGGGGTGCCTTTGGGCGCTCGTTGCAACTGCCGCCACTCCTGGGTATTGTCGTTGTTGTCCCACATGGTGACGGGGGAGTTGTGTTTGATGGCGGTAGCGGAATTCCCGCAAGTGTGATTGCTCTCGATGCGCGTCAGGTCGGCCACGTCCACCGGGTACCTGTCCATGGTGCTGCCCCAAATTTGCTTTTCGCCCAAAAAAGTTTGATAAGAACGCACTATCGTTACTTCTTTGTAAAAAAGGCTGACGTTAAAAATATAAGGCGTGATGTTTTCCTTCCACACGAGCATGATTCCCTCCTCGTAATCTTGTTGATCGGTGTACATGTCGCGACATTTTCGAGGACCTTCGAAGCGCACGAGATCGCTACCCGCCGACAGGCCGCAAACCTCAAAATCTTCAACGGCCGATTCCCCCAGGTTAACTCGCTTGAGCATGTCGCTCAAGGTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP23. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGACGCTCTCGGACTCTCTCTCCCACACCCATCGGTACTTGATGTACGAGAAATTCATCGTCCGGTAAATGCGCGTGCTCGGCGTGCCTTTGGGCTCTCTTTGCAACTGTCGCCACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTACATGTTGCGGCATCTTTGGGTACATTCTAATCGCCTGATCTTGCTACCTGCCGACAGCCTGCATAACGTAAAATCTGCGACGGCCGATCCCCCGAGGTTCACTCGCTTGAGCATGTCGCTCAAGGTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP23. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTTCAGAGTGCAAGTAGCCTGGGTCCGGTTTACCGCGTCCCAAGTAATGTAATAACTTTGCGCCTTGCGTTGAAAATTTCGGTCCGAGGTACGCGTTTCACCCGTTTCCCGGTCTTTCCTTTGGAAATTCTTTATTTGTACGAAACCCAGCAGGTCTTCGTTCATGGTTTCGTTTTTCGCACCCGTATTGTAAAACGGCGACATCTCCACCGTGTCTCCGGTGGCGACGGCCATAAAGTCGTAAGGATAAGGAGATTTGGCCACCGTGTCCACCACCAAGCAGTTGACCGTCACGGACTCTCTTTCCCACACCCATTGGTAATTGACGTGCGTGAAATTCATCGTGCGATAAATGCGCGTGCTCGGGGTGCCTTTGGGCGCTCGTTGCAACTGCCGCCACTCCTGGGTATTGTCGTTGTTGTCCCACATGGTGACGGGGGAGTTGTGTTTGATGGCGGTAGCGGAATTCCCACAAGTGTGATTGCTCTCGATGCGCGTCAGGTCGGCCACGTCCACCGGGTACCTGTCCATTGTGCTGCCCCAAATTTGCTTTTCGCCCAAAAAAGTTTGATAAGAACGCACTATCGTTACTTCTTTGTAAAAAAGGCTGACGTTAAAAATATAAGGCGTGATGTTTTCCTTCCACACGAGCATGATTCCCTCCTCGTAATCTTGTTGATCGGTGTACATGTCGCGACATTTTCGAGGACCTTCGAAGCGCACGAGATCGCTACCCGCCGACAGGCCGCAAACCTCAAAATCTTCAACGGCCGATTCTCCCAGGTTAACTCGCTTGAGCATGTCACTCAAGGTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP23.\nDNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTGCCACAGCTTCAGAGTGCAAGTAGCCTGGGTCCGGTTTACCGCGTCCCAAGTAATGTAATAACTTTGCGCCTTGCGTTGAAAATTTCGGTCCGAGGTACGCGTTTCACCCGTTTCCCGGTCTTTCCTTTGGAAATTCTTTATTTGTACGAAACCCAGCAGGTCTTCGTTCATGGTTTCGTTTTTCGCACCCGTATTGTAAAACGGCGACATCTCCACCGTGTCTCCGGTGGCGACGGCCATAAAGTCGTAAGGATAAGGAGATTTGGCCACCGTGTCCACCACCAAGCAGTTGACCGTCACGGACTCTCTTTCCCACACCCATTGGTAATTGACGTGCGTGAAATTCATCGTGCGATAAATGCGCGTGCTCGGGGTGCCTTTGGGCGCTCGTTGCAACTGCCGCCACTCCTGGGTATTGTCGTTGTTGTCCCACATGGTGACGGGGGAGTTGTGTTTGATGGCGGTAGCGGAATTCCCACAAGTGTGATTGCTCTCGATGCGCGTCAGGTCGGCCACGTCCACCGGGTACCTGTCCATTGTGCTGCCCCAAATTTGCTTTTCGCCCAAAAAAGTTTGATAAGAACGCACTATCGTTACTTCTTTGTAAAAAAGGCTGACGTTAAAAATATAAGGCGTGATGTTTTCCTTCCACACGAGCATGATTCCCTCCTCGTAATCTTGTTGATCGGTGTACATGTCGCGACATTTTCGAGGACCTTCGAAGCGCACGAGATCGCTACCCGCCGACAGGCCGCAAACCTCAAAATCTTCAACGGCCGATTCTCCCAGGTTAACTCGCTTGAGCATGTCACTCAAGGTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP23.\nDNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93356_FUL27.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL27 gene (predicted feature= Glycoprotein B) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL27 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL27 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGATCATCGTCCTGTTATTATTTTGCGGGGCGACGTTCGCCCAGCCGTCCGGCAATGATGAAAAAAGAAACTTAACCTTGAGTGACATGCTCAAGCGAGTTAACCTGGGAGAATCGGCCGTTGAAGATTTTGAGGTTTGCGGCCTGTCGGCGGGTAGCGATCTCGTGCGCTTCGAAGGTCCTCGAAAATGTCGCGACATGTACACCGATCAACAAGATTACGAGGAGGGAATCATGCTCGTGTGGAAGGAAAACATCACGCCTTATATTTTTAACGTCAGCCTTTTTTACAAAGAAGTAACGATAGTGCGTTCTTATCAAACTTTTTTGGGCGAAAAGCAAATTTGGGGCAGCACAATGGACAGGTACCCGGTGGACGTGGCCGACCTGACGCGCATCGAGAGCAATCACACTTGTGGGAATTCCGCTACCGCCATCAAACACAACTCCCCCGTCACCATGTGGGACAACAACGACAATACCCAGGAGTGGCGGCAGTTGCAACGAGCGCCCAAAGGCACCCCGAGCACGCGCATTTATCGCACGATGAATTTCACGCACGTCAATTACCAATGGGTGTGGGAAAGAGAGTCCGTGACGGTCAACTGCTTGGTGGTGGACACGGTGGCCAAATCTCCTTATCCTTACGACTTTATGGCCGTCGCCACCGGAGACACGGTGGAGATGTCGCCGTTTTACAATACGGGTGCGAAAAACGAAACCATGAACGAAGACCTGCTGGGTTTCGTACAAATAAAGAATTTCCAAAGGAAAGACCGGGAAACGGGTGAAACGCGTACCTCGGACCGAAATTTTCAACGCAAGGCGCAAAGTTATTACATTACTTGGGACGCGGTAAACCGGACCCAGGCTACTTGCACTCTGAAGCTGTGGCAGACCGTGCCCGAAACGGTGCGCGTTATCCACTCTTCTTCCTATCATTTTACCGCTCAAGATCTCACTTCCACTCTTGTGGTGCCGTCGGGGGTTAATTTTAGCGTGTCCGAGTTGAGCGACGCGTCTTGCGTCACGCGCGACAGCCAAAAGTTAATCGACGATATTTTCGACTCCCGTTACAACCTAACGCACGCGCGCAACGGGTCCGTACAATACTTTTTGGCTACGGGCGGCTTCGTGATCGCGTATCAGGCTTTGACGCCCCTGAACATTGACTCCGCCGTCAACAACACGCGAGCCAGAGCCCGATCGGCTCCGGCGCCGGTTCGCTCTAGGGTCCGACGCCAGGCACTCGAGCGCACGCTGCGGGTAGTGAATTCGGCCAGAGACGCCACCTTTACTCAGGTGCAATTCACCTACGACGTTCTCCGGCAACACATTAACTCGGTCTTCAGCCGCTTGGTCAACGCCTGGTGCGAGCTTCAGAACCGCGACGTAACGGTATGGGAGCTGCTGCTGAACATCAAAGCCTCGTCCGTGATGAGCACGGTTATGGGAAAACGGGTCGCGGCCAAAAAAATGGGGGATTTGGTGGCGGTCAGCAAATGTCTCAAGGTCAACTCCGCCAACGTGAAACTGTGGAATACGATGTATATCACCGACGGGCCTTACGCGGGCCGGGGCTTGTGTTGGTCCAGGCCGGTAGTCGTCTTTTCTCTTTCCGACAACGCAAATCAGGAAGATTTGATCACCGGTCACTTGGGAGAACACAACGAGCTGCTTCCCTACTTGGGGTTGACGGAGAGTTGCGAGCAAAACTCCCGCAAGTATTTTATGTTCGGCGGGGTTTACATGTTGTACGAAAATTATCATTTCGTCCGCCCGGTGACTTTGGACGAGATTACGGAAGTGCGCACTTTTGTAGAGTTTAACGTTTCCCTTCTACCCGACTACGATATCCAGCACCTAGAGGTCTATTCCCAGGAGGAAATCAAGCTCTCCAATCCGGCAGATTACCTGGAAGTGACGCGCTTTCAAAACGCTTACTTGCAACTGGTCAACGATCTGAAACTGGTCGTGTACGGCGACGCCAGCCGCGCCTTCATCGCCCGCGTTCAGGCCTTTTTCGGAAGCCTCGGTACCGTGGGCGAAGCGCTGGGAAAGGTCATCGGTGTAGTAGGTGGGGCGCTGGCCGGCGTGCTCAATGGGATCGTTGGTTTTTTGACCAATCCTTTCGGGGGCTTTACCATTTTGCTGCTAGTCGGAGGCGGTCTGATCGCCGCTTTCCTGGCACTGAAATTCGTCCAGACGTTTAAAAAGAACCCCCTTTCGACCATTTTCCCGGTCAGTGCCAACCAAGGGCAATGGGATCCCAAAGAGCCCCTGCCGGAGCTCAGCAAAAAACGGCAGCAAGAAATCAACGATTTCCTGCGAGATCTGAGCCTTCAGTCCGAAGCGGAAAGACGTGAGAAAAAAGCGGCGAGTTCCTCCGGATGGTCGCTGGCCAAAGAAAAACTATCTAACGTCAAAGACAACTTTACGGACGCTAAAAATAAAATGATGAAATCTTTACGCCACCGCGGAAACGGATACGCTCCCGTTTCGACGAGCACGGCCAGTATGTATCTAGACGACGAATTATCGACGTATTCTCAGGTCTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL27. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGATCATCGTCCTGTTATTATTTTGCGGGGCGACGTTCGCCCAGCCGTCCGGCAATGATGAAAAAAGAAACTTAACCTTGAGCGACATGCTCAAGCGAGTTAACCTGGGGGAATCGGCCGTTGAAGATTTTGAGGTTTGCGGCCTGTCGGCGGGTAGCGATCTCGTGCGCTTCGAAGGTCCTCGAAAATGTCGCGACATGTACACCGATCAACAAGATTACGAGGAGGGAATCATGCTCGTGTGGAAGGAAAACATCACGCCTTATATTTTTAACGTCAGCCTTTTTTACAAAGAAGTAACGATAGTGCGTTCTTATCAAACTTTTTTGGGCGAAAAGCAAATTTGGGGCAGCACCATGGACAGGTACCCGGTGGACGTGGCCGACCTGACGCGCATCGAGAGCAATCACACTTGCGGGAATTCCGCTACCGCCATCAAACACAACTCCCCCGTCACCATGTGGGACAACAACGACAATACCCAGGAGTGGCGGCAGTTGCAACGAGCGCCCAAAGGCACCCCGAGCACGCGCATTTACCGGACGATGAATTTCACGCACGTCAATTACCAATGGGTGTGGGAAAGAGAGTCCGTGACCGTCAACTGCTTGGTGGTGGACACGGTGGCCAAATCTCCTTATCCTTACGACTTTATGGCCGTCGCCACCGGAGACACGGTGGAGATGTCGCCGTTTTACAATACGGGTGCGAAAAACGAAACCATGAACGAAGACCTGCTGGGTTTCGTACAAATAAAGAATTTCCAAAGGAAAGACCGGGAAACGGGTGAAACGCATACCTCGGACCGAAATTTTCAACGCAAGGCGCAAAGTTATTACATTACTTGGGACGCGGTAAACCGGACCCAGGCTACCTGCACTCTGAAACTGTGGCAGACCGTGCCCGAAACGGTGCGCGTTACCCACTCTTCTTCCTATCATTTTACCGCTCAAGATCTCACTTCCACTCTGGTGGTGCCGTCGGGGGTTAATTTTAGCGTGTCCGAGTTGAGCGACGCGTCTTGCGTCACGCGCGACAGCCAAAAGTTAATCGACGATATTTTCGACTCCCGTTACAACCTAACGCACGCGCGCAACGGGTCCGTACAATACTTTTTGGCTACGGGCGGCTTCGTGATCGCGTATCAGGCTTTGACGCCCCTGAACATTGACTCCGCCGTCAACAACACGCGAGCCAGAGCCCGATCGACTCCGGCTCCGGCTCGCTCTAGGGTCCGACGCCAGGCACTCGAGCGCACGCTGCGGGTAGTGAATTCGGCCAGAGACGCCACCTTTACTCAGGTGCAATTCACCTACGACGTTCTCCGGCAACACATTAACTCGGTCTTCAGCCGCTTGGTCAACGCCTGGTGCGAGCTTCAGAACCGCGACGTAACGGTATGGGAGCTGCTGCTGAACATCAAAGCCTCGTCCGTGATGAGCACGGTTATGGGAAAACGGGTCGCGGCCAAAAAAATGGGGGATTTGGTGGCGGTCAGCAAATGTCTCAAGGTCAACTCCGCCAACGTGAAACTGTGGAATACGATGTATATCACCGACGGGCCTTACGCGGGCCGGGGCTTGTGTTGGTCCAGGCCGGTAGTCGTCTTTTCTCTTTCCGACAACGCAAAGCAGGAAGATATGATCACCGGCCACTTGGGAGAACACAACGAGCTGCTTCCCTACTTGGGGTTGACGGAGAGCTGCGAGCAAAACTCCCGCAAGTATTTTATGTTCGGCGGGGTTTACATGTTGTACGAAAATTATCATTTCGTCCGCCCGGTGACTTTGGACGAAATTACGGAAGTGCGCACTTTTGTAGAATTTAACGTTTCCCTTCTACCCGACTACGATATCCAGCACCTAGAGGTCTATTCCCAGGAGGAAATCAAGCTCTCCAATCCGGCAGATTACCTGGAAGTGACGCGCTTTCAAAACGCTTACTTGCAACTGGTCAACGATCTGAAACTGGTCGTGTACGGCGACGCCAGCCGCGCCTTCATCGCCCGCGTTCAGGCCTTTTTCGGAAGCCTCGGTACCGTGGGCGAAGCGCTGGGAAAGGTCATCGGTGTAGTAGGTGGGGCGCTGGCCGGCGTGCTCAATGGGATCGTTGGTTTTTTGACCAATCCTTTCGGGGGCTTTACCATTTTGCTGCTAGTCGGAGGCGGTCTGATCGCCGCTTTCCTAGCCCTGAAATTCGTCCAGACGTTTAAAAAGAACCCCCTTTCGACCATTTTCCCGGTCAGTGCCAACCAAGGGCAATGGGATCCCAAAGAGCCCCTGCCGGAGCTCAGCAAAAAACGGCAGCAAGAAATCAACGATTTCCTGCGAGATCTGAGCCTTCAGTCCGAGGCGGAAAGACGTGAGAAAAAAGCGGCGAGTTCCTCCGGATGGTCGCTGGCCAAGGAAAAACTATCTAACGTCAAAGACAACTTTACGGACGCTAAAAATAAAATGATGAAATCTTTACGCCACCGCGGAAACGGATACGCTCCCGTTTCGACGAGCATGGCCAGTATGTATCTAGACGACGAATTATCGACGTATTCTCAGGTCTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL27. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93357_FUL28.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL28 gene (predicted feature= ICP18.5, DNA cleavage/packaging protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL28 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL28 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGATTCTCGAGAAACCGTCGCTCTTGTTTCCAGACTCAACGCTTTTTTGTTTCAGCTCGAACTGCTCAAACGCTGTGACCCGGAAGCCGTGGTGGTCTCGCCGCTTCGCCGCTCGCTCAAATTGAATTGTTTAATGGTCGCTTACTTGCGCGATCGCTTGGAGGTTCCTGTCAAAGAGCAGAACCGAACCGAAGCGGATTACGCCCTCTATAGCCTCGGCCTAGCGCTCACAAGCGCTTGTCGCGAAGCCGGGCGCTGTTGGCAACTTTTGGAAGAATTCGAGAGAAATCGCGACAAACGAGCGTTTTTCCGGGGCGCCATGGGTCTCGACGTTCCGTGCCCCTATCACGTGGAAACCGAACTCAGGGCTTACGGTGACGTTCGCGTTACTAAACAGCTAAGTACCGTCAACGACGCGGAAAATCTTTTGAAACAGGTTAATTATATCCACACGGTGGTCCCTGAAGCCGCCGCCGCCGAGCTGTTCGCGCGGATCGATGAGTTTTTTTCGGAAACGCTGGCAAACGGCCCCGTGGCCGCTTTCGAGGCTTACGACGAGTCTGCCCCTTGCGCGGTGTGTTTCGAGGAGCTGTGCGTCACGGCTAACCAAGGCCAAAGCGTGTACAAACGTTTGGCCGATCGGGCGTGCGATCATCTGGCCACCCGTTACCAGGTGCACGTGGACGAGGACGACCTGCTGAAAAACCTGCCTTACGCTGGCGGTCACGCGCCGCAGCGCTTGAACGCCTTGTGCGAGGATTTGCGTCGCGCGCGGCGCGAAGCGCAAGACGAGCGACAAAGAACGGAAAACGGGTGTAGCGCCGCGGAGAGCGCCGTGATGGACGAAACGGAACGCCTGTTAAACTCGTTCGACGTTTTCTGCAACGTTCCGCCCGCCGTCTACAAAATGAGCGAATTAAAATTTTGGCTGCTGGCCGGGTCGGGCGACGAAACCGCCATCGACCTTTACGGGCGCCGCCTGGCGGACCTGGAGGAAAAGGACGCGCTTCTGGCGCGTCAAGAGGCCCTGACCTCACTACGCCTCTTCGGGGTTCGATTAACTCATTTTCACGATCTTTTCCCACCGGCAGATCCCATGGAGAAAGTCGCCGTGGGTTCTCCCCGGTTACCGCCCGAAACCCGCATGGTCGCGCTAATTAACGCCTTTTACGCAAGGGCGGCGGACGTTCCCCTCTTTCGCCGGCTGCGCGAAACGGGTGAGCGGAATACGGAAGCCTTACGAAAGGTCCTCCTCCAAATTCGGTCCGGGGAGACCGCGGAAGAGGAAAGCGACGACGGGCGGGACACTGCCGTGGGCGAAAGTTTCCGTTCGCAAAATGAGTCGCTGCGGGATCTGGAAGAGCTCGAACGGCGCGTGCGGGGCGAGACCGAAGAACGCAAGAGGGCCTACGCCGCGCGTCTCTCCCGACGCTCCTTTTTGAATCTCAGCAAGTGCGTGGAAAAACAGCGAGCGTTTCTGGACAAAATGCTTAGCGTAAACGTGTGGGGCCAGTTTCTGCTCGAAGCGGCCGTGCGCACGCGCAACGGTTTTTCGCGCCGCGCACGATTTTTGGAGCGCGTGACCGGTTTTGGAGGGGAAGTGAGGGACAAACGCCACTGCCGCACTGACTACGATGCACGTCAGTTTGTCCGAAACGCCCTTTTGCGACACGAGGTCGATCCCGCGCTCCTGTCCGAATTGGTCAATCGATTTTACGAACTGATCAACGGTCCCTATTTTACTCACGCCTACCACGTGTTCGCACAGCCTCACAACACACCCCTTTATTTTTCGGTGGAGAACGTCGGCCTACTGCCGCATATAAAGAACGAGCTAGCCTCTTTCATGTTGATTCGCAATCACCGGGAATGGATGGTGAGCGAATATAAAGAGTTTTACAAATTTCCGCCCGTTTGCGACCCAGAAAAGACCGGCGCGTTAAACGACCTGCAACGCTTAGCCTGGCGATACGTTCGAGAGCTGGTGCTCGCTTCGGCGCTCTTTCATGCCGCGTTTGGCAGAGACCACGTATTAATTAAACGGGCCGACCTGTCGTTCGGCAAAGAGGAGGACGGCCTTTATCTGACTTATGAGACCGAGTGTCCCTTGGTAGTTGTTTTAGGCGCTCGAGACGGGCGCCTGGTCCCAGGAGAATCTTTGGTGGCGCTCGAGACCGACCTCTACTCCGCCTTTGATACGGTTCTGCGTTACCGCCGCGAGAGAGATCACGCGCCCTCGCCGGCTCTATGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL28. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGATTCTCGAGAAACCGTCGCTCTTGTTTCCAGACTCAACGCTTTCTTATTTCAGCTCGAACTGCTCAAACGCTGTGACCCGGAAGCCGTGGTGGTCTCGCCGCTTCGCCGCTCGCTCAAATTGAATTGTTTAATGGTCGCTTACTTGCGCGATCGCTTGGAGGTTCATGTCAAAGAGCAGAACCGAACCGAAGCGGATTACGCCCTCTATAGCCTCGGCCTAGCGCTCACAAGCGCTTGTCGCGAAGCCGGGCGCTGTTGGCAGCTTTTGGAAGAATTCGAGAGAAATCGCGACAAACGAGCGTTTTTCCGGGGCGCCATGGGTCTCGACGTTCCGTGCCCCTATCACGTGGAAACCGAACTCAGGGCTTACGGTGACGTTCGCGTTACTAAACAGCTAAGTACCGTCAACGACGCGGAAAATCTTTTGAAACAGGTTAATTATATCCACGCGGTGGTCCCTGAAGCCGCCGCCGCCGAGCTGTTCGCGCGGATCGATGACTTTTTTTCGGAAACGCTGGCAAACGGCCCCGTGGCCGCTTTCGAGGCTTACGACGAGTCTGCCCCCTGCGCGGTGTGTTTCGAGGAGCTGTGCGTCACGGCCAACCAAGGCCAGAGCGTGTACAAACGTTTGGCCGATCGGGTGTGCGACCATCTGGCCACCCGCTACCAGGTGCACGTGGACGAGGACGACCTGCTGAAAAACCTGCCTTACGCTGGCGGTCACGCGCCGCAGCGCTTGAACGCATTGTGCGAGGATTTGCGTCACGCGCGGCACGAAGCGCAAGACGAGCGACAAAAAGCGGAAAACGGGTGTGGCGCCACAGAGAGCGCCGTGATGGACGAAACGGAACGCCTGTTAAATTCGTTCGACGTTTTCTGCAACGTTCCGCCCGCCGTCTACAAAATGAGCGAATTAAAATTTTGGCTGCTGGCCGGGTCGGGCGACGAAACCGCCATCGACCTTTACGGGCGCCGCCTGGCGGACCTGGAGGAAAAGGACGCGCTTCTGGCGCGTCAAGAGGCCCTGACCTCACTACGCCTCTTCGGGGTTCGATTAACTCATTTTCACGATCTTTTCCCACCGGCAGATCCCATGGAGAAAGTCGCCGTGGGTTCTCCCCGGTTACCGCCCGAAACCCGCATGGTCGCGCTAATTAACGCCTTTTACGCAAGGGCGGCGGACGTTCCCCTCTTTCGCCGGCTGCGCGAAACGGGTGAGCGGAATACGGAAGCCTTACGAAAGGTCCTCGTCCAAATTCAGTCCGGGGAGACCGCGGAAGGGGAAAGCGACGACGGGCGAGAGACTGCCGTGGGCGAAAGTTTCCGTTCGCAAAATGAGTCGCTGCGGGATCTGGAAGAGCTCGAACGGCGCGTGCGGGGCGAGACCGAAGAACGCAAGAGGGCCTACGCCGCGCGTCTCTCCCGACGCTCCTTTTTGAACCTCAGCAAGTGCGTGGAAAAACAGCGAGCGTTTCTGGACAAAATGCTTAGCGTAAACGTGTGGGGCCAGTTTCTGCTCGAAGCGGCCGTGCGCACGCGCAACGGTTTTTCGCGCCGCGCACGTTTTTTGGAGCGCGTGACCGGTTTTGGAGGGGAAGTGAGGGACAAACGCCACTGCCGCACTGACTACGACGCTCGTCAGTTTGTCCGAAACGCCCTTTTGCGACACGAGGTCGATCCCGCGCTCCTGTCCGAATTGGTCAATCGATTTTACGAACTGATCAACGGTCCCTATTTTACTCACGCCTACCACGTGTTCGCACAGCCTCACAACACACCCCTTTATTTTTCGGTGGAGAACGTCGGCCTACTGCCGCATATAAAGAACGAGCTAGCCTCTTTCATGTTGATTCGCAATCACCGGGAATGGATGGTGAGCGAATATAAAGAGTTTTACAAATTCCCGCCCGTTTGCGACCCAGAAAAGACCGGCGCGTTAAACGACCTGCAACGCTTAGCCTGGCGATACGTTCGAGAGCTGGTGCTCGCTTCGGCGCTCTTTCATGCCGCGTTTGGCAGAGACCACGTATTAATTAAACGGGCCGACCTGTCGTTCGGCAAAGAGGAGGACGGCCTTTATCTGACTTATGAGACCGAGTGTCCCTTGGTAGTTGTTTTAGGCGCTCGAGACGGGCGCCTGGTCCCAGGAGAATCTTTGGTGGCGCTCGAGACCGACCTCTACTCCGCCTTTGATACGGTCCTGCGCTACCGCCGCGAGAGAGATCACGCGCCCTCGCCGGCTCTATGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL28. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCTCTATAGCCTCAGNNNNNNNNNNNCAAGCGCTTGGCGCGAAGCCGGGCGCGGTTGGGAGCTTTTGGAAGAATTCGAGAGAAATCGCGACAAACGAGCGTTTTTCCGGGGCGCCATGGGTCGCGACGTTCCGTGCCCCTATCACGTGGCAACCGAACTCAGGGCTTACGGTGACGTTCGCGGTACTAAACAGCTAAGTACCGTCAACGACGCGGACAATCTGTTGAAACAGGTTAATTATATCCACGCGGTGGTCCCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAGTCTGCCCCCTGCGCGGTGTGTTTCGAGGATCTGTTCTTCACGGCCAACCAAGGCCAGAGCGTGTACAAACGATTGGCCGATCGGGTGTGCGACCATCTGGCAACCCGCTAACAGGNNNNNNNNNNNNNNNNNNNNNTGCTAACCAACCTTCCTTACGCTGGCGTACATGCGCCGCAGCGCTTGAACGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTTAANNNNNNNNNNNGTTTTCTGCAACGTTCCGCCCGCCGTCTACAAACTGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCGGGCGACGAAACCGCCATCGACCTTTACGTGCGCCGACTGGCGGACCTGGAGGAAAAGGACGCGCTTCTGGCGCGTCAAGAGGCCCTGAGCCAACTAAGCCTCATCGACTCTCGATTAACTCATTGTCTCGCTCATTTATGCCCGTCAGATCCCATGCGCAAAGGAGCTGTTGGTTCTCCTCGGTTACCGCCCGAAGCCCGCATGGTCACGCTATTGAACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGACTTCGGCGCTCGTCAGTTTGTCCGAAATCCACTCTTGCGAGATGAGGGCTATCCCGCGTTCCTATCCTAATTGGCCAATCCAGTCTACGAACTGATCAACGGTCTCTATTTTACTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGGCCTGTCGTTCGGCAAAGAGGAGGACGGCCTTGAGCTGACTTATGAGACCGAGTGTCCCTTGGTAGTTGTTTTAGGCGCTCGAGACGGGCGCCTGGTCCCAGGAGAATCTTTGGTGGCGCTCGAGACCGACCTCTACTCCGCCTTTGATACGGTCCTGCGCTACCGCCGCGAGAAAGACCACCCGCCCTCGCCGGCTCTATGC</edomv>\n <edomvd>Consensus DNA sequence for F-UL28. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTACGCGCCGCGCTCGTTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAGTCCCTTGGTAGTTGTTATAGGCGCTCGAGACGGGCGCCTGGTCCCAGGAGAAGCTTTGATGGCGCTCGAGACCGACCTCTACTNCGGCTTTGATACGGNNCTGCGCTACCGCCCCGAGAGAGNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL28. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93358_FUL29.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL29 gene (predicted feature= UL29 single-stranded DNA binding protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL29 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL29 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGACGCCTCGATGACAAACCCTGGCCGGGCTTCGGCCGCGGCTTTTATTTACATTTTGCCCTCCTCCGCGGTCGTGCCGGAAGAGTGGCGCTACCTTTGCGCCCGGAGCGCAGACAGCGCGCTCTGCGTGGCCCCGCTTTTGGAAGGCCTGACGGTAGAATCGGGATTCGAACACAATGTCATGTGGATCACCGGCTTGAAAACCAGCGGCCCTTCTTGCGACGCTCTTTTGACGCGTCTCAGCCCGAGCTACTTTTACCCTTCGGTGTTTATTTTTCACGGCGGGGAGGCGGTACCTCCTACCTCTCGCGCGCCGAACCTTAGTCGGCTCTGCGCCCGAGCTCGAAGCGAATTCGGTTTTTCCGAGTTCGATCCCGATCGGGATTTTGCTGGCTGGCACGAGACGAGCGCCGAGGAGATATGTCGGCACGTTCAGATGGAGCCGGCCACCAGCTTGATTTATCTGGTCACGACCGCCGCTTTCAAGGAGGGGGTTTATTTGGCTAACACCTTTGCCCACTGGGGCCTGGTGGAACAAATAGCGATAGGGGGTCACAAAGCGGCACGCGTGCCGCTTTACCCGATTCAGATGATGTTGCAAGATCAACTGAAGCTGGCACGCAATCCGTTCAAGATCAAAAAGACCGCTTTCCTGGAGGGCACCGAAGCGCCCACGCCGTTTTTCAATCGCCAACTGGGACGTTTGCTTTTTGACCACGTGGTGAGCCCCTCGGCGGTAGCCGTTCGCACGCGCGAAGCGCATTCGGTTGCCGCCGGCCTGGCCTATTTGGCACTCGATGACAAGTTTGAAAATTGCTTGTTGGCCGAGAAGAATTTTTTGGCTCTTCGCCCTCCGGGGGGTAAACCACCCCCGGAATGGGCGAAAACTGCCACGGAGTGCCGCGCAGCGGACGCCATGGCGGCGGAACTGGCTCTAAACGTTACAGCGGCTTTCGAAGCGTCGGTGCACGACCCGCCGTCCTGCGCGTACCCCGATTGGCCTTTATTTCAACAACCCGGCGTGGACCGGGTAGCGGCTCTTTCGGAATACTACACTAGAATCGCATCCCACGCCGCCGCCCTAATCTTCTCAGGTAATTCCTGTTTGTATATGACCGAGGTAGGTGACGCTCGCCTCAAGAGCCCGGGGCGCGATAGCAACGCGGGACGCGAGATGGCACCCACGTCTCCAGACAGGTTTTTCTTGTTCAACGGGCTTTTTTTGGGCCCGGCGGCCAGGGTAGATGCGGAAGGCAAGCTCTGTCGCTGCGGCGATGAACCGAAATTGGAGCTGGCCTGGGGCAAGGCCCCCGAGTTCACTTTGCATCACCTCGCCTACGCTTGTGGGTTCTGCCCCAGTACGCTGGCCCGCGTCATGTTCTACCTGGAAAGGTGCGATCGAACCGTTTCCAGGGCCGATCCCACCACCCTCCTACAGTACTTGAACGCCAAGACTGAAGAGGGCGCGTGCGATCTCTGCGATGTCGAAACGCGGCACGTGTGCCCCGCCACGACCTTTTTCAAAGTGAAAAGCCGATTGCCGCTCTTCTCTTCCGCCAAGCGAGGCGGAATCGTTATCACGGGGGCGGTGAATACTCCGTACAACGACTGTGAACTGCTGGGCAACTACGCCTCCTTTAACGCCTTACGCCGTTCTGGCGAAAAAGCAGGCGGCGGCGACGGGCCCCGCGGGCCCGACAGCTACCGCCGGACCAACGACCGGCTCTTATCCGAGCTCGGGAAGGCGGGTTACGTAGATTTGGAGAGCGGCGAAGACTCTCCCGATTTAGATCGCTTGATCGTCAACCGGTCATCGTTCGTAAAGGTGGTCAGCGACGTCAACCGCTTGATCCACCAAGAAGGGGAGCGCTTCGTGCAAGGAATATCCGAAGACTGCGAATTCAAATTTCGCGAAGCCGCGCGAGATGCTACCCATCTTTTAACCGTGTCGCTGAACCCGTACCACGCGGCATGCTGCCCTTTCATGACCCAAGCCTTTTACCGGTCTCTAGGGGTGACCGTGCAAGACATGGCCTTGGGCCAGTGTGCGAGCATCGTCACGGCGGCGGCGGTCGATTCGAAATCGGGGCGGAACGCGGCTCAGCCGGTATTGAAGAAAAAGTTCCTCGGGATGCTCAACAAAGGGTTTTTCAACACCCGCGACGTTACGGCCGTGTTCAAGGCGCCGGGAGTCGCGGCCTTCGATGTGACCGCGCCTCTGACGGAGCGCAGCGAACGGCAGTACGAGTTTGAGATCGGGCGCCTCAATCTCCTGTGTCCGCGGGACCTCCGCCTGAAACATCGCATTCTTTTTCGCGGTGCGGCCTGGGGCGAATCGACGCGCGGAGGTCGCTTCGGTCACGCCACTCAGGTCCTCAACCGGGCCGAGAAAGTGATGCAGTTACAACCCATCCTCAACGGACCGCACGGTTACCTGCTGAAGCGGTTCCACGAAAGGCTGTTCCCAACCAACAAAGCGATCTCCGCCATGGCCTTCTGGAACCGAGCTCAAAACAACAAGCTGCTCCTGGCTTCCAGCGAGCAGCTGGAGGATATCCTGCAGTTCGTAGGGTTCGTCCGGCGCGAGCACCAACGATACATGCGTTCGAACGTTATTCAAACCCCCCCGCCCAACCTTTACGCGTACGCTCAGTTCGCGCTGGCGAATTACATTCTCGACGCCTGCGGCCAAACGGCCAATTTTATAGGGCTGCTGGTAGCGCTCGTGACCGGCACGCGGCGCATCAACCCCGATTCGGCCGTGCATCTTTTAGGCCCGAAAGACCGAACGCCGGCGGCCGCCTTAACGGCCGTGGAAAGCGCTCAGCACCACGAACAAAAGAGTTGTCTCAATAACGTATGCTACGCCGCCAAGTGGGTAACCGCTCAATTGCCTTTAGTCACCTGCCCGGTGTCGGTAAGCAAATACACCGGACAGCAAGGAGGAGACACGCTCTACCAATGTGGAAATCTCACCCACTTCGCCAACGGCGGAGGGGTCGACCCGGCGGCGGCGATCTACGACTTTAATAAGCGGTTTTTCGTCTGCACTCCGCGGGTGGGTAACGTAATTAAAGCCTCTTCGGCGGCGGGCGACCGAACAAGCCACGAGGGCGGCGTGGTGCTGGAGGCCTTCAACAAATTGTTACAGGAGTGTCCCGCTAACTTGATAACAGAGCTTCTCCTCACGCTGGTGAAGCACCGGGGGGCGGCCGTGCGAAACCTGAGCCGGGACGATTTTCTCAGTTTGACGCAAGATCCGTATTTGGCGGAAGCGATGACGGAAGCGCACGCGAGCTTGGTGGTACCGGGGGCCATGCGGGAATGGACGGTGGCCGAAGCCCTCTGCGCTTTAGGAAACGAGGCGCCGGAGGACGGGGAGGATGAAGAAGGCGTGTCGTTCGACTTCGAGGGCTGCGGTGACTCGGGAATGGAGGAGTGCGAAATGATCGAGGAAGAGCTTTCGGAAAAGGTCGCTGTCAAGCGCCGGGCGCCCCAGGAAGACCTTCTGGCGGCTTTGGACGCTGAGTGCCTCGCGACCGAAGCGAAAAGAGCCAAGCCCCTATCGTTAGACGAGCTTTTATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL29. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGACGCCTCGATGACAAACCCTGGCCGGGCTTCGGCCGCGGCTTTTATTTACATTTTGCCCTCCTCCGCGGTCGTGCCGGAAGAGTGGCGCTACCTTTGCGCCCGGAGCGCGGACAGCGCGCTCTGCGTGGCCCCGCTTTTGGAAGGCCTGACGGTAGAATCGGGATTCGAACACAATGTCATGTGGATCACCGGCTTGAAAACCAGCGGCCCTTCTTGCGACGCTCTTTTGACGCGTCTCAGCCCGAGCTACTTTTACCCTTCGGTGTTTATTTTTCACGGCGGGGAGGCGGTACCTCCTACCTCTCGCGCGCCGAACCTTAGTCGGCTCTGCGCCCGAGCTCGAAGCGAATTCGGTTTTTCCGAGTTCGATCCCGATCGGGATTTTGCTGGCTGGCACGAGACGAGCGCCGAGGAGATATGTCGGCACGTTCAGATGGAGCCGGCCACCAGCTTGATTTATCTGGTCACGACCGCCGCTTTCAAGGAGGGGGTTTATTTGGCTAACACCTTTGCCCACTGGGGCCTGGTGGAACAGATATCGATAGGGGGTCACAAAGCGGCACGCGTGCCGCTTTACCCGATTCAGATGATGTTGCAAGATCAACTGAAGCTGGCACGCAATCCGTTCAAGATCAAAAAGACCGCTTTCCTGGAGGGCACCGAAGCGCCCACACCGTTTTTCAATCGCCAACTGGGACGTTTGCTTTTTGACCACGTGGTGAGCCCCTCGGCGGTAGCCGTTCGCACGCGCGAAGCGCATTCGGTTGCCGCCGGCCTGGCCTATTTGGCACTCGATGACAAGTTTGAGAATTGCTTGTTGGCCGAGAAGAATTTTTTGGCTCTTCGCCCTCCGGGGGGTAAACCGCCCCCGGAATGGGCGAAAACTGCCACGGAGTGCCGCGCAGCGGACGCCATGGCGGCGGAACTGGCTCTAAACGTGACAGCGGCTTTCGAAGCGTCGGTGCACGACCCGCCGTCCTGCGCGTACACCGATTGGCCTTTATTTCAACAACCCGGCGTGGACCGGGTGGCGGCTCTTTCGGAATACTACACTAGAATCGCATCCCACGCCGCCGCCCTAATCTTCTCAGGTAATTCCTGTTTGTATATGACCGAGGTAGGTGACGCTCGCCTCAAGAGCCCGGGGCGCGATAGCAACGCGGGACGCGAGATGGCACCCACGTCTCCAGACAGGTTTTTCTTGTTCAACGGACTTTTTTTGGGCCCGGCGGCCAGGGTAGATGCGGAAGGCAAGCTGTGTCGCTGCGGCGATGAACCGAAATTGGAGCTGGCCTGGGGCAAGGCCCCCGAGTTCACTTTGCATCACCTCGCCTACGCTTGCGGGTTCTGCCCCAGTACGCTGGCCCGCGTCATGTTCTACCTGGAAAGGTGCGATCGAACCGTTTCCAGGGCCGATCCCACCACCCTCCTGCAATACTTGAACGCCAAGACTGAAGAGGGCGCGTGCGATCTCTGCGATGTCGAAACGCGGCACGTGTGCCCCGCCACCACCTTTTTCAAAGTGAAAAGCCGATTGCCGCTCTTCTCTTCCGCCAAGCGAGGCGGAATCGTTATCACGGGGGCGGTGAATACTCCGTACAACGACTGTGAACTGCTCGGCAACTACGCCTCCTTTAACGCCTTACGCCGTTCTGGCGAAAAAGCAGGCGGCGGCGACGGGCCCCGCGGGCCCGACAGCTACCGCCGGACCAACGACCGGCTCTTGTCCGAGCTCGGGAAGGCGGGCTACGTAGATTTGGAGAGCGGCGAGGACTCTCCCGATTTAGATCGCTTGATCGTCAACCGGTCATCGTTCGTAAAGGTGGTCAGCGACGTCAACCGCTTGATCCACCAAGAAGGGGAGCGCTTCGTGCAAGGAATATCCGAAGACTGCGAATTCAAATTTCGCGAAGCCGCGCGAGATGCTACCCATCTCTTAACCGTGTCGCTGAACCCGTACCATGCGGCATGCTGCCCTTTCATGACCCAAGCCTTTTATCGGTCTTTAGGGGTTACCGTGCAAGACATGGCCTTGGGCCAGTGTGCGAGCATCGTTACGGCGGCGGCGGTCGATTCGAAATCGGGCCGCAACGCGGCTCAGCCGGTACTGAAGAAAAAGTTCCTCGGGATGCTCAACAAAGGGTTTTTCAACACCCGCGACGTAACGGCAGTGTTCAAGGCGCCGGGAGTCGCGGCCTTCGATGTCACCGCGCCTCTGACGGAGCGCAGCGAACGGCAGTACGAATTTGAGATCGGGCGTCTCAATCTCCTGTGTCCGCGGGACCTCCGCCTAAAACATCGCATTCTTTTTCGCGGTGCCGCCTGGGGCGAATCGACGCGCGGAGGTCGGTTCGGTCACGCCACTCAGGTCCTCAACCGGGCCGAGAAAGTGATGCAGTTACAACCCATCCTCAACGGACCGCACGGTTACCTGCTGAAGCGGTTCCACGAAAGGCTGTTCCCCACCAACAAAGCGATCTCCGCCATGGCCTTCTGGAACCGAGCTCAAAACAACAAGCTGCTCCTGGCTTCCAGCGAGCAGCTGGAGGATATCCTGCAGTTCGTAGGGTTCGTCCGGCGCGAGCACCAACGATACATGCGTTCGAACGTTATTCAAACTCCCCCGCCCAACCTTTACGCGTACGCTCAGTTCGCGCTGGCGAATTACATTCTCGACGCCTGCGGCCAAACGGCCAATTTTATAGGGCTGCTGGTAGCGCTCGTGACCGGCACGCGGCGCATCAACCCCGATTCGGCCGTGCATCTTTTAGGCCCGAAAGACCGAACGCCGGCGGCCGCCTTAACGGCCGTGGAAAGCGCTCAGCACCACGAACAAAAGAGTTGTCTCAATAACGTATGCTACGCCGCCAAGTGGGTAACCGCTCAATTGCCTTTGGTCACCTGCCCGGTGTCGGTAAGCAAATACACCGGACAGCAAGGAGGAGACACGCTCTACCAATGTGGAAATCTCACCCACTTCGCCAACGGCGGAGGGGTCGACCCGGCGGCGGCGATCTACGACTTTAATAAGCGGTTTTTCGTCTGCACTCCGCGGGTGGGTAACGTAATTAAAGCCTCTTCGGCGGCGGGCGACCGAACAAGCCACGAGGGCGGCGTGGTGCTGGAGGCCTTCAACAAATTGTTACAGGAGTGTCCCGCTAACTTGATAACAGAGCTTCTCCTCACGCTGGTGAAGCACCGGGGGGCGGCCGTGCGAAACCTGAGCCGGGACGATTTTCTCAGTTTGACGCAAGATCCGTATTTGGCGGAAGCGATGACGGAAGCGCACGCGAGCTTGGTGGTACCGGGGGCCATGCGGGAATGGACGGTGGCCGAAGCCCTCTGCGTTTTAGGAAACGAGGCGCCGGAGGACGGGGAGGAGGAAGAAGGCGTGTCGTTCGACTTCGAGGGATGCGGTGACTCGGGAATGGAGGAGTGCGAAATGATCGAGGAAGAGCTTTCGGAAAAGGTCGCTGTCAAGCGCCGGGCGCCCCAGGAAGATCTTCTGGCGGCTTTGGACGCTGAGTGCCTCGCGACCGAAGCGAAAAGAGCCAAGCCCCTATCGTTAGACGAGCTTTTATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL29. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGACGCCTCGATGACAAACCCTGGCCGGGCTTCGGCCGCGGTTTATATTTACCTTTTGCCCTCCTCCGCGGTCCCCCCGCCTGAGTGGCGCTACCTTTTCCCCTGGAGCGCGGACAGCGCGCTCTGCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGCAATCCGTTCAAGATCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAACCGACAGCTGGGACGTTTGCTTTTTGACCACGTGGTGAGCCCCTCGGCGGTAGCTGTTCGGACCCGCGAAGCTCATTCGGTTGCCGCAGGCCTGGCCCCTTTCGCAATCGATGCCAAGGTTGTGTATTATCTGTTGGCCGAGAAAAATTTTTTAGCCCTTCGCCCTCCGGGGGGTAAACCGCCCCCGGAATGGGCGAAAACTGCCACGGAGTGCCGCGCAGCGGACGCCACGGNGGCGGAACTGGCCCTAAACGTGACAGCGGCTTCCGCAGCGTCGGTGCACGACCCGCCGTCCTGCGCGTACACCGACTGACCACGAATTCCACAACCCGGAGTGGACCGCGCGGCGGCCCGTGCGGAATACTAAAATACACTCGCACGCGCGGACGGCGCCCGACTCTTCGCAGGTAATTGCTGTGTGTACATGGCCGAGGTAGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCGAGTTAACTTTGCGTCCCCTCGCCTACGCTTGCGGGTTCTGCCCCAGTACGCTGGCCCGTGTCATGTTCTACCTGGAAAGGTGCGATCGAACCGTTCCCAGGGCCGATCCCACCCCCCTCCTGCAATACTGGCAGGCTCATACTGAAGAGGGCGCGTGCGACCCCTGCGATGTCGAACCCCGCCTCGCTTGCCCCGCCACCCCCTTCTTCAACTTACAACGCCGACGGCCCCTATTCTCCTCCGCCAAGCGCGGCGGCATCGTTAGCGCGGCGGCGGTGAATACTCCGTACAACGACTGTGAACTGCTCGGCAACTACGCCTCCTTTAACGCCTTCCGCCGTTCTGGCGAAAAAGCAGGCGGCGGCGACGGGCCCCGCGGGCCCGACAGCTACCGCCGGACCAACGACCGGCTCTTGTCCGAGCTCGGGAAGGCGGGCTACGTAGATTTGGAGAGCGGCGAGGACCCTCCCGATTTAGATCGCTCGATCGTCAACCGGCCATCGTTCGTAAAGGTGGTCAGCGACGTCAACCGCTTGAGCCACCAAGCAGGGAGGCGCGTCGTGCAAGGAATATCCGAAGACTGCGAATTCAAATTTCGCGAAGCCGCGCGAGATGCTACCCGTCTCTTAACCGTGTCGCTGAACCCGTGATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTATATCGGTCTNTAGGGANGGCCGTGCAATACATGGCCTTGGGTCAGTGTGGGAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGTTACAANNNNNNCTCAACGGACCGCACGGTTACCTGCTGAAGCGGTTCCACGAAAGGCTGTTCCCCACCAACAAAACGATCTCCACCATGGCCTTCTGGAACCGAGCTCAAAACAACACACTGCTCCTCGCTTCCAGCGAGCAGCGGGAGCCTATCCCGCAGCTCGTAGGGTTCGTCCGGCGCGAGCACCAACGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACCCGGCGGCGGCGATCTACGACTTTAATAAGCGGTTTTTCGTCTGCAAACCGCGGGTGGGTAGCGTAATTAAAGCCTCTCGGGCGGTGGGCGACCGAACAAGGCACGAGGGCGGCGTGGTGCTGTAGGCCTTCAACAAATTGTTACAGGAGTGTCCCGCTAACTTGATATCAGGGCTTCTCCTCACGCTGGTGAAGCACCGGGGGGCGGCCGTGCGAAACCTGAGCCGGGACGATTTTCGCAGTTTGACGCAAGATCCGTATTTGGCGGAAGCGATGACGGAAGCGCACGCGAGCTTGGTGGTACCGGGGGCCATGCGGGAATGGACGGTGGCCGAAGCCCTCTGCGTTTTAGGAAACGAGGCGCCGGCGGACGGGGAGGAGGAAGAAGGCGTGTCGTTCGAATTCGAGGGATGCGGTGACTCGGGAATGGAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL29. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93359_HP24.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP24 gene (predicted feature= 6-phosphofructokinase-like hypothetical protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP24 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP24 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCGCTTCGCGCGTGCGAACGGCTACCGCCGAGGGGCTCACCACGTGGTCAAAAAGCAAACGTCCCAGTTGGCGATTGAAAAACGGCGTGGGCGCTTCGGTGCCCTCCAGGAAAGCGGTCTTTTTGATCTTGAACGGATTGCGTGCCAGCTTCAGTTGATCTTGCAACATCATCTGAATCGGGTAAAGCGGCACGCGTGCCGCTTTGTGACCCCCTATCGCTATTTGTTCCACCAGGCCCCAGTGGGCAAAGGTGTTAGCCAAATAAACCCCCTCCTTGAAAGCGGCGGTCGTGACCAGATAAATCAAGCTGGTGGCCGGCTCCATCTGAACGTGCCGACATATCTCCTCGGCGCTCGTCTCGTGCCAGCCAGCAAAATCCCGATCGGGATCGAACTCGGAAAAACCGAATTCGCTTCGAGCTCGGGCGCAGAGCCGACTAAGGTTCGGCGCGCGAGAGGTAGGAGGTACCGCCTCCCCGCCGTGAAAAATAAACACCGAAGGGTAAAAGTAGCTCGGGCTGAGACGCGTCAAAAGAGCGTCGCAAGAAGGGCCGCTGGTTTTCAAGCCGGTGATCCACATGACATTGTGTTCGAATCCCGATTCTACCGTCAGGCCTTCCAAAAGCGGGGCCACGCAGAGCGCGCTGTCTGCGCTCCGGGCGCAAAGGTAGCGCCACTCTTCCGGCACGACCGCGGAGGAGGGCAAAATGTAAATAAAAGCCGCGGCCGAAGCCCGGCCAGGGTTTGTCATCGAGGCGTCCATTTCCAACCGGCCGCTCGAACGAATGATGGTCGGTGGCTTTTTTGCCGCCCGGTGTTAAAGTACCCGGAGGCCGGGCTAAAGCGCAACACGCCCAAAACTCGCAAAGAAAAGTATCGCGCCTGCCACTCCGGCCCCGCAGTTGCGCGTTATTGGAAACGGCATGGCCCTCTTTGTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP24. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCGCTTCGCGCGTGCGAACGGCTACCGCCGAGGGGCTCACCACGTGGTCAAAAAGCAAACGTCCCAGTTGGCGATTGAAAAACGGTGTGGGCGCTTCGGTGCCCTCCAGGAAAGCGGTCTTTTTGATCTTGAACGGATTGCGTGCCAGCTTCAGTTGATCTTGCAACATCATCTGAATCGGGTAAAGCGGCACGCGTGCCGCTTTGTGACCCCCTATCGATATCTGTTCCACCAGGCCCCAGTGGGCAAAGGTGTTAGCCAAATAAACCCCCTCCTTGAAAGCGGCGGTCGTGACCAGATAAATCAAGCTGGTGGCCGGCTCCATCTGAACGTGCCGACATATCTCCTCGGCGCTCGTCTCGTGCCAGCCAGCAAAATCCCGATCGGGATCGAACTCGGAAAAACCGAATTCGCTTCGAGCTCGGGCGCAGAGCCGACTAAGGTTCGGCGCGCGAGAGGTAGGAGGTACCGCCTCCCCGCCGTGAAAAATAAACACCGAAGGGTAAAAGTAGCTCGGGCTGAGACGCGTCAAAAGAGCGTCGCAAGAAGGGCCGCTGGTTTTCAAGCCGGTGATCCACATGACATTGTGTTCGAATCCCGATTCTACCGTCAGGCCTTCCAAAAGCGGGGCCACGCAGAGCGCGCTGTCCGCGCTCCGGGCGCAAAGGTAGCGCCACTCTTCCGGCACGACCGCGGAGGAGGGCAAAATGTAAATAAAAGCCGCGGCCGAAGCCCGGCCAGGGTTTGTCATCGAGGCGTCCATTTCCAACCGGCCGCTCGAACGAATGATGGTCGGTGGCTTTTTTGCCGCCCGGTGTTAAAGTACCCGGAGGCCGGGCTAAAGCGCAACACGCCCAAAACTCGCAAAGAAAAGTATCGCGCTCGCCACTCCGGCCCCGCAGTTGCGCGTTATTGGAAACGGCATGGCCCTCTTTGTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP24. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAGCTTCGCGGGTCCGAACAGCTACCGCCGAGGGGCTCACCACGTGGTCAAAAAGCAAACGTCCCAGCTGTCGGTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGATCTTGAACGGATTGCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGCAGAGCGCGCTGTCCGCGCTCCAGGGGAAAAGGTAGCGCCACTCAGGCGGGGGGACCGCGGAGGAGGGCAAAAGGTAAATATAAACCGCGGCCGAAGCCCGGCCAGGGTTTGTCATCGAGGCGTCCATTTCCAACCGGCCGCTCGAACGAATGATGGTCGGTGGCTTGTTTGCCGCCCGGTGTTAAAGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGCGGACCCGCAGTAGCGCGTTATTGGTAACGGCATGACCCTCTTTGTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP24. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93360_FUL30.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL30 gene (predicted feature= DNA polymerase catalytic subunit protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL30 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL30 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCCCTCTTTGTTAATCCATTCATCACCGGCGGCGGTCGCCGGCGCGGGTACTTCGACAAAAGGCCAAAGTTTTCTTATTTGGTGGACCAGACAACCTATCGGTTTGTTGCGCCACGTTCTCTTTTGAACCCCGACCAGGTCGGGGTTCGTCAGGGCACGGCGGAACGCCAGCCCCGCTGCAAAGCTCACGGCCGGGAACGAAAAATTTTGGAGTGGGACGACGCTCCTTGGCCACAACGCGTCACTCGCTGGGGCGAACGCGACTGTCGGCCGGAGACTTTCGAATCGTTTTTCGACGAATTTCACGTTTACGACGCTTTGGAACGGACGGAGGAGGCCGAACTCACTCGTTCGGGACTCTCCAGCCGTTTCGCCGCTCACCTCTACCCTTCGGCCACCGTCATTACGTTAATGGGCAGTACCACCGATGGACGACGGGTGGCCATTCACGTCTACGGTAGCAACGCGTATTTTTACATCGACAAAGAAGAAGCGGAAAAACGGATGGATGTAAGCGGCGCCCCCGAGCTCAAAAAACGGCTCTGCGCGTTGCTGCAAAGCTCGACCCGGCTCACGGATCAGCGCAACGCGGTTCCCGAAGCTTTTCGGGTAGATACCGTGGACCGACAGGATATTTATTACTACGACAGTCGACCCCGACCGTTCTACCGAGTGCACGCCAAAAACCATCGCCACGTCCAGTCGCTGAAAGATTTGCTGCCCGTCACTGTTTACGAAGCGCGGGTCGACCCCGTGACGCGGTTTTTGATAGACAACGAAAACTTTTCCTCCTTCGGATGGTATCGCCTGCGGACCGGGCACCGGGCGCGTTTTCGAGACCCGTCGGCGGCAGCGACCTCCGCCGACATCGAATTGGACTGCACGTCGGATGACTTGGAAGCGGTCCCCGAAAAACAGGCGTGGCCTCCCTACAAACTCCTAGTATTCGACATAGAGTGCAAATCGGGGGGACTGAACGAATTCGCCTTTCCGGAAGCCGATAACTCTTGCGACGTCGTCATTCAGATCTCGGCGATCGTTCACTGTCTCAAGACGGGTAACGAAGAAGGCCGGTTATTGTTTTCGCTCGGGTCTTGCCGTTTGCCCGCAGAAACGGCGGGCTCGGCAACGGTGATAGAGTGCGACTCGGAGTACGAGCTGCTTTTGGCCTTTTTTACCTTTTTTAAACAGTTCTCCCCGGAGTACCTCTCGGGATACAACATTTTAGGATTCGATTTGCCGTTTTTGGTTAACAAGGCGGCCGCGTACGATCTAAAACTTGACGGCTACGGACGCCTGGAGCGAGGTGGTCAGTTTCGCATCATTGATCTGTCCGAAAACCGTTTTCAAAAAAATATCAAGGTTCGCATCAACGGAACGGTCACACTGGACGTGTACCCGTTGCTGCGCGGCAAGCTGAGCTTACCGAACTACAAGCTGGACACGGTCTGTCGCGAGGTGCTGGGCGAAACCAAACGCGACGTTAGCTATAAGGAAATCCCCGCGCTTTATGGCCAAGGTCCCGAGGGTCGGGGTCTTCTTGGGGACTATTGTCTGCAGGATTCCGCTCTCGTTCTCCGTCTTTTTGAAAAGTTCGCGCCTCACGTGGAAATGTCCGAAGTGGCGAAGCTGGCGCATCTGCCTATGAATCGCGTCATGACGGACGGACAACAGATCCGCGTTTTCACCTGCCTTCTGAAGGCGGCTAGAAAATACGGCTACATACTTCCGGATCGCCGTTTCGGGACCAAAGCTCAGTTGACCGATCCCGACCTAAGTCCCTCTCTCAACGGCCCGGAAGAGGGAACCGAAGAAGAAAACGAGACGGAGAACGGCGCGTACACGGGGGACAAGGGTTACCAAGGGGCGACCGTCTTGGAACCGGAAACGGGATTTTACGTCGACCCGGTGACCGTTTTTGATTTTGCCAGTCTGTATCCTAGCATCATCCAGGCCCACAATCTGTGCTTCACCACTTTGACCCGGCGAGCCGAAACGCTCAAGGAGCTAAAAGCCGGTGAAGATTACGAGGAGTTCAAGGTTCAGGGCATGTCCCTTTTCTACGTCAAGCCTCACGTGCGCCGCAGCCTTTTGGGCGAGCTGCTGACCGACTGGCTGGCACTCAGGAAAAAAATCCGCGCATCGATGAAAACCGCACCGAGCGACCAACGCTTGCTTTTGGACAAGCAGCAGCTGGCCATCAAGCTGACGTGCAATTCCGTTTACGGGTTTACCGGCGTGGCCACCGGATTCCTACCTTGTCTGGAGGTGGCGGCCACGGTCACCACCGTAGGGCGCGACATGCTTCTGGCCACGCGGGATTTTATTCACACCCGCTGGGGAACGGATTTCGAAGCCTTGTTGGTCGACGCGCCGGAACTGGCCGCGTTTCGACGACCCGAATCGCTTTTTGGCCTGCGTGTCATTTACGGGGACACCGACTCGGTGTTCGTGCTATGCACCGGCGTCACGGCAGAGGGTCTGGCGCTTCACGGCGATGTTTTAGCAGCCGTCATCTCCCGCGCGCTTTTTTCGGCCCCTATTAAATTAGAATGCGAAAAAACGTTCCACAAGCTTCTCATGATTACCAAAAAAAAGTATATCGGAGTCATTCAGGGTTCTAATCAGATGATGATGAAAGGCGTGGACCTGGTTCGCAAAAACAACTGCCGCTTCGTAAATAGGTACTCGCGAGACCTCGTCGACTGTTTGTTCAAAAACGACGAGGTCTCGCGAGCGGCGGCGGAAATAGCCTCGAGGCCTCCCGAAACTTGGCAGGCCTGTTCCTTTCCGACCGGGTTCGCGCCTTTCGGTGCTGTTCTGCGCCGGGCCCACTCGGAGCTCGGCCACGCCGATGTTTCACAATTCATCCAATCGGCCGAACTGAGCCGGGCCCCGGCCGCCTACGCGAACGCCAAGCTGCCTCACCTCACCGTATACCGGAAGCTTTTGGAGAGACGTGAAAAACCGCCCCAGGTTCGCGACCGAATAGAATTCGTTATGATAGAGCCCGAAGCGAGAACCCACGGAATCCGTCGAGCCGCTTCCCGGCCTCGGCCCGATCCACTGGAAAGCGACGAGCCGGAGACGGAAAGCGACGCCGTGAAATCTGAACCGGAACCCGCTCACAAAAAGCCGCTCATTTCGGAGCTGGCCGAAGACCCGGCTTTCGTGCGACACAACAACCTGCCTCTCAATTCCGACTACTACCTCACCCGTCTGCTTAGCACGGCGGCCGTCACGTTTCAAGCTCTTTTCGGAAATAACACGCGGTACGCGGAACGTTACATGAAACGTTTTATTCCAGACTCCGCGCCCTGCGGCCCCCGGCTCAAGCGCCTCTTAGACGCCTGTCCCGCGGTCAGAGTACATTCTTTTACGCCCGAAAACCGCGGCTGTGAAAAGAGGGCGCGAATTTGTCAAAAGCTTTGTACATTTTTTGATACTCATTAG</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL30. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCCCTCTTTGTTAATCCATTCATCACCGGCGGCGGTCGCCGGCGCGGCAACTTCGACAAAAGGCCAAAGTTTTCTTATTTGGTGGACCAGACAACCTATCGGTTTGTTGCGCCACGTTCTCTTTTGAACCCCGACCAGGTCGGGGTTCGTCAGGGCACGGCGGAACGCCAGCCCCGCTGCAAAGCTCACGGCCGGGAACGAAAAATTTTGGAGTGGGACGACGCTCCTTGGCCACAACGCGTCACTCGCTGGGGCGAACGCGACTGTCGGCCGGAGACTTTCGAATCGTTTTTCGAAGAATTTCACGTTTACGACGCTTTGGAACGGACGGAGGAGGCCGAACTCACTCGTTCGGGACTCTCCAGCCGTTTCGCCGCTCACCTCTACCCTTCGGCCACCGTCATTACGTTAATGGGCAGTACCGCCGATGGACGACGGGTGGCCGTTCACGTCTACGGTAGCAACGCGTATTTTTACATCGACAAAGAAGAAGCGGAAAAACGGATGGAGGTAAGCGGCGCCCCCGAGCTCAAAAAACGCCTCTGCGCGTTGCTGCAAAGCTCGACCCGGCTCACGGATCAGCGAAACGCGGTCCCCGAAGCTTTTCGGGTAGATACCGTGGACCGACAGGATATTTATTACTACGACAGTCGACCCCGACCGTTCTACCGGGTGCACGCCAAAAACCATCGCCACGTCCAGTCGCTGAAAGATTTGCTGCCCGTTACTGTTTACGAAGCGCGGGTCGACCCCGTGACGCGGTTTTTGATAGACAACGAAAACTTTTCCTCCTTCGGATGGTATCGCCTGCGGACCGGGCACCGGGCGCGTTTTCGAGACCCGTCGGCAGCAGCGACCTCCGCCGACATCGAATTGGACTGCACGTCGGATGACTTGGAAGCGGTCCCCGAAAAACAGGCGTGGCCCCCCTACAAACTCCTGGTATTCGACATAGAGTGCAAATCGGGGGGACTGAACGAATTCGCCTTTCCGGAAGCCGATAACTCTTGCGACGTCGTCATTCAGATCTCGACGATTGTTCGCTGTCTCAAGACGGGTAACGAAGAAGGCCGGTTATTGTTTTCGCTCGGGTCTTGCCGTTTGCCCGCAGAAACGGCGGGCTCGGCAACGGTGATAGAGTGCGACTCGGAGTACGAGCTGCTTTTGGCCTTTTTTACCTTTTTTAAACAGTTCTCCCCGGAGTACCTCTCGGGGTACAACATTTTAGGATTCGATTTGCCGTTTTTGGTTAACAAGGCGGCCGCGTACGACCTAAAACTGGACGGCTACGGCCGCCTGGAGCGAGGCGGTCAGTTCCGCGTCATTGATCTCTCCGAAAACCGTTTTCAAAAAAACATCAAGGTTCGCATCAACGGAACGGTCACACTGGACGTGTACCCGTTGCTGCGCGGCAAGCTGAGCTTGCCGAACTACAAGCTGGACACGGTCTGTCGCGAGGTGCTGGGCGAAACCAAGCGCGACGTTAGCTATAAAGAAATCCCCAGGCTTTACGGCCAAGGTCCCGAGGGTCGGGGTCTTCTTGGGGACTATTGTCTGCAGGATTCCGCTCTCGTATGCCGTCTTTTTGAAAAGTTCGCGCCTCACGTGGAAATGTCCGAAGTGGCGAAGCTGGCGCATCTGCCTATGAATCGCATCATGACGGACGGACAACAGATCCGCGTTTTCACCTGCCTTCTCAAGGCGGCTAGAAAATACGGCTACATACTTCCGGATCGCCGTTTCGGGACCAAAGCTCAGTTGACCGATCCCGACCGGGGTCCCTCTCTCAAGGGCCCGGAAGAGGGAACCGAAGAAGAAAACGAGACGGAGAACGGCGCGTACACGGGAGACAAGGGTTACCAAGGGGCGACCGTCTTGGAACCGGAGACGGGATTTTACGTCGACCCGGTGACCGTTTTCGATTTTGCCAGTCTGTATCCTAGCATCATCCAGGCCCACAATCTGTGCTTCACCACTTTGACCCGGCGAACAGAAACGCTCAAGGAGCTAAAAGCCGGCGAAGATTACGAGGAGTTCAAAGTTCAGGGCATGTCCCTTTACTACGTCAAGCCTCACGTGCGCCGCAGCCTTTTGGGCGAGCTGCTGACCGACTGGCTGGCACTCAGGAAAAAAATCCGCGCATCGATGAAAACCGCACCGAGCGACCAACGCTTGCTTTTGGACAAGCAGCAGCTGGCCATCAAGCTGACGTGCAATTCCGTTTACGGGTTTACCGGCGTGGCCACCGGATTCCTACCTTGTCTGGAGGTGGCGGCCACGGTCACCACCGTAGGGCGCGACATGCTTCTGGCCACGCGGGATTTTATTCACACCCGCTGGGGAACGGATTTCGAAGCCTTGTTGGTCGACGCGCCGGAACTGGCCGCGTTTCGACGACCCGAATCGCTTTTTGGCCTGCGTGTCATTTACGGGGACACCGACTCGGTGTTCGTGCTGTGCACCGGCGTCGCAGCAGAGGGTCTGGCGCTTCACGGCGATGCTTTAGCAGCCGTCATCTCCCGCGCGCTTTTTTCGGCCCCTATTAAATTAGAATGCGAAAAAACGTTCCACAAGCTTCTCATGATTACCAAAAAAAAGTATATCGGAGTCATTCAGGGTTCTAATCAGATGATGATGAAAGGCGTAGACCTGGTTCGCAAAAACAACTGCCGCTTCGTCAATAGGTACTCGCGAGACCTCGTCGACTGTTTGTTCAAAAATGACGAGGTCTCGCGAGCGGCGGCGGAAATAGCCTCGAGGCCTCCCGAAACTTGGCAGGCCTGTTCCTTTCCGACCGGGTTCGCGCCTTTCGGTGCTGTTCTGCGCCGGGCCCACTCGGAGCTCGGCCACGCCGACGTTTCACAATTCATCCAATCGGCCGAACTGAGCCGGGCCCCGGCCGCCTATGCGAACGCCAAGCTGCCTCATCTCACCGTGTACCGGAAGCTTTTGGAGAGACGTGAAAAGCCGCCCCAGGTTCGTGACCGAATAGAATTCGTTATGATAGAGCCCGAAGCGAGAACCCACGGAATCCGTCGAGCCGCTTCCCGGCCTCGGCCCGATCCACTGGAGAGCGACGAGCCGGAGACGGAAAGCGACGCCATGAAATCTGAAACGGAACCCGCTCACAAAAAGCCGCTCATTTCGGAGCTGGCCGAAGACCCGGCTTTCGTGCGACACCACAACCTGCCTCTCAATTCCGACTACTACCTCACCCGTCTGCTTAGCACGGCGGCCGTCACGTTTCAAGCTCTTTTCGGAAATAACACGCGGTACGCGGAACGTTACATGAAACGGTTTATTCCAGACTCCGCGCCCTGCGGCCCCCGGCTCAAGCGCCTCTTAGACGCCTGTCCCGCGGTCAGAGTACACTCTTTTACGCCCGAAAACCGCGGCTGTGAAAAGAGGGCGCGAATTTGTCAAAAGCTTTGTACATTTTTTGATACTCATTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL30. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCCCTCTTTGTTAATCCATTCATCACCGGCGGCGGTCGCCGGCGCGGCAACTTCGACAAAAGGCCAAAGTTTTCTTATTTGGTGGACCAGACAACCTATCGGTTTGTTGCGCCACGTTCTCTTTTGAACCCCGACCAGGTCGGGGTTCGTCAGGGCACGGCGGAACGCCAGCCCCGCTGCAAAGCTCACGGCCGGGAACGAAAAATTTTGGAGTGGGACGACGCTCCTTGGCCACAACGCGTCACTCGCTGGGGCGAACGCGACTGTCGGCCGGAGACTTTCGAATCGTTTTTCGAAGAATTTCACGTTTACGACGCTTTGGAACGGACGGAGGAGGCCGAACTCACTCGTTCGGGACTCTCCAGCCGTTTCGCCGCTCACCTCTACCCTTCGGCCACCGTCATTACGTTAATGGGCAGTACCGCCGATGGACGACGGGTGGCCGTTCACGTCTACGGTAGCAACGCGTATTTTTACATCGACAAAGAAGAAGCGGAAAAACGGATGGAGGTAAGCGGCGCCCCCGAGCTCAAAAAACGCCTCTGCGCGTTGCTGCAAAGCTCGACCCGGCTCACGGATCAGCGAAACGCGGTCCCCGAAGCTTTTCGGGTAGATACCGTGGACCGACAGGATATTTATTACTACGACAGTCGACCCCGACCGTTCTACCGGGTGCACGCCAAAAACCATCGCCACGTCCAGTCGCTGAAAGATTTGCTGCCCGTTACTGTTTACGAAGCGCGGGTCGACCCCGTGACGCGGTTTTTGATAGACAACGAAAACTTTTCCTCCTTCGGATGGTATCGCCTGCGGACCGGGCACCGGGCGCGTTTTCGAGACCCGTCGGCAGCAGCGACCTCCGCCGACATCGAATTGGACTGCACGTCGGATGACTTGGAAGCGGTCCCCGAAAAACAGGCGTGGCCCCCCTACAAACTCCTGGTATTCGACATAGAGTGCAAATCGGGGGGACTGAACGAATTCGCCTTTCCGGAAGCCGATAACTCTTGCGACGTCGTCATTCAGATCTCGACGATTGTTCGCTGTCTCAAGACGGGTAACGAAGAAGGCCGGTTATTGTTTTCGCTCGGGTCTTGCCGTTTGCCCGCAGAAACGGCGGGCTCGGCAACGGTGATAGAGTGCGACTCGGAGTACGAGCTGCTTTTGGCCTTTTTTACCTTTTTTAAACAGTTCTCCCCGGAGTACCTCTCGGGGTACAACATTTTAGGATTCGATTTGCCGTTTTTGGTTAACAAGGCGGCCGCGTACGACCTAAAACTGGACGGCTACGGCCGCCTGGAGCGAGGCGGTCAGTTCCGCGTCATTGATCTCTCCGAAAACCGTTTTCAAAAAAACATCAAGGTTCGCATCAACGGAACGGTCACACTGGACGTGTACCCGTTGCTGCGCGGCAAGCTGAGCTTGCCGAACTACAAGCTGGACACGGTCTGTCGCGAGGTGCTGGGCGAAACCAAGCGCGACGTTAGCTATAAAGAAATCCCCACGCTTTACGGCCAAGGTCCCGAGGGTCGGGGTCTTCTTGGGGACTATTGTCTGCAGGATTCCGCTCTCGTATGCCGTCTTTTTGAAAAGTTCGCGCCTCACGTGGAAATGTCCGAAGTGGCGAAGCTGGCGCATCTGCCTATGAATCGCATCATGACGGACGGACAACAGATCCGCGTTTTCACCTGCCTTCTCAAGGCGGCTAGAAAATACGGCTACATACTTCCGGATCGCCGTTTCGGGACCAAAGCTCAGTTGACCGATCCCGACCGGGGTCCCTCTCTCAAGGGCCCGGAAGAGGGAACCGAAGAAGAAAACGAGACGGAGAACGGCGCGTACACGGGAGACAAGGGTTACCAAGGGGCGACCGTCTTGGAACCGGAGACGGGATTTTACGTCGACCCGGTGACCGTTTTCGATTTTGCCAGTCTGTATCCTAGCATCATCCAGGCCCACAATCTGTGCTTCACCACTTTGACCCGGCGAACAGAAACGCTCAAGGAGCTAAAAGCCGGCGAAGATTACGAGGAGTTCAAAGTTCAGGGCATGTCCCTTTACTACGTCAAGCCTCACGTGCGCCGCAGCCTTTTGGGCGAGCTGCTGACCGACTGGCTGGCACTCAGGAAAAAAATCCGCGCATCGATGAAAACCGCACCGAGCGACCAACGCTTGCTTTTGGACAAGCAGCAGCTGGCCATCAAGCTGACGTGCAATTCCGTTTACGGGTTTACCGGCGTGGCCACCGGATTCCTACCTTGTCTGGAGGTGGCGGCCACGGTCACCACCGTAGGGCGCGACATGCTTCTGGCCACGCGGGATTTTATTCACACCCGCTGGGGAACGGATTTCGAAGCCTTGTTGGTCGACGCGCCGGAACTGGCCGCGTTTCGACGACCCGAATCGCTTTTTGGCCTGCGTGTCATTTACGGGGACACCGACTCGGTGTTCGTGCTGTGCACCGGCGTCGCAGCAGAGGGTCTGGCGCTTCACGGCGATGCTTTAGCAGCCGTCATCTCCCGCGCGCTTTTTTCGGCCCCTATTAAATTAGAATGCGAAAAAACGTTCCACAAGCTTCTCATGATTACCAAAAAAAAGTATATCGGAGTCATTCAGGGTTCTAATCAGATGATGATGAAAGGCGTAGACCTGGTTCGCAAAAACAACTGCCGCTTCGTCAATAGGTACTCGCGAGACCTCGTCGACTGTTTGTTCAAAAATGACGAGGTCTCGCGAGCGGCGGCGGAAATAGCCTCGAGGCCTCCCGAAACTTGGCAGGCCTGTTCCTTTCCGACCGGGTTCGCGCCTTTCGGTGCTGTTCTGCGCCGGGCCCACTCGGAGCTCGGCCACGCCGACGTTTCACAATTCATCCAATCGGCCGAACTGAGCCGGGCCCCGGCCGCCTATGCGAACGCCAAGCTGCCTCATCTCACCGTGTACCGGAAGCTTTTGGAGAGACGTGAAAAGCCGCCCCAGGTTCGTGACCGAATAGAATTCGTTATGATAGAGCCCGAAGCGAGAACCCACGGAATCCGTCGAGCCGCTTCCCGGCCTCGGCCCGATCCACTGGAGAGCGACGAGCCGGAGACGGAAAGCGACGCCATGAAATCTGAAACGGAACCCGCTCACAAAAAGCCGCTCATTTCGGAGCTGGCCGAAGACCCGGCTTTCGTGCGACACCACAACCTGCCTCTCAATTCCGACTACTACCTCACCCGTCTGCTTAGCACGGCGGCCGTCACGTTTCAAGCTCTTTTCGGAAATAACACGCGGTACGCGGAACGTTACATGAAACGGTTTATTCCAGACTCCGCGCCCTGCGGCCCCCGGCTCAAGCGCCTCTTAGACGCCTGTCCCGCGGTCAGAGTACACTCTTTTACGCCCGAAAACCGCGGCTGTGAAAAGAGGGCGCGAATTTGTCAAAAGCTTTGTACATTTTTTGATACTCATTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL30. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGACCCTCTTTGTTAATCCATTCATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTAATTGGTGGGCCAGACCACCTCTCGGTNNNNNNNNNNNNNNNNTCCTTTGAACCNNNNNCAGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTTGCGACNTCGTCATTCAGATCTCGACGATTGTTCGCGGTCTCAGAACGGTTAACGAAGAAGGCCGGCTATTGTTTTAGCTCGGGTCTTGCCGTGTGCACGCAGAAACGTCGTGCTCTTGAACGGTGATAGAGTGCGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCGGAGTACCTCTCGGGGTACAACATTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCGTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGTTCGCATCAACGGAACGGTCACACTGGACGTGTACCCGTTGCTGCGCGGCAAGCTGAGCTTACCGAACTACAAGCTGGACACGGTCTGTCGCGAGGTGCTGGGCGAAACCAAACGCGACGTTAGCTATAAGGAAATCCCCGCGCTTTATGGCCAAGGTCCCGAGGGTCGGGGTCTTCTTGGGGACTATTGTCTGCAGGATTCCGCTCTCGTTCTCCGTCTTTTTGAAAAGTTCGCGCCTCACGTGGAAATGTCCGAAGTGGCGAAGCTGGCGCATCTGCCTATGAATCGCGTCATGACGGACGGACAACAGATCCGCGTTTTCACCTGCCTTCTGAAGGCGGCTAGAAAATACGGCTACATACTTCCGGATCGCCGTTTCGGGACCAAAGCTCAGTTGACCGATCCCGACCTAAGTCCCTCTCTCAACGGCCCGGAAGAGGGAACCGAAGAAGAAAACGAGACGGAGAACGGCGCGTACACGGGGGACAAGGGTTACCAAGGGGCGACCGTCTTGGAACCGGAAACGGGATTTTACGTCGACCCGGTGACCGTTTTTGATTTTGCCAGTCTGTATCCTAGCATCATCCAGGCCCACAATCTGTGCTTCACCACTTTGACCCGGCGAGCCGAAACGCTCAAGGAGCTAAAAGCCGGTGAAGATTACGAGGAGTTCAAGGTTCAGGGCATGTCCCTTTTCTACGTCAAGCCTCACGTGCGCCGCAGCCTTTTGGGCGAGCTGCTGACCGACTGGCTGGCACTCAGGAAAAAAATCCGCGCATCGATGAAAACCGCACCGAGCGACCAACGCTTGCTTTTGGACAAGCAGCAGCTGGCCATCAAGCTGACGTGCAATTCCGTTTACGGGTTTACCGGCGTGGCCACCGGATTCCTACCTTGTCTGGAGGTGGCGGCCACGGTCACCACCGTAGGGCGCGACATGCTTCTGGCCACGCGGGATTTTATTCACACCCGCTGGGGAACGGATTTCGAAGCCTTGTTGGTCGACGCGCCGGAACTGGCCGCGTTTCGACGACCCGAATCGCTTTTTGGCCTGCGTGTCATTTACGGGGACACCGACTCGGTGTTCGTGCTATGCACCGGCGTCACGGCAGAGGGTCTGGCGCTTCACGGCGATGTTTTAGCAGCCGTCATCTCCCGCGCGCTTTTTTCGGCCCCTATTAAATTAGAATGCGAAAAAACGTTCCACAAGCTTCTCATGATTACCAAAAAAAAGTATATCGGAGTCATTCAGGGTTCTAATCAGATGATGATGAAAGGCGTGGACCTGGTTCGCAAAAACAACTGCCGCTTCGTAAATAGGTACTCGCGAGACCTCGTCGACTGTTTGTTCAAAAACGACGAGGTCTCGCGAGCGGCGGCGGAAATAGCCTCGAGGCCTCCCGAAACTTGGCAGGCCTGTTCCTTTCCGACCGGGTTCGCGCCTTTCGGTGCTGTTCTGCGCCGGGCCCACTCGGAGCTCGGCCACGCCGATGTTTCACAATTCATCCAATCGGCCGAACTGAGCCGGGCCCCGGCCGCCTACGCGAACGCCAAGCTGCCTCACCTCACCGTATACCGGAAGCTTTTGGAGAGACGTGAAAAACCGCCCCAGGTTCGCGACCGAATAGAATTCGTTATGATAGAGCCCGAAGCGAGAACCCACGGAATCCGTCGAGCCGCTTCCCGGCCTCGGCCCGATCCACTGGAAAGCGACGAGCCGGAGACGGAAAGCGACGCCGTGAAATCTGAACCGGAACCCGCTCACAAAAAGCCGCTCATTTCGGAGCTGGCCGAAGACCCGGCTTTCGTGCGACACAACAACCTGCCTCTCAATTCCGACTACTACCTCACCCGTCTGCTTAGCACGGCGGCCGTCACGTTTCAAGCTCTTTTCGGAAATAACACGCGGTACGCGGAACGTTACATGAAACGTTTTATTCCAGACTCCGCGCCCTGCGGCCCCCGGCTCAAGCGCCTCTTAGACGCCTGTCCCGCGGTCAGAGTACATTCTTTTACGCCCGAAAACCGCGGCTGTGAAAAGAGGGCGCGAATTTGTCAAAAGCTTTGTACATTTTTTGATACTCATTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL30. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTCGCATCAACGGAACGGTCACACTGGACGTGTACCCGTTGCTGCGCGGCAAGCTGAGCTTACCGAACTACAAGCTGGACACGGTCTGTCGCGAGGTGCTGGGCGAAACCAAACGCGACGTTAGCTATAAGGAAATCCCCGCGCTTTATGGCCAAGGTCCCGAGGGTCGGGGTCTTCTTGGGGACTATTGTCTGCAGGATTCCGCTCTCGTTCTCCGTCTTTTTGAAAAGTTCGCGCCTCACGTGGAAATGTCCGAAGTGGCGAAGCTGGCGCATCTGCCTATGAATCGCGTCATGACGGACGGACAACAGATCCGCGTTTTCACCTGCCTTCTGAAGGCGGCTAGAAAATACGGCTACATACTTCCGGATCGCCGTTTCGGGACCAAAGCTCAGTTGACCGATCCCGACCTAAGTCCCTCTCTCAACGGCCCGGAAGAGGGAACCGAAGAAGAAAACGAGACGGAGAACGGCGCGTACACGGGGGACAAGGGTTACCAAGGGGCGACCGTCTTGGAACCGGAAACGGGATTTTACGTCGACCCGGTGACCGTTTTTGATTTTGCCAGTCTGTATCCTAGCATCATCCAGGCCCACAATCTGTGCTTCACCACTTTGACCCGGCGAGCCGAAACGCTCAAGGAGCTAAAAGCCGGTGAAGATTACGAGGAGTTCAAGGTTCAGGGCATGTCCCTTTTCTACGTCAAGCCTCACGTGCGCCGCAGCCTTTTGGGCGAGCTGCTGACCGACTGGCTGGCACTCAGGAAAAAAATCCGCGCATCGATGAAAACCGCACCGAGCGACCAACGCTTGCTTTTGGACAAGCAGCAGCTGGCCATCAAGCTGACGTGCAATTCCGTTTACGGGTTTACCGGCGTGGCCACCGGATTCCTACCTTGTCTGGAGGTGGCGGCCACGGTCACCACCGTAGGGCGCGACATGCTTCTGGCCACGCGGGATTTTATTCACACCCGCTGGGGAACGGATTTCGAAGCCTTGTTGGTCGACGCGCCGGAACTGGCCGCGTTTCGACGACCCGAATCGCTTTTTGGCCTGCGTGTCATTTACGGGGACACCGACTCGGTGTTCGTGCTATGCACCGGCGTCACGGCAGAGGGTCTGGCGCTTCACGGCGATGTTTTAGCAGCCGTCATCTCCCGCGCGCTTTTTTCGGCCCCTATTAAATTAGAATGCGAAAAAACGTTCCACAAGCTTCTCATGATTACCAAAAAAAAGTATATCGGAGTCATTCAGGGTTCTAATCAGATGATGATGAAAGGCGTGGACCTGGTTCGCAAAAACAACTGCCGCTTCGTAAATAGGTACTCGCGAGACCTCGTCGACTGTTTGTTCAAAAACGACGAGGTCTCGCGAGCGGCGGCGGAAATAGCCTCGAGGCCTCCCGAAACTTGGCAGGCCTGTTCCTTTCCGACCGGGTTCGCGCCTTTCGGTGCTGTTCTGCGCCGGGCCCACTCGGAGCTCGGCCACGCCGATGTTTCACAATTCATCCAATCGGCCGAACTGAGCCGGGCCCCGGCCGCCTACGCGAACGCCAAGCTGCCTCACCTCACCGTATACCGGAAGCTTTTGGAGAGACGTGAAAAACCGCCCCAGGTTCGCGACCGAATAGAATTCGTTATGATAGAGCCCGAAGCGAGAACCCACGGAATCCGTCGAGCCGCTTCCCGGCCTCGGCCCGATCCACTGGAAAGCGACGAGCCGGAGACGGAAAGCGACGCCGTGAAATCTGAACCGGAACCCGCTCACAAAAAGCCGCTCATTTCGGAGCTGGCCGAAGACCCGGCTTTCGTGCGACACAACAACCTGCCTCTCAATTCCGACTACTACCTCACCCGTCTGCTTAGCACGGCGGCCGTCACGTTTCAAGCTCTTTTCGGAAATAACACGCGGTACGCGGAACGTTACATGAAACGTTTTATTCCAGACTCCGCGCCCTGCGGCCCCCGGCTCAAGCGCCTCTTAGACGCCTGTCCCGCGGTCAGAGTACATTCTTTTACGCCCGAAAACCGCGGCTGTGAAAAGAGGGCGCGAATTTGTCAAAAGCTTTGTACATTTTTTGATACTCATTAG</edomv>\n <edomvd>Consensus DNA sequence for F-UL30. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCCCTCTTTGTTAATCCATTCATCACCGGCGGCGGTCGCCGGCGCGGGTACTTCGACAAAAGGCCAAAGTTTTCTTATTTGGTGGACCAGACAACCTATCGGTTTGTTGCGCCACGTTCTCTTTTGAACCCCGACCAGGTCGGGGTTCGTCAGGGCACGGCGGAACGCCAGCCCCGCTGCAAAGCTCACGGCCGGGAACGAAAAATTTTGGAGTGGGACGACGCTCCTTGGCCACAACGCGTCACTCGCTGGGGCGAACGCGACTGTCGGCCGGAGACTTTCGAATCGTTTTTCGACGAATTTCACGTTTACGACGCTTTGGAACGGACGGAGGAGGCCGAACTCACTCGTTCGGGACTCTCCAGCCGTTTCGCCGCTCACCTCTACCCTTCGGCCACCGTCATTACGTTAATGGGCAGTACCACCGATGGACGACGGGTGGCCATTCACGTCTACGGTAGCAACGCGTATTTTTACATCGACAAAGAAGAAGCGGAAAAACGGATGGATGTAAGCGGCGCCCCCGAGCTCAAAAAACGGCTCTGCGCGTTGCTGCAAAGCTCGACCCGGCTCACGGATCAGCGCAACGCGGTTCCCGAAGCTTTTCGGGTAGATACCGTGGACCGACAGGATATTTATTACTACGACAGTCGACCCCGACCGTTCTACCGAGTGCACGCCAAAAACCATCGCCACGTCCAGTCGCTGAAAGATTTGCTGCCCGTCACTGTTTACGAAGCGCGGGTCGACCCCGTGACGCGGTTTTTGATAGACAACGAAAACTTTTCCTCCTTCGGATGGTATCGCCTGCGGACCGGGCACCGGGCGCGTTTTCGAGACCCGTCGGCGGCAGCGACCTCCGCCGACATCGAATTGGACTGCACGTCGGATGACTTGGAAGCGGTCCCCGAAAAACAGGCGTGGCCTCCCTACAAACTCCTAGTATTCGACATAGAGTGCAAATCGGGGGGACTGAACGAATTCGCCTTTCCGGAAGCCGATAACTCTTGCGACGTCGTCATTCAGATCTCGGCGATCGTTCACTGTCTCAAGACGGGTAACGAAGAAGGCCGGTTATTGTTTTCGCTCGGGTCTTGCCGTTTGCCCGCAGAAACGGCGGGCTCGGCAACGGTGATAGAGTGCGACTCGGAGTACGAGCTGCTTTTGGCCTTTTTTACCTTTTTTAAACAGTTCTCCCCGGAGTACCTCTCGGGATACAACATTTTAGGATTCGATTTGCCGTTTTTGGTTAACAAGGCGGCCGCGTACGATCTAAAACTTGACGGCTACGGACGCCTGGAGCGAGGTGGTCAGTTTCGCATCATTGATCTGTCCGAAAACCGTTTTCAAAAAAATATCAAGGTTCGCATCAACGGAACGGTCACACTGGACGTGTACCCGTTGCTGCGCGGCAAGCTGAGCTTACCGAACTACAAGCTGGACACGGTCTGTCGCGAGGTGCTGGGCGAAACCAAACGCGACGTTAGCTATAAGGAAATCCCCGCGCTTTATGGCCAAGGTCCCGAGGGTCGGGGTCTTCTTGGGGACTATTGTCTGCAGGATTCCGCTCTCGTTCTCCGTCTTTTTGAAAAGTTCGCGCCTCACGTGGAAATGTCCGAAGTGGCGAAGCTGGCGCATCTGCCTATGAATCGCGTCATGACGGACGGACAACAGATCCGCGTTTTCACCTGCCTTCTGAAGGCGGCTAGAAAATACGGCTACATACTTCCGGATCGCCGTTTCGGGACCAAAGCTCAGTTGACCGATCCCGACCTAAGTCCCTCTCTCAACGGCCCGGAAGAGGGAACCGAAGAAGAAAACGAGACGGAGAACGGCGCGTACACGGGGGACAAGGGTTACCAAGGGGCGACCGTCTTGGAACCGGAAACGGGATTTTACGTCGACCCGGTGACCGTTTTTGATTTTGCCAGTCTGTATCCTAGCATCATCCAGGCCCACAATCTGTGCTTCACCACTTTGACCCGGCGAGCCGAAACGCTCAAGGAGCTAAAAGCCGGTGAAGATTACGAGGAGTTCAAGGTTCAGGGCATGTCCCTTTTCTACGTCAAGCCTCACGTGCGCCGCAGCCTTTTGGGCGAGCTGCTGACCGACTGGCTGGCACTCAGGAAAAAAATCCGCGCATCGATGAAAACCGCACCGAGCGACCAACGCTTGCTTTTGGACAAGCAGCAGCTGGCCATCAAGCTGACGTGCAATTCCGTTTACGGGTTTACCGGCGTGGCCACCGGATTCCTACCTTGTCTGGAGGTGGCGGCCACGGTCACCACCGTAGGGCGCGACATGCTTCTGGCCACGCGGGATTTTATTCACACCCGCTGGGGAACGGATTTCGAAGCCTTGTTGGTCGACGCGCCGGAACTGGCCGCGTTTCGACGACCCGAATCGCTTTTTGGCCTGCGTGTCATTTACGGGGACACCGACTCGGTGTTCGTGCTATGCACCGGCGTCACGGCAGAGGGTCTGGCGCTTCACGGCGATGTTTTAGCAGCCGTCATCTCCCGCGCGCTTTTTTCGGCCCCTATTAAATTAGAATGCGAAAAAACGTTCCACAAGCTTCTCATGATTACCAAAAAAAAGTATATCGGAGTCATTCAGGGTTCTAATCAGATGATGATGAAAGGCGTGGACCTGGTTCGCAAAAACAACTGCCGCTTCGTAAATAGGTACTCGCGAGACCTCGTCGACTGTTTGTTCAAAAACGACGAGGTCTCGCGAGCGGCGGCGGAAATAGCCTCGAGGCCTCCCGAAACTTGGCAGGCCTGTTCCTTTCCGACCGGGTTCGCGCCTTTCGGTGCTGTTCTGCGCCGGGCCCACTCGGAGCTCGGCCACGCCGATGTTTCACAATTCATCCAATCGGCCGAACTGAGCCGGGCCCCGGCCGCCTACGCGAACGCCAAGCTGCCTCACCTCACCGTATACCGGAAGCTTTTGGAGAGACGTGAAAAACCGCCCCAGGTTCGCGACCGAATAGAATTCGTTATGATAGAGCCCGAAGCGAGAACCCACGGAATCCGTCGAGCCGCTTCCCGGCCTCGGCCCGATCCACTGGAAAGCGACGAGCCGGAGACGGAAAGCGACGCCGTGAAATCTGAACCGGAACCCGCTCACAAAAAGCCGCTCATTTCGGAGCTGGCCGAAGACCCGGCTTTCGTGCGACACAACAACCTGCCTCTCAATTCCGACTACTACCTCACCCGTCTGCTTAGCACGGCGGCCGTCACGTTTCAAGCTCTTTTCGGAAATAACACGCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL30. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCCCTCTTTGTTAATCCATTCATCACCGGCGGCGGTCGCCGGCGCGGGTACTTCGACAAAAGGCCAAAGTTTTCTTATTTGGTGGACCAGACAACCTATCGGTTTGTTGCGCCACGTTCTCTTTTGAACCCCGACCAGGTCGGGGTTCGTCAGGGCACGGCGGAACGCCAGCCCCGCTGCAAAGCTCACGGCCGGGAACGAAAAATTTTGGAGTGGGACGACGCTCCTTGGCCACAACGCGTCACTCGCTGGGGCGAACGCGACTGTCGGCCGGAGACTTTCGAATCGTTTTTCGACGAATTTCACGTTTACGACGCTTTGGAACGGACGGAGGAGGCCGAACTCACTCGTTCGGGACTCTCCAGCCGTTTCGCCGCTCACCTCTACCCTTCGGCCACCGTCATTACGTTAATGGGCAGTACCACCGATGGACGACGGGTGGCCATTCACGTCTACGGTAGCAACGCGTATTTTTACATCGACAAAGAAGAAGCGGAAAAACGGATGGATGTAAGCGGCGCCCCCGAGCTCAAAAAACGGCTCTGCGCGTTGCTGCAAAGCTCGACCCGGCTCACGGATCAGCGCAACGCGGTTCCCGAAGCTTTTCGGGTAGATACCGTGGACCGACAGGATATTTATTACTACGACAGTCGACCCCGACCGTTCTACCGAGTGCACGCCAAAAACCATCGCCACGTCCAGTCGCTGAAAGATTTGCTGCCCGTCACTGTTTACGAAGCGCGGGTCGACCCCGTGACGCGGTTTTTGATAGACAACGAAAACTTTTCCTCCTTCGGATGGTATCGCCTGCGGACCGGGCACCGGGCGCGTTTTCGAGACCCGTCGGCGGCAGCGACCTCCGCCGACATCGAATTGGACTGCACGTCGGATGACTTGGAAGCGGTCCCCGAAAAACAGGCGTGGCCTCCCTACAAACTCCTAGTATTCGACATAGAGTGCAAATCGGGGGGACTGAACGAATTCGCCTTTCCGGAAGCCGATAACTCTTGCGACGTCGTCATTCAGATCTCGGCGATCGTTCACTGTCTCAAGACGGGTAACGAAGAAGGCCGGTTATTGTTTTCGCTCGGGTCTTGCCGTTTGCCCGCAGAAACGGCGGGCTCGGCAACGGTGATAGAGTGCGACTCGGAGTACGAGCTGCTTTTGGCCTTTTTTACCTTTTTTAAACAGTTCTCCCCGGAGTACCTCTCGGGATACAACATTTTAGGATTCGATTTGCCGTTTTTGGTTAACAAGGCGGCCGCGTACGATCTAAAACTTGACGGCTACGGACGCCTGGAGCGAGGTGGTCAGTTTCGCATCATTGATCTGTCCGAAAACCGTTTTCAAAAAAATATCAAGGTTCGCATCAACGGAACGGTCACACTGGACGTGTACCCGTTGCTGCGCGGCAAGCTGAGCTTACCGAACTACAAGCTGGACACGGTCTGTCGCGAGGTGCTGGGCGAAACCAAACGCGACGTTAGCTATAAGGAAATCCCCGCGCTTTATGGCCAAGGTCCCGAGGGTCGGGGTCTTCTTGGGGACTATTGTCTGCAGGATTCCGCTCTCGTTCTCCGTCTTTTTGAAAAGTTCGCGCCTCACGTGGAAATGTCCGAAGTGGCGAAGCTGGCGCATCTGCCTATGAATCGCGTCATGACGGACGGACAACAGATCCGCGTTTTCACCTGCCTTCTGAAGGCGGCTAGAAAATACGGCTACATACTTCCGGATCGCCGTTTCGGGACCAAAGCTCAGTTGACCGATCCCGACCTAAGTCCCTCTCTCAACGGCCCGGAAGAGGGAACCGAAGAAGAAAACGAGACGGAGAACGGCGCGTACACGGGGGACAAGGGTTACCAAGGGGCGACCGTCTTGGAACCGGAAACGGGATTTTACGTCGACCCGGTGACCGTTTTTGATTTTGCCAGTCTGTATCCTAGCATCATCCAGGCCCACAATCTGTGCTTCACCACTTTGACCCGGCGAGCCGAAACGCTCAAGGAGCTAAAAGCCGGTGAAGATTACGAGGAGTTCAAGGTTCAGGGCATGTCCCTTTTCTACGTCAAGCCTCACGTGCGCCGCAGCCTTTTGGGCGAGCTGCTGACCGACTGGCTGGCACTCAGGAAAAAAATCCGCGCATCGATGAAAACCGCACCGAGCGACCAACGCTTGCTTTTGGACAAGCAGCAGCTGGCCATCAAGCTGACGTGCAATTCCGTTTACGGGTTTACCGGCGTGGCCACCGGATTCCTACCTTGTCTGGAGGTGGCGGCCACGGTCACCACCGTAGGGCGCGACATGCTTCTGGCCACGCGGGATTTTATTCACACCCGCTGGGGAACGGATTTCGAAGCCTTGTTGGTCGACGCGCCGGAACTGGCCGCGTTTCGACGACCCGAATCGCTTTTTGGCCTGCGTGTCATTTACGGGGACACCGACTCGGTGTTCGTGCTATGCACCGGCGTCACGGCAGAGGGTCTGGCGCTTCACGGCGATGTTTTAGCAGCCGTCATCTCCCGCGCGCTTTTTTCGGCCCCTATTAAATTAGAATGCGAAAAAACGTTCCACAAGCTTCTCATGATTACCAAAAAAAAGTATATCGGAGTCATTCAGGGTTCTAATCAGATGATGATGAAAGGCGTGGACCTGGTTCGCAAAAACAACTGCCGCTTCGTAAATAGGTACTCGCGAGACCTCGTCGACTGTTTGTTCAAAAACGACGAGGTCTCGCGAGCGGCGGCGGAAATAGCCTCGAGGCCTCCCGAAACTTGGCAGGCCTGTTCCTTTCCGACCGGGTTCGCGCCTTTCGGTGCTGTTCTGCGCCGGGCCCACTCGGAGCTCGGCCACGCCGATGTTTCACAATTCATCCAATCGGCCGAACTGAGCCGGGCCCCGGCCGCCTACGCGAACGCCAAGCTGCCTCACCTCACCGTATACCGGAAGCTTTTGGAGAGACGTGAAAAACCGCCCCAGGTTCGCGACCGAATAGAATTCGTTATGATAGAGCCCGAAGCGAGAACCCACGGAATCCGTCGAGCCGCTTCCCGGCCTCGGCCCGATCCACTGGAAAGCGACGAGCCGGAGACGGAAAGCGACGCCGTGAAATCTGAACCGGAACCCGCTCACAAAAAGCCGCTCATTTCGGAGCTGGCCGAAGACCCGGCTTTCGTGCGACACAACAACCTGCCTCTCAATTCCGACTACTACCTCACCCGTCTGCTTAGCACGGCGGCCGTCACGTTTCAAGCTCTTTTCGGAAATAACACGCGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL30. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93361_FUL31.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL31 gene (predicted feature= UL31 nuclear egress lamina protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL31 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL31 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTCTGAAGAGACCGACCGAAGCCGATGGTCACGCGGCCGCGCCTCCGTCGGCCGCCGACGTTCGCTAAGCCGCGCTCGCCGCGCGCTGCCTTACGCGCGTCCCAGCCGGCGCCGGTCGCGCGGAGACGAAGCCACGTGCGGTTTGGATCCAGTCAAGCTGTACTTTCAGTACGTAACTAAAAATCCGGCGCTGGAGCTCGAGCTCCTGCGGCTCATGACCGCGCCGCTGGTGGGCTCCACTCGCGTGGGTCTCCCCTGTTACCTCAGCACGGTGACGCCGGATTGCTGCCTTCGATTTTCCAAAATGGGCCAATTTTCCGTGGTCGACGTCACTTGCGAAATTTGCGCGGGCGGTCGGCGCGTCACGCCGCGTTTGGACGAACCGGCTTTGATTTTGGCCTACATGCACCAAATCCGCCATATGGTGGACAATAAAGAATTTTACAATTCGTTGCTAAACTACGCGGCTTTTTCGGGTCTCGATCCGAAAACCGTGTTTGCGCAAGTTCTGCGCCGGCGCACGCTCTTTTTCGTATATTATATGTTTCAGCGCTACACTGAGGATTTTTACGTGCTTTTTCGGGGGTTTTCGGGCCTCCACTTGGTTTTCAAAAACGAGGCCGTGCATCTGGCTTCTGATTTTTTGCGCCAACTGGCGCAAAACACGGTGGGATACGTCTGCGTGGCCGACGTTTGGGATAAGCGGTTTGTCATCAGCATTGGACCGTCGGACGCGTCCGACGACCCGCCGGGCCCGGAAGAAGAAGAAAGTCAAGAAGGCAACGTCCCTGACGCCGCGGATATTTATTGCAAAAGCCAGGACCTGGCGTACCTTGACGAGGTCTCTAATGAGTATCAAAAAATGTACAAAGCTTTTGACAAATTCGCGCCCTCTTTTCACAGCCGCGGTTTTCGGGCGTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL31. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCTGAAGAGACCGACCGAAGCCGATGGTCACGCGGCCGCGCCTCCATCGGCCGCCGACGTTCGCTAAGCCGCGCTCGCCGCGCGCTGCCTTACGCGCGTCCCAGCCGGCGCCGGTCGCGCGGCGATGAATCCACGTGTGGTTTGGATCCAGTCAAGCTGTATTTTCAGTACGTAACTAAAAATCCGGCGCTGGAGCTCGAGCTCCTGCGGCTCATGACCGCGCCGCTGGTGGGCTCCACTCGCGTGGGTCTCCCCTGTTATCTTGGCACGGTGACGCCCGATTGCTGCCTTCGATTTTCCAAAATGGGCCAATTTTCCGTGGTCGACGTCACTTGCGAAATTTGCGCGGGCGGTCGGCGCGTCACGCCGCGTTTGGACGAACCGGCTTTGATTTTGGCCTACATGCACCAAATCCGCCATATGGTGGATAATAAAGAATTTTACAATTCGTTGCTAAACTACGCGGCTTTTTCGGGTCTCGATCCGAAAACCGTGTTTGCGCAAGTTCTGCGCCGGCGCACGCTCTTTTTCGTATATTATATGTTTCAGCGCTACACTGAGGATTTTTACGTGCTTTTTCGGGGGTTTTCGGGCCTCCACTTGGTTTTCAAAAACGAGGCCGTGCATCTAGCTTCCGATTTTTTGCGCCAACTGGCGCAAAACACGGTGGGTTACGTCTGCGTGGCCGACGTTTGGGATAAGCGGTTTGTCATCAGCATTGGACCGTCGGACGCGTCCGACGACCCGCCGGGCCCTGAAGAAGAAGAAAGTCAAGAAGGCAACGTTCCCGACGCCGCGGATATTTATTGCAAAAGCCAGGACCTGGCGTACCTTGACGAGGTCTCTAATGAGTATCAAAAAATGTACAAAGCTTTTGACAAATTCGCGCCCTCTTTTCACAGCCGCGGTTTTCGGGCGTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL31. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCTGAAGAGACCGACCGAAGCCGATGGTCACGCGGCCGCGCCTCCATCGGCCGCCGACGTTCGCTAAGCCGCGCTCGCCGCGCGCTGCCTTACGCGCGTCCCAGCCGGCGCCGGTCGCGCGGCGATGAATCCACGTGTGGTTTGGATCCAGTCAAGCTGTACTTTCAGTACGTAACTAAAAATCCGGCGCTGGAGCTCGAGCTCCTGCGGCTCATGACCGCGCCGCTGGTGGGCTCCACTCGCGTGGGTCTCCCCTGTTATCTTGGCACGGTGACGCCCGATTGCTGCCTTCGATTTTCCAAAATGGGCCAATTTTCCGTGGTCGACGTCACTTGCGAAATTTGCGCGGGCGGTCGGCGCGTCACGCCGCGTTTGGACGAACCGGCTTTGATTTTGGCCTACATGCACCAAATCCGCCATATGGTGGATAATAAAGAATTTTACAATTCGTTGCTAAACTACGCGGCTTTTTCGGGTCTCGATCCGAAAACCGTGTTTGCGCAAGTTCTGCGCCGGCGCACGCTCTTTTTCGTATATTATATGTTTCAGCGCTACACTGAGGATTTTTACGTGCTTTTTCGGGGGTTTTCGGGCCTCCACTTGGTTTTCAAAAACGAGGCCGTGCATCTAGCTTCCGATTTTTTGCGCCAACTGGCGCAAAACACGGTGGGTTACGTCTGCGTGGCCGACGTTTGGGATAAGCGGTTTGTCATCAGCATTGGACCGTCGGACGCGTCCGACGACCCGCCGGGCCCTGAAGAAGAAGAAAGTCAAGAAGGCAACGTTCCCGACGCCGCGGATATTTATTGCAAAAGCCAGGACCTGGCGTACCTTGACGAGGTCTCTAATGAGTATCAAAAAATGTACAAAGCTTTTGACAAATTCGCGCCCTCTTTTCACAGCCGCGGTTTTCGGGCGTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL31. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93362_FUL33.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL33 gene (predicted feature= DNA cleavage/packaging protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL33 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL33 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGGTGAGGCGGAGCTCCGAAAGCTCGAGGAGGTCATTCCGGCCAGCGACTTGGAACGTTTGAGCCTGGATGAGCTCTACGCCCGATATATCGTCCCGCCGGAGAAAAGATACCTTATCTGGTTCGAGGACGTTACGCCGCCTCCCCTGGACGTGCTGTATCCCACGACGGACGGAAAGTTAAACTACTTGAGCGTTACTCAAAAAGCCGCGGCCTTCGCGAGGTATCGCGAAGCCGACTGCGCTCACGGGACGCTCGTGCGCCGCAAGGCAGCCGCTTTTCGAGAGGTCCTGAGCAAATTTCTGGACCTGCACCGCATTTTGGAGCGACTCTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL33. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGTGAGGCGGAGCTCCGAAAGCTCGAGGAGGTCATTCCGGCCAGCGACTTGGAACGTTTGAGCCTGGACGAGCTCTACGCCCGATATATCGTCCCGCCGGAGAAAAGATACCTTATCTGGTTCGAGGACGTTACGCCGCCTCCCCTGGACGTGCTGTATCCCACGACGGACGGAAAGTTAAACTACTTGAGCGTTACTCAAAAAGCCGCGGCCTTCGCGAGGTATCGCGAAGCCGACTGCGCTCACGGGACGCTCGTGCGCCGCAAGGCAGCCGCTTTTCGAGAGGTCCTGAGCAAATTTCTGGACCTGCACCGCATTTTGGAGCGACTCTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL33. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93363_FUL34.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL34 gene (predicted feature= UL34 membrane-associated phosphoprotein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL34 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL34 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTTGGACGAAACCGCGTACGAGGCGCTCACCAAAGGGTTGCGTCTAGTTTTAGGCTACGGGGATATCAAGGTGGACCCCTACCATTGCGCGGTAAGTAACACCAACCATGGATTTCTAACCGCCGTGGTAACGAACCAGTCGGTCAACGTGGAGTACCTCCTGCTGAAAATACAAAACGCCTGTCGCTCGCGCAACCCGTACGTTCAATTCATCAACATGGGCCTGTCCGTCACTCTCGTGGGTTTCATGGAGATGCCTTTCGGCGTGAAGCCGCTCAAACAGCTTCACGAATCCTTCGTGTTGCAACGGGGGCGGTTTTTGGGGGTCAGTTTAGACGACGTACTGGCGCGGCGAGAAGCCGCGAAAATTCGAGCCGACCAGTTAACGATTCAGTTGTTTTGCACCTGCTTTCAAAAAGCCGGGTCCGACTCGACCCTGCTCCATTTTCGCTTTCACACCGCCAGCGATCCGGGTCGCTTGCGGAACCTCCTCACGGAGGTCGAGAACTACGGCGAAGACCGGCTAGCCCGTTTGAAAAAAGAATTGGACAAGCGCGCGTGCTCCTCCGATCGCGGGGAGCGCGCGCTCTCTGAGGGACCACGAGCGACGCCAGGAAAAAGCGGGCTCGAGGGGGTGGCTCCCGAAGCGCCCTTGGGGCGTCTCGGTCGGTGGGCGAAAAAGTTCCCAAACCCTTGCTGGGTCACGAAAAGGACGTGGGAGACGTGGAGACCCTATTTGCTACTAGCAACCTTTTCTCTGCTGACCGCGATCTTGAGTCGCTTAGTGATTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL34. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTTGGACGAAACAGCGTACGAGGCGCTCACCAAGGGGTTGCGTCTAGTTTTAGGCTACGGGGATATCAAGGTGGACCCCTACCATTGCGCGGTAAGTAACACCAACCATGGATTTCTGACCGCCGTGGTAACGAACCAGTCGGTCAACGTGGAGTACCTCCTGCTGAAAATACAAAACGCCTGTCGCTCGCGCAACCCGTACGTTCAATTTATCAACATGGGCCTGTCCGTCACTCTCGTGGGTTTCATGGAGATGCCTTTCGGCGTGAAGCCGCTCAAACAGCTTCACGAATCCTTCGTGTTGCAACGGGGGCGGTTTTTGGGGGTCAGTTTAGACGACGTACTGGCGCGGCGAGAAGCCGCGAAAATTCGAGCCGACCAGTTAACTATTCAGTTGTTTTGCACCTGCTTTCAAAAAGCCGGGTCCGACTCGACCCTGCTCCATTTTCGCTTTCACACCGCCAGCGATCCGGGTCGCTTGCGGAACCTCCTCACGGAGGTCGAGAACTACGGCGAAGACCGGCTAGCCCGTTTGAAAAAAGAATTGGACAAGCGCGCGTGCTCCTCCGATCGCGGGGAGCGCGCGCTCTCTGAGGGACCACGAGCGACGCCAGGAAAAAGCGGGCTCGGGGGGGTGGCTCCCGAAGCGCCCTTGGGGCGTCTCGGCCGGTGGGCGAAAAAGTTCTTAAACCCTTGCTGGGTCACGAAAAGGACGTGGGAGACGTGGAGACCCTATTTGCTACTAGCAACCTTTTCTCTGCTGACCGCGATCTTGAGTCGATTAGTGATTTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL34. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93364_FUL35.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL35 gene (predicted feature= VP26 basic phosphorylated capsid protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL35 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL35 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTCTCAATCCGGGACTACGAATCCGGCTCCCGCGACCAGCCGGGGAGGGGACAGGCTTACCGCCTTGGTGAACAGCTGCTTTGCGGCCCTACAAGTCGGGGACCAACAAGAGTTGCGGCGAGCGCTCGCCGAGGACGGAAATCGCTTGTTCTGGGACGCTGCCCAGGAAACTCTTTACGCGCGGCTCGGCACGTCTCAAGATGACCTGGCGCGCCGCTTACTGTTAAAGACGGTGCTATTGCAAGAACGCGCCAAGCAGTTACCCATCGGTGCGATGAAGGTCGATCCGGAGGCGACTCGGGACCACGGAGGGACGCCGTATTTGGGCGTCAAACGACTAATCCGACCGTTGCCCGTGAAATGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL35. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCTCAATCCGGGACTACGAATCCGGCTCCCGCGACCAGCCGGGGAGGGGACAGGCTTACCGCCTTGGTGAACAGCTGCTTTGCGGCCCTACAAGTCGGGGACCAACAAGAGTTGCGGCGAGCGCTCGCCGAGGACGGAAATCGCTTGTTCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGATGAAGGTCGATCCGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL35. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCTCAATCCGGGACTACGAATCCGGCTCCCGCGACCAGCCGGGGAGGGGACAGGCTTACCGCCTTGGTGAACAGCTGCTTTGCGGCCCTACAAGTCGGGGACCAACAAGAGTTGCGGCGAGCGCTCGCCGAGGACGGAAATCGCTTGTTCTGGGACGCTGCCCAGGAAACTCTTTACGCGCGGCTCGGCACGTCTCAAGATGACCTGGCGCGCCGCTTACTGTTAAAAACGGTGCTATTGCAAGAACGCGCCAAGCAGTTACCCACCGGCGCGATGAAGGTCGATCCGGAGGCGACTCGGGACCACGGAGGGACGCCGTATTTGGGCGTCAAACGACTAATCCGACCGTTGCCCGTGAAATGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL35. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93367_FUL38.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL38 gene (predicted feature= Herpesvirus capsid shell protein VP19C) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL38 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL38 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTCGACCCTAGATCGAATCCAGACCAGACTGATAGCTCGGCATCAACGCACCAGGAAATACGTCCAGTGGCCCGATCGAGCGGTTGACGCCCTGCGCGACTCGGATCAAGCGATCGACGCCACGAGCTTTTTATTGAAGTCCGGCTTTCGCCTCTCTACTCCGGACCCCGGTCAGGCCGAGAGCGACCTTTACGGTACCGCCGTAGCGGCGGAAGCTATCGGGATCGCGGACCGCACCATTCTGCCCTCGGATACCGTGATTTTGGCTACCCACGTGACATGTATAGATTTCATGGAGCCCGACGGTGATATTTTAGGCACCCCGGTCCTGAAGCTGCGTTCCATGGTCGACGTCCTCGCCGAGCTACGAGAAAGCGACAGGGGGCGCGATAACGCCACGCGCCTGGAGGATGCCGTTTCGCACGCGGCTCAACGCGTACCCTTAAACGTGACCAAAACTGACACCCTCGTGGTGGAAAACGGATGCGTTTCTTTTATGTTTGCAGTGGCGGCTCTCGCTCCTTTTTACCCGGAAGGAGAAGCCGACCCCGTGACAGCCTTCGTTCAATCCCGGTACCGCGGGACTCGCGCGTACGCGCAACTCGGAGAAATTCTCATGCGCATGGTGGACTGCAAGGTTTATCCTCACCGCTACATGGAGCCTTACGGAGGCTTGCACGCGGCCATTCAGGGCGTCGGTATGGCCCGCCTGACCCTACTGATCAAGGGTTCGGTCGAAGGCGCCGCCGCTGCCGTTCCCGCTTACGAGCGGAACGTCGTCCGGCCTCGCAGCACATGGTTTTCCGTTCCGGCATGCGCTTTCCTAGACATGGACTCGAAAATGCACCTGCCGCCCTCCAACGCTTTCCGTGTATATTTCGCCTTTGTTTACGAACAGAGCACGGCGCGACCGGCGGTGCGCGTCTATGTAATCAAAAGCCTTTACAGCCGTCAGGCGTTTTCCACCTGCTTCAAACGCTATTTCGCGCGTGAGAGAGCGGAAAACGTGCGACTGGGGTACCGCAATAACACGAGAAATCGAAACCCGGACGACGATCGATTCGGAGGAGAAGGGAGCGGCACCCGCTTTCAGCTTTACGGGCCTCATCCGGCCGGAGGCTACGCGTATCGGTTACACGGCCGACCGCACTGGTCGGCCAGTTTGCTCGGCGCGTTTATGCAAATCGGAGACGTCACGCACGCCGTGAAGCCTCAAGAAACGGTGATTTACGAAACGCAAAATTTCGGAAACGCTCTGGAAGTACGCATGGCCACTTTGCCCGGTTTCGCCTGGACTTTCGGTGACTGGACGGAATGCGCCTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL38. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCGACCCTAGATCGAATCCAGACCAGACTGATAGCTCGGCATCAACGCACCAGGAAATACGTCCAGTGGCCCGATCGAGCGGTTGACGCCCTGCGCGACTCGGATCAAGCGATCGACGCCACGAGCTTTTTATTGAAGTCCGGCTTTCGCCTCTCTACTCCGGACCCCGGTCAGGCCGAGAGCGACCTTTACGGTACCGCCGTAGCGGCGGAAGCTATCGGGATCGCGGACCGCACCATTCTGCCATCGGATACCGTGATTTTGGCTACCCACGTGACATGCATAGATTTCATAGAGCCCGACGGTGATATTTTAGGCACCCCGGTCCTGAAGCTGCGTTCCATGGTCGACGTCCTCGCCGAGCTACGAGAAAGTGACAGGGGGCGCGATAACGCCACGCGCCTGGAGGATGCCGTTTCGCACGCGGCTCAACGCGTACCCTTAAACGTGACCAAAACTGACACCCTCGTGGTGGAAAACGGATGCGTTTCTTTTATGTTTGCAGTGGCGGCTCTCGCTCCTTTTTACCCGGAAGGAGAAGCCGACCCCGTGACAGCCTTCGTTCAATCCCGATACCGCGGGACTCGCGCGTACGCGCAACTCGGAGAAATTCTCATGCGCATGGTGGACTGCAAGGTTTATCCTCACCGCTACATGGAGCCTTACGGAGGCTTGCACGCGGCCATTCAGGGCGTCGGTATGGCCCGCCTGACCCTACTTATCAAGGGTTCGGTCGAAGGCGCCGCCGCTGCCGTTCCCGCTTACGAGCGGAACGTCGTCCGGCCTCGCAGCACATGGTTTTCCGTTCCGGCCTGCGCTTTCCTAGACATGGACTCGAAAATGCACCTGCCGCCCTCCAACGCTTTCCGTGTATATTTCGCCTTTGTTTACGAACAGAGCACGGCGCGACCGGCGGTGCGCGTCTATGTAATTAAAAGCCTTTACAGCCGTCAGGCGTTTTCCACCTGCTTCAAACGCTATTTCGCGCGCGAAAGAGCGGAAAACGTGCGACTGGGGTACCGCAATAACACGAGAAATCGGAACCCGGACGACGATCGATTCGGAGGTGAAGGGAGCGGCACCCGCTTTCAACTTTACGGACCTCATCCGGCCGGAGGTTACGCGTATCGGTTACACGGCCGACCGCACTGGTCGGCCAGTTTGCTCGGCGCGTTTATGCAAATCGGAGACGTCACGCACGCCGTGAAGCCTCAAGAAACGGTGATTTACGAAACGCAAAATTTCGGAAACGCTCTGGAAGTACGCATGGTCACTTTGCCGGGTTTCGCCTGGACTTTCGGTGACTGGACGGAATGCGCCTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL38. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCGACCCTAGATCGAATCCAGACCAGACTGATAGCTCGGCATCAACGCACCAGGAAATACGTCCAGTGGCCCGATCGAGCGGTTGACGCCCTGCGCGACTCGGATCAAGCGATCGACGCCACGAGCTTTTTATTGAAGTCCGGCTTTCGCCTCTCTACTCCGGACCCCGGTCAGGCCGAGAGCGACCTTTACGGTACCGCCGTAGCGGCGGAAGCTATCGGGATCGCGGACCGCACCATTCTGCCATCGGATACCGTGATTTTGGCTACCCACGTGACATGTATAGATTTCATAGAGCCCGACGGTGATATTTTAGGCACCCCGGTCCTGAAGCTGCGTTCCATGGTCGACGTCCTCGCCGAGCTACGAGAAAGTGACAGGGGGCGCGATAACGCCACGCGCCTGGAGGATGCCGTTTCGCACGCGGCTCAACGCGTACCCTTAAACGTGACCAAAACTGACACCCTCGTGGTGGAAAACGGATGCGTTTCTTTTATGTTTGCAGTGGCGGCTCTCGCTCCTTTTTACCCGGAAGGAGAAGCCGACCCCGTGACAGCCTTCGTTCAATCCCGATACCGCGGGACTCGCGCGTACGCGCAACTCGGAGAAATTCTCATGCGCATGGTGGACTGCAAGGTTTATCCTCACCGCTACATGGAGCCTTACGGAGGCTTGCACGCGGCCATTCAGGGCGTCGGTATGGCCCGCCTGACCCTACTTATCAAGGGTTCGGTCGAAGGCGCCGCCGCTGCCGTTCCCGCTTACGAGCGGAACGTCGTCCGGCCTCGCAGCACATGGTTTTCCGTTCCGGCCTGCGCTTTCCTAGACATGGACTCGAAAATGCACCTGCCGCCCTCCAACGCTTTCCGTGTATATTTCGCCTTTGTTTACGAACAGAGCACGGCGCGACCGGCGGTGCGCGTCTATGTAATTAAAAGCCTTTACAGCCGTCAGGCGTTTTCCACCTGCTTCAAACGCTATTTCGCGCGCGAAAGAGCGGAAAACGTGCGACTGGGGTACCGCAATAACACGAGAAATCGGAACCCGGACGACGATCGATTCGGAGGTGAAGGGAGCGGCACCCGCTTTCAACTTTACGGACCTCATCCGGCCGGAGGTTACGCGTATCGGTTACACGGCCGACCGCACTGGTCGGCCAGTTTGCTCGGCGCGTTTATGCAAATCGGAGACGTCACGCACGCCGTGAAGCCTCAAGAAACGGTGATTTACGAAACGCAAAATTTCGGAAACGCTCTGGAAGTACGCATGGTCACTTTGCCGGGTTTCGCCTGGACTTTCGGTGACTGGACGGAATGCGCCTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL38. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCGACCCGAGTTCGAATCCAAACCAGACTGAAAGCTCGGCATCAACGCACCAGGCAGTACGTCCAGTGGCCCGATCCGGCGGTTGACGCCTTGCGCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACCGCGGGACTCGCGCGTACGCGCAACTCGGAGAAATTCTCATGCGCATGGTGGACTACAAGGTCTATCCTCACCGCTACATTGAGCCTNNNNNNNNNNNNNNNNNGGCCATTCAGGTCGTCGGTATGGCCTGCCTGACTCTACTTATCAAGGGTTCGGTCGAAGGCGGTGTCTCTGCCGCTCCCGCTTACGAGGGGATCGTCGCCTGGCCCCGCAGCACATGGCTTTCCGGTCCGGCCTGCGCTTTCCTCTACATGGACTCGAAAATGCACCTGCCGCCCTCCAACGCTTTCCGTGTATATTTCGCCTTTGTTTACGAACAGAGCACGGCGCGACCGNNNNTGCGCGTCTATGTNNNNNNNNNNNNNNNNNNNNNNNNGGCGTTTTGCTCCTACTTCAAACGCTATTTTGGGCACGAAAGAGCCGAAAACGTGCGACTGGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL38. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93368_HP25.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP25 gene (predicted feature= Hypothetical protein with bipartite NLS) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP25 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP25 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCGTTTCTTTTATGTTTGCAGTGGCGGCTCTCGCTCCTTTTTACCCGGAAGGAGAAGCCGACCCCGTGACAGCCTTCGTTCAATCCCGGTACCGCGGGACTCGCGCGTACGCGCAACTCGGAGAAATTCTCATGCGCATGGTGGACTGCAAGGTTTATCCTCACCGCTACATGGAGCCTTACGGAGGCTTGCACGCGGCCATTCAGGGCGTCGGTATGGCCCGCCTGACCCTACTGATCAAGGGTTCGGTCGAAGGCGCCGCCGCTGCCGTTCCCGCTTACGAGCGGAACGTCGTCCGGCCTCGCAGCACATGGTTTTCCGTTCCGGCATGCGCTTTCCTAGACATGGACTCGAAAATGCACCTGCCGCCCTCCAACGCTTTCCGTGTATATTTCGCCTTTGTTTACGAACAGAGCACGGCGCGACCGGCGGTGCGCGTCTATGTAATCAAAAGCCTTTACAGCCGTCAGGCGTTTTCCACCTGCTTCAAACGCTATTTCGCGCGTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP25. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCGTTTCTTTTATGTTTGCAGTGGCGGCTCTCGCTCCTTTTTACCCGGAAGGAGAAGCCGACCCCGTGACAGCCTTCGTTCAATCCCGATACCGCGGGACTCGCGCGTACGCGCAACTCGGAGAAATTCTCATGCGCATGGTGGACTGCAAGGTTTATCCTCACCGCTACATGGAGCCTTACGGAGGCTTGCACGCGGCCATTCAGGGCGTCGGTATGGCCCGCCTGACCCTACTTATCAAGGGTTCGGTCGAAGGCGCCGCCGCTGCCGTTCCCGCTTACGAGCGGAACGTCGTCCGGCCTCGCAGCACATGGTTTTCCGTTCCGGCCTGCGCTTTCCTAGACATGGACTCGAAAATGCACCTGCCGCCCTCCAACGCTTTCCGTGTATATTTCGCCTTTGTTTACGAACAGAGCACGGCGCGACCGGCGGTGCGCGTCTATGTAATTAAAAGCCTTTACAGCCGTCAGGCGTTTTCCACCTGCTTCAAACGCTATTTCGCGCGCGA</edomv>\n <edomvd>Consensus DNA sequence for HP25. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACCGCGGGACTCGCGCGTACGCGCAACTCGGAGAAATTCTCATGCGCATGGTGGACTACAAGGTCTATCCTCACCGCTACATTGAGCCTNNNNNNNNNNNNNNNNNGGCCATTCAGGTCGTCGGTATGGCCTGCCTGACTCTACTTATCAAGGGTTCGGTCGAAGGCGGTGTCTCTGCCGCTCCCGCTTACGAGGGGATCGTCGCCTGGCCCCGCAGCACATGGCTTTCCGGTCCGGCCTGCGCTTTCCTCTACATGGACTCGAAAATGCACCTGCCGCCCTCCAACGCTTTCCGTGTATATTTCGCCTTTGTTTACGAACAGAGCACGGCGCGACCGNNNNTGCGCGTCTATGTNNNNNNNNNNNNNNNNNNNNNNNNGGCGTTTTGCTCCTACTTCAAACGCTATTTTGGGCACGA</edomv>\n <edomvd>Consensus DNA sequence for HP25. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93369_FUL41.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL41 gene (predicted feature= tegument host shutoff protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL41 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL41 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTTTTTTATTTTCTACAAGCACACCTGGGCTTTTATAGGGTGGGGTGAGGCAACCACACCTTTCTCCCGCGTCTCTTATGGCTCGGCCAGCGCGTCCACTCGCCGTTTCTGTCTCACCGGCCCAGGTAAACCACCCGGCATGGGCGTTATGGGCATGCAAAGGTACTTGTCCGATCACGGCTTAATCGAGCCTATGCGCTGCAACTACGCCGAAGTCCGTGGCGTGAAAGTGGCGGTAGACGTTTGGAACGTCGTTCATCTTCTGCTCAGACGAGTAGACGCCTTCGTGGGACAGTTTGAAAGAAAGCGTCTCAACTACTGGTGTCTTATGACCCTGTTCCAGGTGCTTAACAAAAAACAGTTTGTGCCGGTGTTTGTTTTCGACGGCATGTACGATATTTTCTGTTCCGCCCCCTCGGGGAACGGGGCCAAGGCTATCGCTCGGCGGCAGAGAAAGGCCTCTCGGAAAACCGAGACGCTTTCCCAATCACCGAGCGCTAGCACCCCCGTGACCCCTTTTGCCACGTTAGACGATCACAGACGAAAGCGGCCGACTTATCGATTTTGTCGGCGCTTGATCGAGGCGGCCGGTTACCCTATCGTTGCCGTGCCCGGCTACGAAGCGGACGAATCTTGCGCCAATCTTTTTCACACAGGCGCGGTAGACTATGTAATTTCAGGCGACACTGATCTTTTACTCATGGGATGCGATCTTATATTGGATCCGCTCCCCATGTTCCCGCCAGTCGTCCGATATCGCGTTCTTTTAAAACATTTGGGAATGGAAAGCGACGACTTTTTAAGCCATTTTGTACGCTGCCACACTGATCTTCACTCGTCCGCTCAGCTGGTATCTTTCGAGCAAGCGCTCGAACAGTGGTGGGGTCCCCGGGACGGGGAAAGGGACGTCGGCCCGCATATAGTCGAAAGCGAGCGACTTTTCGTAGAACAGGTTCGCCGATTGGTGAAACCGGTGTCCCTCCCCTCCGATCGCAAACTGTTACTATTAAAACGTGTGCCCTTATCGCGCGGCGTTGCTCCCGATATCGACACGTTAATGGAAATCGTGGCAAAATACGACCCCGACAAATTACAGAAACACTTGGACGATTTTATTGAAAGGTACGCTTACATGCGCGTGTCGGATTTGTACGTTCGCGTCGTCGCCGCCGACTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL41. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTTTTTTATTTTCTACAAGCACACCTGGGTTTTTATAGGGTGGGGTGAGGCAACCACACCTTTCTCCCGCGTCTCTTATGGCTCGGCCAGCGCGTCCACTCGCCGTTTCTGTCTCACCGGCCCAGGTAAACCACCCGGCATGGGTGTTATGGGCATGCAAAGGTACTTGTCCGATCACGGCTTAATCGAGCCTATGCGCTGTAACTACGCCGAAGTCCGTGGCGTGAAAGTGGCGGTAGACGTTTGGAACGTCGTTCATCTCCTGCTCAGACGAGTAGACGCCTTCGTGGGACAGTTTGAAAGAAAGCGTCTCAACTACTGGTGTCTTATGACCCTGTTCCAGGTGCTTAACAAAAAACAGTTTGTGCCGGTGTTTGTTTTCGACGGCATGTACGATATTTTCTGTTGCGCCCCCTCGGGGAACGGGGCCAAGGCTATCGCTCGGCGGCAGAGAAAGGCCTCTCGGAAAACCGAGACGCTTTCCCAATCGCCGAGCGCTAGCACCCCTGTGACCCCTTTTGCCACGTTAGACGATCACAGACGAAAGCGGCCGACTTATCGATTTTGTCGGCGCTTGATCGAGGCGGCCGGTTACCCTATCGTTGCCGTGCCCGGCTACGAAGCGGACGAATCTTGCGCCAATCTTTTTCACACAGGCGCGGTAGACTATGTAATTTCAGGCGACACTGATCTTTTACTCATGGGTTGCGATCTTATATTGGATCCGCTCCCCATGTTCCCGCCAGTCGTCCGATATCGCGTTCTTTTGAAACATTTGGGGATGGAAAGCGACGACTTTTTAAGCCATTTCGTACGCTGCCACACTGATCTTCACTCGTCCGCTCAGCTGGTATCTTTCGAGCAAGCGCTCGAACAGTGGTGGGGTCCCCGGGACGGGGAAAGGGACGTCGGCCCGCACATAATCGAAAGCGAGCGACTTTTCGTAGAACAGGTTCGCCGATTGGTGAAACCGGTGTCCCTCCCGTCCGATCGCAAACTGTTACTATTAAAACGTGTGCCCTTATCGCGCGGCGTTGCTCCCGATATCGACACGTTAATGGAAATCGTGGCAAAATACGACCCCGACAAATTACAGAAACACTTGGACGATTTTATTGAAAGGTACGCTTACATGCGCGTGTCGGATTTGTACGTTCGCGTCATCGCCGCCGACTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL41. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTTTTTTATTTTCTACAAGCACACCTGGGTTTTTATAGGGTGGGGTGAGGCAACCACACCTTTCTCCCGCGTCTCTTATGGCTCGGCCAGCGCGTCCACTCGCCGTTTCTGTCTCACCGGCCCAGGTAAACCACCCGGCATGGGTGTTATGGGCATGCAAAGGTACTTGTCCGATCACGGCTTAATCGAGCCTATGCGCTGTAACTACGCCGAAGTCCGTGGCGTGAAAGTGGCGGTAGACGTTTGGAACGTCGTTCATCTCCTGCTCAGACGAGTAGACGCCTTCGTGGGACAGTTTGAAAGAAAGCGTCTCAACTACTGGTGTCTTATGACCCTGTTCCAGGTGCTTAACAAAAAACAGTTTGTGCCGGTGTTTGTTTTCGACGGCATGTACGATATTTTCTGTTGCGCCCCCTCGGGGAACGGGGCCAAGGCTATCGCTCGGCGGCAGAGAAAGGCCTCTCGGAAAACCGAGACGCTTTCCCAATCGCCGAGCGCTAGCACCCCTGTGACCCCTTTTGCCACGTTAGACGATCACAGACGAAAGCGGCCGACTTATCGATTTTGTCGGCGCTTGATCGAGGCGGCCGGTTACCCTATCGTTGCCGTGCCCGGCTACGAAGCGGACGAATCTTGCGCCAATCTTTTTCACACAGGCGCGGTAGACTATGTAATTTCAGGCGACACTGATCTTTTACTCATGGGTTGCGATCTTATATTGGATCCACTCCCCATGTTCCCGCCAGTCGTCCGATATCGCGTTCTTTTGAAACATTTGGGGATGGAAAGCGACGACTTTTTAAGCCATTTCGTACGCTGCCACACTGATCTTCACTCGTCCGCTCAGCTGGTATCTTTCGAGCAAGCGCTCGAACAGTGGTGGGGTCCCCGGGACGGGGAAAGGGACGTCGGCCCGCACATAATCGAAAGCGAGCGACTTTTCGTAGAACAGGTTCGCCGATTGGTGAAACCGGTGTCCCTCCCGTCCGATCGCAAACTGTTACTATTAAAACGTGTGCCCTTATCGCGCGGCGTTGCTCCCGATATCGACACGTTAATGGAAATCGTGGCAAAATACGACCCCGACAAATTACAGAAACACTTGGACGATTTTATTGAAAGGTACGCTTACATGCGCGTGTCGGATTTGTACGTTCGCGTCATCGCCGCCGACTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL41. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGGTGGGGTGATGCAACCACACCTTTCCCCCGCGTCTCTTATGGCCCGTGCAGCGCGTCCACTCGCCGGTTCTGTCTCACCGGTCCAGGTAAACCACTCAGCATGGGTGCTATGGCCATGCAAAGGTACTTTTGCACTCCAGGCTTAATCGAGCATATGCGCTGTAACTACGCCGAAGTTCGTGGCGTGAAAGTGGCGATAGACGTTTGGTACGNNGTTCATCTCCTGCTCAGACGAGTAGACGCCTTCGTGGGACAGTTTGAAAGAAAGCGTCCCAACTACTAGTGTCNNNNGACCCTGTTCCAGGTGCTTAACACAAAACAGTTTGGGCCGGTGTTTGATTTCGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATGCGATCTTATATTGGATCCACTCCCCATGTTCCCGCCAGTCGTCCGATATCGCGTTCTTTTGACACATTTGGGGATGGAAAGCGGCGACTTTTTAAGCCATTTCGTACGCTGCTACACTGATCTTCACTCGTCCGCTCAGCTGGTATCTTTCGNNNNNNNNNNNNNNNANNNNNNNNNNNNNNNNNNNGGGGAAAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGATAGCAAACTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNACGTTAATGGAAATCGTGGCAAAATACGGCCCCGACAAATTACAGAAACACTTAGACAATTTTATTGAAAGGTCCGCTTACAGGCGCGTTTCGGGGTTGTACGTTCACCTCATCGACGCCGACTGN</edomv>\n <edomvd>Consensus DNA sequence for F-UL41. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTTTTTTATTTTCTACAAGCACACCTGGGCTTTTATAGGGTGGGGTGAGGCAACCACACCTTTCTCCCGCGTCTCTTATGGCTCGGCCAGCGCGTCCACTCGCCGTTTCTGTCTCACCGGCCCAGGTAAACCACCCGGCATGGGCGTTATGGGCATGCAAAGGTACTTGTCCGATCACGGCTTAATCGAGCCTATGCGCTGCAACTACGCCGAAGTCCGTGGCGTGAAAGTGGCGGTAGACGTTTGGAACGTCGTTCATCTTCTGCTCAGACGAGTAGACGCCTTCGTGGGACAGTTTGAAAGAAAGCGTCTCAACTACTGGTGTCTTATGACCCTGTTCCAGGTGCTTAACAAAAAACAGTTTGTGCCGGTGTTTGTTTTCGACGGCATGTACGATATTTTCTGTTCCGCCCCCTCGGGGAACGGGGCCAAGGCTATCGCTCGGCGGCAGAGAAAGGCCTCTCGGAAAACCGAGACGCTTTCCCAATCACCGAGCGCTAGCACCCCCGTGACCCCTTTTGCCACGTTAGACGATCACAGACGAAAGCGGCCGACTTATCGATTTTGTCGGCGCTTGATCGAGGCGGCCGGTTACCCTATCGTTGCCGTGCCCGGCTACGAAGCGGACGAATCTTGCGCCAATCTTTTTCACACAGGCGCGGTAGACTATGTAATTTCAGGCGACACTGATCTTTTACTCATGGGATGCGATCTTATATTGGATCCGCTCCCCATGTTCCCGCCAGTCGTCCGATATCGCGTTCTTTTAAAACATTTGGGAATGGAAAGCGACGACTTTTTAAGCCATTTTGTACGCTGCCACACTGATCTTCACTCGTCCGCTCAGCTGGTATCTTTCGAGCAAGCGCTCGAACAGTGGTGGGGTCCCCGGGACGGGGAAAGGGACGTCGGCCCGCATATAGTCGAAAGCGAGCGACTTTTCGTAGAACAGGTTCGCCGATTGGTGAAACCGGTGTCCCTCCCCTCCGATCGCAAACTGTTACTATTAAAACGTGTGCCCTTATCGCGCGGCGTTGCTCCCGATATCGACACGTTAATGGAAATCGTGGCAAAATACGACCCCGACAAATTACAGAAACACTTGGACGATTTTATTGAAAGGTACGTTTACATGCGCGTGTCGGATTTGTACGTTCGCGTCGTCGCCGCCGACTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL41. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93370_FUL42.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL42 gene (predicted feature= DNA polymerase processivity factor) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL42 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL42 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTCCGAAGACGCGTGCTCAGCGGATCCGGCGGTGGAGGTGATGCTGGACGTCGATGCGTACCGGCGCTTGGCACCGATCTTGCGCTCTTTGAAAACGCTGCTCGATTCGGGCGTCCTTTGGTTTACCCGGCACGGCCTTATGATAATCGACATGAGCGCCCGTTCGTTTTCGGCCTTTACTCTCCTGCAAAAGGATTGTTTCTGCATTTTTCGGTGTCCTGAAATGCATTGCTACCCAGTGGTTTATCAAAAGGAGAATTTACTGGGCTTCCTCAGCCACCCGCCCCGCCCCGATTTCAAAAATGCCATTTTCACTATCGCCGTGCAACCGGACGGCGCGGCCGCCCTTTCGCTCGTGGTTCGCTACGAAGACGAATCTGCCGAAAAACGTTTTTACCGGTCGGACGCCCTGCACTACAGCGACCTCGTCGAGCCACCGGACTCGGGGCACCTGTGCTCAGTGCCCCTGGAATCGTACGCCGTCAACGAAATCATGACTTGGTTAGGAACCAAAGCGCGTAACCCCGGGCCTTTCCACCTTCGCTTCCTCCGCCAGGACGGTACTCTAAGGATGGAAACCGCCCCAGAATCCTGCCAAGACGACCTGATGTTTTCGATTTTACCCCCGGGAGCGCCCGAAACCGAAGACTCACCCGTCCTGTGCCCCGCGCCAGCGAAAGGTCGCGGGCGGGCTTTGGCCAAAAAATTGGGCATGGGTCCCAAGGCGCTTCAAACCCGGTTGCGACAATCGCGACAACTCGTGGCCAGACGCCTGCCCCTGCGAGACGTTCGCTTGCGCGTGGAAGCCCCGCTCGAAGTCAAAAAAGTCATGGCCTGTTATAAAATTGGCCGACACGCGCGACCGGAACTATTTTTGCCCGAAAAGGACGAAAGCCTCTTTTTGATAGCTCTGGCGTTCAGCGGGGAGGAAGAAAAGAAGGGCGTAACCAGTTACTGCCTATTTCCCAGTAAATCCCCCGCGGTTGAAAAGGAGCGGCTAAAAAGAAGAAGGCGGCCCTCCACGGGGAACGGATCAGGCAGTCCCGTTCTCTGCAAGAAGCCGCGCTGCTCATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL42. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCCGAAGACGCGTGCTCAGCGGATCCGGCGGTGGAGGTGATGCTGGACGTCGATGCGTACCGGCGCTTGGCACCGATCGTGCGCTCTTTGAAAACGCTGCTCGATTCGGGCGTCCTTTGGTTTACCCGGCACGGCCTTATGATAATCGACATGAGCGCCCGTTCGTTTTCGGCCTTTACTCTCCTGCAAAAGGATTGTTTCTGCATTTTTCGGTGTCCTGAAATGCATTGCTACCCAGTGGTTTATCAAAAGGAGAATTTACTGGGCTTCCTCAGCCACCCGCCCCGCCCCGATTTCAAAAATGCCATTTTCACTATCGCCGTGCAACCGGACGGCGCGGCCGCCCTTTCGCTCGTGGTTCGCTACGAAGACGAATCTGCCGAAAAACGTTTTTACCGGTCGGACGCCCTGCACTACAGCGACCTCGTCGAGCCACCGGACTCGGGGCACCTGTGCTCAGTGCCCCTGGAATCGTACGCCGTCAACGAAATCATGACTTGGTTAGGAACCAAAGCGCGGAACCCCGGGCCTTTCCAGCTTCGCTTCCTCCGCCAGGATGGTACTCTAAGGATGGAAACCGCCCCAGAATCCTGCCAAGACGACCTGATGTTTTCGATTTTACCCCCGGGAGCGCCCGAAACCGAAGACTCACCCGTCCTGTGCCCCGCGCCAGCGAAAGGTCGCGGGCGGGCTTTGGCCAAAAAATTGGGCATGGGTCCCAAGGCGCTTCAAACCCGGTTGCGACAATCGCGACAACTCGTGGCCAGACGCCTGCCCCTGCGAGACGTTCGCTTGCGCGTGGAAGCCCCGCTCGAAGTCAAAAAAGTCATGGCCTGTTATAAAATTGGCCGACACGCGCGACCGGAACTATTTTTGCCCGAAAAGGACGAAAGCCTCTTTTTGATAGCTCTGGCGTTCAGCGGGGAGGAAGAGAAGAAGGGCGTAACCAGTTACTGCCTATTTCCCAGTAAATCACCCACGGTTGAAAAGGAGCGGCTAAAAAGAAGAAGGCGGCCCTCCACGGGGAAAGGATCGGGCAGTCCCGTTCTCTGCAAGAAGCCGCGCTGCTCATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL42. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCCGAAGACGCGTGCTCAGCGGATCCGGCGGTGGAGGTGATGCTGGACGTCGATGCGTACCGGCGCTTGGCACCGATCGTGCGCTCTTTGAAAACGCTGCTCGATTCGGGCGTCCTTTGGTTTACCCGGCACGGCCTTATGATAATCGACATGAGCGCCCGTTCGTTTTCGGCCTTTACTCTCCTGCAAAAGGATTGTTTCTGCATTTTTCGGTGTCCTGAAATGCATTGCTACCCAGTGGTTTATCAAAAGGAGAATTTACTGGGCTTCCTCAGCCACCCGCCCCGCCCCGATTTCAAAAATGCCATTTTCACTATCGCCGTGCAACCGGACGGCGCGGCCGCCCTTTCGCTCGTGGTTCGCTACGAAGACGAATCTGCCGAAAAACGTTTTTACCGGTCGGACGCCCTGCACTACAGCGACCTCGTCGAGCCACCGGACTCGGGGCACCTGTGCTCAGTGCCCCTGGAATCGTACGCCGTCAACGAAATCATGACTTGGTTAGGAACCAAAGCGCGGAACCCCGGGCCTTTCCAGCTTCGCTTCCTCCGCCAGGATGGTACTCTAAGGATGGAAACCGCCCCAGAATCCTGCCAAGACGACCTGATGTTTTCGATTTTACCCCCGGGAGCGCCCGAAACCGAAGACTCACCCGTCCTGTGCCCCGCGCCAGCGAAAGGTCGCGGGCGGGCTTTGGCCAAAAAATTGGGCATGGGTCCCAAGGCGCTTCAAACCCGGTTGCGACAATCGCGACAACTCGTGGCCAGACGCCTGCCCCTGCGAGACGTTCGCTTGCGCGTGGAAGCCCCGCTCGAAGTCAAAAAAGTCATGGCCTGTTATAAAATTGGCCGACACGCGCGACCGGAACTATTTTTGCCCGAAAAGGACGAAAGCCTCTTTTTGATAGCTCTGGCGTTCAGCGGGGAGGAAGAGAAGAAGGGCGTAACCAGTTACTGCCTATTTCCCAGTAAATCACCCACGGTTGAAAAGGAGCGGCTAAAAAGAAGAAGGCGGCCCTCCACGGGGAACGGATCGGGCAGTCCCGTTCTCTGCAAGAAGCCGCGCTGCTCATAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL42. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCCTCCNNNNNNNNNNNNATTCCATGTTCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCTGTGCTCAGTGCCCCTGGAATCGTACGCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGGTCGCTGGCGGGCTTTGGCCAAANNNNTGGGCATGGGTCCCAAGGCGCTTCAAACCCGGTTGCGACAATCGCGACAACTCGTGGCTAGACGCCTGCCCCTGCGAGACGTTCGCTTGCGCGTGGAAGCCCCGCTCGAAGTCAAAAAAGTCATGGCCTGTTATAAGATCGGCCGACACGCGCGACCGGAGCTATTTTTGCCCGAAAAGCACGAACGCCTCTTTTTGATAGGCCTGGCGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCGGCTAAGAGGAAGACGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL42. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCCGAAGACGCGTGCTCAGCGGATCCGGCGGTGGAGGTGATGCTGGACGTCGATGCGTACCGGCGCTTGGCACCGATCTTGCGCTCTTTGAAAACGCTGCTCGATTCGGGCGTCCTTTGGTTTACCCGGCACGGCCTTATGATAATCGACATGAGCGCCCGTTCGTTTTCGGCCTTTACTCTCCTGCAAAAGGATTGTTTCTGCATTTTTCGGTGTCCTGAAATGCATTGCTACCCAGTGGTTTATCAAAAGGAGAATTTACTGGGCTTCCTCAGCCACCCGCCCCGCCCCGATTTCAAAAATGCCATTTTCACTATCGCCGTGCAACCGGACGGCGCGGCCGCCCTTTCGCTCGTGGTTCGCTACGAAGACGAATCTGCCGAAAAACGTTTTTACCGGTCGGACGCCCTGCACTACAGCGACCTCGTCGAGCCACCGGACTCGGGGCACCTGTGCTCAGTGCCCCTGGAATCGTACGCCGTCAACGAAATCATGACTTGGTTAGGAACCAAAGCGCGTAACCCCGGGCCTTTCCACCTTCGCTTCCTCCGCCAGGACGGTACTCTAAGGATGGAAACCGCCCCAGAATCCTGCCAAGACGACCTGATGTTTTCGATTTTACCCCCGGGAGCGCCCGAAACCGAAGACTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL42. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTCCGAAGACGCGTGCTCAGCGGATCCGGCGGTGGAGGTGATGCTGGACGTCGATGCGTACCGGCGCTTGGCACCGATCTTGCGCTCTTTGAAAACGCTGCTCGATTCGGGCGTCCTTTGGTTTACCCGGCACGGCCTTATGATAATCGACATGAGCGCCCGTTCGTTTTCGGCCTTTACTCTCCTGCAAAAGGATTGTTTCTGCATTTTTCGGTGTCCTGAAATGCATTGCTACCCAGTGGTTTATCAAAAGGAGAATTTACTGGGCTTCCTCAGCCACCCGCCCCGCCCCGATTTCAAAAATGCCATTTTCACTATCGCCGTGCAACCGGACGGCGCGGCCGCCCTTTCGCTCGTGGTTCGCTACGAAGACGAATCTGCCGAAAAACGTTTTTACCGGTCGGACGCCCTGCACTACAGCGACCTCGTCGAGCCACCGGACTCGGGGCACCTGTGCTCAGTGCCCCTGGAATCGTACGCCGTCAACGAAATCATGACTTGGTTAGGAACCAAAGCGCGTAACCCCGGGCCTTTCCACCTTCGCTTCCTCCGCCAGGACGGTACTCTAAGGATGGAAACCGCCCCAGAATCCTGCCAAGACGACCTGATGTTTTCGATTTTACCCCCGGGAGCGCCCGAAACCGAAGACTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL42. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93371_FUL43.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL43 gene (predicted feature= UL43 protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL43 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL43 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGACCGCTTCATTATTGCGTTCAAAGCGGAACCTCGCGTGCCGCGGCGACGGAGGATGCCGAGTGTGCGCTCTATCGGAGCTCCGCACGGCTTGCGGGGCCGGAGTCTACGCGGCCCTCTCGGCCCTTCAGGTCCTATATTTTGTTCACCAATCGTCCACTGGGCCCGGAGATCGGATGTCCACCCTGCTGATGGCTTGTTTCGGGTTCGCCGTCGTCTTGCTGCATTGGCTGTGGAAGCCGCGTTACGTTTTCCTGCAGCAGGCCGCGAAAAGCCTGCTCCGGCTGCAAATCGCCATTACCCTTGCTTGCGCCGTATTGACTTTTTGTGATGGCCCACGCGCCCTCACCCTTTTTCCCCTTTACGCCACGTCTATGGTCGTTTCCTTCACAATCATGCTTTATCACTTCCGCACGTGCTTTGTTACGGTTTACACTGCTGGCGTTTCGTACGCCCTGCTGAGTCTCTGCTACGGAGTCGTGGTGCCGGTGTTTCTCCGCCTCATATTGGCGCACCACCCGTTGGCAATTTTTCTTACCGGGGTCGCCGTGGCAACCTTTCTCCCGAGCGACGTCAGCTCCGATCTGCGAGACACCTGCACTTTCCGCGCGTACCGTGCGCAACATCAGGCCATCGTAACGGAAATCGGCGGAGAGTCGGCGAAAGGTCGCTGCATCTTTAAGCCCTCGGCCGACGCTTCCGACGAACGCTCGGCCGAAGAGGACATCGAAGGGGCGCTCTCGGTCGTGAGCCGTCTGTGGCTCCCGGCCGTGATGTGCCTGATTTCCGGTGCCGCCCTTATCGGCCTTTTGGCCTTGACAGTCGCCTTGACGGACCGCAAACACATGCTCCAATTTTTGATATTGCCCGCTTCGGGGTTTGAATCGTTGATTTACGTTCTCTTCCTGGCCGTCCCGGCGGCGGTTTTTACTCAGGCTCTAATAGGCGCTCGAAACGGTCGCCGAGCCTGCCGCTGGGTGGCGCTCCTGATCGCTCTAGCCGCCGACCTGACGGCCGGGCTCCTGGTTTGGTTGCGACCCGACATGTGCGTTTTGGAATTTCCGGTTGCCTTGACCCTTTTTGCTCAGTTCCTGTGGACGTTGCGCTTACGAGAGGATCCGAAGGACGCCCTGGCCGAGGCCCACCTGGCCGGAACCATGTTCGCTACCTGCGTGTTGACCGCGAGTTATTTTTTTCTAGTTATTTACAACGATCCACACGCGTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL43. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGACCGCTTCATTATTGCGTTCAAAGCGGAACCTCGCGTGCCGCGGCGACGGAGGCTGCCGAGTGTGCGCTCTATCGGAGCTCCGCACGGCTTGCGGGGCCGGAGTCTACGCGGCCCTCTCGGCCCTTCAGGTCCTATATTTTGTTCACCAATCGTCCACTGGGCCCGGAGATCGGATGTCCACCCTGCTGATGGCTTGTTTCGGGTTCGCCGTCGTCTTGCTGCATTGGCTGTGGAAGCCGCGTTACGTTTTCCTGCAGCAGGCCGCGAAAAGCCTGCTCCGGCTGCAAATCGCCATTACGCTTGCTTGCGCCGTATTGACTTTTTGTGATGGCCCACGCGCCCTCACCCTTTTCCCCCTTTACGCCACGTCTATGGGCGTTTCCTTCACAATCATGCTTTATCACTTCCGCACGTGCTTTGTTACGGTTTACACTGCTGGCGTTTCGTACGCCCTGCTGAGTCTCTGCTACGGAGTCGTGGTGCCGGTTTTTCTCCGTCTCATATTGGCGCACCACCCGTTGGCAATTTTTCTTACCGGGGTCGCCGTGGCAACCTTTCTCCCGAGCGACGTCAGCTCCGATCTGCGAGACACCTGCACTTTCCGCGCGTACCGTGCGCAACATCAGGCCATCGTAACGGAAATCGGCGGAGAGTCGGCGAAAGGTCGCTGCATCTTTAAGCCCTCGGCCGACGCTTCCGACGAACGCTCGGCCGAAGAGGACACCGAAGGGGCGCTCTCGGTCGTGAGCCGTCTGTGGCTCCCGGCCGTGATGTGCCTGATTTCCGGTGCCGCCCTTATAGGCCTTTTGGCCTTGACAGCCGCCTTGACGGACCGCCAACACATGCTCCAATTTTTGATATTGCCCGCTTCGGGGTTTGAATCGTTGATTTACGTTCTCTTCCTGGCCGTCCCGGCGGCGTTTTTTACTCAGGCTCTGATAAGCGCTCAAAACGGTCGCCGAGCCTGCCGCTGGGTGGCGCTCCTGATTGCTCTAGCCGCCGACCTGACGGCCGGGCTCCTGGTTTGGTTGCGACCCGACATATGCGTTTTGGAATGTCCGGTTGCCTTGACCCTTTTTGCTCAGTTCCTGTGGACGTTGCGTTTACGAGAGGATCCGAAGGACGCCCTGGCCGAGGCCCACCTGGCCGGAACCATGTTCGCTACCTGCGTGTTGACCGCGAGTTATTTTTTTCTAGTTATTTACAACGATCCGCACGCGTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL43. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGACCGCTTCATTATTGCGTTCAAAGCGGAACCTCGCGTGCCGCGGCGACGGAGGATGCCGAGTGTGCGCTCTATCGGAGCTCCGCACGGCTTGCGGGGCCGGAGTCTACGCGGCCCTCTCGGCCCTTCAGGTCCTATATTTTGTTCACCAATCGTCCACTGGGCCCGGAGATCGGATGTCCACCCTGCTGATGGCTTGTTTCGGGTTCGCCGTCGTCTTGCTGCATTGGCTGTGGAAGCCGCGTTACGTTTTCCTGCAGCAGGCCGCGAAAAGCCTGCTCCGGCTGCAAATCGCCATTACGCTTGCTTGCGCCGTATTGACTTTTTGTGATGGCCCACGCGCCCTCACCCTTTTCCCCCTTTACGCCACGTCTATGGGCGTTTCCTTCACAATCATGCTTTATCACTTCCGCACGTGCTTTGTTACGGTTTACACTGCTGGCGTTTCGTACGCCCTGCTGAGTCTCTGCTACGGAGTCGTGGTGCCGGTTTTTCTCCGTCTCATATTGGCGCACCACCCGTTGGCAATTTTTCTTACCGGGGTCGCCGTGGCAACCTTTCTCCCGAGCGACGTCAGCTCCGATCTGCGAGACACCTGCACTTTCCGCGCGTACCGTGCGCAACATCAGGCCATCGTAACGGAAATCGGCGGAGAGTCGGCGAAAGGTCGCTGCATCTTTAAGCCCTCGGCCGACGCTTCCGACGAACGCTCGGCCGAAGAGGACACCGAAGGGGCGCTCTCGGTCGTGAGCCGTCTGTGGCTCCCGGCCGTGATGTGCCTGATTTCCGGTGCCGCCCTTATAGGCCTTTTGGCCTTGACAGCCGCCTTGACGGACCGCCAACACATGCTCCAATTTTTGATATTGCCCGCTTCGGGGTTTGAATCGTTGATTTACGTTCTCTTCCTGGCCGTCCCGGCGGCGTTTTTTACTCAGGCTCTGATAAGCGCTCAAAACGGTCGCCGAGCCTGCCGCTGGGTGGCGCTCCTGATTGCTCTAGCCGCCGACCTGACGGCCGGGCTCCTGGTTTGGTTGCGACCCGACATATGCGTTTTGGAATGTCCGGTTGCCTTGACCCTTTTTGCTCAGTTCCTGTGGACGTTGCGTTTACGAGAGGATCCGAAGGACGCCCTGGCCGAGGCCCACCTGGCCGGAACCATGTTCGCTACCTGCGTGTTGACCGCGAGTTATTTTTTTCTAGTTATTTACAACGATCCGCACGCGTGA</edomv>\n <edomvd>Consensus DNA sequence for F-UL43. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCAATCGTCCACTGGGCGCGGAGNNCGGATGTCCCCCCTTCTGACGGCTGGTTTCGGGTTCGCCGTCGTCTTGCTGCATTGGCTGTGTCAGCCGCGTTACGTTTTCCTGCAGCAGGCCGCGAAAAGCATGCTCCGGCTGCAAATCGCCATTACGCTTGCTTGCGCCGTATTGACTTTTTGTGATGGCCGACGCGCCCTCACCCTTTTCCCCCTTTACGCCACGTCTATGGGCGTTTCCTTCACAATCATGCTTTATCACTTCCGCACGTGCTTTGTTACGGTTTACACTGCTGGCGTTTCGTACGCCCTGCTGAGTCTCTGCTACGGAGTCGTGGTGCCGGTTTTTCTCCGTCTCATATTGGCGCACCACCCGTTGGCAGTTTTTCTTACCGGGGTCGCCGTGACGACCTTTCGCCCGGGCGGCGTCAGCTCCGATCTGCGAGACACCTGCACTTTCCGCGCGTACCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCACCGAAGGGGCGCCCTCGGTCGTGCGCCGGCTGTGGCGCCCGGCCGGAATGTGCCTGATGTCCGGTGCCGCCCTTATAGGCCTTTTGGCCTTGACAGCCGCCTTGACGGCCCGCCAACCCATGCTCCAATTTTTGCTACTGCCCGCTTCGGGGTTTGAATCGTTGATTTACGTTCTCTTCCTGGCCNNNNNNNNNNNNNNNNNNNNNNNNGCTCTGATAAGCGCTCAAAGCGGTCGTCGAGCCTGCCGCTGGGTGGCGCTCCTGATCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL43. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93372_HP26.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP26 gene (predicted feature= Hypothetical protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP26 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP26 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTTGCGCACGGTACGCGCGGAAAGTGCAGGTGTCTCGCAGATCGGAGCTGACGTCGCTCGGGAGAAAGGTTGCCACGGCGACCCCGGTAAGAAAAATTGCCAACGGGTGGTGCGCCAATATGAGGCGGAGAAACACCGGCACCACGACTCCGTAGCAGAGACTCAGCAGGGCGTACGAAACGCCAGCAGTGTAAACCGTAACAAAGCACGTGCGGAAGTGATAAAGCATGATTGTGAAGGAAACGACCATAGACGTGGCGTAAAGGGGAAAAAGGGTGAGGGCGCGTGGGCCATCACAAAAAGTCAATACGGCGCAAGCAAGGGTAATGGCGATTTGCAGCCGGAGCAGGCTTTTCGCGGCCTGCTGCAGGAAAACGTAACGCGGCTTCCACAGCCAATGCAGCAAGACGACGGCGAACCCGAAACAAGCCATCAGCAGGGTGGACATCCGATCTCCGGGCCCAGTGGACGATTGGTGAACAAAATATAG</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP26. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTTGCGCACGGTACGCGCGGAAAGTGCAGGTGTCTCGCAGATCGGAGCTGACGTCGCTCGGGAGAAAGGTTGCCACGGCGACCCCGGTAAGAAAAATTGCCAACGGGTGGTGCGCCAATATGAGACGGAGAAAAACCGGCACCACGACTCCGTAGCAGAGACTCAGCAGGGCGTACGAAACGCCAGCAGTGTAAACCGTAACAAAGCACGTGCGGAAGTGATAAAGCATGATTGTGAAGGAAACGCCCATAGACGTGGCGTAAAGGGGGAAAAGGGTGAGGGCGCGTGGGCCATCACAAAAAGTCAATACGGCGCAAGCAAGCGTAATGGCGATTTGCAGCCGGAGCAGGCTTTTCGCGGCCTGCTGCAGGAAAACGTAACGCGGCTTCCACAGCCAATGCAGCAAGACGACGGCGAACCCGAAACAAGCCATCAGCAGGGTGGACATCCGATCTCCGGGCCCAGTGGACGATTGGTGAACAAAATATAG</edomv>\n <edomvd>Consensus DNA sequence for HP26. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNGGTACGCGCGGAAAGTGCAGGTGTCTCGCAGATCGGAGCTGACGCCGCCCGGGCGAAAGGTCGTCACGGCGACCCCGGTAAGAAAAACTGCCAACGGGTGGTGCGCCAATATGAGACGGAGAAAAACCGGCACCACGACTCCGTAGCAGAGACTCAGCAGGGCGTACGAAACGCCAGCAGTGTAAACCGTAACAAAGCACGTGCGGAAGTGATAAAGCATGATTGTGAAGGAAACGCCCATAGACGTGGCGTAAAGGGGGAAAAGGGTGAGGGCGCGTCGGCCATCACAAAAAGTCAATACGGCGCAAGCAAGCGTAATGGCGATTTGCAGCCGGAGCATGCTTTTCGCGGCCTGCTGCAGGAAAACGTAACGCGGCTGACACAGCCAATGCAGCAAGACGACGGCGAACCCGAAACCAGCCGTCAGAAGGGGGGACATCCGNNCTCCGCGCCCAGTGGACGATTGNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for HP26. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93373_HP27.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP27 gene (predicted feature= Hypothetical protein with similarity to IG) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP27 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP27 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCCCGTAAATCACGGTCCGCGGACGCCGCTACCCTCCCGCCCTCGCTCGCAAAAGAGTTTCCCACACTTGACCGGGGGATGACCTTGAAGATCACCAAGGACGGTCTAATTTATTACGCGTTTAATCGTCTCGTGCTCCCAAAAAATTTTGGCTACGTCACCGCGGCCGATGACTTTCATGTGTGCGAGGATTGTGGAAAGCGGGTTAAGAGCGAAACGTACATGAAAAATCACGTGAGGGAGCACCTGGGACTTTATCGCATGAGATGTATTTTTTGTGGGGACGGGTACGCCCAAATTCACGAACTTAAGAAACACGTGACCGTATGTCGCGCGCTTACTACGGAAAGGGCCGGTTGGTTGGCCCGCGTCCTCGTGGCCGCTAACACCGTCTCGCCCCGCTTTGCCAAAGTTTTAACCAACCGCCTCCTTAGCCGCAAGACGAAAGCGGAAGAGCGACGGATCGGACCCGACGGTCTTTTCGAGCCCACGGAAGCGGACGAACGAGAGGAACCGCTCAACCCCGTTCCTTGTCCGTCTCCGCCAGAAATCGGAGACTCGTGCGCGGAAGAAATAAGTCCCGCCGCGGAGACCCAACAGGCGGTTTCGGTTCTTCTCCAAATTATGGAAGGAGAAGCCGACGTAGCTTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP27. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCCCGTAAATCACGGTCCGCGGACGCCGCTACCCTCCCGCCCTCGCTCGCAAAAGAGTTTCCCACACTTGACCGCGGGATGACCTTGAAGATCACCAAGGACGGTCTAATTTATTACGCGTTTAATCGCCTCGTGCTCCCAAAAAATTTTGGCTACGTCACCGCGGCCGATGACTTTCACGTGTGCGAAGATTGTGGAAAGCGGGTTAAGAGCGAAACGTACATGAAAAATCACGTGAGGGAGCACCTGGGACTTTATCGCATGAGATGTATTTTTTGTGGGGACGGGTACGCCCAAATTCACGAACTTAAGAAACACGTGACCGTATGTCGCGCGCTTACTACGGAAAGGGCCGGTTGGTTGGCCCGCGTCCTCGTGGCCGCTAACACCGTCTCGCCCCGCTTTGCCAAAGTTTTAACCAACCGCCTCCTTAGCCGCAAGACGAAAGCGGAAGAGCGACGGATCGGACCCGACGGTCTTTTCGAACCCACGGAAGCGGACGAACGAGAGGAAGCGCTCAACCCCGTTCCTTGTCCGTCTCCGCCAGAAATCAGAGACTCGTGCGCGGAAGAAATAAGTCCCGCCGCGGAGACCCAACAGGCGGTTTCGGTTCTTCTCAAAATTATGGAAGGAGAAGCCGACGTAGCTTGA</edomv>\n <edomvd>Consensus DNA sequence for HP27. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNCCGTAAATCACGGGCCGCGGACGCCGCTACCCTNNNNNCCTCGCTCGCCAAAGAGTTTCCCACGCTTGACCGCGGGATGACCTTGAAGAGCTCCAAGGACGGGCTAATTTATTACGCCTTGACTCTCCTCGTGCTCCTAAAAAAGCTTGGCTACGTCACCGAGACCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCGCGTGACCGCATGTCGTGCGCTTGCTTCGTAAAGGTCCGGTTGGTTGGCCCGCGTCCGCGTGGCCGCTAACACCGTCTCGCCCCGCTCTGCCACAGTTTTAACCAACACCCTCCTTAGCCGCAAGACGAAAGCGGAAGAGCGACGGATCGGACCCGATGGCTCTTTCGAACCCATGGAAGCGGACGAACGAGAGGAAGCGGTCAACCCCGTCCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for HP27. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAGCCCATGGAAGCGGACGAACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for HP27. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93374_FUL53.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-UL53 gene (predicted feature= UL53 cell fusion, Glycoprotein K) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-UL53 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-UL53 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGTGGAATCCGCAGCTTTTTATCCTTCCTCTCTCCGTGGCCTATTTCGGCTTCGTCCTTTCATTGGTAATGCGTGACCTTCAGCGGGAAAGCAACGCCTGGTGCGTGTATGTCACCGCTGGCATGACCCAAAAACCCGACCTCCCCTCTGAGCCCGCCGAACCTCAACGAGCGGACCTGATATACGTAGTGACGAACGCGACCCGGTTTGTCTACGCCGTGCCGCCCGAATATCAGGTGTTGCGCTGCACCGTGGGGTTTTACGAAGAAGCCGATCTGCCGACCCTCGGCAAGGGCAGCGCCGAAAAAGTGCGATTGGTTCGAACCGTGACGGATTGCAAATTCTACCTTTGGTTTTCGCACGTGCGGCTGAGCCTGCTCACCATGACCGTATACTTCGCATACCTGTGCGTCCGCTACTCGCGGCTCATGTTCGGCGTGTGCGGGCCCAGCACCGACCCCATTCCTCCCGGACATCACCCGTTTAACTATATCATCTTTCTTTTTTCCTCCGTTGTGATGCGAGTGCCTTACAAGAAGCTCAACCGCCTGTTCCGCGAGCTGGCCTTTTACCGCGGACAGGCCTTGACTCACTATCGTCGGGACCCGCTAAGCTACATGTATTGGAACTATCATGCCGCCATCGGCTTGGTGGTGGAGTTCGCCCTGCACGTGGCCTGTTATGTTTTGGTGGTCAGTTCGCTCACGGCATATTTTTCGCCGTGTCGCTCGGTGCTGCCCCTGACTTTCAAAATATTTTGCGGGCTTTTCGTAGGCCTTTTTCTTTTCATCGAGAGCGGCCGCCTCTTGGCGAGTATCCGAAACGATCTCGTTCGGTCGGGGCGAGAAACGGCCACGGCCGGTCTCGGTCGAGGGGGGCCACAGGATTCGGCCGACGTCCCTTTCGGGCCACTGGTCATCAAAAGCGGTTTGCTAGCTCCATGTTGCGTGAATATTTTGGCTAATTTGGCCATAAAGGCCATCTATGTGGGACTGTTGGTGGGGTTTTTAATTTTCGTTTTTTATTACGAGCGCAAGATACAAGACGCTTTGTTCAATTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-UL53. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTGGAATCCGCAGCTTTTTATCCTTCCTCTCTCCGTGGCCTATTTCGGCTTCGTCCTTTCATTGGTAATGCGGGACCTTCAGCGGGAAAGCAACGCCTGGTGCGTGTATGTCACCGCCGGCATGACCCAAAAACCCGACCTCCCCTCTGAGCCCGCCGAACCTCAACGAGCGGACCTGATATACGTAGTGACGAACGCGACCCGGTTTGTCTACGCCGTGCCGCCCGAATATCAGGTGTTGCGCTGCACCGTGGGGTTTTACGAAGAAGCCGATCTGCCGACCCTCGGCAAGGGCAGCGCCGAAAAAGTGCGATTGGTTCGAACCGTGACGGATTGCAAATTCTACCTTTGGTTTTCGCACGTGCGGCTGAGCCTGCTCACCATGACCGTATACTTCGCATACCTGTGCGTCCGCTACTCGCGGCTCATGTTCGGCGTGTGCGGGCCCAGCACCGACCCCATTCCCCCCGGACATCACCCGTTTAACTATATCATCTTTCTTTTTTCCTCCGTTGTGATGCGAGTGCCGTACAAGAAGCTCAACCGCCTGTTCCGCGAGCTGGCCTTTTACCGCGGACAGGCCTTGACTCACTATCGTCGGGACCCGCTAAGCTACATGTATTGGAACTACCATGCCGCCATCGGCTTGGTGGTGGAGTTCGCCCTGCACGTAGCCTGTTATGTTTTGGTGGTCAGTTCGCTCACGGCGTATTTTTCGCCGTGTCGCTCGGTGCTGCCCCTGACTTTCAAAATATTTTGCGGGCTTTTCGTAGGCCTTTTTCTTTTCATCGAGAGCGGCCGCCTCTTGGCGAGTATCCGAAACGATCTCGTTCGGTCGGGGCGAGAAACGGCCGCGGCCGTTCTCGGTCGAGGGGGGCCACAGGATTCGGCCGACGTCCCTTTCGGGCCGCTGGTCATCAAAAGCGGTTTGCTAGCTCCGTGTTGCGTGAATATTTTGGCTAATTTGGCCATAAAGGCCATCTATGTGGGACTGTTGGTGGGGTTTTTGATTTTCGTTTTTTATTACGAGCGCAAGATACAAGACGCTTTGTTCAATTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL53. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGAACTGCTATACGTAGTGACGAACGCGACCCGGTCTGTCTACGCCGTGCCGCCCGAATCTCCGGCGTTGCGCTGCACCGTGGGTTTTTACGAAGAAGCCGATATGGAGACCCTCGGCAAGGGCAGTGCCGAAAAAGTGCGCTTGGTTCGAACCGTGANNNNNNNNAAATTCTCCCTTTGACTTTCGCACGTGCGGCTGCGCCTGCTCACCATGGCCGTGTACTTCGCATGCCGGTGCGTCCCCTACTCGCGGCTCATGTCCGGCGTGTGCGGGCCCAGCACCGACCGGATTCCCCTCGGACATCGCCCGTTTAACTATATCGTCTTTCTTTTTTTCTCCGTTGTGATGAGAGGGCCGTACAAGAAGCTCAACGGCCTTTTTCGTGAGCTGGCCCTTTACCGCTGTCACGCCCTGACTCACTATCGTCGNNNNNNNNNNNNNNNNNTGTATTGGAACTACCATGCCGACATCGACTTGGTGGTGGAGTTCGCCCTGCACGTAGCCTGTTATGTTTTGGTGGTCAGTTCGCTCACGGCGTATTTTTCGCCGTGTCGCTCGGTGCTGCCCCTGACTTTCAAAATATTTTGCGGGCTTTTCGTAGGCCTTTTTCTTTTCGTCGGGAGCGTCCGCCTCTTGGCGAGTATCCGAAACGATCTCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGGTTGCGTGAATATTTTGGCTAATTTGGCCATAAAGGGCATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd>Consensus DNA sequence for F-UL53. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGTGGAATCCGCAGCTTTTTATCCTTCCTCTCTCCGTGGCCTATTTCGGCTTCGTCCTTTCATTGGTAATGCGTGACCTTCAGCGGGAAAGCAACGCCTGGTGCGTGTATGTCACCGCTGGCATGACCCAAAAACCCGACCTCCCCTCTGAGCCCGCCGAACCTCAACGAGCGGACCTGATATACGTAGTGACGAACGCGACCCGGTTTGTCTACGCCGTGCCGCCCGAATATCAGGTGTTGCGCTGCACCGTGGGGTTTTACGAAGAAGCCGATCTGCCGACCCTCGGCAAGGGCAGCGCCGAAAAAGTGCGATTGGTTCGAACCGTGACGGATTGCAAATTCTACCTTTGGTTTTCGCACGTGCGGCTGAGCCTGCTCACCATGACCGTATACTTCGCATACCTCTGCGTCCGCTACTCGCGGCTCATGTTCGGCGTGTGCGGGCCCAGCACCGACCCCATTCCTCCCGGACATCACCCGTTTAACTATATCATCTTTCTTTTTTCCTCCGTTGTGATGCGAGTGCCTTACAAGAAGCTCAACCGCCTGTTCCGCGAGCTGGCCTTTTACCGCGGACAGGCCTTGACTCACTATCGTCGGGACCCGCTAAGCTACATGTATTGGAACTATCATGCCGCCATCGGCTTGGTGGTGGAGTTCGCCCTGCACGTGGCCTGTTATGTTTTGGTGGTCAGTTCGCTCACGGCATATTTTTCGCCGTGTCGCTCGGTGCTGCCCCTGACTTTCAAAATATTTTGCGGGCTTTTCGTAGGCCTTTTTCTTTTCATCGAGAGCGGCCGCCTCTTGGCGAGTATCCGAAACGATCTCGTTCGGTCGGGGCGAGAAACGGCCACGGCCGGTCTCGGTCGAGGGGGGCCACAGGATTCGGCCGACGTCCCTTTCGGGCCACTGGTCATCAAAAGCGGTTTGCTAGCTCCATGTTGCGTGAATATTTTGGCTAATTTGGCCATAAAGGCCATCTATGTGGGACTGTTGGTGGGGTTTTTAATTTTCGTTTTTTATTACGAGCGCAAGATACAAGACGCTTTGTTCAATTAA</edomv>\n <edomvd>Consensus DNA sequence for F-UL53. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93377_HP30.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP30 gene (predicted feature= Hypothetical protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP30 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP30 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGCGCTCTGGGGCGCGTTAGTGTTGATCTCCTTTGGGTTTTTACGCACGGCGCCTGCTAACCCTTTACTGAGTATTAGGGCGAACGGAAACTCGTTACATTCTCAGTTGTGGTGTAACTTTACTCTAATTTGTGAGGTTCAAACGTCCGTTAACGAAACCGCCTCACGCCGGTGGCGATACTCCCCTCCTTTTGGGAACTACGAAATCCGCAGCGAGTGGGAGGACGGTTCGCTAAAGGTTAGTTTGGGCAAAGGATACAGGCCCACTTTTTTTTGCGAGCACAACTTGACGACCAACAGCATTGCCAACTTTTCAAGCGAGGAATATTGTGATTCTGCAGATGGCCAGCAGGGGACCTCTCAAATTGTAACGCCGCGGCCGCTAAAAACGTCGACTTCCGGTTCTACCTTCATAACCGTTGGCACAAACCATTACGCGCCTAGAAGAAATCCCTTCCGGTTATTTGCGGCCTTCAGCCTGATTGTTTTATTCATAAATATATGTATCGTTACAAAATGTTTGGGCCGTTGTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP30. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGCGCTCCTGGGCGCGTTAGTGTTGATCTCCTTTGGGTTTTTACGCACGGCGCCCGCTAACCCTTTACTTAGTATTCGGGCGAACGGAAACTCGTTACATTCTCAGTTGTGGTGTAACTTTACTCTAATTTGTGAGGTTCAAACGTCCGTTAACGAAACCGCCTCACGCCGGTGGCGATACTCCCCTCCTTTTGGGAACTACGAAATCCGCAGCGAGTGGGAGGACGGTTCGCTAAAGGTTAGTTTGGGCAAAGGATACAGGCCCACTTTTTTTTGCGAGCACAACTTGACGACCAACAGCATTGCCAACTTTTCAAGCGAGGAATATTGTGATTCTGCAGATGGCCAGCAGGGGACCTCTCAAATTGTAACGCCGCGGCCGCTAATAACGTCGACTTCCGGTTCTACCTTCATAACCGTTGGCACAAACCATTACGCGCCTAGAAGAAATCCCTTCCGGTTATTTGCGGCCTTCAGCCTGATTGTTTTATTCATAAATATATGTATCGTTACAAAATGTTTGGGCCGTTGTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP30. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93378_HP31.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP31 gene (predicted feature= Hypothetical protein with similarity to Tau-tubulin kinase) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP31 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP31 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGTCGTCTATTTTTTGAGCGGATGTAGTTGGCGAACTAATCTTCAATTCAAAGGTCACGTCCATTTCTCTGAAATTGCTTTTCATGCGGCAAATGTAGAGGTCGTGGTTATCTTCGTCGGTCACCGACCGCAGGAGCAGATCAAAAACGTGTTCCTTCGCTTGCTCCTCCGAAAATCCGTACTTTTTGCTGTCAGTCAGTGTCACGCCTCCCTGTGGGGTCCAACTCGCCACGGTCTGATGACGACCGCCATTGTCCAAAAGCAACCATTTCATGCTGGTGACCGGGTTGTTTTCATTGGCCACGTTGCTCCAAGGCCTGCAAGGGAGCGGCAAATCGCTCCCGGCCTTGCCTCTTACATCCTTGGTGTAGCCATACATGGGATCGAATCCTTGGGGAGCCGGAGTGGGCGGCCTCCCTCGCCTAATGGTGCCGGCGGTCGCAAAGAGAGTTTTCCCGTTTTTGTCCTCAACGATGCATTCAAAAAACGTATTTTCGGTTTCTGGCAACAGTTGCACCCATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP31. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGTCGTCAATTTTTTGAGCGGATGTAGTTGGCGAACTAATCTTCAATTCAAAGGTCACGTCCATTTCTCTGAAATTGCTTTTCATGCGGCAAATGTAGAGGTCGTGGTTATCTTCGTCGGTCACCGACCGCAGGAGCAGATCAAAAACCTGTTCCTTCGCTTGCTCCTCCGAAAATCCGTACTTTTTACTGTCAGTCAGTGTCACGCCTCCCTGTGGGGTCCAACTCGCCACGGTCTGATGACGACCGCCATTGTCCAAAAGCAACCATTTCATGCTGGTGACCGGGTTGTTTTCATCGGCCACGTTGCTCCAAGGCCTGCAAGGGAGCGGCAAATCGCTCCCGGCCTTGCCTCTTACATCCTTGGTGTAGCCATACATGGGATCGAATCCTTGGGGAGCCGGAGTGGGCGGCCTCCCTCGCCTAATGGTGCCGGCGGTCGCAAATAAAGTTTTCCCGTTTTTGTCCTCAACGATGCATTCAAAAAACGTATTTTCGGTTTCTGGCAACAGTTGCACCCATAA</edomv>\n <edomvd>Consensus DNA sequence for HP31. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93379_FNec2.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 F-Nec2 gene (predicted feature= Similarity to CD155 and CD112) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the F-Nec2 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 F-Nec2 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGGGGTTTCTTGGATATGGGCGACGGTGAGCCTGGCTCTGCTCGTCGACCGCCCTCAGGCTCAACTGACCCCACCACCTTGGGCCAAAATTCCTTGCGCCTACGGCCATGGAAATGAAGGTGTCCGCGTGGTTTGGTCAATGACGAAAGATAACAGAGCCCCTGAAACTGTTTATCAACTCGTCGACGGACGCGTGGCTCAATCCAATCCTGACTTCAGGATGGATTTGAGTGACGCGAAAAAAGGAGTCTACGATCTTTTGGCCAAATTGACCCAACAGAACATTGGCGCTCAATTCTTTTGCATGGTATCGGCGAAAGACGGACACGTGCCTCTACACGGACAACAGGCCAAAATTTCCGGGAGCATGTTTGTCAAGAACCCGGCAGGCTCATCTACCTACTGGTGGCAACCGGACGACTCTCCGGCCCACGAAAGTAAGCCCAGATTTCCGGCGGCCACCAGAACTCCCACAAGGAACCCGTGGCAACCGACTTCCACCAACGCCTGGCAATGGCGCCCCACCGACGCACATCGAGAAAATTTTCAACCCTGGCGGCCTACTGCTGCTCCCGGTCACGGATTTAGGCCTTGGCGAACTACTACTCCTCCTCCAAATAGAGTATTTAGACCCTGGGAACACGCGCAAGCCGGAGGTCATCCTTCGTCGTGGGTGACCACCGCCACACCGCGCGTAAAGCCCACGATTTCCAAAGTCAACGATATGGTGATGATTAGCGGTCGCACGTTCAAGTACGGTTCACAAGGAGAATGGGTACCTCTAATGTGTCGAGACCCCGAAGTCGGCCGTTCCGATTACCACGTTAGATGGCGGGGCCACCTTCGTTCGGGTTACTTGGAAAGAATGGTAGTTTATCCCGAAGAGCCCGGAAAACAAATACCCCCCTTCGTAGCTCTTCACGCACGGCCCGAACAGGGCATGTTTGATTTATGGGTGCAACTGTTGCCAGAAACCGAAAATACGTTTTTTGAATGCATCGTTGAGGACAAAAACGGGAAAACTCTCTTTGCGACCGCCGGCACCATTAGGCGAGGGAGGCCGCCCACTCCGGCTCCCCAAGGATTCGATCCCATGTATGGCTACACCAAGGATGTAAGAGGCAAGGCCGGGAGCGATTTGCCGCTCCCTTGCAGGCCTTGGAGCAACGTGGCCAATGAAAACAACCCGGTCACCAGCATGAAATGGTTGCTTTTGGACAATGGCGGTCGTCATCAGACCGTGGCGAGTTGGACCCCACAGGGAGGCGTGACACTGACTGACAGCAAAAAGTACGGATTTTCGGAGGAGCAAGCGAAGGAACACGTTTTTGATCTGCTCCTGCGGTCGGTGACCGACGAAGATAACCACGACCTCTACATTTGCCGCATGAAAAGCAATTTCAGAGAAATGGACGTGACCTTTGAATTGAAGATTAGTTCGCCAACTACATCCGCTCAAAAAATAGACGACCATTCAGAAACGGAAGTAGCGAAACCGGTGGAAATTGAAGGGAAACCCGCACCCGAAATACTTCCCGGAACTAACGAAACTCTAGCGGTCTTTTTCGGAAAACAATATCGTTGCGTACCAAATGGAGAACCAGTGTTAGAAGCACGAGAGAGCACTTCTAGCGAGAATTTGGTGATCTTTTTTGGTCGTCATTACCATTGCAGAGCCGATGGTAAAACAGAATTGCATTTTTCGGACTCGACCAAAGAACAAAATTTTAAAAAATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for F-Nec2. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGGGTTTCTTGGATATGGGCGACGGTGAGCCTGGCTCTGCTCGTCGACCGCCCTCAGGCTCAACTGACCCCACCCCCTTGGGCCAAAATTCCTTGCGCCTACGGCAATGGAAATGAAGGTGTCCGCGTGGTTTGGTCAATGACGAAAGATAACAGAGCCCCTGAAACTGTTTATCAACTCGTCGACGGACGCGTGGCTCAATCCAATCCTGACTTCAGGATGGATTTGAGTGACGCGAAAAAAGGAGTCTACGATCTTTTGGCCAAATTGACCCAACACAACATTGGCGCTCAATTCTTTTGCATGGTATCGGCGAAAGACGGACACGTGCCTCTACACGGACAACAGGCCAAAATTTCCGGGAGCATGTTTGTCAAGAACCCGGCAGGCTCATCTACCTACTGGTGGCAACCGGACGACTCTCCGGCCCACGAAAGTAAGCCCAGATTTCCGGCGGCCACCAGAACTCCCACAAGGAACCCGTGGCAACCGACTTCCACCAACGCCTGGCAATGGCGCCCCACCGACGCACATCGAGGAAATTTTCAACCCTGGCGGCCTACTGCTGCTCCCGGTCACGGATTTAGGCCTTGGCGAACTACTACTCCTCCTCCAAATAGAGTATTTAGACCCTGGGAACACGCGCAGGCCGGAGGTCATCCTTCGTCGTGGGTGACCACCGCCACACCGCGCGTAAAGCCCACGATTTCCAAAGTCAACGATATGGTGATGATTAGCGGTCGCACGTTCAAGTACGGTTCACAAGGAGAATGGGTACCTCTAATGTGTCGAGACCCCGAAGTCGGCCGTTCCGATTACCACGTTAGATGGCGGGGCCACCTTCGTTCGGGTTTCTTGGAAAGAATGGTAGTTTATCCCGAAGAACCCGGAAAACAAATACCCCCCTTCGTAGCTCTTCACGCACGGCCCGAACAGGGCATGTTTGATTTATGGGTGCAACTGTTGCCAGAAACCGAAAATACGTTTTTTGAATGCATCGTTGAGGACAAAAACGGGAAAACTTTATTTGCGACCGCCGGCACCATTAGGCGAGGGAGGCCGCCCACTCCGGCTCCCCAAGGATTCGATCCCATGTATGGCTACACCAAGGATGTAAGAGGCAAGGCCGGGAGCGATTTGCCGCTCCCTTGCAGGCCTTGGAGCAACGTGGCCGATGAAAACAACCCGGTCACCAGCATGAAATGGTTGCTTTTGGACAATGGCGGTCGTCATCAGACCGTGGCGAGTTGGACCCCACAGGGAGGCGTGACACTGACTGACAGTAAAAAGTACGGATTTTCGGAGGAGCAAGCGAAGGAACAGGTTTTTGATCTGCTCCTGCGGTCGGTGACCGACGAAGATAACCACGACCTCTACATTTGCCGCATGAAAAGCAATTTCAGAGAAATGGACGTGACCTTTGAATTGAAGATTAGTTCGCCAACTACATCCGCTCAAAAAATTGACGACCATTCAGAAACTGAAGTAGCGAAACCGGTGGAAATTGAAGGGAAACCCGCACCCGAAATACTTCCCGGAACTAATGAAACTCTAGCGGTCTTTTTCGGAAAACAATATCGTTGCGTACCAAACGGAGAACCAGTGTTAGAAGCACGAGAAAGCACTTCTAGCGAGAATTTGGTGATCTTTTTTGGTCGTCATTACCATTGCAGAGCCGATGGTAAAACAGAATTGCATTTTTCGGACTCGACCAAAGAACAAAATTTTAAAAAATAA</edomv>\n <edomvd>Consensus DNA sequence for F-Nec2. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93380_HP32.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP32 gene (predicted feature= Hypothetical V-set protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP32 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP32 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGAAATTCTTTCGAATCCTCCCGTGGTTCTCCGTTTTCCACATCTCTCAAACTCTGAGTAGGTTGATAACCCTTCCTTGTATTTATCCCCCAAACGTTGTGTTACCTGAATATTTTGTTGGCTTATGGGAACTCGTAGAACCGCACCACTCAAAACGTCTTTTGGTAGAGTTTCAAAGAGGCGTGATAAAATATCATGATAATCGCCTGTCTGTAGATTTGCTAAATGTGTTTACCAAACATGATTTTTCCGCAATTGTCCAATTAACACACGCATTTGAAGGACGCACGTTTCGATGTACGATTTTAAGCTCTTATACCACGAGCGTAGTTTACACTCAAGAAACGCCGATTATATTGGGTACCTTTGCTCCGCCAGGTGTAACCGCTAGACCCTTGGTACCAAGGGCTGAAGGTGAGACAGCGGTACATTGTCTCAACCCAAATGAAAAAATACCTGTTCCTTATTTAGTGATATTATGGTTAGCTGTAAAACCCAACGGTGCTATTTCAGTGCTGTACGATTTTCAAGGAGGACGAGTTTTAACAAAGGATTCCAGCGTCACGGTCGACGAAGAACGAGCTGTTCGCTATCAAGACGCGTCCGCTATTTTTAAAAAAGGAAGTCTTTTAACGGATGGGACTAGAGTCCGCTGTTCGTTTGCGTCTTCGAAAAGCAATTCGCTAATTTTCTCTAAAGATTTTATCCTAACCTTTCCTCGTAATTACGTTACGACCTCTCCTATTACTTTTCGTTTTACCGCTTCTCCGGCCGTTACCACTAATCTCCCCATTGCCACTCCGACCGTTTCTGCCGTTAGCGAACAGGTTATTCAACGTGGTGCGCTTCTGAAATACGGGAAAAGGAACGATTGGATCCCTTTGCTTTGCCGCACAGAGCGTACCGGAAAACGCGCTGTACGGGCCAGGTGGCGATTTAAAGATGAAGAGGGCGCTTACGAAGATGTGGCCGAATTTCCCACGGTGCCCTCTCGGGCTTATCCCTATTGGGCGTTTTTGACCGCTCAGGTAGCCCAGGGTCTTTTTGATCTTTACGTTATGGTCTCCGAGGTTTCCGAAAACAAAGTAATGGAATGCGATATATGGGACGCATCCAACTCCACCATCGGTGCAGCGCGAACCACCGTTGTCGTAGGTAAGCCTCCGGCACCCGCTCCGTCGTACGCCGACCCGCTAAACACTTATACGAAAGATGCTCGCGGAACGGTGGGATCGAAACTGTACATGCCCTGTCGTCCGTTCGGCGCGCTTAAAGAACCAATAAAAGTGGAATGGGTAAGAAAGGCCGTTGACGGCTCACGAACGTTTCCGCTCACGTGGCTAAAAGGCTCGGCACCCGTGACCCCCTTTCCTGGTTATCAAATATCAAATCAGTTAGATCAAAACGTGTTCGATCTCACTATTACGGATTTAACGGTGAAAAACAACCGTGACCTGTACACCTGTCGATTTTACGACGCGAGCGGGTCTCAATCTTTTCTGGATTACGAAGTAACCGTCTCAGTGGCAGAACCGGCTGTGGTCGCCCGTGCTATGACGGAAACCTCTCCCCAAGTGATGGAGAGAATAGTCGCACCAGAAGTTCGAATCGAGACTTCGAACGCCGTTTTTTTCCTCGGCCGCCATTACGAATGTTTTCCGCTGGATCGCGATGTTCGTCGCTAG</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP32. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAAATTTTTTCGAATCCTCCCGTGGTTCTCCGTTTTCCACATCTCTCAAACTCTGAGTAGGTTGATAACCCTTCCTTGTATTTATCCCCCAAACGTTGTGTTACCTGAATATTTTGTTGGCTTATGGGAACTCGTAGAACCGCACCACTCAAAACGTCTTTTGGTAGAGTTTCAGAGAGGCGTGATAAAATATCATGATAATCGCCTGTCTGTAGATTTGCTAAATGTGTTTACCAAACATGATTTTTCCGCAATTGTCCAATTAACACACGCATTTGAAGGACGCACGTTTCGATGTACGATTTTAAGCTCTTATACCACGAGCGTAGTTTACACTCAAGAAACGCCGATTATATTGGGTACCTTTGCTCCGCCAGGTGTAACCGCTAGACCCTTGGTACCAAGGGCTGAAGGTGAGACAGCGGTACATTGTCTCAACCCAAATGAAAAAATACCTGTTCCTTATTTAGTGATATTATGGTTAGCTGTAAAACCCAACGGTGCTATTTCAGTGCTGTACGATTTTCAAGGAGGACGAGTTTTAACAAAGGATTCCAGCGTCACGGTCGACGAAGAACGAGCTGTTCGCTATCAAGACGCGTCCGCTATTTTTAAAAAAGGAAGTCTTTTAACGGATGGGACTAGAGTCCGCTGTTCGTTTGCGTCTTCGAAAAGCAATTCGCTAATTTTCTCTAAAGACTTTATCCTAACCTTTCCTCGTAATTACGTTACGACCTCTCCTATTACTTTTCGTTTTACCGTTTCTCCGGCCATTACCACTAATCTCCCCATTGCCACTCCGACCGTTTCTGCCGTTAGCGAACAGGTTATTCAACGTGGTGCGCTTCTGAAATACGGGAAAAGGAACGATTGGATCCCTTTGCTTTGCCGCACAGAGCGTACCGGAAAACGCGCTGTACGGGCCAGGTGGCGATTTAAAGATGAAGAGGGCGCCTACGAAGATGTGGCCGAATTTCCCAGCGTGCCCTCTCGGGCTTATCCCTATTGGGCGTTTTTGACCGCTCAGGTAGCCCAGGGTCTTTTTGATCTTTACGTTATGGTCTCCGAGGTTTCCGAAAACAAAGCAATGGAATGCGATATATGGGACGCATCCAACTCCACCATCGGTGCAGCGCGAACCACCGTTGTCGTAGGTAAGCCTCCGGCACCCGCTCCGTCGTACGCCGACCCGCTAAACACTTATACGAAAGATGCTCGCGGAACGGTGGGATCGAAACTGTACATGCCCTGTCGTCCGTTCGGCGCGCTTAAAGAACCAATAAAAGTAGAATGGGTAAGAAAGGCCGTTGACGGCTCACGAACGTTTCCGCTCACGTGGCTAAAAGGCTCGGCACCCGTGACCCCCTATCCTGGTTATCAAATATCAAATCAGTTAGATCAAAACGTGTTCGATCTCACTATTACGGATTTAACGGTGAAAAACAACCGTGACCTGTACACCTGCCGATTTTACGACGCGAGCGGGTCTCAATCTTTTCTGGATTACGAAGTAACCGTCTCAGTGGCAGAACCGGCGGTGGTCGCCCGTGCTATGACGGAAGCCTCTCCCCAAGTCATGGAGAGAATAGTCGCACCGGAAGTTCGAATCGAGACTTCGAACGCCGTTTTTTTCCTCGGGCGCCATTACGAATGTTTTCCGCTGGATCGCGATGTTCGTCGCTAG</edomv>\n <edomvd>Consensus DNA sequence for HP32. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGAAATTTTTTCGAATCCTCCCGTGGTTCTCCGTTTTCCACATCTCTCAAACTCTGAGTAGGTTGATAACCCTTCCTTGTATTTATCCCCCAAACGTTGTGTTACCTGAATATTTTGTTGGCTTATGGGAACTCGTAGAACCGCACCACTCAAAACGTCTTTTGGTAGAGTTTCAGAGAGGCGTGATAAAATATCATGATAATCGCCTGTCTGTAGATTTGCTAAATGTGTTTACCAAACATGATTTTTCCGCAATTGTCCAATTAACACACGCATTTGAAGGACGCACGTTTCGATGTACGATTTTAAGCTCTTATACCACGAGCGTAGTTTACACTCAAGAAACGCCGATTATATTGGGTACCTTTGCTCCGCCAGGTGTAACCGCTAGACCCTTGGTACCAAGGGCTGAAGGTGAGACAGCGGTACATTGTCTCAACCCAAATGAAAAAATACCTGTTCCTTATTTAGTGATATTATGGTTAGCTGTAAAACCCAACGGTGCTATTTCAGTGCTGTACGATTTTCAAGGAGGACGAGTTTTAACAAAGGATTCCAGCGTCACGGTCGACGAAGAACGAGCTGTTCGCTATCAAGACGCGTCCGCTATTTTTAAAAAAGGAAGTCTTTTAACGGATGGGACTAGAGTCCGCTGTTCGTTTGCGTCTTCGAAAAGCAATTCGCTAATTTTCTCTAAAGACTTTATCCTAACCTTTCCTCGTAATTACGTTACGACCTCTCCTATTACTTTTCGTTTTACCGTTTCTCCGGCCATTACCACTAATCTCCCCATTGCCACTCCGACCGTTTCTGCCGTTAGCGAACAGGTTATTCAACGTGGTGCGCTTCTGAAATACGGGAAAAGGAACGATTGGATCCCTTTGCTTTGCCGCACGGAGCGTACCGGAAAACGCGCTGTACGGGCCAGGTGGCGATTTAAAGATGAAGAGGGCGCCTACGAAGATGTGGCCGAATTTCCCAGCGTGCCCTCTCGGGCTTATCCCTATTGGGCGTTTTTGACCGCTCAGGTAGCCCAGGGTCTTTTTGATCTTTACGTTATGGTCTCCGAGGTTTCCGAAAACAAAGCAATGGAATGCGATATATGGGACGCATCCAACTCCACCATCGGTGCAGCGCGAACCACCGTTGTCGTAGGTAAGCCTCCGGCACCCGCTCCGTCGTACGCCGACCCGCTAAACACTTATACGAAAGATGCTCGCGGAACGGTGGGATCGAAACTGTACATGCCCTGTCGTCCGTTCGGCGCGCTTAAAGAACCAATAAAAGTAGAATGGGTAAGAAAGGCCGTTGACGGCTCACGAACGTTTCCGCTCACGTGGCTAAAAGGCTCGGCACCCGTGACCCCCTATCCTGGTTATCAAATATCAAATCAGTTAGATCAAAACGTGTTCGATCTCACTATTACGGATTTAACGGTGAAAAACAACCGTGACCTGTACACCTGCCGATTTTACGACGCGAGCGGGTCTCAATCTTTTCTGGATTACGAAGTAACCGTCTCAGTGGCAGAACCGGCGGTGGTCGCCCGTGCTATGACGGAAGCCTCTCCCCAAGTCATGGAGAGAATAGTCGCACCGGAAGTTCGAATCGAGACTTCGAACGCCGTTTTTTTCCTCGGGCGCCATTACGAATGTTTTCCGCTGGATCGCGATGTTCGTCGCTAG</edomv>\n <edomvd>Consensus DNA sequence for HP32. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93381_HP33.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP33 gene (predicted feature= Hypothetical protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP33 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP33 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGGAGGAGAGGTTCCAGCCGAAAGAACCGCTGTTGATATTCAGAAGGAGGTCGCCACCTCACGCGTTAGTTGTTGGAAAGAGGCTGTACGAATTTTTTATGCCGGCCCGTCTCAGAATTGCGGTGAAGAAGCTGTTTTACAAGGCGAAGCAAGGCGCGTTTACGACTTGATACGACGCAGGTGGCATGTCGTTTCATTACGGCTAAAACAAAGCATAGCATCCACGGTTTTTGAAGCCTCCGATGAAAATGTCCCTAAGCTGATTCAATTTTTATTTCTGCATTGCGGATTTGGTTACGATGAAGTGCACACCGTTCATTGTTTAGCTATGATGAAAAGTGCTTGTTTTTCACACCCTCTTCGAGCCGAGGGACGCGAGGAAGTGCGGCGGTGCGTCTTAAGTTATTGCTGCGAAAGTCATTTAAAATTTCTTAGGGGCGCTTTCCCTACTGAAAACTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP33. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGGAGGAGAGGTTCCAGCCGAAAGAACCGCTGTTGATATTCAGAAGGAGGTCGCCACCTCACGCGTTAGTTGTTGGAAAGAGGCTGTACGAATTTTTTATGCCGGCCCGTCTCAGAATTGCGGTGAAGAAGCTGTTTTACAAGGCGAAGCAAGGCGCGTTTACGACTTGATACGACGCAGGTGGCATGTCGTTTCATTACGGCTAAAACAAAGCATAGCATCCACGGTTTTTGAAGCCTCCGATGAAAATGTCCCTAAGCTGATTCAATTTTTATTTCTGCATTGCGGATTTGGTTACGATGAAGTGCACACCGTTCATTGTTTAGCTATGATGAAAAGTGCTTGTTTTTCACACCCTCTTCGAGCCGAGGGACGCGAGGAAGTGCGGCGGTGCGTCTTAAGTTATTGCTGCGAAAGTCATTTAAAATTTCTCAGGGGCGCTTTCCCTACTGAAAACTAA</edomv>\n <edomvd>Consensus DNA sequence for HP33. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93382_HP34.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequence for the ChHV-5 HP34 gene (predicted feature= Hypothetical protein) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP34 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP34 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCGTAAATTGTTAGTCATGGGTGGGAGCTGTAGACGGAACCCATCTCACGTAAACTTTGATAAGCTGCGTCAAGAGTTAGCTATTTGGAAATGGGCCGCCCGCCTGTACCTGACGGGAAGTAACGCCTTGCAGGACGTTCCCGAAGTTTTCCGGCCCCTGGTCATGGTCACGTTTCAGGAACTTATCGACTGCGAATTAGCAAGGACCCTCGAGGAAAATGAAATCTTAGCTTCCGTTTTGTTAACGGTGGAATTCAATGAACTCCGATTGACGGTTTACAACCTTCTTAAAAGTTGCTGCTTTGGAAGGACGAGGGAAAGCACCGTAAGCGCTGTTTCATCCTTGGGCCCAGGGTACGTCGCGATTTTGGGATTTCTGGGAGAGGACGTCGCGAATTGTGTAATTGATTATCTATTTGACCGTATACGGTATGAGTACATGCCGTTTCTGTTAATTACGCAAGTGTGTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP34. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCGTAAATTGTTAGTCATGGGTGGGAGCTGTAGACGGAACCCATCTCACGTAAACTTTGATAAGCTGCGTCAAGAGTTAGCTATTTGGAAATGGGCCGCCCGCCTGTACCTGACGGGAAGTAACGCCTTGCAGGACGTTCCCGAAGTTTTCCGGCCCCCGGTCATGGTCACGTTTCAGGAACTTATCGACTGCGAATTAGCAAGGACCCTCGAGGAAAATGAAATCTTAGCTTCCGTTTTGTTAACGGTGGAATTCAATGAACTCCGATTGACGGTTTACGACCTTCTTAAAAGTTGCTGCTTTGGAAGGACGAGGGAAAGCACCGTAAGCGCTGTTTCATCCTTGGGCCCAGGGTACGTCGCGATTTTGGGATTTCTGGGAGAGGACGTCGCGAATTGTGTAATTGATTATCTCTTTGACCGTATACGGTATGAGTACATGCCGTTTCTGTTAATTACGCAAGTGTGTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP34. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93383_HP35.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP35 gene (predicted feature= Hypothetical protein, heptad repeat regions derived from long-range PCR and high-throughput sequencing). See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP35 ChHV5 gene from the complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP35 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCCTTCTGTCGCGTTCCGGGCCTTCGCTCTGCTATGGCTTTCGATCGCGGGCTTCCACGGGGCCTACAGACAGAATACTTATATTATGCAACAGGAGTTCGTCGCGGAGACGCTCAATATTTCCAACTGCTGGATCTGCAGCCACATCCCAGCCACGGCGGACGCAGGAATTCCGGTCTTGCCGCTGGCTCTGAACGCCTCAGAACTAACGGCCGGTCCGCGTCCCTTCAATCAACCGTACGGGAGCAACGACACCTGGGACTCGGTGGGAGTGCAAAACGAAACCCGCATCAGCGTTGTTAGCGCCGTGGGAGAGTGGTGCTGGGTCTGTAACGGTTCGGGTCCTTTTCTCGGAACAAGCCGCTGTCGCCGCAACATTGTGAAAGACGGAGTATGGGATCATTCCGGCAAAACAGTCACTTGGAAAACGCGATACACCGGTGAAGTGTATACCACGTGGAACCAGACGACAAGCGGACTGCTTAATTGCTCAAAGTTTGAGACGACCGAGAACAAAACCATATTTAAGTGCCTTACTGCGAATAACAGTACTGACATGTTTCCAATGCCATTTACTGGATACTATTCTCATTTTGTCGAATCCTACCTGAACAATAGTTGTAGAACACCGTTTCCAGCATTACTAGGGCACCATTGGGTTTGCGGGGGGAAAGCGTATACGGTTTTGCCCGCAAATTGGTCGGGCGTTTGTTATCCGGCAAAACTATTGCCGCAATTCCGAGTTCTATCACGTTTACCTACAAAATCCTTCAGAAACTTCAAACGAGACGTGAAAGACGCTCAGTGGTACGTGGATAACGTTGATCCTTTAACCTGGGACAACGCGATAGGGAATGCCTTTGTGCCCATAGGCGGCGTCATACACGCCAACAAGCGCATTTTGCGTTTGCAAGCGGTGGTGGAGATTTTAGCCAACGATACGGCCGAGAGCCTACGTTTGTTGAGCGAAGAAACGAAAGCCATTCGGACCGTCGCTTTACAAAACCGGCAGGCTTTAGACGTAATTTTGGCCGCTAAAGGCGGAACGTGCGCTCTGATCGGACAAGAATGTTGCGTTTACATTCCGGATTATTCCGACAAGGTTTTCGACCGTGCGGACCACTTGCAAAAGATAGCCTATGTCCCTCACGATGAAGCCAACGGGTTGTTCGGATGGTTGGGTAAAATGTTTAACTTCTCCGGCATCGGCGCCTGGTTGCTACATGGCCTCATCACCGTGGTAGTGATAATTGTTGTGGTGTATGTACTCTCCCAAATTCTAAGCCGCTGCTTAGCGGCTTGTCTGTCTTCGGGCTTACCTGCCGTGCAACGCGTGATGCTGCTCCGACCGGGACCGGATGAGGAAAAATTAAGATTGCAACAGGCGCTACTGTCAATGGAGAAGGGCGGTCGCAAAGCGCGTGTAAACATTCAATAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or consensus DNA sequence for HP35. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCCTTCTGTCGCGTTCCGGGCCTTCGCTCTGCTATGGCTTTCGATCGCGGGCCGCCACGCGGCCTATCGACAGAATACTTATATTATGCAACAGGAGTTCGTCGCGGAGACGCTCAATATTTCCAACTGCTGGATCTGCAGCCACATCCCATCCACGGCGGACGCAGGAATTCCGGTCTTGCCGCTGGCTCTGAACGCCTCAGAACTAACGGCCGGTCCGCGTCCCTTCAATCAACCGTACGGGAGCAACGACACCTGGGACTCGGTGGGAGTGCAAAACGAAACCCGCATCAGCGTTGTTAGCGCCGTGGGAGAGTGGTGCTGGGTTTGTAACGGTTCGGGTCCTTTTCTCGGAACAAGCCGCTGCCGCCGCAACATTGTGAAAGACGGAGTATGGGATCATTCCGGCAAAACAGTCACTTGGAAAACGCGATACACCGGTGAAGTGTATACCACGTGGAACCAGACGACAAGCGGACTGCTTAATTGCTCAGAGTTTGAGACGACCGAGAACCAAACCATATTTAAGTGCCTTACTGCGAATAACAGTACTGACATGTTTCCAATGCCATTTACTGGATACTATTCTCATTTTGTCGAATCCTACCTGAACAATAGTTGTAGAACACCGTTTCCAGCATTACTAGGGCACCATTGGGTTTGCGGGGGGAAAGCGTATACGGTTTTGCCCGCAAATTGGTCGGGCGTTTGTTATCCGGCAAAACTATTGCCGCAATTCCGAGTTCTATCACGTTTACCTACAAAATCCTTCAGAAACTTCAAACGAGACGTGAAAGACGCTCAGTGGTACGTGGACAACGTTGATCCTTTAACCTGGGACAACGCGATAGGGAATGCCTTTGTGCCCATAGGCGGCGCCATACACGCCAACAAGCGCATTTTGCGTTTGCAAGCCGTGGTGGAGATTTTAGCCAACGATACGGCCGAGAGCCTACGTTTGTTGAGCGAAGAAACAAGAGCCATTCGGACCGTCGCTCTACAAAACCGTCAGGCTTTAGACGTCATCCTGGCCGCTAAAGGCGGAACGTGCGCTCTGATCGGACAAGAATGTTGCGTTTATATTCCGGATTATTCCGACAAGGTTTTCGACCGTGCGGACCACTTGCAAAAAATAGCCTACGTCCCTCACGATGAAGCCAACGGGTTGTTCGGGTGGTTGGGTAAAATGTTTAACTTCTCCGGCATCGGCGCCTGGTTGCTACATGGGCTCATCACCGTGGTATTGATAATTGTTGTGGTGTATGTACTCTCCCAAATTCTAAGCCGCTGCTTAGCGGCTTGTCTGTCTTCGGGCTTACCTGCCGTGCAACGCGTGATGCTGCTCCGACCGGGACCGGATGAGGAAAAATTAAGATTGCAACAGGCGCTACTGTCAATGGAGAAGGGCGGTCGCAAATCGCGTGTAAACATTCAATAA</edomv>\n <edomvd>Consensus DNA sequence for HP35. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93385_HP37.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents aligned DNA consensus sequences for the ChHV-5 HP37 gene (predicted feature= Hypothetical protein, ICP4) derived from long-range PCR and high-throughput sequencing. See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP37 gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP37 consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGCTTTATGGTATGCCCCCCGCGCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTCTCTGCCGCGGGCGGGCGGGCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCGCCACCTCACAGCACCTCACCACGCCTCGCCTCGCATTTTCCGTTTCCCGGCACCCCGGCGCCACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCCAACCGCGTCCCGGGACGGAGTTGGCCCGAGTGTTCGCTTACGCACCCAGTCTCCCTCCCTCGAGCGGCGAGACGGATTGCGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGCCATCGCAGGCCTTCCCTGCGCGCGTTCGGGACGGAGGGCCGTCCGCGAAGCACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTCCGCGAGCCCCTGGGCCCGCAGAATAACATCTGGAGACCCGCAAGGAAATTTTTTTCTCGAGTTACACAGCCAGCCTGCGCAACCAAGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACCTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGCAACCGCTACCCACAGGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAAATCGATGGCACAAATTGACCAGGCACAGCATCTTCGACCGATGGCCTCGGTTCGGTTCGCTGGAGCGCAACCACATCGAGTATCTTAAAGATACGCTTCAGTGTCGCGATCTCAAGCTTCTGCGAGGCGAGGTGGACGCTTTTTTGTCCTGGATGACCAAGGCCGAATGCCACTGGTACTTCCAAGAGGAGTACGCGGAGCAGGAGCGCGTCAGCCAAGCGCTAAGTAACAAATTGCAGCGAGCGAGGTCACCGACCCCGGCTCCGAGCCCGTCGCCGCGTCCCCGCCAAGGACGGAAGCGCAAACCGCCGCCGCTGAAGAGGCGGCCCACCCCCAACAACCCGCACAGGCTTCATCCCATCCCGGAGCACGCCGTGGTTGCCGCCGCGGCGCCTCTGCCGCGCCCTCCGAAAGCGCAGCTTTACCCCGTCCTCCACGAAGACCCGGATCGAAAGCCGCCCAAAAAACCCCACGAGCATTTCCCGCCGCTGCCGCCAGCTGCGCCCATTGTGCTCACGTGGCAAGAAATGGAGGAAGAGGGCCTAGCGGGCGACGACGACGAGTACGGACCGCTTCAAATATCGGACGACGAAGACGGCTCCGGATCGGACGATTCCGATGCGCACTACGAGGAACCAGAGTTGCCCGAAGGCAATGAGGAAGAGCCCACCACCCAAGCCCCCCTGATTGTGAAAAAAAAGGGCAAACCGCAAAGCCGTAAACGGAATTGCGAGCCTTGGACGCGTGGGGAACTGCTGGCCATCGTCAAAGGTTTCCCGCGCCCGGAGCGCGACCCGCAGGCCTTCGGCAGAGAACTGCAGCTGGTCTGCGAGACGTACCGACCCGCTCGCCAACCTTTGCTGCGTTTATGCCAGCTGGTAGCGGGCGCAGAAAAAACCCACAGCTGGCTCTGGGCGGCCGAAGTCACGGACAACATGGGCGCCGTGCGCGTGGCCGCGCGCCTGATCGCGTCGGTCCCCAAAATTTGGCCGAGGGGCAGCGACTGGACCCTCATCGCCAACTGCCGACAGGGAGCGCAAGAGACGCCGGGGGAGTTCGCCAGGCGCTTGGAGAGCGTCTTCGATAAAAACTGCGGCCTCCTCGACCCGCGCAACGACGGCGGAGCTAAGCGCAACGCCTTTCTCGGGGGTCTTCACGCCCCGCTTTCGGCCTACGTGAAACAAATCTGCGTCGGCTGGGAGGCGGAAGAGATGCCCAAGCTCCTGGCGACGGCGGAGCACTGCCACCGAATCCTAAAGGAGCAGGAGGAAAGCCGTCTGCAGAAATTGATGGACCTCCAGATTCGTAACCTGGAAAAGGAGAACCCCGCCGCGACCTCCTGA</edomv>\n <edomvd>GenBank sequence (first entry) and/or Consensus DNA sequence for HP37. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCGGGGATGGATTTCGCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTCGGCCGCCTCCTTTCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAAATCGATGGCACAAATTGACCAGGCACAGCATCTTCGACCGATGGCCTCGGTTCGGTTCGCTGGAGCGCAACCACATCGAGTATCTTAAAGATACCCTTCAGTGTCGCGACCTCAAGCTTCTGCGAGGCGAGGTGGACGCTTTTTTGTCCTGGATGACCAAGGCCGAATGCCACTGGTACTTCCAAGAGGAGTACGCGGAGCAGGAGCGCGTCAGCCAAGCGCTAAGTAACAAATTGCAGCAAGCGAGGTCACCGACCCCGGCTCCGAGCCCGTCGCCGCGTCCCCGCCAAGGACGGAAGCGCAAACCGCCGCCGCTGAAGAGGCGGCCCACCCCCAACAACCCGCACAGGCTTCATCCCATCCCGGAGCACGCCGTGGCTGCCGCCGCGGCGCCTCCGCCGCGCCCTCCGAAAGCGCAGCTTTACCCCGTCCTCCACGAAGACCCGGATCGAAAGCCGCCCAAAAAACCCCACGAGCATTTCCCGCCGCTGCCGCCAGCTGCGCCCATTGTGCTCACGTGGCAAGAAATGGAGGAAGAGGGCCTAGCGGGCGACGACGACGAGTACGGACCGCTGCAAATATCGGACGACGAGGACGGCTCCGGATCGGACGATTCCGATGCGCACTACGAGGATCCAGACTTGCCCGAAGGGAATGAGGAAGAGCCCACCACCCAAGCCCCCCTGATTGTGAAAAAAAAGGGCAAACCGCAAAGCCGTAAACGGAGTTGCGAGCCTTGGACGCGTGGGGAACTGCTGGCCATCGTCAAAGGTTTCCCGCGCCCGGAGCGCGACCCGCAGGCCTTCGGCAGAGAACTGCAGCTGGTCTGCGAGACGTACCGACCCGCTCGCCAACCTTTGCTGCGTTTATGCCAGCTGGTAGCGGGCGCAGAAAAAACCCACAGCTGGCTCTGGGCGGCCGAAGTCACGGACAACATGGGCGCCGTGCGCGTGGCCGCGCGCCTGATCGCGTCGGTCCCCAAAATTTGGCCGAGGGGCAGCGACTGGACCCTCATCGCCAACTGCCGACAGGGAGCGCAGGAGACGCCGGGGGAGTTCGCCAGGCGTTTGGAGAGCGTCTTCGATAAGAACTGCGGCCTCCTCGACCCGCGCAACGACGGCGGAGCTAAGCGAAACGCCTTTCTCGGGGGTCTTCACGCCCCGCTTTCGGCCTACGTGAAACAAATCTGCGTCGGCTGGGAGGCGGAAGAGATGCCCAAGCTCCTGGCGACGGCGGAGCACTGCCACCGAATCCTAAAGGAGCAGGAGGAAAGCCGTCTGCAGAAATTGATGGACCTCCAGATTCGTAACCTGGAAAAGGAGAACCCCGCCGCGACCTCCTGA</edomv>\n <edomvd>Consensus DNA sequence for HP37. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCTTTTTGGTATTCCCCCCGCCCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTTTCTGCCGCGGGCGGGCGGTCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCCCCACCTCACCTCACCTCACCACGCCTCGACTCACATTTTCCGTTTCCCAGCACCCCCGCGCTACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCNNNCCGGGTCCCGGGACGCGGTTGGCCCGAGTGTTCCCTTACGCACCCAGTCTTCCTCCCTCGAGCGGCGAGACGGGTTGCGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGGCCTCGCAGGCCTTCCCTGCGCGCGTTGGGGACGGAGGGCCGTCCGCGAAGGACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTACGCGAGCCCCTGGGCCCGCAAAATAATATCTGGAGACCCGCAAGGAAATTTTTTTCTCGAGTTAGACAGCCAACCTGCGTAACCAGGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACTTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGGAACCGCTACCCCCCTGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAAATCGATGGCACAAATTGACCAGGCACAGCATCTTCGACCGATGGCCTCGGTTCGGTTCGCTGGAGCGCAACCACATCGAGTATCTTAAAGATACCCTTCAGTGTCGCGACCTCAAGCTTCTGCGAGGCGAGGTGGACGCTTTTTTGTCCTGGATGACCAAGGCCGAATGCCACTGGTACTTCCAAGAGGAGTACGCGGAGCAGGAGCGCGTCAGCCAAGCGCTAAGTAACAAATTGCAGCAAGCGAGGTCACCGACCCCGGCTCCGAGCCCGTCGCCGCGTCCCCGCCAAGGACGGAAGCGCAAACCGCCGCCGCTGAAGAGGCGGCCCACCCCCAACAACCCGCACAGGCTTCATCCCATCCCGGAGCACGCCGTGGCTGCCGCCGCGGCGCCTCCGCCGCGCCCTCCGAAAGCGCAGCTTTACCCCGTCCTCCACGAAGACCCGGATCGAAAGCCGCCCAAAAAACCCCACGAGCACTTCCCGCCGCTGCCGCCAGCTGCGCCCATTGTGCTCACGTGGCAAGAAATGGAGGAAGAGGGCCTAGCGGGCGACGACGACGAGTACGGACCGCTGCAAATATCGGACGACGAGGACGGCTCCGGATCGGACGATTCCGATGCGCACTACGAGGATCCAGACTTGCCCGAAGGGAATGAGGAAGAGCCCACCACCCAAGCCCCCCTGATTGTGAAAAAAAAGGGCAAACCGCAAAGCCGTAAACGGAGTTGCGAGCCTTGGACGCGTGGGGAACTGCTGGCCATCGTCAAAGGTTTCCCGCGCCCGGAGCGCGACCCGCAGGCCTTCGGCAGAGAACTGCAGCTGGTCTGCGAGACGTACCGACCCGCTCGCCAACCTTTGCTGCGTTTATGCCAGCTGGTAGCGGGCGCAGAAAAAACCCACAGCTGGCTCTGGGCGGCCGAAGTCACGGACAACATGGGCGCCGTGCGCGTGGCCGCGCGCCTGATCGCGTCGGTCCCCAAAATTTGGCCGAGGGGCAGCGACTGGACCCTCATCGCCAACTGCCGACAGGGAGCGCAGGAGACGCCGGGGGAGTTCGCCAGGCGTTTGGAGAGCGTCTTCGATAAGAACTGCGGCCTCCTCGACCCGCGCAACGACGGCGGAGCTAAGCGAAACGCCTTTCTCGGGGGTCTTCACGCCCCGCTTTCGGCCTACGTGAAACAAATCTGCGTCGGCTGGGAGGCGGAAGAGATGCCCAAGCTCCTGGCGACGGCGGAGCACTGCCACCGAATCCTAAAGGAGCAGGAGGAAAGCCGTCTGCAGAAATTGATGGACCTCCAGATTCGTAACCTGGAAAAGGAGAACCCCGCCGCGACCTCCTGA</edomv>\n <edomvd>Consensus DNA sequence for HP37. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCTTTTTGGTATTCCCCCCGCCCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTTTCTGCCGCGGGCGGGCGGTCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCCCCACCTCACCTCACCTCACCACGCCTCGACTCACATTTTCCGTTTCCCAGCACCCCCGCGCTACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCCNACCGGGTCCCGGGACGCGGTTGGCCCGAGTGTTCCCTTACGCACCCAGTCTTCCTCCCTCGAGCGGCGAGACGGGTTACGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGGCCTCGCAGGCCTTCCCTGCGCGCGTTGGGGACGGAGGGCCGTCCGCGAAGGACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTACGCGAGCCCCTGGGCCCGCAAAATAATATCTGGAGACCCGCAAGGAAATTTTTTTCTCGAGTTAGACAGCCAACCTGCGTAACCAGGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACTTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGGAACCGCTACCCCCCTGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAAATCGATGGCACAAATTGACCAGGCACAGCATCTTCGACCGATGGCCTCGGTTCGGTTCGCTGGAGCGCAACCACATCGAGTATCTTAAAGATACCCTTCAGTGTCGCGACCTCAAGCTTCTGCGAGGCGAGGTGGACGCTTTTTTGTCCTGGATGACCAAGGCCGAATGCCACTGGTACTTCCAAGAGGAGTACGCGGAGCAGGAGCGCGTCAGCCAAGCGCTAAGTAACAAATTGCAGCAAGCGAGGTCACCGACCCCGGCTCCGAGCCCGTCGCCGCGTCCCCGCCAAGGACGGAAGCGCAAACCGCCGCCGCTGAAGAGGCGGCCCACCCCCAACAACCCGCACAGGCTTCATCCCATCCCGGAGCACGCCGTGGCTGCCGCCGCGGCGCCTCCGCCGCGCCCTCCGAAAGCGCAGCTTTACCCCGTCCTCCACGAAGACCCGGATCGAAAGCCGCCCAAAAAACCCCACGAGCATTTCCCGCCGCTGCCGCCAGCTGCGCCCATTGTGCTCACGTGGCAAGAAATGGAGGAAGAGGGCCTAGCGGGCGACGACGACGAGTACGGACCGCTGCAAATATCGGACGACGAGGACGGCTCCGGATCGGACGATTCCGATGCGCACTACGAGGATCCAGACTTGCCCGAAGGGAATGAGGAAGAGCCCACCACCCAAGCCCCCCTGATTGTGAAAAAAAAGGGCAAACCGCAAAGCCGTAAACGGAGTTGCGAGCCTTGGACGCGTGGGGAACTGCTGGCCATCGTCAAAGGTTTCCCGCGCCCGGAGCGCGACCCGCAGGCCTTCGGCAGAGAACTGCAGCTGGTCTGCGAGACGTACCGACCCGCTCGCCAACCTTTGCTGCGTTTATGCCAGCTGGTAGCGGGCGCAGAAAAAACCCACAGCTGGCTCTGGGCGGCCGAAGTCACGGACAACATGGGCGCCGTGCGCGTGGCCGCGCGCCTGATCGCGTCGGTCCCCAAAATTTGGCCGAGGGGCAGCGACTGGACCCTCATCGCCAACTGCCGACAGGGAGCGCAGGAGACGCCGGGGGAGTTCGCCAGGCGTTTGGAGAGCGTCTTCGATAAGAACTGCGGCCTCCTCGACCCGCGCAACGACGGCGGAGCTAAGCGAAACGCCTTTCTCGGGGGTCTTCACGCCCCGCTTTCGGCCTACGTGAAACAAATCTGCGTCGGCTGGGAGGCGGAAGAGATGCCCAAGCTCCTGGCGACGGCGGAGCACTGCCACCGAATCCTAAAGGAGCAGGAGGAAAGCCGTCTGCAGAAATTGATGGACCTCCAGATTCGTAACCTGGAAAAGGAGAACCCCGCCGCGACCTCCTGA</edomv>\n <edomvd>Consensus DNA sequence for HP37. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCTTTATGGTATGCCCCCCGCGCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTCTCTGCCGCGGGCGGGCGGGCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCGCCACCTCACAGCACCTCACCACGCCTCGCCTCGCATTTTCCGTTTCCCGGCACCCCGGCGCCACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCCAACCGCGTCCCGGGACGGAGTTGGCCCGAGTGTTCGCTTACGCACCCAGTCTCCCTCCCTCGAGCGGCGAGACGGATTGCGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGCCATCGCAGGCCTTCCCTGCGCGCGTTCGGGACGGAGGGCCGTCCGCGAAGCACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTCCGCGAGCCCCTGGGCCCGCAGAATAACATCTGGAGACCCGCAAGGAAATTTTTTTCTCCAGTTACACAGCCAGCCTGCGCAACCAAGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACCTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGCAACCGCTACCCACAGGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAAATCGATGGCACAAATTGACCAGGCACAGCATCTTCGACCGATGGCCTCGGTTCGGTTCGCTGGAGCGCAACCACATCGAGTATCTTAAAGATACGCTTCAGTGTCGCGATCTCAAGCTTCTGCGAGGCGAGGTGGACGCTTTTTTGTCCTGGATGACCAAGGCCGAATGCCACTGGTACTTCCAAGAGGAGTACGCGGAGCAGGAGCGCGTCAGCCAAGCGCTAAGTAACAAATTGCAGCGAGCGAGGTCACCGACCCCGGCTCCGAGCCCGTCGCCGCGTCCCCGCCAAGGACGGAAGCGCAAACCGCCGCCGCTGAAGAGGCGGCCCACCCCCAACAACCCGCACAGGCTTCATCCCATCCCGGAGCACGCCGTGGTTGCCGCCGCGGCGCCTCCGCCGCGCCCTCCGAAAGCGCAGCTTTACCCCGTCCTCCACGAAGACCCGGATCGAAAGCCGCCCAAAAAACCCCACGAGCATTTCCCGCCGCTGCCGCCAGCTGCGCCCATTGTGCTCACGTGGCAAGAAATGGAGGAAGAGGGCCTAGCGGGCGACGACGACGAGTACGGACCGCTTCAAATATCGGACGACGAAGACGGCTCCGGATCGGACGATTCCGATGCGCACTACGAGGAACCAGAGTTGCCCGAAGGCAATGAGGAAGAGCCCACCACCCAAGCCCCCCTGATTGTGAAAAAAAAGGGCAAACCGCAAAGCCGTAAACGGAATTGCGAGCCTTGGACGCGTGGGGAACTGCTGGCCATCGTCAAAGGTTTCCCGCGCCCGGAGCGCGACCCGCAGGCCTTCGGCAGAGAACTGCAGCTGGTCTGCGAGACGTACCGACCCGCTCGCCAACCTTTGCTGCGTTTATGCCAGCTGGTAGCGGGCGCAGAAAAAACCCACAGCTGGCTCTGGGCGGCCGAAGTCACGGACAACATGGGCGCCGTGCGCGTGGCCGCGCGCCTGATCGCGTCGGTCCCCAAAATTTGGCCGAGGGGCAGCGACTGGACCCTCATCGCCAACTGCCGACAGGGAGCGCAAGAGACGCCGGGGGAGTTCGCCAGGCGCTTGGAGAGCGTCTTCGATAAAAACTGCGGCCTCCTCGACCCGCGCAACGACGGCGGAGCTAAGCGCAACGCCTTTCTCGGGGGTCTTCACGCCCCGCTTTCGGCCTACGTGAAACAAATCTGCGTCGGCTGGGAGGCGGAAGAGATGCCCAAGCTCCTGGCGACGGCGGAGCACTGCCACCGAATCCTAAAGGAGCAGGAGGAAAGCCGTCTGCAGAAATTGATGGACCTCCAGATTCGTAACCTGGAAAAGGAGAACCCCGCCGCGACCTCCTGA</edomv>\n <edomvd>Consensus DNA sequence for HP37. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGCTTTATGGTATGCCCCCCGCCCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTCTCTGCCGCGGGCGGGCGGGCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCGCCACCTCACAGCACCTCACCACGCCTCGCCTCGCATTTTCCGTTTCCCGGCACCCCGGCGCCACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCCAACCGCGTCCCGGGACGGAGTTGGCCCGAGTGTTCGCTTACGCACCCAGTCTCCCTCCCTCGAGCGGCGAGACGGATTGCGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGCCATCGCAGGCCTTCCCTGCGCGCGTTCGGGACGGAGGGCCGTCCGCGAAGCACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTCCGCGAGCCCCTGGGCCCGCAGAATAACATCTGGAGACCCGCAAGGAAATTTTTTTCTCGAGTTACACAGCCAGCCTGCGCAACCAAGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACCTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGCAACCGCTACCCACAGGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAAATCGATGGCACAAATTGACCAGGCACAGCATCTTCGACCGATGGCCTCGGTTCGGTTCGCTGGAGCGCAACCACATCGAGTATCTTAAAGATACGCTTCAGTGTCGCGATCTCAAGCTTCTGCGAGGCGAGGTGGACGCTTTTTTGTCCTGGATGACCAAGGCCGAATGCCACTGGTACTTCCAAGAGGAGTACGCGGAGCAGGAGCGCGTCAGCCAAGCGCTAAGTAACAAATTGCAGCGAGCGAGGTCACCGACCCCGGCTCCGAGCCCGTCGCCGCGTCCCCGCCAAGGACGGAAGCGCAAACCGCCGCCGCTGAAGAGGCGGCCCACCCCCAACAACCCGCACAGGCTTCATCCCATCCCGGAGCACGCCGTGGTTGCCGCCGCGGCGCCTCTGCCGCGCCCTCCGAAAGCGCAGCTTTACCCCGTCCTCCACGAAGACCCGGATCGAAAGCCGCCCAAAAAACCCCACGAGCATTTCCCGCCGCTGCCGCCAGCTGCGCCCATTGTGCTCACGTGGCAAGAAATGGAGGAAGAGGGCCTAGCGGGCGACGACGACGAGTACGGACCGCTTCAAATATCGGACGACGAAGACGGCTCCGGATCGGACGATTCCGATGCGCACTACGAGGAACCAGAGTTGCCCGAAGGCAATGAGGAAGAGCCCACCACCCAAGCCCCCCTGATTGTGAAAAAAAAGGGCAAACCGCAAAGCCGTAAACGGAATTGCGAGCCTTGGACGCGTGGGGAACTGCTGGCCATCGTCAAAGGTTTCCCGCGCCCGGAGCGCGACCCGCAGGCCTTCGGCAGAGAACTGCAGCTGGTCTGCGAGACGTACCGACCCGCTCGCCAACCTTTGCTGCGTTTATGCCAGCTGGTAGCGGGCGCAGAAAAAACCCACAGCTGGCTCTGGGCGGCCGAAGTCACGGACAACATGGGCGCCGTGCGCGTGGCCGCGCGCCTGATCGCGTCGGTCCCCAAAATTTGGCCGAGGGGCAGCGACTGGACCCTCATCGCCAACTGCCGACAGGGAGCGCAAGAGACGCCGGGGGAGTTCGCCAGGCGCTTGGAGAGCGTCTTCGATAAAAACTGCGGCCTCCTCGACCCGCGCAACGACGGCGGAGCTAAGCGCAACGCCTTTCTCGGGGGTCTTCACGCCCCGCTTTCGGCCTACGTGAAACAAATCTGCGTCGGCTGGGAGGCGGAAGAGATGCCCAAGCTCCTGGCGACGGCGGAGCACTGCCACCGAATCCTAAAGGAGCAGGAGGAAAGCCGTCTGCAGAAATTGATGGACCTCCAGATTCGTAACCTGGAAAAGGAGAACCCCGCCGCGACCTCCTGA</edomv>\n <edomvd>Consensus DNA sequence for HP37. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>AHA93386_HP38.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Data represents Consensus DNA sequence alignments for the ChHV-5 HP38 gene (predicted feature= Hypothetical protein, ICP4s). See procstep for analytical methods used to generate consensus sequences. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples. See Metadata file for additional sample information.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the HP38 ChHV5 gene from the complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 HP38 unique consensus sequences aligned to the GenBank match from Ackermann et al., 2012 (first entry). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ATGGTATGCCCCCCGCGCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTCTCTGCCGCGGGCGGGCGGGCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCGCCACCTCACAGCACCTCACCACGCCTCGCCTCGCATTTTCCGTTTCCCGGCACCCCGGCGCCACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCCAACCGCGTCCCGGGACGGAGTTGGCCCGAGTGTTCGCTTACGCACCCAGTCTCCCTCCCTCGAGCGGCGAGACGGATTGCGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGCCATCGCAGGCCTTCCCTGCGCGCGTTCGGGACGGAGGGCCGTCCGCGAAGCACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTCCGCGAGCCCCTGGGCCCGCAGAATAACATCTGGAGACCCGCAAGGAAATTTTTTTCTCGAGTTACACAGCCAGCCTGCGCAACCAAGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACCTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGCAACCGCTACCCACAGGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAA</edomv>\n <edomvd>GenBank sequence (first entry) and/or Consensus DNA sequence for HP38. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TTGGTATTCCCCCCGCCCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTTTCTGCCGCGGGCGGGCGGTCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCCCCACCTCACCTCACCTCACCACGCCTCGACTCACATTTTCCGTTTCCCAGCACCCCCGCGCTACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCNNNCCGGGTCCCGGGACGCGGTTGGCCCGAGTGTTCCCTTACGCACCCAGTCTTCCTCCCTCGAGCGGCGAGACGGGTTGCGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGGCCTCGCAGGCCTTCCCTGCGCGCGTTGGGGACGGAGGGCCGTCCGCGAAGGACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTACGCGAGCCCCTGGGCCCGCAAAATAATATCTGGAGACCCGCAAGGAAATTTTTTTCTCGAGTTAGACAGCCAACCTGCGTAACCAGGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACTTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGGAACCGCTACCCCCCTGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP38. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TTGGTATTCCCCCCGCCCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTTTCTGCCGCGGGCGGGCGGTCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCCCCACCTCACCTCACCTCACCACGCCTCGACTCACATTTTCCGTTTCCCAGCACCCCCGCGCTACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCCNACCGGGTCCCGGGACGCGGTTGGCCCGAGTGTTCCCTTACGCACCCAGTCTTCCTCCCTCGAGCGGCGAGACGGGTTACGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGGCCTCGCAGGCCTTCCCTGCGCGCGTTGGGGACGGAGGGCCGTCCGCGAAGGACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTACGCGAGCCCCTGGGCCCGCAAAATAATATCTGGAGACCCGCAAGGAAATTTTTTTCTCGAGTTAGACAGCCAACCTGCGTAACCAGGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACTTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGGAACCGCTACCCCCCTGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP38. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGTATGCCCCCCGCGCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTCTCTGCCGCGGGCGGGCGGGCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCGCCACCTCACAGCACCTCACCACGCCTCGCCTCGCATTTTCCGTTTCCCGGCACCCCGGCGCCACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCCAACCGCGTCCCGGGACGGAGTTGGCCCGAGTGTTCGCTTACGCACCCAGTCTCCCTCCCTCGAGCGGCGAGACGGATTGCGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGCCATCGCAGGCCTTCCCTGCGCGCGTTCGGGACGGAGGGCCGTCCGCGAAGCACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTCCGCGAGCCCCTGGGCCCGCAGAATAACATCTGGAGACCCGCAAGGAAATTTTTTTCTCCAGTTACACAGCCAGCCTGCGCAACCAAGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACCTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGCAACCGCTACCCACAGGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP38. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ATGGTATGCCCCCCGCCCGCGGCCCCCCGCCCCGCGTCGCTTTCGCCGTCTCTGCCGCGGGCGGGCGGGCGGCTGGGGCCCGGGGATGGATTTCGCCCGGGCGCCACCTCACAGCACCTCACCACGCCTCGCCTCGCATTTTCCGTTTCCCGGCACCCCGGCGCCACTTCAGCCCGCCTGCGGGCTACTGGCCTCGGCCGCCTCCTTTCCAACCGCGTCCCGGGACGGAGTTGGCCCGAGTGTTCGCTTACGCACCCAGTCTCCCTCCCTCGAGCGGCGAGACGGATTGCGGACTGCTCCTCGCCCACCCAGACCGCAAACCCTGTGCTCCGCGCCATCGCAGGCCTTCCCTGCGCGCGTTCGGGACGGAGGGCCGTCCGCGAAGCACATGGGGTGCACGGAGACTCTCCTTGGCCGCCGTCCCCGACGCGGGCGCCGTCCGCGAGCCCCTGGGCCCGCAGAATAACATCTGGAGACCCGCAAGGAAATTTTTTTCTCGAGTTACACAGCCAGCCTGCGCAACCAAGGAGCGACCCCTGCTTCCGCTGGCTACCCCTCCCTCTTTCCGTTACAGCCGCACCTGGCCTCGCCCAGGTGAGCGCTATAAATTTGGCAGAGCGCGTTCCACCTTCTCACCCTCTACCGTCATGGGGAACGCAGCAGTCTCTGGCAACCGCTACCCACAGGACAGCCCGGCATGGCAGATGTACGAGTACGGGGGGCCGAAGGTCTGCCGTTTCTTAA</edomv>\n <edomvd>Consensus DNA sequence for HP38. DNA nucleotides represented by: A= adenine; C=cytosine; G= guanine; T-thymine; N=undefined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Metadata.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample_ID</attrlabl>\n <attrdef>This is the original label assigned in the field to each individual sample received in the laboratory.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>These labels represent case IDs assigned in the field by the person/group taking green sea turtle tumor biopsy samples.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>This is a label generated for laboratory identification of individual samples.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number for the XXX gene from the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample_Type</attrlabl>\n <attrdef>This field identifies the type of tissue sampled from green sea turtles.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Tumor_biopsy indiates that a small tissue plug was taken from a tumor and preserved in the field in 95% molecular grade ethanol (Florida samples), or flash frozen at -70 degrees C (Hawaii samples).</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collection_Date</attrlabl>\n <attrdef>Date the genetic sample was taken in the field. Format equals YYYYMMDD.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>19960325</rdommin>\n <rdommax>20121108</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>State</attrlabl>\n <attrdef>This is the state in which the sample was collected.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Florida</edomv>\n <edomvd>Florida indicates that the sample was collected in Florida, U.S.A.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Hawaii</edomv>\n <edomvd>Florida indicates that the sample was collected in Hawaii, U.S.A.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Location</attrlabl>\n <attrdef>This is the specific geographic area in which the sample was collected.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Indian River County</edomv>\n <edomvd>Sample was taken in Indian River County, Florida.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Marin County</edomv>\n <edomvd>Sample was taken in Marin County, Florida.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Sarasota County</edomv>\n <edomvd>Sample was taken in Sarasota County, Florida.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Launiupoko Beach Park, Maui</edomv>\n <edomvd>Sample taken at Launiupoko Beach Park, Maui, Hawaii.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Halananea, Maui</edomv>\n <edomvd>Sample taken at Halananea, Maui, Hawaii.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Hilo, Hawaii</edomv>\n <edomvd>Sample taken at Hilo, Hawaii.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Ka'a'Awa Point, Swanzy Beach Park, Oahu</edomv>\n <edomvd>Sample taken at Ka'a'Awa Point, Swanzy Beach Park, Oahu, Hawaii.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Hookipa Park, Maui</edomv>\n <edomvd>Sample taken at Hookipa Park, Mau, Hawaii.i</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>Latitude of sample location expressed in decimal degrees.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>unknown</edomv>\n <edomvd>Unknown indicates that sample latitude data was not provided to USGS.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>20.8432</edomv>\n <edomvd>Latitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>20.8783</edomv>\n <edomvd>Latitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>19.7071</edomv>\n <edomvd>Latitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>21.5572</edomv>\n <edomvd>Latitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>20.9343</edomv>\n <edomvd>Latitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>Longitude of sample location expressed in decimal degrees.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>unknown</edomv>\n <edomvd>Unknown indicates that sample latitude data was not provided to USGS.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>-156.6528</edomv>\n <edomvd>Longitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>-156.6825</edomv>\n <edomvd>Longitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>-155.0885</edomv>\n <edomvd>Longitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>-157.8536</edomv>\n <edomvd>Longitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>-156.3561</edomv>\n <edomvd>Longitude of sample location expressed in decimal degrees.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Extraction</attrlabl>\n <attrdef>This indicates the method by which DNA was extracted from the sample.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>DNA was extracted from 10 mg sections of tumor tissue using the manufactureres protocol from the DNeasy Blood and Tissue Kit (Qiagen, Valencia, CA). DNA was quantified with the Qubit double-stranded (ds) DNA High Sensitivity (HS) Assay Kit (ThermoFisher Scientific, Grand Isle, NY).</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GenBank_Accession</attrlabl>\n <attrdef>This field contains the GenBank Biosample number associated with raw seqeunce reads from this tumor sample. All samples are cataloged under BioProject ID PRJNA360405 in NCBI's Sequence Read Archive (https://trace.ncbi.nlm.nih.gov/Traces/sra/sra.cgi?).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>SAMN06210144</edomv>\n <edomvd>GenBank Biosample accession number forall raw sequences produced for Laboratory_ID FL_F5</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>SAMN06210146</edomv>\n <edomvd>GenBank Biosample accession number forall raw sequences produced for Laboratory_ID FL_G5</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>SAMN06210145</edomv>\n <edomvd>GenBank Biosample accession number forall raw sequences produced for Laboratory_ID FL_USF</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>SAMN06210150</edomv>\n <edomvd>GenBank Biosample accession number forl raw sequences produced for Laboratory_ID HI_12354.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>SAMN06210151</edomv>\n <edomvd>GenBank Biosample accession number forl raw sequences produced for Laboratory_ID HI_12379.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>SAMN06210149</edomv>\n <edomvd>GenBank Biosample accession number forl raw sequences produced for Laboratory_ID HI_21533.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>SAMN06210148</edomv>\n <edomvd>GenBank Biosample accession number forl raw sequences produced for Laboratory_ID HI_21610.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>SAMN06210147</edomv>\n <edomvd>GenBank Biosample accession number forl raw sequences produced for Laboratory_ID HI_21611.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>HQ878327_ChHV5_genome.csv.txt</enttypl>\n <enttypd>comma delimited text file.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Laboratory_ID</attrlabl>\n <attrdef>The first value is the GenBank (https://www.ncbi.nlm.nih.gov/genbank/) accession number (HQ878327) for the ChHV5 complete genome sequence (Ackermann et al., 2012). The other entries are laboratory-assigned labels that combine State of collection (HI= Hawaii, FL= Florida), followed by the field ID or notation about the origin of the sample.\n\nAckermann M, Koriabine M, Hartmann-Fritsch F, De Jong PJ, Lewis TD, Schetle N, Work TM, Dagenais J, Balazs GH, Leong JC. 2012. The genome of chelonid Herpesvirus 5 harbors atypical genes. PLOS One 7: e46623. doi:10.1371/journal.pone.0046623.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>HQ878327</edomv>\n <edomvd>This field contains the reference ChHV5 genome (GenBank accession number HQ878327; Ackermann et al., 2012.)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>FL_USF</edomv>\n <edomvd>This field contains the aligned ChHV5 consensus sequence for Laboratory_ID FL_USF</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>FL_F5</edomv>\n <edomvd>This field contains the aligned ChHV5 consensus sequence for Laboratory_ID FL_F5.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>FL_G5</edomv>\n <edomvd>This field contains the aligned ChHV5 consensus sequence for Laboratory_ID FL_G5.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HI_12354</edomv>\n <edomvd>This field contains the aligned ChHV5 consensus sequence for Laboratory_ID HI_12354.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HI_12379</edomv>\n <edomvd>This field contains the aligned ChHV5 consensus sequence for Laboratory_ID HI_12379.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HI_21553</edomv>\n <edomvd>This field contains the aligned ChHV5 consensus sequence for Laboratory_ID HI_21533.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HI_21610</edomv>\n <edomvd>This field contains the aligned ChHV5 consensus sequence for Laboratory_ID HI_21610.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HI_21611</edomv>\n <edomvd>This field contains the aligned ChHV5 consensus sequence for Laboratory_ID HI_21611.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>procstep</attrlabl>\n <attrdef>This field contains ChHV-5 consensus sequences aligned to the full reference genome (GenBank accession number HQ878327; Ackermann et al., 2012). Consensus sequences were generated from sam-formatted alignments using the samtools mpileup function and the view, call, and consensus functions of bcftools version 1.3.1 (https://samtools.github.io/bcftools). A consensus base was chosen at variable sites following the original samtools model (-c switch) rather than the multiallelic model, and IUPAC ambiguity codes were not used. Coverage was computed with the samtools depth function, and all sites in each sample with coverage less than 5X were converted to \xe2\x80\x9cN\xe2\x80\x9d. ORFs were parsed from consensus sequences based on the coordinates in Ackermann et al. (2012) with some minor corrections to ensure full representation of the final codons. Additional downstream process steps and statistical analyses not included with this data have been published externally in Morrison, et. al. 2017.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>GCCCCCCACTAAACCGCTCTCCTCCCTCCCCCCGAACCCCCCGGGGGGGTTTCCGAGGGGGGGGGTCGATTTTGCGGGGTCCGGCTCAGCTGCGGCGGAGGTCGTGGAGGCCGGCCTCGATGGCGGAGAAGGGGGTGAGGGGACAGGGGTAGGGATCCTGGGATGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGAGGGGGCGGCGGGAGGAGCCCGCCGGGGGCCCCCGGGGGTGGCGGTGGCGGGGGGACCTGGGCCAGCGCGAGGCCGAAGACGGCCAGGGGGTCGGTGGGCGGGGAGCCGGTGCGGCGGCCGCGCAGGCGCGCGGCGTGCAGGGCCTTGTGGGCGCGGTGGGCGGCGGGGCTGCAGCGGTAGAGTCCGTCCCCCAGGCGGCGGGCGGCGGGCCCGGGCAGGTCGACGCCGTCCGGCAGGCGGCAATCGACCAGCGGGGCGGCGACGCGCACCCAGGCGCCGACGCAGCGGGCGAGGCGGGCGGCCCGCTCGGGGGCGAGGCCGCCCTCGCGGGGCGGGAGCTCGGCCTCGAGGCGGTCCGCCAGGTCGCGCATGAGCCGGCCGGCGCGCCGCAGGCGGGCGGGCCCGTAGGGGGCCAAGGGCTTGGCGCCCAGCTGCAGCCAGGCGGGGAAGGGGTGCTCGAGGGCGGGGTCGGGGTCCTCCATGCCGGGCAGGCGGGCGGCGGGCCCGCGGTAGCGGCAGGCGGCGGCGTGGAGGAGGCGGCCGCAGGCCCGCAGGAAGCAGCCGAGGTCGCGGGGGCCGAGGGGCGGGACGGGGGTCTGGGCGGGAGCGGCCGGGCGGCGGGCCAGACGGTCCAGGTCGCCCAGCAGCGCCGCCTCGTCCCGGCGGGCGGGGGCCGGGGCCGGAACCGGGATCGGCCGCGGCTCCTTCTTCTCCTCGTCCTCTTCCTCCTCCTCCGAAGAGGAGGAGGAGGCCGAGGAGGAAGAGGACGAGGACGAGGAGGACGAGGAGGACGAGGAGGAGGTGCAGGCCCGTCGGCCGGCCGGCGGGGAGGGTTTCTTCGGCTTCTTGGAGGGGGGCGGCCGCGGGAGCCCCGGCGCCGGGCCGGGGCCGGCGCGGGCGGAGGCGGAAGGGCCGGGGCTCCCGCGGCGCTCCGGAGCGTCCGCTTCCCCGCCGGGCGGGAAGGGCACGCCCATGGCGCGGAGCTGCCGCAGGGCGTCGAAGGCTTGGTAGAGAGCGCGCAGGAGGTACTGCTTGACGTAGGAGGAGTTCCAGCTGCGGTTGACGCCGATGATGGTGGCGATGCAGGGCTCGGCCAGCAGGGGGTCGAGGTGCAGCCCGAGCGAGCTGCCGTCCAGCAGGGCCTTGAGGTCGGGCATGCGCGGGTCCTTGGCGTTGCGGGCGGGCACGGGGTAGAGGGTGCGCTCCTGGCCCTCGGGCACGCGGGCCCGGCCGCCGCCCATGTGCGCGCAGTAGCCGCCCATCCGCTCTCGGACCATGCCGTCCAGCAGGAGGAGCGCTTGGCGCGTCTGGCCCGGGTCCAGCTGCACGGAGGCGTGCTCGCGCGGCACGCGCAGGTCCGCCCCGGAGGGGGGCAGGTCGGGGGAGCGGTCCGAGGGGCGGCGGCGAGGGCCGCAGGCGGAGGCGCCGCGGGCGCGGCGGCGGCACCAGGCCTTCTCCGTGCTGACGTAGGCGGCCGCGGGGGCGGAGGCGCGGACCGGGACCGGGATCGGGGCCGGAGCGGGCACGGGTTCCGGGACCGCGCGCGCCCCCTCGCGGCGCAACCGCTCTTCGAGCTCGCGGCGCAGGTCTCGGCGGCTCTGCTTCAGCTGCCCGTGCAGAAAGCCGGTGAGGGACTCCCGCATGCGCTCCATCTCCGCGGCCATGTCGGCACGCTGCCGCTTTCGGCTGGGGGTGGGCGCGGGTCCCAGGAAACACACGTCCGCCTGTTCGTCCTCCGCCGGATCCCGCGGCTCTTCCTTGATGCGCCGCAGGACCGGGTACGGTGAGGGCGGGGTCGGCGAGCGACCCCTCGAACGGCGCTGCTCCGCGGGCTGCTGCATGATCTTTTTTACCGTCGGGACGGCGAGCGCTTTCTCGTATTTATAGCCGCGTGGCCGACGGCGGGGGTCTCCCGCCTTTTTGTTTTCCGTCTTTTTTTTTGTCTTCGAGGTTTGGTGACGGCGGGGTGCTGCTAGGCGACGAGGAGAAGAAGAACAAAGACAAGCCACCGGCGGGTCGCGGTTTCCTTTTTTCGATTCCGGTTCGAAACCAGAAACAGACGCGCTTTTCTTTGTTCGTCGGTGGGAACGTGGTTTTTTCTTTTCCGGCCCGATGCTGATTTTTTTTTTCCGCCCTCGACCGTGAGAAAAGCTTGTGAGTCGAGGGCGCAAAGTTTTATAGGAAGAAAATAAGAACCACGCACGGACTGCGACCCGAGGCCCCGACGGGACGCCGCGCGCCGGAAAATGGAAAACGGCTACCGAGAACCCAAAAAAATAAATAAATAAATAAATAAATCCGAACGACGATCAATCACTCGCAGCGCTTGCCGCAGGTGCGAGAGCGCGACTGCCCCCCCGCGATCCGCGAGGCGTACGTCTAATGCCGGCGGGGCGCCTCCTCCTCCCGCCGGGGCAGGGAGGAGTTCCGCGCGAGGAAAACGGGGAGCTCGCGAGGCGCGCCCCGATCGCTCCGGCACCCCCCGGCCGGCAAGCAGAAACACACACACACACACACACACACACACACACACACACACACACACAAGCAACACCCGATTCGTTCCCGGGGCTCTCTCGGGTCCCCCCCGACTGTCCACGGGGAAGGGAGACCCCCCCACCCTGCAAGATCGGGTGTCAGACCCCGGCCCTGACCGATAGACGACCCGGACCCTGGCCCCCTAGGAAGTACCGAGCCTTATAAGGAGTCCGGGTCCGGGCGCCCCTTTCCAAAAGTTCGGGTTTTCCCTTAGCCCCGTTCTTTTCGGGGTGTCGCGGACCCCGGCCCCGACCGCCGGCCGACCCGGACCGTCGCCCCTAGGAAGGGCGAACCTTATAAGGAGAGCGGGTCCGGGGAAAATCAAAGATTTCGCCATTCGGGGTCCCCGGGCGCCCGACCTTTAAAAGTCGAGGCGGACCCCGGCCCGCTTTGCGAAATTCGGAAGAAAAAGCCTAAAAAGGAGCGCGGGCCGGGGTCCAAATGTTGAAATGCGGACGTTTTGCCCTAAAAGGGAGCGGGGTGATGAAATAAATGAGTCTGGGGTCTCGATTCTAAATGTCAACTCCTCCTCCCGTAGGCGTTCGGAGGGGCATAAGAACGCGGCGGCCGCGTCCGGACCCTCACAGCGGAGGGAAAGCCGTCGGACCGGTTCTACCAGAGTACAGAAGACCACCCCGACCAGAGCGCCGAGATGCCCCGAGGAAGACGGGGAAGCGGCCGGCGCGGACCCCGGCCTGGACGATCGGGAGGCCGAGAAGGAAGGCCCGGAGGCGAACGAGGCCCGCGGCGTCTACCCCATGGGCGAGACGGCAGGCCGGGCAGCTGCGTCGGCTGCGGAGTAGGAGGGGGCCGGGTCGGGTCCGCGGACCGCGGTCGAGGAGGCTGGTCGGGCGGCTCGTCCTCTAGCGGAGGCCGGGGAGGCCGAGGCGGGAGCCGGAGCCGCAGCCGGAGCGGCAGTCGGAGTCGAAGCCGGGGTCGGGGCCGAGGCCGACCTCAAAGCAGGACTCGGGATCGGGGTCGAGGCCGAGGCGAAAGCCGGAGCGGGACCAGAGACCGGGGCCGGGGACGCGGCCGACCCCGGGGAGCGAGCCGCGGCCGTTCCAGAACCGTGCGGTCAGGGGGAGGAGGAAGGCCCGGGCTGAGGTCTGGGCCTTCCGGACCGGGAGAAGAAGACGAGGAGGGGTCCGACGAACCGGACGGCTTTGGAGGCGAGGGTCCCGAACGAGAAGGGCCGGGCCGATCCCCACCACAGCCGCCGCAATCGAGCGAACCCGGCCCGAGCGAAAAGCCCGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGAAGATGATAATGATGAAGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGAACCCGGACCCGGACCCGAACCCGGACCCGGACCAGATCGCGGACCCGGACCAGATCGCGGACCCGGACCCGAACCTGGTTCGGATTCCGATTCCGGCTCGAATCCCGACATTCTAGAGTCGGTGAGCGCCCCCTGCCGCCCGCGAAACACTAGGTAAGAATCCTTTCCCGATCGGTGCCTATTTTACGTTTTTTCTTTTTTTCTCTCCCCGACCCCGCTTTGTGTCTCCGCACAGATCCCGGGTAGTCCTCCTGGAACGAGACCGCCCGAGAAGGCGTCCGACTCGGACGGCGATTCCGGAGATGAAAAAGAAGGCTCCGAAAAGCAAGACTCGAGGCCGCCGTCCGAACCCCGTTTTCCCGAAGAGAGGTCCCCTTTGCTTGACTCCTCGTCCTCCGGCTCCTCATCGGAAAGCGATGGCTTTAGCTTTCTTAAGAAGAACTCGAGCTCTTCGTCCGGGCTCGAATCCCCCGGACCGGAGGACCCGGAATGGAGGCCCAGAGTAAGCGGCGGGCATCACCGCTCCGGACCCGGAAAGGTCCCAAAAACGAAGCGACCGGGGAAGAAGCCGGTCCCGGCCAAGAAAGGGCTAACCTTTCCCCCGGATTCGGACTCTTCCAGCGACAGCGACGATTCGTCGAGCTCCGAATCATCGCCACCGGATGTACGAAAGAAACGCAAGAAACCCCCTAAAACCAGTAAGCCCCCTACAGGCCGTAAAAAGCCCGACAGTCCACCCAAAAGAAAGCTACCTCGCTTGGGTCGCTTACATAAAAGCCGATACGGGGGTTGGTGTCGATACAGTCCTTCGACCTCCCCTTGCTCTAGTGGAAGCGATGTCATATGTGTGGGGAGTTTAGGAACCCCAATTGAGGTACGAAGCGGCAGCAGCACGGACTCCCAGAATCCCTTCTCTTCGCCCGACGATGGCTTGCCCGGAGCGCCCAGCGAAGAGTCTTCGCCGCCTCGCACCCCTCCTCCCCCCCAAGGGCCAAAAAGAAAATCGACGGGACTAGACAGAACCGACGGTGGCAGCGGCTCCAGCCCCACCGGCTGGCCCGGCGACTCCCAATTGTCTCCTCCGAAAAAGAAAAGAAAGTCCGGTGATGGCGGACCTAGGCCCGAAGCCTTCCCGGGCGGCACCTCGTCGCCGACCACCGCTCCGCTCCTTTCCCAGGCTCCGCCGCCGACGGGGCCTCACTCTCCGAGCCCCAAAAGTTCCCCCAGCCCTGGGCCCTCGCGCCGATCTCCACCGTCCCAAAGAAGAGGACCGCCGGAAGACCCCGGACCCTCTCGCGCGTCGAACACCCCGCCTTCAAGTCACGCCCTCCCACCTAGGGCTTTTTGTAAGTATAGCCGTTTGCGCCGCTGTGAGAGGGTAGAAAAAGAAATTAGAGCCGGGTTTGAATTAACGATGTTCTGCATTTTCTTTACGTTCCGTCTCATTTTCTTTTTTTTTTCCTTCCTCCTCAGGGGTGCAAGGCGGTGTTTGGTACAGGGATTACAGCAGGCAATGGTTCGAAAGCCACTTTCCTGACCCGAGAGAAAGGATAGTGGCGGGTGGCGTGGTACAGGCCGTGTTGAGTGCCTCGCTGGGGCTCGCTGAGTTTTTCGTCAATCCTGTACTCAATCCGCAAAACGTCCCCCCCAGTCCTTTACTGCTCCTTCTGCTCTCTCAAGCCAGCAGCGCTTTCCGCCAGATCGTGACTACCCTGGACGGCCTGAGTCAGGACAATCCTTTTTTCCCTGAAGGGTACGGGTGGGAGCAGATGGCGCGCGTATGTACCGAGGCGCCCTCGAGAATCCGCCGAGAATACGGGCTGCCAGGCCACGGCCACCTGGGCCCCGAAGACGTACCCTTTGAGCTAATCAGGGAGGACGTTGTGAACTGGCTAGGTCTCCAGGGAGTCCAGCCGCCGGCGGAGGAGGAAGGCGAGGACTAGTCGCATTAAGCACTCGGACTCCGGTGTCTATATGCTCACGAAGCGTGTCGGTTCATTCCAAGCTATGTTTTTGGTTTAATAATAAAGATGGATATTATATTTTTTATAAAAACACGCACAAACTTGGTTTGTCTCAAGAAAACCCGTTCTCCTCCGAAAGGCGCTAACAAAAGCCTTCGAGGTGAGGAGAAGGGGGGGGAAAAAACCATGGCAAAATACCCGAGTCTTATTTATTTCTTCTCAGTCCCGTGGCCCGCGTCCTTCCCCGTCGAACCCCGATGCGGTTCCTGGTGTCCGGAGCCGAAGAGGACGACCCCTGGCGGCAGCAGCGCGTGGGCCCGCTGGCCGAGACCCTGGCCTACTTCCTGGAGCTGAGCCAACACGCGGAGGAAGTGACGGAAGCCGAATACCGCAGCGCCCTCTGGTGCCTGAGCCGGTTCTGCCGCTGGACGGACGGGCGACCGAGCGCCCCCCTTCCACTGATTCACGCCCCCTGCGGGCCGGACTGCCGCGCGCGCCTGCGCCGGCTCTTCGCCGTGTTCGGCCTGGGCCCGTTGGGACCCCGCGAGGCGGAGCCGGGAGCCGTTCCCGAAGACGGCTGTCGCCCTCTGCAGCTGGCCACGGCCGTGAACCGAACGGCCGCCGGACTTTGTTTCCAGGGCCGGCTGTCCGCCTGCCGGCGGGACACCCTCCGCCGGGCCACCGAAGGCCTTCGGGCGGTGGAGGAGCGCTGCCCGCGGCCGCACGCGCACGGCCCGCTCTGTTTTCCCGAGACGGCCCGGACCCTGGCCCTGATGGGCTTCACCGCCGGCGTCCCGCCGCCGCTATACGAAAGCCGCCCCTCGCCCGCCACTGCAGACCGGAGGCCCGCGGCCCCGGGACCGGACCGCCGCCCCGGCCGCCCCGTGGTCCGCGTCGCTCCGTACCGGACGGACGGATGACCGAAGCGTCTCCTTCCCGCTGCTTTACCCTCGTTTTTATGTCAATGAAAGAATAAAGATATATTTTTGTACGGAAAAAATAAAACTTTAATGAGATTAAAACTCCAGGACCGACAGGCGATTCGAACTCGGTTTTCTTCTCTCCCCCCCCCCCCAGCACCGTCCCAAATCGACACATCCGTTTGCAACCGGCCCGGACACAAGCACAAGCACAAAGAAACACAGTTATCCGACGGAGACAAGGAGTAGGAATCACATCGAGAGAAGGGGTGGGGGCGGGGGGGGGGAAATGAACCCGTTCAGGTTTCCATTTCGAAAAGGAGAAATAAAAACCGAGCAGCAGCAAAAGAAACATTTCTGAAAGAGGCAGGGAATTAAAATTTCTGATTTTTTTCATAAATTGAACCCATAAAACCTTCTCCGGGCTGTCCCGGCAGGCTTAAACCCCCGTCGAGGAGATCGGGGGGAAAAAAAAGCGGCCGTGTTTTACTAAGGGCGAAGGAAGGGGAAAGAATAAGAAAAGAAAAGCTTGGTCGATCTGAAGCCGCTCCGAGAACAGATACAAAGGGAAAAAAATATCTGTTTTTCGGAGGTGAGTTCACCGCCCAAAAAAGGCTTTCTCGGAGGGGGAAAGGGAAAAGAAAGAGACGCTACGCAGACTGGCGGCCGGGGACCGGATCAAAGACCCTTTGGATCGACTCCCGGAAAGAACCAAAAAAGGAACGGAGAAACCAGATCAAAGACCTTGTCGGTTTCTGTAAAAATTGAGAAGGAGACAGACAAAAAAAACCAAGAGGCGTGCCCCGGAACGGGATCAAAGGCCCTATTTTTAGAGAGGAAAAAAAAAAGGAACAATCGGTTCGGGCCAACCAAAAGCGGAGGCGGGGAGGAGGAAAACCGCGGGCGTGAAGAGAGGATGACTCAGGGCCGCCCGGGGGGGGGGGGGGAAAGAGACCCGCGCCACCCACGGAAGGGAGAAAAAAAGAGAGGACAAAAGACCTCACCCCCGAGCCAGCGGCGAAAAAAGCCCAAAACCGGAAGCCGTGAACCCGCCGGAAGAACTTCCGGAGTCGTACGGAGACAGCGGTTTCGAGCGCGCGCGCGAGTGATTCCCTTCCCTTCCTTCCCCTTTTATAAAAAATTCATAAATCGGGTGCGGGGGATGAGGCGGCACCCCGGAAAGAGGAAAGGAAGGGGGAGCGATGGGGCGGGGAGAAGCGACGACGAAAGGTTTCCGGACCCGGAAGCGAGGTTTTTTTTTCCTCCGCCCCCCTCGCTCCTTTTTTCCAAGGGCTCGCGCACCCGGAGGCGGGTGGGGGCGGGAAGAGAAGAGAGGGGGGGGGGCGGAAAATCGATGGTCGGACGAAAAGGTTTCCGGAACACCCCCGGGGGGGGGAGGAAAGAGGGGAAGGGGGGGGGCGCTGAATCGCGTTCGTCGGGAGGACGGGTCGCGCGACCCGGGAGAGGGGGCGGGGAGGCGGGAGGAGGGGGGGGGGCAAAAATGCCGCGGGCCGACGACCGGGCGACAACCCGAGGGGAGGGGAGGGGAGGGGAGGCGGGAGGAGGGGGGGGGGCAAAAAGCGCGCGGGGGGCGGGGGCAGCGGAGGGAGCGGGGAGCGGCGGGTTGGTACGGGCGGAGCGGGGCGGGAAAAGGAAACGCGCTTCGCTGTGCTTTTCTCGAACATGAGTCGGTGGCAGAACGTTACGGAGGCGAATTGTCCGACGCTTTCGGACGCCTTGAGGAGACCCTGTAATGTTATTTGTCAGAAGGTTTTTGACCGATGCCTGAAAACCGATTTGATCGACAGAAATCCTTCTCGCGAACCGCGAACGCCGTGCGAAACGTCCAGCAACGGGTATTTTACCGAACTATCAAAACGGGAACAGCTTGTCTTTGCGCCGACGAAGGGGAAGCCCTCTTTTCCCGTCATGGACCGAACCTTGACGTTACTTCGCCATTCGGCTAGTCGGCAGCACACAAAGATGCCCTACGATGAAATGGGATGGACGTCGAAAAAACGATGGAACCAAAAAGAAGAAGAACTCAACCGTCATCTGTCTCGTCTTTGTCTTGAAACGTATTCACAGCTCGGACCCGAGAGTGAAGACTAGTAACGACTGCTCCGTTCCTTTCTGTGCATGTCTTTTAAACCAAAATTTCTTCCATTCGAATAAATTTTCTTTGCAACGTTGGGGATCGGATGGTCCTTCTCGAGAATTTGGATTTTAGCGCTGGACGCCCCCTTGGTAAGCTTTCCGCGCACGAACGACTAGCCTTAAACGCGCTAAAACCCTGCCGCATGTCGTGCCAGGTCGCGTCCCATGACTTCCCTCCCACGGCCGATGACGGCGGGAACTGTTCCAGTCCCGCAAAACACACCGAGACCAACAAACGAAGAATTTCAAAAACTCCCTGGCAGTGATAAATAAAAACCACGTGGGAAGCTGAACCGGAGCCCGAATGATTAAGGATGGGGTGTTCTGATTCTAACAAATACCCGAGGCACGCCACGAACAAATTTAGGCTTCGACTGAGGGCCAAAAACCCTTCCGTATGATAATAACAGGACGCGGCCAGCGTCTCGCAGCATCGCGGTTGGTAATTCCAAAACAATTTCGGGTACGTGGAGGCGTCGTCTCCGTGGTGACGACGCAAGCATTCCTGATAGGCATTGACCGTGGCGGTCAAGCACGGTGCCACGGTACGGTGACAGGTTCTCAAAAGCGTCTCTAGTAGGGCCTGGTTCTTTGAAAACGACGAAGCGGAAACCTCCTCGTTTTCGCCTTCCAACAAACGCAAGAGCGTTGTGAGGGTGTGATGGCAACCGGCTACGAAAATTACTATGTCTTCACGAGCGGCAGTTTTCCAAGGAATGTTATCCAGCGATTTTTGGAGAGCGTCCGTCAATCGACGGCACGCCTGTCCCGGCGTGGCCGGGTGCTGAATCGAAAAATCGAGTGGATTTGGCTGTCGCGCCACCGAGCGACTTCTGGCACGGCAGTTACGCGGCGTTTCTTTCTTCGTCTTATTCTTTCCGGTGCGCCGGGAAACGCAAACCGTCAGCGAACGGTTGCGGGCACGTTCCCCCGGCTTTCCACCGCAAGCCGAAAAGCTGCGTTGACGTGCCGGAAGTGGGCGGTCTTCAGCCGTCTGTAGTTGTAAAAAAGCGTTCAATAAAGAGGCGGCGCGACTGGCCATTCCGCAATTTCTCGAGTTCGTCGGTAAATTCACAAGATGAGGCGCGCGCGCTCAAAAACCTTCTCAATGGAAGAGAGATGCGGAGAAAAGTACGGAAGCTCCTTTATAGAGTACGAGGCGGTAGAAAGCTCGGAAAGCGAATACTCCGACGCCAGCGACGGGGACTCGGAAACCGAATCGATTCCCGTCCGGGGGGAAACGTGCGAGCTGTCAGACCCGAGCGACTCCGAGTTCCCGCTGACCGATCCGCCGCCTAAACGCAAAAGGCCCCGTGTGCTAGAAAGCTCAGACGACGAGGAAGCCGAACAGGCACCTCCGAGTCCCTCGGTCAAACGCTTTAAAGGCGATCCGGAGGGTCGCGCAAGCGGAATCGGTGCCCCGTTAGGGGCCGATTCGGAATCTAGTTCCGGATCCTCCTGTCCCTCCCCCGAATCCGCTTGGCGTCAATTTGGTGATAAAAACCACGCCCTTATTAACGAGGTCGCCAAGCTTCTGTGCGACGGCGAAGCCGCGGCTGCCGATCGGTACGCCGCGCTAGCCGAGTGCGCACGCCAGTATTTAGAAACCTCCCGCTACATGCTCCCTTTGAGCCGAGCCCTTTTGAGTTCCGAAACGGAAGTCCATAAGGGCCAAGCCGACCTAGAAGCCGAAGGACTGGCGCGAGAGGCCGCGTCTATCGTTCAACAAGCGGTAGAGGTAGACAGCAGTTCCCTGACTTCGTTAACGAGCGGACGGCGCGTAGCTAAGGCGGTCAGATTGGGGGCCGACGTACGATTGGCGCAGCTTAATTTGAAATGGAGTTTAGTATCTATAACGACGACTCGATCTTTTGGCCACTTAAAGAAACCGATTCAGAAGGTGTAATATATTTTGCGGAAAGCCCTCATGTTGTAATGGAAGGCTCCGGCTACGCCGACGGGAAACGACGCATCGCGTTAGATTCTAACTTCGCTTCCCCCTCGCGCGAGGACCCGATGTCGGATCCAGAAACCCACTCGGAAGCAGCGCGAGGATCCACAGAAACGCTTTACTGCGAAATGAAGCCGGTAAAGCGGTCGGAGGTCTGCGAGGCTGAACGGGTCAACAGCTCCGGCCGCTGGAAGAGCCTGGGCTCCGTTTTTCGACGACCAGAACGGGACCGTCGGTCCCGTCGCCGGTCGACTCAGACGGTAGCCTCGCCCTTTCATAATCCCTACCTCCTAACGAAATTACAAAGGGATGATCGCCGAGTGCACGAGCGCCTTCTGGCGCCGTGCCTTCGCGTGTTCTGGGGCAGCTTGTGCGACGCGTCTCACCAGCTCAGCGTCGTCATGGACAAGCCTAACATGCAGATCCCGAATTCTGTCGTGGAAACGGCCATGCGTTTTCGCACGGTATACGACATGCAAACCGCGACGCCGAATTTGGGCAGCTTGGAGGTTCACGCCATGATGGTCATGACGGGAAAACTCATCCTGCACGCCAAGGTGACCAATCAAAACACGCCGCGTTCCCACCGTGACTGGGGTTGTCTTTTGATGCGTATGTCTTTTTGGTGCTGTCAGTCTCACCGAGGGACGTCTTGCGCCCTGAGCCCGTTGTACGAAAAAGCCGTAGAACGGCTCTTTCCGCTCGGCGGAACGCGCACGTACTCCAACGTGCACAGCCACGCGGAATACTGGCAGAGCCTCCGTTCTCTGGCTCAACGCGCGGCCGAAGACAGCGACGCGACCACCGTAATGAGAGATTTAGCCGTGGCCTTAGTCACGGCGGGAGTGGCGGTCGATTCGCGTTATCTGACGAGCTCCGAAGAAGGCTTCGGGACCGAATGCAAGGAGGACTAGTTTTTTATTGACAACTCATGCTTTGTACACGCTGAAAATAGAGCAATAAAATTAATAAAAATCGTCTAGGTTTCCCGTCACTTTGCTTCTCGCCCCCAAAAGGTCCATGAGCATACTCCGCGCTTGCTCGAATCGCGGCCCCTCGTCCACCGGGCTCTTGCTGGGCATTATCGGAGAGGGAGGGGGGAAAAATTCGACCGAATCGTCGCTGTCGAAATCTTCTTCCCGAGTTGGCAGCGAACGGTACGAGCTTCGTCGGCTCAAAGAGTTAAAGTAAACGGTTTGCTGTATGGCCGGACCGGAGGGCCGCTTGCCGCCCCTTTTCTTGCTTTGAAAGCAGCACATGCACGTGGCCACGCAAGCTGCCGTCAAGGCGGTGGCAAAGAGCGCGGCGATAATGCAGATTACCGACACCAGGAGGTGATGAGGGCCGAGGTGGACTTTGCGGTTTTTATCTTCTTTTGGATAACCCGATAGCACTTGAACGGCCGCGGCGCTGTCCTGGTCGATCAGCAAGACGAAATTCCACACCGCCGATTCGTACCGGCCGTTCAGAGCGGCCGTCAGTACATAAAAGCCCGGCTGTGCGTCCGTGGCGGAGGCGAAAATTAAACGGTTTTGTCCGTCCATTTCTGCCTTGTCGCGCCAACTAGAATTAATTACCTTTTTGACGGGACACCGCGTTTTCCACTCGGCACTATTGCCGCAGAAGTAGTCTGTTCTGGCCAAAAGAGTGGCTTTGAAAAAACTGCTTATCACGCAACCGTCGTCGTTAGCCGGATGCAGGCATTCGGGTAGCATGCCCGCCGTCAAACAATCGCTGTACACGAGCAGAGATTTGCAGCCCGGGGCGGTGTTCATGTGGAACCACTCTACGGACACGTTAAATTGGGGTAGAGTCATATTGTCCACTATGTCCAAATACAGCGTGACCGGACCTTCTCCTTTCATCACGGTCATTGACTGCGGTATCCAGAAACGTTCGTTCGCGACAACCGGCTTCGAAACGGTCGTTTCCGTTTCGTTGCGGCTCTCGGAGACCGTGGTCAACGCCGGGGTCACCGGAACGGTGGAAAGAGTCTCGTTTACGGGCGTCGAGCGGTTCGAGGCGGAGGTTGGGTTCGGAGTAGTCATCGTCGCTTCCACAACGGTCAAGACGAAATCTATGCTGAGATCGTCGTCACCCGACGACACCGCTACGGAGTAAATTCCTGAATCGTTAAGATGTACGAAGGGGATCTCGATTGAAAATTCTGAAGAGCGATTGCCCCTTTTCGCTATGCGGGCTTTCAGTTCTGCGATCTGTCCGTCCGCGCAATGACCCTTCTGAAAATGAGTGAAGTCGCAGGAGATCTCCACCAATTTCACACCATCTCCCTGGGAATAGTGGCAACCTAAAGGCAGGCGAAGGTCCTCCACGCACTGACCGTCGTGCGAGCAAACTTTTTCGAAACTTGCCACCGAGCACTCCTTGGTACGGTAATGCCAAAGATCGAGTTCTACCCTTTCCTCGTTTTCCTCAGAGGTGATCGTGACAGAAAACGGAAAGCTGACACTTTGGCCTTCTTCGGCCGCGGCCGTGCGTTTAGGGGCCGTCAAGTTAAAGACAGAGGCTAGATTCGGAACCGCCAAGCACATTGCGGTGCACGCGAGCAGCGAAAAAGAAAGACGCATGATGCAGCGGGCAGGTGAGTCGCGAAGCTGCCTGTCACCTTAACAGGTAAGTTACCACCTGTTATAGCGAGGTATCTTTAAACTCCTCCTCCTGAAACATGACACAACCCTCTTTGTTGTATTTTGTAATTTTATTGAAACAGTAAACAATCTACGAAATGCGCAAAAGTCCTCATATAATAAAATGGCCCCGCGGTGCCGTCGACCGTATGCGGCGCTCTTTTTTCGGCGTTACTGCAGCCGCGGCTAAAATTTCGTCAGCGGTTTCGTCCTGATCCAAAGCGCATCGAAACGGTTGCAGAACGCCTGTGCATTTCCCGGCTGCTCCGACCTGTCGAAAACATTCGATGAATAACCGCATGTCTTTCAAGAGCTTTGAGACCGCTTCCTCTTTTTCCGGTCCGTCGGCGTTTGCCGGGCTTCGAACGCAGTAAAGAAACTCATCTACGTTTGACAGTTCCGGTTTTTTCCAACGTTCCCGTCGCGAGGGGCGGCCGCGGCAATCGGACTCGGCCTTGGTCACTTTCGTTCGATCCATGAAGTACCGCAAGTCTCGCTCCATGGCGGATCCTAAAGCCTTAGGGACGGTTTCGTCGTCTCCTCCGCCAAGGCACAGCCAGGGATTGACTTCTTCGCTCATGACGTTTTTCTACACCTGAGAAGCGTGGTATTGTCCGCTCGCTATTTATCGGCCAGGTGACACCCTTACAGGCATTTCAGCATAAAGGCGGTGTTACGGCGAAGGACGCCTGCCTCCGGAAACCGAAGGGCCTATACCGCACCGGACGAATAGTTAGTCAAAAAAACCCTTCCTCCCCAACCAATTGATAAACTGCTGCCGTTCCCGTTCCAAAAAACGAGTTCACTAATTGAAACTAAAATGAAAACCAGTTTATTGAAAGGCGAGTTTTAGACATTGCTTTCCGGGGGTAAAATTACATATGCTTGCTTCTCCGGGGGTAGATGGTCGATCTCTGGTTCACACGTGGCATCGATCAGATGAGTGGCTCGGCGGTATTCCAAGATGTTTTTAATGCGCCCGCACACACCAAGGCGCTTTATGTACACGCCCAGCAAAAACGCGATTGCTACCGAAAGAGAAAAAAGGAAGAAAATCAAGACGATCGTTCCTTTCGGACTCGCAGGTGTTGGAGCCTTCGAAACGGGGGTCTTAGTGGTGGTGAGAGTCTTCCCGTCGTCGCACGGCAAGTCTTTAAGCGGTTTGCGGTCCGAAGGAGAAACGTTGCTATTTGCCACTGTTAGCGTCACACCAAACGTGTGTTGCTTTTCGTCCATCACTACGACCGTTTTGTAAGTACCAGAATCGTCCTTCGTTGCGTTGTAGATAGAAAACGTTGCCTCCAATCCGTTAAACGTCAAGTCGAAACGCGGTATTTTGGCTAAGGTCATGTGGCCGCAAGGTCGGTGTTGATTACCCGCTCCTGGTGAGCAGTCGGAAAGAAGAGTACTCACGAGGGGCACTCGGCAACCAGTCCTCTTTTCGTATCCTACGTAAATACTAACCGAGCTGGGATGAGCGAGCGCGGCCTCGTGGATGATTAGGCTCGCTTTAAGCGAGCAAGTGCTTCTGCGGCACACCTGCGATACGCCGCTGCGAAGGTTCAAGGAGAAATCGTTTCCGCTTAGGATGACGGCGGCTAAGGGCCGCGCGACCGCGAGAAAAACGTACATAAGCGGGTACCACATCCTCAAAGCAACGGCGTCGGAACGCGCCTGATACCTGCGAGTCCCTCCCCTGCAATATAAGCTACCTTTTTTCTCCACCCTGCGACGTCATCCAGGTACCTTACCTCCAACTGGAAGTAGAGGTTCGGCTTTGGCTGCGGGTGCAAGGCCGGTCTGAAAGATACTTATCTGCGGAAAGGTTTTCCGCGGTGGGTCTCGCATCGGGGCAAAAGGTGAGCATGCGACAAAGCAGTTTCCGCTCCTCGAGGACGATGCTTTCGTCCTCGGGTATTGACTCGTGATTCGCCCTTTGCCAGAGGTGCTGAGGAACCTTTAAATAGAAACAATCGGCTTCTTTCGGACTTTCCCAGCCGCGAGTGGACCGGGTAACGCCCATGCGGCACAGAATTGTCAAGAAACACACCTCGTCCGTTTCGGCCCGAAACGGGGATTCTCGTTTAATGAGATAGTAAAACACGCACCCGAGAGACCACACGTCCAGGCCGTAACCGTACTCGTGACAGAGAAAAACTTCCGGTGATCGGTACCAGGAAGTGCAAACGTCTAAACTATGTTTCCCGCGCTCGCGGCCGTTTGCAGAGTGCCAAAATTTGGCCAATCCAAAATCCGCCACTTTGACATCGTCCACCGAGTTCATCAGGATGTTATCGGGTTTCAGGTCTCGGTGGATGATCCGATGTTCCCGCAGGTAAATGAGAGCGCTCAGGAGCTGGGAGACGATCCTGCGGCGATGGTCTCGCCTGATGCAAGAATTGATGCGAATGAAATCCTTTAGGGATGCGTGAACGTATTCCATTTGCAAAAAAACCCGCGAATCGTCTTCGAGCAACTGAATGGCGGTGATGATGTTAGAGTGGCGCATCATGGTCAGAATATCATACTCGTTGATGGTCGCCTGAGTAAGGCGGTCCTTGCCTTTACGGGTTATCTTAACGGCTATGACGTTGCCGGTAGCCTTATCGACGGCCTTCACTACCTGCCCGTAGGTCCCCTTCCCCAGCGCGGAGAGAAGGTCAAGCGTTTGGTTTACCCGTTCCGCCATGGCGCTTTCGGGAATCTTTGCGCGTTATGGAAAACCCGGGCAGCGTGTGACGCTTTTTGAAAAACGGGTAGGTGAGCACCTTGCTCGCCGATGGCCTTTTAATCGCGTTGAGGCTAAGCATGCGAATAATCACTTTTTTTGCCTCCTGACCGATGCTTAGTTTTTCTACGCAGTCGCAGACGATCGTGCAGTCTCGCTCCGCCGGTACGACCGGTCGCATCCGATCCAAGTTCGCAAAGAGATTGGGCGGCGGGAAATCATAAGCGTCTATTTCCATTTTTTTCAGAATGTGGGTCATGGTGTCCTTGGCCGGGAACATAGAGGCCGGAGCCGACAGCATTTCGAAAGCGGCCACTCCCATCGACCATACGTCGGTCGTCCGGCAGTAAGGATCTCCCAACATCATCTCGGGGGACGATGTGCTAGGGGTACCCGAAATCCCGTACTGCCCCCACAGCCGCGAGTCCTTCACTTTCAAAGCCAACCCCAGATCCCCGAGCTTGGCGTCCGTCGTCAAATCGCGGACGAATATGTTTTCCAGTTTAACGTCGCGATGGAGGATGTTGAGGCTGTGAAGATACTGCAGCCCGCGCAGGCAGTCCCGAAGCACGTGTCGCATCTCCTCCTCCGTCAGCGGTCTGCGCAAGCGCCGCAAATAGTAGCTCAGGTCCCCCGCCATCAGCTCCAACTCCATGTAACACACCTTTGGGTGATAAATGACCCGCATCGTTTTAATGACGTTCCGATGCCTCGCCGCGAGCGCCAAGTTGGTCTCCAGGTGCATGAGCTCGGAGGTGAGGCCGTTTTTGTTATTTAGCGGGGCCGCTTTTAAAGCGCACATAGAACCGTCCGCTCGTTTGCGGCAGCGGTAGACGCAAGCGCTGGCGCCTTGTCCCAACAGCCGTCCAAAATGGTATTCGTTCATGATAGGCACCGCGTGCGAAATGTCGTTTGGATCCACGACGCGACATTCTTCCATTTCTTGGTCCTGGCGCGAGTCGGAATTACAAGATAAACTCGAGGGGACGATCGATGCCGAGCAGCGGGTCGGATTCGCCACTGCGTCCGTACTCATTTCGCCGACGGCGGGGGAGGGCGTACGCATCTCGGCCGCGAAACTCATAATTTCGTTTTAACAGCAGACCGGTCTTTAAAGCTAAACCAATTTTAGGTAACTCGGAGAGCGCGTTTCTTTTACTTGAGGGCGGCGAAAGCGCTTTTGGTGGGCGTTTTCGATAGAAACCGCGGCCTCGGGTAATAAGGACGGCCGTATTAAAGCGGTCGCCGAAAAAGCTGGCCACAAATATCAGTAATGGTAAGCGAGTTAAATGTATCGTTACCCCTCGTATGTCCGAGCAGGCAATTGAACGGCGCCGACTGCGGTTGTCGACCCGAGTACCTGTCCGCGCGGTTTTTCGACCGCCCGGAGCACCGGCATCACCGCCGTTTTTACGCCCAGTACTTTCTTTACGGGGCGCTGTTCGTGTTCTTTTTATATTCCCTAATTTTGACCGGTCTTTGGCTGGGAGCTAGATCTTGTTAATCATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCTTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAAAGCCTGAAAAAAATGCTCTCGGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGGCCGAGGAAAGGGAGAACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGTGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCCGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCGACGGATCAAGAGCAGACGTACTACGGCGATTTCCGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGAGAGCACGGAAAATGGGCGTAGCGTGATAAAGGGCGAAAACGGCCAAAGGCGCCGTTCGTTACTCGCAAACAATAAACCGTTTGTGCGAACAATCTTGCCTGAGGCAGTGTGATTTATTAACCCGCTCCCGAAAATGGCGAGGCATTCGCCACGGGAGCCCGTAACCGTTAACCATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGTCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGATTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCTAGCAAAACGAAAAGATCGAAAAATATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTGCCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTACCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGCCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTTAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATTCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTGTCCGAGACCCTGTACTTAAACCCCCCGGTAGTAAAAAGCCGCGTCGGCGACTCAGTAAAACTTTGTCCGAAGAATGAAGAGGGTCCGTTTTCCAAAATAATTTGGGTGGCCAAAGGAAAAAAAGTTTTCGATTGTGCAAACGGCGTTCGTTGCGAACCTCAACAAATCAAAGAACCGTGGCGTGTTTCGATCGCAGACCGTCGATGTTATTTCATTCAAGACGTTCGTCTTTCGGACGGGGGCGCCTACGTTTTTTTCTTTAAAACGGGACGCCAAGTAGTAACCGGGCGGATCGATCTCATCGTCCACCGTAAAGGAGACCGTGTTGTGGAAATCAGTGATCGTCCAACAATATCGGTTGAACGAGCGACGCAAAAACCTGTTGGAACTTCGATCTCGGAGACTGGCTCGCCACCGAAAATAGAAGACGAAGTCGCCGTAAAAACTTTACCCGACCCGAAAATTTTCCCCATTTTAGAACTCAAAAACGAAACAACCGGCCGCTGTCGCGCGCGATTGGAATGTGATGTCTACGGCCTCGATGAAAGCGAAATGCCACAATTTATTTGGCACGTGACCGAATCGCAGCACGTGTATAGTAGAGGGCTTGCGGGCGATCCTAGCATTCTAGTAGTTAGCTCCGAGAATACCAACGCTAAAGGGATTTTTACATGTGTCGTTCGCAAAAACGGAGAGGTTAAGGAAACCTCAATCCGTTTTTCAAACGTGTGCGTGTTCAAGCGAAGCAAGGCTGTGATGTATGTGGCGTTAGGAGTGCTTCTGGGCCTGCTGCTCCTCATCGGGGTCTGTGTCGGGTTGTTCTTTTACTTGCAAAAAAAGGGACATTGTTATAAGCCGCGTTCACAGCCCGACGTCATTCCCAAAGAACCCGAAATGTCTTTGAGTGTTGTTAACGAGAATGTCTCTGTTCAATAAATTTTGCATGTTCGAGAAAAGCACAGCGAAGCGCGTTTCCTTTTCCCGCCCCGCTCCGCCCGTACCAACCCGCCGCTCCCCGCTCCCTCCGCTGCCCCCGCCCCCCGCGCGCTTTTTGCCCCCCCCCCTCCTCCCGCCTCCCCTCCCCTCCCCTCCCCTCGGGTTGTCGCCCGGTCGTCGGCCCGCGGCATTTTTGCCCCCCCCCCTCCTCCCGCCTCCCCGCCCCCTCTCCCGGGTCGCGCGACCCGTCCTCCCGACGAACGCGATTCAGCGCCCCCCCCCTTCCCCTCTTTCCTCCCCCCCCCGGGGGTGTTCCGGAAACCTTTTCGTCCGACCATCGATTTTCCGCCCCCCCCCCTCTCTTCTCTTCCCGCCCCCACCCGCCTCCGGGTGCGCGAGCCCTTGGAAAAAAGGAGCGAGGGGGGCGGAGGAAAAAAAAACCTCGCTTCCGGGTCCGGAAACCTTTCGTCGTCGCTTCTCCCCGCCCCATCGCTCCCCCTTCCTTTCCTCTTTCCGGGGTGCCGCCTCATCCCCCGCACCCGATTTATGAATTTTTTATAAAAGGGGAAGGAAGGGAAGGGAATCACTCGCGCGCGCGCTCGAAACCGCTGTCTCCGTACGACTCCGGAAGTTCTTCCGGCGGGTTCACGGCTTCCGGTTTTGGGCTTTTTTCGCCGCTGGCTCGGGGGTGAGGTCTTTTGTCCTCTCTTTTTTTCTCCCTTCCGTGGGTGGCGCGGGTCTCTTTCCCCCCCCCCCCCCGGGCGGCCCTGAGTCATCCTCTCTTCACGCCCGCGGTTTTCCTCCTCCCCGCCTCCGCTTTTGGTTGGCCCGAACCGATTGTTCCTTTTTTTTTTCCTCTCTAAAAATAGGGCCTTTGATCCCGTTCCGGGGCACGCCTCTTGGTTTTTTTTGTCTGTCTCCTTCTCAATTTTTACAGAAACCGACAAGGTCTTTGATCTGGTTTCTCCGTTCCTTTTTTGGTTCTTTCCGGGAGTCGATCCAAAGGGTCTTTGATCCGGTCCCCGGCCGCCAGTCTGCGTAGCGTCTCTTTCTTTTCCCTTTCCCCCTCCGAGAAAGCCTTTTTTGGGCGGTGAACTCACCTCCGAAAAACAGATATTTTTTTCCCTTTGTATCTGTTCTCGGAGCGGCTTCAGATCGACCAAGCTTTTCTTTTCTTATTCTTTCCCCTTCCTTCGCCCTTAGTAAAACACGGCCGCTTTTTTTTCCCCCCGATCTCCTCGACGGGGGTTTAAGCCTGCCGGGACAGCCCGGAGAAGGTTTTATGGGTTCAATTTATGAAAAAAATCAGAAATTTTAATTCCCTGCCTCTTTCAGAAATGTTTCTTTTGCTGCTGCTCGGTTTTTATTTCTCCTTTTCGAAATGGAAACCTGAACGGGTTCATTTCCCCCCCCCCGCCCCCACCCCTTCTCTCGATGTGATTCCTACTCCTTGTCTCCGTCGGATAACTGTGTTTCTTTGTGCTTGTGCTTGTGTCCGGGCCGGTTGCAAACGGATGTGTCGATTTGGGACGGTGCTGGGGGGGGGGGGAGAGAAGAAAACCGAGTTCGAATCGCCTGTCGGTCCTGGAGTTTTAATCTCATTAAAGTTTTATTTTTTCCGTACAAAAATATATCTTTATTCTTTCATTGACATAAAAACGAGGGTAAAGCAGCGGGAAGGAGACGCTTCGGTCATCCGTCCGTCCGGTACGGAGCGACGCGGACCACGGGGCGGCCGGGGCGGCGGTCCGGTCCCGGGGCCGCGGGCCTCCGGTCTGCAGTGGCGGGCGAGGGGCGGCTTTCGTATAGCGGCGGCGGGACGCCGGCGGTGAAGCCCATCAGGGCCAGGGTCCGGGCCGTCTCGGGAAAACAGAGCGGGCCGTGCGCGTGCGGCCGCGGGCAGCGCTCCTCCACCGCCCGAAGGCCTTCGGTGGCCCGGCGGAGGGTGTCCCGCCGGCAGGCGGACAGCCGGCCCTGGAAACAAAGTCCGGCGGCCGTTCGGTTCACGGCCGTGGCCAGCTGCAGAGGGCGACAGCCGTCTTCGGGAACGGCTCCCGGCTCCGCCTCGCGGGGTCCCAACGGGCCCAGGCCGAACACGGCGAAGAGCCGGCGCAGGCGCGCGCGGCAGTCCGGCCCGCAGGGGGCGTGAATCAGTGGAAGGGGGGCGCTCGGTCGCCCGTCCGTCCAGCGGCAGAACCGGCTCAGGCACCAGAGGGCGCTGCGGTATTCGGCTTCCGTCACTTCCTCCGCGTGTTGGCTCAGCTCCAGGAAGTAGGCCAGGGTCTCGGCCAGCGGGCCCACGCGCTGCTGCCGCCAGGGGTCGTCCTCTTCGGCTCCGGACACCAGGAACCGCATCGGGGTTCGACGGGGAAGGACGCGGGCCACGGGACTGAGAAGAAATAAATAAGACTCGGGTATTTTGCCATGGTTTTTTCCCCCCCCTTCTCCTCACCTCGAAGGCTTTTGTTAGCGCCTTTCGGAGGAGAACGGGTTTTCTTGAGACAAACCAAGTTTGTGCGTGTTTTTATAAAAAATATAATATCCATCTTTATTATTAAACCAAAAACATAGCTTGGAATGAACCGACACGCTTCGTGAGCATATAGACACCGGAGTCCGAGTGCTTAATGCGACTAGTCCTCGCCTTCCTCCTCCGCCGGCGGCTGGACTCCCTGGAGACCTAGCCAGTTCACAACGTCCTCCCTGATTAGCTCAAAGGGTACGTCTTCGGGGCCCAGGTGGCCGTGGCCTGGCAGCCCGTATTCTCGGCGGATTCTCGAGGGCGCCTCGGTACATACGCGCGCCATCTGCTCCCACCCGTACCCTTCAGGGAAAAAAGGATTGTCCTGACTCAGGCCGTCCAGGGTAGTCACGATCTGGCGGAAAGCGCTGCTGGCTTGAGAGAGCAGAAGGAGCAGTAAAGGACTGGGGGGGACGTTTTGCGGATTGAGTACAGGATTGACGAAAAACTCAGCGAGCCCCAGCGAGGCACTCAACACGGCCTGTACCACGCCACCCGCCACTATCCTTTCTCTCGGGTCAGGAAAGTGGCTTTCGAACCATTGCCTGCTGTAATCCCTGTACCAAACACCGCCTTGCACCCCTGAGGAGGAAGGAAAAAAAAAAGAAAATGAGACGGAACGTAAAGAAAATGCAGAACATCGTTAATTCAAACCCGGCTCTAATTTCTTTTTCTACCCTCTCACAGCGGCGCAAACGGCTATACTTACAAAAAGCCCTAGGTGGGAGGGCGTGACTTGAAGGCGGGGTGTTCGACGCGCGAGAGGGTCCGGGGTCTTCCGGCGGTCCTCTTCTTTGGGACGGTGGAGATCGGCGCGAGGGCCCAGGGCTGGGGGAACTTTTGGGGCTCGGAGAGTGAGGCCCCGTCGGCGGCGGAGCCTGGGAAAGGAGCGGAGCGGTGGTCGGCGACGAGGTGCCGCCCGGGAAGGCTTCGGGCCTAGGTCCGCCATCACCGGACTTTCTTTTCTTTTTCGGAGGAGACAATTGGGAGTCGCCGGGCCAGCCGGTGGGGCTGGAGCCGCTGCCACCGTCGGTTCTGTCTAGTCCCGTCGATTTTCTTTTTGGCCCTTGGGGGGGAGGAGGGGTGCGAGGCGGCGAAGACTCTTCGCTGGGCGCTCCGGGCAAGCCATCGTCGGGCGAAGAGAAGGGATTCTGGGAGTCCGTGCTGCTGCCGCTTCGTACCTCAATTGGGGTTCCTAAACTCCCCACACATATGACATCGCTTCCACTAGAGCAAGGGGAGGTCGAAGGACTGTATCGACACCAACCCCCGTATCGGCTTTTATGTAAGCGACCCAAGCGAGGTAGCTTTCTTTTGGGTGGACTGTCGGGCTTTTTACGGCCTGTAGGGGGCTTACTGGTTTTAGGGGGTTTCTTGCGTTTCTTTCGTACATCCGGTGGCGATGATTCGGAGCTCGACGAATCGTCGCTGTCGCTGGAAGAGTCCGAATCCGGGGGAAAGGTTAGCCCTTTCTTGGCCGGGACCGGCTTCTTCCCCGGTCGCTTCGTTTTTGGGACCTTTCCGGGTCCGGAGCGGTGATGCCCGCCGCTTACTCTGGGCCTCCATTCCGGGTCCTCCGGTCCGGGGGATTCGAGCCCGGACGAAGAGCTCGAGTTCTTCTTAAGAAAGCTAAAGCCATCGCTTTCCGATGAGGAGCCGGAGGACGAGGAGTCAAGCAAAGGGGACCTCTCTTCGGGAAAACGGGGTTCGGACGGCGGCCTCGAGTCTTGCTTTTCGGAGCCTTCTTTTTCATCTCCGGAATCGCCGTCCGAGTCGGACGCCTTCTCGGGCGGTCTCGTTCCAGGAGGACTACCCGGGATCTGTGCGGAGACACAAAGCGGGGTCGGGGAGAGAAAAAAAGAAAAAACGTAAAATAGGCACCGATCGGGAAAGGATTCTTACCTAGTGTTTCGCGGGCGGCAGGGGGCGCTCACCGACTCTAGAATGTCGGGATTCGAGCCGGAATCGGAATCCGAACCAGGTTCGGGTCCGGGTCCGCGATCTGGTCCGGGTCCGCGATCTGGTCCGGGTCCGGGTTCGGGTCCGGGTCCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCGGGTTCTTCATCATTATCATCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCTTCGGGCTTTTCGCTCGGGCCGGGTTCGCTCGATTGCGGCGGCTGTGGTGGGGATCGGCCCGGCCCTTCTCGTTCGGGACCCTCGCCTCCAAAGCCGTCCGGTTCGTCGGACCCCTCCTCGTCTTCTTCTCCCGGTCCGGAAGGCCCAGACCTCAGCCCGGGCCTTCCTCCTCCCCCTGACCGCACGGTTCTGGAACGGCCGCGGCTCGCTCCCCGGGGTCGGCCGCGTCCCCGGCCCCGGTCTCTGGTCCCGCTCCGGCTTTCGCCTCGGCCTCGACCCCGATCCCGAGTCCTGCTTTGAGGTCGGCCTCGGCCCCGACCCCGGCTTCGACTCCGACTGCCGCTCCGGCTGCGGCTCCGGCTCCCGCCTCGGCCTCCCCGGCCTCCGCTAGAGGACGAGCCGCCCGACCAGCCTCCTCGACCGCGGTCCGCGGACCCGACCCGGCCCCCTCCTACTCCGCAGCCGACGCAGCTGCCCGGCCTGCCGTCTCGCCCATGGGGTAGACGCCGCGGGCCTCGTTCGCCTCCGGGCCTTCCTTCTCGGCCTCCCGATCGTCCAGGCCGGGGTCCGCGCCGGCCGCTTCCCCGTCTTCCTCGGGGCATCTCGGCGCTCTGGTCGGGGTGGTCTTCTGTACTCTGGTAGAACCGGTCCGACGGCTTTCCCTCCGCTGTGAGGGTCCGGACGCGGCCGCCGCGTTCTTATGCCCCTCCGAACGCCTACGGGAGGAGGAGTTGACATTTAGAATCGAGACCCCAGACTCATTTATTTCATCACCCCGCTCCCTTTTAGGGCAAAACGTCCGCATTTCAACATTTGGACCCCGGCCCGCGCTCCTTTTTAGGCTTTTTCTTCCGAATTTCGCAAAGCGGGCCGGGGTCCGCCTCGACTTTTAAAGGTCGGGCGCCCGGGGACCCCGAATGGCGAAATCTTTGATTTTCCCCGGACCCGCTCTCCTTATAAGGTTCGCCCTTCCTAGGGGCGACGGTCCGGGTCGGCCGGCGGTCGGGGCCGGGGTCCGCGACACCCCGAAAAGAACGGGGCTAAGGGAAAACCCGAACTTTTGGAAAGGGGCGCCCGGACCCGGACTCCTTATAAGGCTCGGTACTTCCTAGGGGGCCAGGGTCCGGGTCGTCTATCGGTCAGGGCCGGGGTCTGACACCCGATCTTGCAGGGTGGGGGGGTCTCCCTTCCCCGTGGACAGTCGGGGGGGACCCGAGAGAGCCCCGGGAACGAATCGGGTGTTGCTTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTGTTTCTGCTTGCCGGCCGGGGGGTGCCGGAGCGATCGGGGCGCGCCTCGCGAGCTCCCCGTTTTCCTCGCGCGGAACTCCTCCCTGCCCCGGCGGGAGGAGGAGGCGCCCCGCCGGCATTAGACGTACGCCTCGCGGATCGCGGGGGGGCAGTCGCGCTCTCGCACCTGCGGCAAGCGCTGCGAGTGATTGATCGTCGTTCGGATTTATTTATTTATTTATTTATTTTTTTGGGTTCTCGGTAGCCGTTTTCCATTTTCCGGCGCGCGGCGTCCCGTCGGGGCCTCGGGTCGCAGTCCGTGCGTGGTTCTTATTTTCTTCCTATAAAACTTTGCGCCCTCGACTCACAAGCTTTTCTCACGGTCGAGGGCGGAAAAAAAAAATCAGCATCGGGCCGGAAAAGAAAAAACCACGTTCCCACCGACGAACAAAGAAAAGCGCGTCTGTTTCTGGTTTCGAACCGGAATCGAAAAAAGGAAACCGCGACCCGCCGGTGGCTTGTCTTTGTTCTTCTTCTCCTCGTCGCCTAGCAGCACCCCGCCGTCACCAAACCTCGAAGACAAAAAAAAAGACGGAAAACAAAAAGGCGGGAGACCCCCGCCGTCGGCCACGCGGCTATAAATACGAGAAAGCGCTCGCCGTCCCGACGGTAAAAAAGATCATGCAGCAGCCCGCGGAGCAGCGCCGTTCGAGGGGTCGCTCGCCGACCCCGCCCTCACCGTACCCGGTCCTGCGGCGCATCAAGGAAGAGCCGCGGGATCCGGCGGAGGACGAACAGGCGGACGTGTGTTTCCTGGGACCCGCGCCCACCCCCAGCCGAAAGCGGCAGCGTGCCGACATGGCCGCGGAGATGGAGCGCATGCGGGAGTCCCTCACCGGCTTTCTGCACGGGCAGCTGAAGCAGAGCCGCCGAGACCTGCGCCGCGAGCTCGAAGAGCGGTTGCGCCGCGAGGGGGCGCGCGCGGTCCCGGAACCCGTGCCCGCTCCGGCCCCGATCCCGGTCCCGGTCCGCGCCTCCGCCCCCGCGGCCGCCTACGTCAGCACGGAGAAGGCCTGGTGCCGCCGCCGCGCCCGCGGCGCCTCCGCCTGCGGCCCTCGCCGCCGCCCCTCGGACCGCTCCCCCGACCTGCCCCCCTCCGGGGCGGACCTGCGCGTGCCGCGCGAGCACGCCTCCGTGCAGCTGGACCCGGGCCAGACGCGCCAAGCGCTCCTCCTGCTGGACGGCATGGTCCGAGAGCGGATGGGCGGCTACTGCGCGCACATGGGCGGCGGCCGGGCCCGCGTGCCCGAGGGCCAGGAGCGCACCCTCTACCCCGTGCCCGCCCGCAACGCCAAGGACCCGCGCATGCCCGACCTCAAGGCCCTGCTGGACGGCAGCTCGCTCGGGCTGCACCTCGACCCCCTGCTGGCCGAGCCCTGCATCGCCACCATCATCGGCGTCAACCGCAGCTGGAACTCCTCCTACGTCAAGCAGTACCTCCTGCGCGCTCTCTACCAAGCCTTCGACGCCCTGCGGCAGCTCCGCGCCATGGGCGTGCCCTTCCCGCCCGGCGGGGAAGCGGACGCTCCGGAGCGCCGCGGGAGCCCCGGCCCTTCCGCCTCCGCCCGCGCCGGCCCCGGCCCGGCGCCGGGGCTCCCGCGGCCGCCCCCCTCCAAGAAGCCGAAGAAACCCTCCCCGCCGGCCGGCCGACGGGCCTGCACCTCCTCCTCGTCCTCCTCGTCCTCCTCGTCCTCGTCCTCTTCCTCCTCGGCCTCCTCCTCCTCTTCGGAGGAGGAGGAAGAGGACGAGGAGAAGAAGGAGCCGCGGCCGATCCCGGTTCCGGCCCCGGCCCCCGCCCGCCGGGACGAGGCGGCGCTGCTGGGCGACCTGGACCGTCTGGCCCGCCGCCCGGCCGCTCCCGCCCAGACCCCCGTCCCGCCCCTCGGCCCCCGCGACCTCGGCTGCTTCCTGCGGGCCTGCGGCCGCCTCCTCCACGCCGCCGCCTGCCGCTACCGCGGGCCCGCCGCCCGCCTGCCCGGCATGGAGGACCCCGACCCCGCCCTCGAGCACCCCTTCCCCGCCTGGCTGCAGCTGGGCGCCAAGCCCTTGGCCCCCTACGGGCCCGCCCGCCTGCGGCGCGCCGGCCGGCTCATGCGCGACCTGGCGGACCGCCTCGAGGCCGAGCTCCCGCCCCGCGAGGGCGGCCTCGCCCCCGAGCGGGCCGCCCGCCTCGCCCGCTGCGTCGGCGCCTGGGTGCGCGTCGCCGCCCCGCTGGTCGATTGCCGCCTGCCGGACGGCGTCGACCTGCCCGGGCCCGCCGCCCGCCGCCTGGGGGACGGACTCTACCGCTGCAGCCCCGCCGCCCACCGCGCCCACAAGGCCCTGCACGCCGCGCGCCTGCGCGGCCGCCGCACCGGCTCCCCGCCCACCGACCCCCTGGCCGTCTTCGGCCTCGCGCTGGCCCAGGTCCCCCCGCCACCGCCACCCCCGGGGGCCCCCGGCGGGCTCCTCCCGCCGCCCCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCTCCATCCCAGGATCCCTACCCCTGTCCCCTCACCCCCTTCTCCGCCATCGAGGCCGGCCTCCACGACCTCCGCCGCAGCTGAGCCGGACCCCGCAAAATCGACCCCCCCCCTCGGAAACCCCCCCGGGGGGTTCGGGGGGAGGGAGGAGAGCGGTTTAGTGGGGGGCAGAACGGCGTCGTTGGAACTGAGGCGACCGCAAAAAACCAGTTCCCGTCCCAAACTGGCAGAAGTACGGGGCGGAAATGCGACCCGGAAGACGAAGGCCGGCCAGCTTTCTGAAAGCGGCCCCGCAGGCTAGAAAAACGCAGCCGTGAACGGTTTCGCGGGGGGCGGACCGCCGTCGGCTCCGGACCACAGAAAAGGGAAAGGGGGAAGCGAAAGAAACCGACGTTCGTTCCCCGATGCTAAGGGCGCCTTAAAAGCACGTTTTCTGCGAGCCTGAAGTGGAAAACGGAAGTCAGCGGGCCACTTTCCTCTACCGAATCAAACGCGGTCATCGCCGCGCACCCGCCGGGTCTCCGTGCTAATTCGCGATCTTGTTGCTTAAAGCTAGAACCCAAAGGGGACGCTCGATCTGTATCGCGCAAGTCGGGCCTTGCTCCCCCCCCCGCGGACTCTCCTCCACCGAGCGACGTTTAAATAAAGTTTGAAACCTCTGCTGTATGAAATTATTGTCTTTATTTACAGCACGACACACCTTTACAGAACGTATACAACGAAACGATTACATTAAAGCCGATCGGCTCGTTAGGTCGCAGCCGCCGCCCGTCAAGTTAGTTATTGCCGTTACAAGGATTCGGCCTAGCTCTCTCTCCCTTCGCATTGGTGAACGTATGGGATTCGCTGGAACTGGCCGGTCTTGGAGGAATGCGCTCGGCTTCCTTATTTTTACAATTATCCGATCGAACGTTCGATCTGTATAGTTTCTCCGCTTTGCCCGGGGTTCCGGGGATAACCTGTAAAAAAAGCAAAACTCTGGACCGAGCGACGCGGGTTTCCGTTCCTTTCTAGGTAACCGAGTTAGGAACCGTGCCGTTGCTTTTCAGAACATATCACCTTTTTTCGCACCCATCTTTTCGTTCTGATGACCGTAGCCTCGAATCCTAAACCGTCACCGTACAGGTAGAAGAGTCGGTGCGCGCCGCCTTCGTCCCGCGGTACGGTCAAGAATTCGCCGACTTTAGATGCCGTTGAAAAGCCGGCTCGGCCCAGGCGTCCTCCTCGTCTAATCATTCTTCAACTCGGAACTGGCATTTTTGCTCCGCCCGGCGCCCGTCGCGCGACGATCACCAGTCCCAATAGCGCCGCGAGCGCCACCTTATCTCGATTTCCTCATGCCGGGGGCTTTTAAAGCGCCCCCGAGCGTCGCGACCGCCGTTTCGATTCCGGCTGAAGGGAAATGGTCGCCGCCCCGAGGGCGGATCTGGTCGGTCGAGGTCCTCGTGCAGCGTCCAGTGATACCGATCGTAGGAAGGCCGTCGTCCCCAGGGGGTTTCTGGCGACCTCGGGGACTGAGTCTCTTCGTCCTCCGAAGAGGAACATTCCCCTTCTTCCTTCTCTTCCTTTTTCGGAGGGCTCGGTGGTGGGGGGCAGAAAAAATCTAAACGCCGCGCGCATTTGCCCTTGAAGCGCGCCGCGCGCGCCGAAGGGTCGTGGGGGCGAATTTTGACAGGGCGCTCGCACGGTCCTCTTGGTGGCGTTGGAGCTTCCGGCGGCGTTCTCTTGACGGAAGTAGACATGCCTGCTCTTGCTCAGCGTCTTTTCCGGCCGGTCCGCGGGCCGCCGCAGTTTTAAAGGCCGAAATCCTTAAGCCCCTCCTTCTTTCCGCCGACCGGCCGTCGGCCACGGTTTCTCTGCTTTGGTTTCTTCAGGCTTTCTCCCCGCCACCGGACGCGGTCTTTTTGATCAAAGAAAGCAGCAGCTGATCGCCCACCTGAATTTCCAAAATTTTT</edomv>\n <edomvd />\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n 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GAGCCTTCGGAACGGGAGTCTTAGTGGTGGTGAGAGTCTTCCCGTCGTCGCACGGCAAGCCTTTAAGCGGTGTGCGGTCCGAAGGAGAAACGTTGCTATTTGCCACTGTTAGCGTCACACCAAACGTGTGTTGCTTTTCGTCCATCACTACGACCGTTTTGTAAGTACCGGAATCGTCCTTCGTTGCGTTGTAGATAGAAAACGTTGCCTCCAATCCGTTAAACGTCAAGTCGAAACGCGGTATTTTGGCTAAGGTCATGTGGCCGCAAGGTCGGTGTTGATTACCCGCTCCTGGTGAGCAGTCGGAAAGAAGAGTACTCACGAGGGGCACTCGGCAACCAGTCCTCTTTTCGTATCCTACGTAAATACTAACCGAGCTGGGATGAGCGAGCGCGGCCTCGTGGATGATTAGACTCGCTTTAAGCGAGCAAGTGCTTCTTCGGCACACCTGCGATACGCCGCTGCGAAGGTTCAAAGAGAAATCGTTTCCGCTCAGGATGACGGCGCCTAAGGGCCGCGCGACCGCGAGAACAACGTACATAAGCGGGTACCACATCCTCAAAACAACGGCGTCGGAACGCGCCTGATACCTGCGAGTCCCTCCCCTGCAATATAAGCTACCTTTTTTCTCCACCCTGCGACGTCATCCAGGTACCTTACCTCCAACTGGAAGTAGAGGTTCGGCTTTGGCTGCGAGTGCAAGGCCGATCTGAAAGATACGAATCTGCAGAAAGATTTTCCGCGGTGGGTCTCGCATCGGGGCAAAAGGTGAGCATGCGACATAGCAGTTTCCGCTCCTCAAGGACGATGCCTTCGTCCTCGGGTATTGATTCGTGATTCGCCCTTTCCCAGAGGTGCTGAGGAACCTTTAGGTAGAAGCAATCGGCTTCTTTGGGGCTTTCCCAGCCGCGAGTGGACCGGGTCACTCCCATGCGGCACAAAATCGTCAAGAAACACACCTCGTCCGTTTCGGCGCGAAACGGAGATTCCCGTTTAATGAGGTAGTAAAACACGCACCCGAGCGACCACACATCCAGGCCGTAACCGTACTCGTGACAGAGAAAAACTTCCGGAGATCGGTACCAGGAAGTGCAAACGTCCAAACTATGTTTCCCGCGCTCGCGCCCGTTCGCCGAGTGCCAAAATTTGGCTAACCCAAAGTCCGCCACTTTGATATCGTCTACCGAGTTCATCAGGATGTTGTCGGGTTTCAGGTCTCGGTGGATGATCCGATGTTCTCGTAGGTAAATGAGAGCGCTCAGGAGCTGGGAGACAATCCTGCGGCGGTGATCCCGCCTGATGCAAGAATTGATGCGAATGAAATCTTTTAGGGACGCGTGAACGTATTCCATTTGCAAAAAGACCCGCGAATCGTCCTCGAGCAACTGAATGGCGGTGATGATGTTAGAGTGGCGCATCATGGTCAGAATGTCGTACTCGTTGACGGTCGCCTGAGTAAGGCGGTCCTTGCCTTTACGGGTTATCTTAACGGCTATGACGTTGCCGGTAGCCTTATCGACGGCCTTCACTACCTGCCCGTAGGTTCCCTTTCCCAGCGCGGAGAGAAGGTCAAGCGTTTCGTTTACCCGGTCCGCCATGGCGCTTTCGGGAATCTCTGCGCGTTATGGAAAACCCGGGCAGCGTATGACGCTTTTTGAAAAACGGGTAGGTGAGCAACTTGCTCGCCGATGGCCTTTTAATCGCGTTGAGCCTAAGCATGCGAATAATCACTTTTTTTGCCTCCTGACCGATGCTTAGTTTTTCCACGCAGTCGCAGACGATCGTGCAGTCCCGCTCCGCCGGTACGACCGGTCGCATCCGATCCAAGTTTGCAAAGAGCTTGGGCGGCGGGAAATCATAAGCGTCTATTTCCATTTTTTTCAGAATGTGGGTCATGGTGTCCTTGGCAGGGAACATAGAGGCCGGAGCCGTCAGCATTTCAAAAGCGGCCACTCCCATCGACCATACGTCGGTCGTCCGGCAATAAGGATCTCCCAACATCATCTCGGGTGACGATGTGCTAGGGGTGCCCGAAATCCCGTACTGGCCCCAAAGCCGAGAGTCCTTCACTTTCAAAGCCAATCCCAAGTCCCCGAGCTTGGCGTCCGTCGTCAAATCGCGGACGAATATGTTTTCCAGCTTGACGTCGCGGTGGAGGACGTTGAGGCTGTGGAGATACTGCAGCCCGCGCAGGCAGTCCCGCAGCACGTGTCGCATCTCCTCCTCCGTCAGCGGTCTGCGCAAGCGCCGCAAATAGTAGCTCAGGTCCCCTGCCATCAGCTCCAATTCCATGTAGCACACCTTGGGGTGATAAATGACCCGCATAGTCTTAATGACGTTCCGATGTCTCGCCGCGAGCGCCAAGTTGGTCTCCAGGTGCATGAGTTCGGAAGTGAGGCCGTTCTTGCTATTTAACGGGGCCGCCTTTAAGGCGCACAAGGAACCGTCCGCTCGTTTGCGGCAGCGGTAAACGCAAGCGCTGGCGCCTTGTCCCAACAGCCTTCCGAAATGGTATTCGTTCATTATAGGCGCCGCGTGCGAAATATCGTTGGGATCCACGACGCGGCATTCTTCCATTTCTTGGTCCTGGAGCGAATCGGAATTACAAGATAAACTCGAGGCGACGATCGACGCCGAGCAGCGGGTCGGATTCGCCACGGCATCCGTGTTCATTTCGCCAAGGACGGGGGAGGGCGTACGCATCTCGGCCGCGAAACTCATAATTTCGTTTTAACAACAGACCGGTCTTTAAGGCTACACACATTTTAGGTTACTCGGAGAGCGCGTTTCTTTTACTTTAGGGTGGCGAAAGCGCTCTTGGTGGGCGTTTTCGATAGGAGTCGCGGCCTCGGGAAATAAGGACGGCCGTATTAAAGCTGTCGCTGGAAAGGCTGGCCACATAGACCAGTAATGGTAAGCGAGTTAAATGTATCGCTACCCCTCGTAAGTCCGGGCAGGCAATTAAACGCCACCGACTGCGGTTGTCACCCCGAATACCTGTCCGCGCGGTTTTTTGACCGCTCGGAGCTGCGGCACCACCGCCGTTTTTACGCTCAGTATTTTCTCTACGGGGCGCTGTTCGTGTTCTTTTTATATTCTCTAATTTTAACCGGTCTTTGGCTGGGGGCTAAATCTTGTTAATCATGACCTCGCGTCCGCGCCAAAAATCGGCGCGTGCCAATCGCCGGATGTATTGCGGCGAGAGCTCTCCTGACTCGACCGCGTGCTCGCCTTCACCTGCGAAAAGGGAAAATTCCGCCTACGTGCGCGTACCCTTAACGCCTCCTCGGAGGCACAGTCCGAGCGGGAAGCCGGGGCAAAAAATCCTCTCAGCCCCCGACGAGCGCCCTTGGGAACGCAACGGACAATGGACGAACGACGAACCGGAAGACGGCAACCGAGTTTTGCGGCTGCGGCAATTGAACGACGTTCTTACGCTGTTAACCGATCATCGACAGCGCCTAAGCGAAGCGCCGTTTTTCAACGGTCACGAGCCTTTTTACCGAGAAGCCGCAAACATGCTGCTTTTGATCGCGGCCATCGCCCAAAAGGCGATCGCCGTTTCGCCTATGACGCTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTTACGGACGAGTGTTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCACCGCAAACTTTTAACTTTCGCGAATTCGAGGGCTTGCTCATCAGTTTGTGGCACGTGATCGACCGTCTATCGCGCTGCTCGGTGCCCATTTTGGAGGCCACTCGCAGCTGCGCATTGTGCCTGGCAGCGTGCCGCAGCTATTTTTGGTGCCTCTTGCCTTTGACTAATTTCACCTTGCCCGAATCCTTACCTTTCGACGACCTGGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTTACTCAAAAAGCGCAGCGCTCCACGGAACAGGAACAGGCGTACTACGGCGACTTCAGGGCGCTGCTGGACCTAGGTCGCTTTTCTCGCCGGAGCGACGCGCGACTTACCTGAAAGTAGGGTAAATGGGCGTATTGTGCTAAATGGCGAAAACGGACATCGGCGCCGTTCGTTACTCGCAAACAATAAACCGTTTGTGCGAACGATCGCGCCTGAGGCAGTGTGATTTATTAACTCGCTCCCGAAAATGGCGAGGCATTCGCCACGGGAGCCCGTCACCGTTAATCATGGGCTTGCCCGCTCGAGCGTGTGTTCTTGTGGTTTTACTAAGTGGCGGGGTTTTTTCGCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTACCCGAGGTCCCAGCGGATAACGTGGTACGGTGGGCGTATCAGAATCGCACTGTGCTCGACTGTCGAGCGAAAGACGCCTGCCATCTCTCGGCGCAAGCCGGCCCGCTGTTTGCTTTTGAGTACGTATCGAACTGCCTGCGTTTTAACGCGGCCATATCCGGGTTTTACGGTACCTGGCAAGCAAAACGAAAAGATAGAAAAACATTGGCCAACTTCGAGGTAGACCGCTTGGACGTTTTTCAACACGTAATCAGTACCTGGCCTAGAAATTCAGATTTTTTCGTGTGTCCAAAACGCCCCGTACCGTGGGACTACAGTATCGATTGGTATTATAACGGGTTGCTAATTTACTCCAAAGCGACTTTGCTCGAAAAAGGAACGCCGCGTTCCGGATCGCGGTTTGAACAAAGGCTAACCGACTTTTTTCACTACTGCTTGAAAATTAGCGGCTCGCAAAACGGCGACGCCGGCGATTACGCCTTAATCGCGCAAAAAGAAGACAACGCTGTTCTTCAAACAGTTACGATTCAGATAAAAACCGCGACTTTGTGGTCGAAAGAGTTAACAGCGGAAGCCGCTTCTGCATTTGTAGTCGGAGCCGGCGTATGGAAAGAGTTTGATTTTCGACTCGGCCTGTGGTATCACAACGGGACGCTGTTTCGCGTATGCGGCCTGGAAAACGCGTGTCAAGCGGTCGGCCCCGATCGATTTGCCAACCGTGCCCCGATGGTAGAAAAATATAGCCTTATGATCCAAGACGTCAAACCCGGAGATGCGGGTCGCTATCGGCTTGTCACATCGTCCGCTTTAGAGAGTCGAGTGATTACCTACGAGGTGAAAGAACTTATGCCGGAGTCACACCAAGGCCCTAAGAGGGTCGACGTGTTAGAATTTTCTTCAGCGGAATTATGCGCTCCCTCTCCGGCCTCAACAATCGGATATTCGTGGGTGTTCAACAACGAAACCTTTTACGAGTGTAAAACCCGCTCGGCATGTCGGACCGTCGTCGGATGGAGACATCCGATTTTCGGTCGTTTTCGATTAAGCGATAAAACAGCGGAAACCGCATCCGGCGAGGAAAATTTGCATTGTCTTCGATTGGTTTCCGCGCTACGCGAGCAAGCCGGAGATTATCAGCTAACCTTCTTCGATGAGAACGGATCACTCGTTAACTGGCAATTTAAACTGACGGTAGAGGTTAAGGTTTTCTTGCCGAATACCACGCGGAAGCAGCGTGTTTCTTCCCTCGAAGGGAGAAACATCTCGCTGTGCTCTCAAAAGCCAAGTTCTACAAGCTTCTCAGAAGCAGAATCGTTCATCGTCTCCTTTCAAGGAGCGGTGCTTTTTGAATGCCCCGAAGGCCCGCGTTGTAAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACGTTGTTTGGGGTCGTGCAAAGCGATTCGGGATTGTACGTGCTGAGTTCTTTTCACGGTGAGGAACCGCAAAGTGACTCGTACGAGCTAACCGTAGTTCAAGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTCACGCTGTGCGCCAGCGGGCCTTTACCGGAAAAAAGCCACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAACACAGTAGTATTGTGTGAAAGTAAAACGAATTGCGCTTTAACGGGCGAGGCCCAAGTAAGATATAACAACTTTATGCCCATGAATGTAACGTGTTTGACCATCGATCGCGTGAGCACCCAGAATGCCGGCTCCTACTTTTTCAGATTGGAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACGTCAATGTCGAAAATTCTAAGGAGAAATCGGACCCAGCGGAGGAAACTGCAGATGAAATGCTGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN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CTTCACGAGCGGCCGTTTTCCAAGGAATGTTATCCAGCGATTTTTGGAGAGCGTCCGTCAATCGACGGCACGCCTGTCCCGGCGTGGCCGGGTGCTGAATCGAAAAATCGAGTGGATTTGGCTGCCGCGCCACCGAGCGACTTCTGGCACGGCAGTTACGCGGCGTTTCTTTCTTCGTCTTATTCTTTGCGGTGCGCCGGGAAACGCAAACCGTCAGCGAACGGTTGCGGGCACGCTCCCCCGGCTTTCCACCGCAAGCCGAAAAGCTGCGTTGACGTGCCGGAAGTGGGCGGTCTTCAGCCGTCTGTAGTTGTAAAAAAGCGTTCAATAAAGAGGCGGCGCGACTGGCCATTCCGCAATTTCTCGAGTTCGTCGGTAAATTCACAAGATGAGGCGCGCGCGCTCAAAAACCTTCTCAATGGAAGAGAGATGCGGAGAAAAGTACGGAAGCTCCTTTATAGAGTACGAGGCGGTAGAAAGCTCGGAAAGCGAATACTCCGACGCCAGCGACGGGGAATCGGAAACCGAATCGATTCCCGTCCGAGGGGAGACGTGCGAGCTCTCAGACCCGAGCGACTCCGAGTTCCCGTTGACCGATCCGCCGCCTAAACGCAAAAGGCCCCGTGTGCTAGAAAGCTCAGACGACGAGGAAGCCGAACAGGCACCTCAGAGTTCCTCGGTCAAACGCTTTAAAGGCGATCCGGAGGGTCGCGCAAGCGGAATCGGTTCCCCGTTAGGGGCCGATTCGGAATCTAGTTCCGGATCCTCCTGTCCCTCCCCCGAATCCGCTTGGCGTCAATTTGGTGATAAAAACCACGCCCTTATTAACGAGGTCGCCAAGCTTCTGTGCGACGGCGAAGCCGCGGCTACCGATCGGTACGCCGCGCTAGCCGAGTGCGCACGCCAGTATTTAGAAACCTCCCGCTACATGCTCCCTTTGAGCCGAGCCCTTTTGAGTACCGAAACGGAAGTCCATAACGGGCAAGCCGACCGAGAAGCCGAAGGACTGGCGCGAGAGGCCGCGTCTATCGTTCAACAAGCGGTAGAGGTAGACAGCAGTTCCCTGACTTCGTTAACGAGCGGACGGCGCGTAGCTAAGGCGGTCAGATTGGGGGCCGACGTACGATTGGCGCAGCTTAATTTGAAATGGAGTTTAGTATCTATAACGACGACTCGATCTTTTGGCCACTTAAAGAAACCGATTCAGAAGGTGTGATATATTTTGCGGAAAGCCCTCATGTTGTAATGGAAGGCTCCGGCTACGCCGATGGGAAACGACGCATCGCGTTAGATTCTAACTTCGCTTCCCCCTCGCGCGAGGACCCGATGTCGGATCCAGAAACCCACTCGGAAGCAGCGCGAGGATCCACAGAAACGCTTTACTGCGAAATGAAGCCGGTAAAGCGGTCGGAGGCCTGCGAGGCTGAACGGGTCAACAGCTCCGGCCGCTGGAAAAGCCTGGGCTCCGTTTTTCGACGACCAGAACGGGACCGACGGTCCCGTCGCCGGTCGACTCAGACGGTAGCCTCGCCCTTTCATAATCCCTACCTCCTAACGAAATTACAAAGGGATGATCGCCGAGTGCACGAGCGCCTGCTGGCGCCGTGCCTTCGCGTGTTCTGGGGCAGCTTGTGCGACGCGTCTCACCAGCTCAGCGTCGTCATGGACAAGCCTAACATGCAGATCCCGAATTCTGTCGTGGAAACGGCCATGCGTTTTCGCACGGTATACGACATGCAAACCGCGACGCCGAATTTGGGCAGCTTGGAGGTTCACGCCATGATGGTCATGACGGGAAAACTCATCCTGCACGCCAAGGTGACCAATCAAAACACGCCGCGTTCCCACCGTGACTGGGGTTGTCTTTTGATGCGTATGTCTTTTTGGTGCTGTCAGTCTCACCGAGGGACGTCTTGCGCCCTGAGCCCGTTGTACGAAAAAGCCGTAGAACGGCTCTTTCCGCTCGGCGGAACGCGCACGTACTCCAACGTGCACAGCCACGCCGAATACTGGCAGAGCCTCCGTTCTCTGGCTCAACGCGCGGCCGAAGACAGCGACGCGACCACCGTAATGAAAGATTTAGCCGTGGCCTTAGTCACGGCGGGAGTGGCGGTCGATTCGCGTTATCTGACGAGCTCCGAAGAAGGCTTCGGGACCGAATGCAAGGAGGACTAGTTTTTTATTGACAACTCATGCTTTGTACACGCTGAAAATAGAGCAATAAAATTAATAAAAATCGTCTAGGTTTCCCGTCACTTTGCTTCTCGCCCCCAAAAGGTCCATGAGCATACTCCGCGCTTGCTCGAATCGCGGCCCCTCGTCCACCGGGCTCTTGCTGGGCATTATCGGAGAGGGAGGGGGGAAAAATTCGACCGAATCGTCGCTGTCGAAATCTTCTTCCCGAGTGGGCAGCGAACGGTACGAGCTTCGTCGGCTCAAAGAGTTAAAGTAAACGTTTTGCTGTATGGCCGGACCGGAGGGCCGCTTGCCGCCCTTTTTCTTGCTTTGAAAGCAGCACATGCACGTGGCCACGCAAGCTGCCGTCAAGGCGGTGGCAAACAGCGCGGCGATAATGCAGATCACCGACACCAGAAGGTGATGAGGACCGAGGTGGACTTTGCGGTTTTTATCTTCTTTTGGATAACCCGATACCACTTGAACGGCCGCGGCGCTGTCCTGGTCGATCAGCAAGACAAAATTCCACACCGCCGATTCGTACCGGCCGTTCAGAGCGGCCGTCAGTACATAAAAGCCCGGCTGCGCGTCCGTGGCGGAGGCGAAAATTAAACGGTTTTGTCCGTCCATTTCTGCCTTGTCGCGCCAACTAGAGTTAATTACCTTTTTGACGGGACACCGCGTTTTCCACTCGGCACTATTGCCGCAGAAGTAGTCTGTTCTGGCCAAAAGAGTGGCTTTGAAAAAACTGCTTATCACGCAACCGTCGTCGTTAGCCGGATGCAGGCATTCGGGTAGCATGCCCGCCGTCAAACAATCGCTGTACACGAGCAGAGATTTGCAGCCCGGGGCGGTGTTCATGTGGAACCACTCTACGGACACGTTAAATTGGGGTAGAGTCATATTGTCCACGATGTCCAAGTACAGCGTGACCGGACCTTCTCCTTTCATCACGGTCATTGACTGCGGTATCCAGAAACGTTCGTTCGCGACAACCGGCTTCGAAACGGTCGTTTCCGTTTCGTTGCGGCTCTCGGAGACCGTGGTCAACGCCGGGGTCACCGGAACGGTGGAAAGAGTCTCGTTTACGGGCGTCGAGCGGTTCGAGGCGGAGGTTGGGTTCTTAGTAGTCATCGTCGCTTCCATAACGGTCAAGACGAAATCTATGCTGAGATCGTCGTCACCCGACGAGACCGCTACGGAGTAAATTCCTGAATCGTTCAGATGTACGAAGGGGATCTCGATTGAAAATTCTGAAGAGCGATTGCCCCTTTTCGCTATGCGGGCTTTCAGTTCTGCGATCTGTCCGTCCGCGCAATGACCCTTCTGAAAATGAGTGAAGTCGCAGGAGATCTCCACCAATTTCACGCCATCTCCCTGGGAATAGTGGCAACCTAAAGGCAGGCGAAGGTCCTCCACGCACTGACCGTCGTGCGAGCAAACTTTTTCGAAACTTGCCACCGAGCACTCCTTGGTACGGTAATGCCAAAGATCGAGTTCTACCCTTTCCTCGTTTTCCTCAGAGGTGATCGTGACAGAAAACGGGAAGCTGACACTTTGGCCTTCTTCGGCCGCGGCCGTGCGTTTAGGGCTCGTCAAGTTAAAGACAGAGGCTAGATTCGGAACCGCCAAGCACATTGCGGTGCACGCGAGCAGCGAAAAAGAAAGACGCATGATGCAGCGGGCAGGTGAGTCGCGAAGTTGCCTGTCACCTTAACAGGTAAGTTACCACCTGTTATAGCGAGGTATCTTTAAACTCCTCCTCCTGAAACATGACACAACCCTCTTTGTTGTATTTTGTAATTTTATTGAAACAGTAAACAATCTACGAAATGCGCAAAAGTCCTCATATAATAAAATGGCCCCGCGGTGCCGTCGACCGTATGCGGCGCTCTTTTTTCGGCGTTACTGCTGCCGCGGCTAAAATTTCGTCAGCGGTTTCGTCCTGATCCAAAGCGCATCGAAACGGTTGCAGAACGCCTGTGCATTTCCCGGCTGCTCCGACCTCTCGAAAACATTCGATGAATAACCGCATGTCTTTCAAGAGCTTAGAGACCGCTTCCTCTTTTTCCGGTCCGTCGGCGTCTGCCGGGCTTCGAACGCAGTAAAGAAACTCATCTACGTTCGACAGTTCCGGTTTTTTCCAACGTTCCCGTCGCGAGGGGCGGCCGCGGCAATCGGACTCGGCCTTGGTCACTTTCGTTCGATCCATGAAGTACCGCAAGTCTCGCTCCATGGCGGATCCTAAAGCCTTAGGGACGGTTTCGTCGTCTCCTCCGCCAAGGCACAGCCAGGGATTGACTTCTTCGCTCATGACGTTTTTCTACACCTGCGAAGCGTGGTATTGTCCGCTCGCTATTTATCGACCAGGTGACACCCTTACAGGCATTTCAGCATAAAGGCGGTGTTACGGCGAAGGACGCCTGCCTCCGGAAACCGAAGGGCCTATACCGCACCGGACGAATAGTTAGTCAAAAAAACCCTTCCTCCCCAACCAATTGATAAACTGCTGCCGTTCCCGTTCCAAAAAACGAGTTCACTAATTGAAACTAAAATGAAAACCAGTTTATTGAAAGGCGAGTTTTAGACATTGCTTTCCGGGGGTAAAATTACATATGCTTGCTTCTCCGGGGGTAGATGGTCGATCTCTGGTTCACACGTGGCATCGATCAGATGAGTGGCTCGGCGGTATTCCAAGATGTTTTTAATGCGCCCGCACACACCAAGGCGCTTTATGTACACGCCCAGCAAAAACGCGATTGCTACCGAAAGAGAAAAAAGGAAGAAAATCAAGACGATCGTTCCTTTCGGACTCGCAGGTGTTGGAGCCTTCGAAACGGGAGTCTTAGTGGTGGTGAGAGTCTTCCCGTCGTCGCACGGCAAGTCCTTAAGCGGTTTGCGGTCCGAAGGAGAAACGTTGCTATTTGCCACTGTTAGCGTCACACCAAACGTGTGTTGCTTTTCGTCCATCACTACGACCGTTTTGTAAGTACCAGAATCGTCCTTCGTTGCGTTGTAGATAGAAAACGTTGCCTCCAATCCGTTAAACGTCAAGTCGAAACGCGGTATTTTGGCTAAGGTCATGTGGCCGCAAGGTCGGTGTTGATTACCCGCTCCTGGTGAGCAGTCGGAAAGAAGAGTACTCACGAGGGGCACTCGGCAACCAGTCCTCTTTTCGTATCCTACGTAAATACTAACCGAGCTGGGATGAGCGAGCGCGGCCTCGTGGATGATTAGACTCGCTTTAAGCGAGCAAGTGCTTCTTCGGCACACCTGCGATACGCCGCTGCGAAGGTTCAAAGAGAAATCGTTTCCGCTCAGGATGACGGCGCCTAAGGGCCGCGCGACCGCGAGAACAACGTACATAAGCGGGTACCACATCCTCAAAACAACGGCGTCGGAACGCGCCTGATACCTGCGAGTCCCTCCCCTGCAATATAAGCTACCTTTTTTCTCCACCCTGCGACGTCATCCAGGTACCTTACCTCCAACTGGAAGTAGAGGTTCGGCTTTGGCTGCGGGTGCAAGGCCGGTCTGAAAGATACTTATCTGCGGAAAGGTTTTCCGCGGTGGGTCTCGCATCGGGGCAAAAGGTGAGCATGCGACAAAGCAGTTTCCGCTCCTCGAGGACGATGCTTTCGTCCTCGGGTATTGACTCGTGATTCGCCCTTTGCCATAGGTGCTGAGGAACCTTTAGGTAGAAGCAATCGGCTTCTTTCGGACTTTCCCAGCCGCGAGTGGACCGGGTAACGCCCATGCGGCACAGAATTGTCAAGAAACACACCTCGTCCGTTTCGGCCCGAAACGGGGATTCTCGTTTAATGAGGTAGTAAAACACGCACCCGAGAGACCACACGTCCAGGCCGTAACCGTACTCGTGACAGAGAAAAACTTCCGGTGATCGGTACCAGGAAGTGCAAACGTCTAAACTATGTTTCCCGCGCTCGCGGCCGTTCGCAGAGTGCCAAAATTTGGCCAATCCAAAATCCGCCACTTTGACATCGTCCACCGAGTTCATCAGGATGTTGTCGGGTTTCAGGTCTCGGTGGATGATCCGATGTTCCCGCAGGTAAATGAGAGCGCTCAGGAGCTGGGAGACGATCCTGCGGCGATGATCTCGCCTGATGCAAGAATTGATGCGAATGAAATCCTTTAGGGATGCGTGAACGTATTCCATTTGCAAAAAAACCCGCGAATCGTCTTCGAGCAACTGAATGGCGGTGATGATGTTAGAGTGGCGCATCATGGTCAGAATATCATACTCGTTGATGGTCGCCTGAGTAAGGCGGTCCTTGCCTTTACGGGTTATCTTAACGGCTATGACGTTGCCGGTAGCCTTATCGACGGCCTTCACTACCTGCCCGTAGGTCCCCTTCCCCAGCGCGGAGAGAAGGTCAAGCGTTTGGTTTACCCGTTCCGCCATGGCGCTTTCGGGAATCTTTGCGCGTTATGGAAAACCCGGGCAGCGTGTGACGCTTTTTGAAAAACGGGTAGGTGAGCACCTTGCTCGCCGATGGCCTTTTAATCGCGTTGAGGCTAAGCATGCGAATAATCACTTTTTTTGCCTCCTGACCGATGCTTAGTTTTTCTACGCAGTCGCAGACGATCGTGCAGTCTCGCTCCGCCGGTACGACCGGTCGCATCCGATCCAAGTTCGCAAAGAGATTGGGCGGCGGGAAATCATAAGCGTCTATTTCCATTTTTTTCAGAATGTGGGTCATGGTGTCCTTGGCCGGGAACATAGAGGCCGGAGCCGACAGCATTTCAAAAGCGGCCACTCCCATCGACCATACGTCGGTCGTCCGGCAGTAAGGATCTCCCAACATCATCTCGGGGGACGATGTGCTAGGGGTGCCCGAAATCCCGTACTGCCCCCACAGCCGCGAGTCCTTCACTTTCAAAGCCAACCCCAGATCCCCGAGCTTGGCGTCCGTCGTCAAATCGCGGACGAATATGTTTTCCAGTTTAACGTCGCGATGGAGGATGTTGAGGCTGTGAAGATACTGCAGCCCGCGCAGGCAGTCCCGCAGCACGTGTCGCATCTCCTCCTCCGTCAGCGGTCTGCGCAAGCGCCGCAAATAGTAGCTCAGGTCCCCCGCCATCAGCTCCAACTCCATGTAGCACACCTTTGGGTGATAAATTACCCGCATCGTTTTAATGACGTTCCGATGCCTCGCCGCGAGCGCCAAGTTGGTCTCCAGGTGCATGAGCTCGGAGGTGAGGCCGTTTTTGCTATTTAGCGGGGCCGCTTTTAAAGCGCACAAAGAACCGTCCGCTCGTTTGCGGCAGCGGTAAACGCAAGCGCTGGCGCCTTGTCCCAACAGCCGTCCAAAATGGTATTCGTTCATGATAGGCACCGCGTGCGAAATGTCGTTTGGATCCACGACGCGACATTCTTCCATTTCTTGGTCCTGGAGCGAGTCGGAATTACAAGATAAACTCGAGGGGACGATCGATGCCGAGCAGCGGGTCGGATTCGCCACTGCGTCCGTATTCATTTCGCCAACGGCGGGGGAGGGCGTACGCATCTCGGCCGCGAAACTCATAATTTCGTTTTAACAGCAGACCGGTCTTTAAAGCTAAACCCAATTTAGGTAACTCGGAGAGCGCGTTTCTTTTACTTGAGGGCGGCGAAAGCGCTTTTGGTGGGCGTTTTCGATAGAAATCGCGGCCTCGGGTAATAAGGACGGCCGTATTAAAGCGGTCGCCGAAAAAGCTGGCCACAAATATCAGTAATGGTAAGCGAGTTAAATGTATCGTTACCCCTCGTATGTCCGAGCAGGCAATTGAACGGCGCCGACTGCGGTTGTCGACCCGAGTACCTGTCCGCGCGGTTTTTCGACCGCCTGGAGCAGCGGCATCACCGCCGTTTTTACGCCCAGTACTTTCTTTACGGGGCGCTGTTCGTGTTCTTTTTATATTCCCTAATTTTGACCGGTCTTTGGCTGGGAGCTAGATCTTGTTAATCATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCCTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAGAGCCTGAAAAAAATGCTCTCAGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGACCGAGGAAAGGGAGGACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGCGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCGGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCCACGGATCAAGAGCAGACGTACTACGGCGATTTCAGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGAGAGCACGGAAAATGGGCGTAGCGTGATAAAGGGCGAAAACGGCCAAAGGCGCCGTTCGTTACTCGCAAACAATAAACCGTTTGTGCGAACAATCTCGCCTGAGGCAGTGTGATTTATTAACCCGCTCCCGAAAATGGCGAGGCATTCGCCACGGGAGCCCGTAACCGTTAATCATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGGCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGCTTGCCATCTGTCGGAGCAAGCCGCGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCAAGCAAAACGAAAAGATCGAAAAACATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTACCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTATCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGTCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTGAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATGCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTGTCCGANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAANGCGCTTTTTCTTCCCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTCCCCCCCCCCCCCCCCCCCCCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN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CTTCACGAGCGGCCGTTTTCCAAGGAATGTTATCCAGCGATTTTTGGAGAGCGTCCGTCAATCGACGGCACGCCTGTCCCGGCGTGGCCGGGTGCTGAATCGAAAAATCGAGTGGATTTGGCTGCCGCGCCACCGAGCGACTTCTGGCACGGCAGTTACGCGGCGTTTCTTTCTTCGTCTTATTCTTTGCGGTGCGCCGGGAAACGCAAACCGTCAGCGAACGGTTGCGGGCACGCTCCCCCGGCTTTCCACCGCAAGCCGAAAAGCTGCGTTGACGTGCCGGAAGTGGGCGGTCTTCAGCCGTCTGTAGTTGTAAAAAAGCGTTCAATAAAGAGGCGGCGCGACTGGCCATTCCGCAATTTCTCGAGTTCGTCGGTAAATTCACAAGATGAGGCGCGCGCGCTCAAAAACCTTCTCAATGGAAGAGAGATGCGGAGAAAAGTACGGAAGCTCCTTTATAGAGTACGAGGCGGTAGAAAGCTCGGAAAGCGAATACTCCGACGCCAGCGACGGGGAATCGGAAACCGAATCGATTCCCGTCCGAGGGGAGACGTGCGAGCTCTCAGACCCGAGCGACTCCGAGTTCCCGTTGACCGATCCGCCGCCTAAACGCAAAAGGCCCCGTGTGCTAGAAAGCTCAGACGACGAGGAAGCCGAACAGGCACCTCAGAGTTCCTCGGTCAAACGCTTTAAAGGCGATCCGGAGGGTCGCGCAAGCGGAATCGGTTCCCCGTTAGGGGCCGATTCGGAATCTAGTTCCGGATCCTCCTGTCCCTCCCCCGAATCCGCTTGGCGTCAATTTGGTGATAAAAACCACGCCCTTATTAACGAGGTCGCCAAGCTTCTGTGCGACGGCGAAGCCGCGGCTACCGATCGGTACGCCGCGCTAGCCGAGTGCGCACGCCAGTATTTAGAAACCTCCCGCTACATGCTCCCTTTGAGCCGAGCCCTTTTGAGTACCGAAACGGAAGTCCATAACGGGCAAGCCGACCGAGAAGCCGAAGGACTGGCGCGAGAGGCCGCGTCTATCGTTCAACAAGCGGTAGAGGTAGACAGCAGTTCCCTGACTTCGTTAACGAGCGGACGGCGCGTAGCTAAGGCGGTCAGATTGGGGGCCGACGTACGATTGGCGCAGCTTAATTTGAAATGGAGTTTAGTATCTATAACGACGACTCGATCTTTTGGCCACTTAAAGAAACCGATTCAGAAGGTGTGATATATTTTGCGGAAAGCCCTCATGTTGTAATGGAAGGCTCCGGCTACGCCGATGGGAAACGACGCATCGCGTTAGATTCTAACTTCGCTTCCCCCTCGCGCGAGGACCCGATGTCGGATCCAGAAACCCACTCGGAAGCAGCGCGAGGATCCACAGAAACGCTTTACTGCGAAATGAAGCCGGTAAAGCGGTCGGAGGCCTGCGAGGCTGAACGGGTCAACAGCTCCGGCCGCTGGAAAAGCCTGGGCTCCGTTTTTCGACGACCAGAACGGGACCGACGGTCCCGTCGCCGGTCGACTCAGACGGTAGCCTCGCCCTTTCATAATCCCTACCTCCTAACGAAATTACAAAGGGATGATCGCCGAGTGCACGAGCGCCTGCTGGCGCCGTGCCTTCGCGTGTTCTGGGGCAGCTTGTGCGACGCGTCTCACCAGCTCAGCGTCGTCATGGACAAGCCTAACATGCAGATCCCGAATTCTGTCGTGGAAACGGCCATGCGTTTTCGCACGGTATACGACATGCAAACCGCGACGCCGAATTTGGGCAGCTTGGAGGTTCACGCCATGATGGTCATGACGGGAAAACTCATCCTGCACGCCAAGGTGACCAATCAAAACACGCCGCGTTCCCACCGTGACTGGGGTTGTCTTTTGATGCGTATGTCTTTTTGGTGCTGTCAGTCTCACCGAGGGACGTCTTGCGCCCTGAGCCCGTTGTACGAAAAAGCCGTAGAACGGCTCTTTCCGCTCGGCGGAACGCGCACGTACTCCAACGTGCACAGCCACGCCGAATACTGGCAGAGCCTCCGTTCTCTGGCTCAACGCGCGGCCGAAGACAGCGACGCGACCACCGTAATGAAAGATTTAGCCGTGGCCTTAGTCACGGCGGGAGTGGCGGTCGATTCGCGTTATCTGACGAGCTCCGAAGAAGGCTTCGGGACCGAATGCAAGGAGGACTAGTTTTTTATTGACAACTCATGCTTTGTACACGCTGAAAATAGAGCAATAAAATTAATAAAAATCGTCTAGGTTTCCCGTCACTTTGCTTCTCGCCCCCAAAAGGTCCATGAGCATACTCCGCGCTTGCTCGAATCGCGGCCCCTCGTCCACCGGGCTCTTGCTGGGCATTATCGGAGAGGGAGGGGGGAAAAATTCGACCGAATCGTCGCTGTCGAAATCTTCTTCCCGAGTGGGCAGCGAACGGTACGAGCTTCGTCGGCTCAAAGAGTTAAAGTAAACGTTTTGCTGTATGGCCGGACCGGAGGGCCGCTTGCCGCCCTTTTTCTTGCTTTGAAAGCAGCACATGCACGTGGCCACGCAAGCTGCCGTCAAGGCGGTGGCAAACAGCGCGGCGATAATGCAGATCACCGACACCAGAAGGTGATGAGGACCGAGGTGGACTTTGCGGTTTTTATCTTCTTTTGGATAACCCGATACCACTTGAACGGCCGCGGCGCTGTCCTGGTCGATCAGCAAGACAAAATTCCACACCGCCGATTCGTACCGGCCGTTCAGAGCGGCCGTCAGTACATAAAAGCCCGGCTGCGCGTCCGTGGCGGAGGCGAAAATTAAACGGTTTTGTCCGTCCATTTCTGCCTTGTCGCGCCAACTAGAGTTAATTACCTTTTTGACGGGACACCGCGTTTTCCACTCGGCACTATTGCCGCAGAAGTAGTCTGTTCTGGCCAAAAGAGTGGCTTTGAAAAAACTGCTTATCACGCAACCGTCGTCGTTAGCCGGATGCAGGCATTCGGGTAGCATGCCCGCCGTCAAACAATCGCTGTACACGAGCAGAGATTTGCAGCCCGGGGCGGTGTTCATGTGGAACCACTCTACGGACACGTTAAATTGGGGTAGAGTCATATTGTCCACGATGTCCAAGTACAGCGTGACCGGACCTTCTCCTTTCATCACGGTCATTGACTGCGGTATCCAGAAACGTTCGTTCGCGACAACCGGCTTCGAAACGGTCGTTTCCGTTTCGTTGCGGCTCTCGGAGACCGTGGTCAACGCCGGGGTCACCGGAACGGTGGAAAGAGTCTCGTTTACGGGCGTCGAGCGGTTCGAGGCGGAGGTTGGGTTCTTAGTAGTCATCGTCGCTTCCATAACGGTCAAGACGAAATCTATGCTGAGATCGTCGTCACCCGACGAGACCGCTACGGAGTAAATTCCTGAATCGTTCAGATGTACGAAGGGGATCTCGATTGAAAATTCTGAAGAGCGATTGCCCCTTTTCGCTATGCGGGCTTTCAGTTCTGCGATCTGTCCGTCCGCGCAATGACCCTTCTGAAAATGAGTGAAGTCGCAGGAGATCTCCACCAATTTCACGCCATCTCCCTGGGAATAGTGGCAACCTAAAGGCAGGCGAAGGTCCTCCACGCACTGACCGTCGTGCGAGCAAACTTTTTCGAAACTTGCCACCGAGCACTCCTTGGTACGGTAATGCCAAAGATCGAGTTCTACCCTTTCCTCGTTTTCCTCAGAGGTGATCGTGACAGAAAACGGGAAGCTGACACTTTGGCCTTCTTCGGCCGCGGCCGTGCGTTTAGGGCTCGTCAAGTTAAAGACAGAGGCTAGATTCGGAACCGCCAAGCACATTGCGGTGCACGCGAGCAGCGAAAAAGAAAGACGCATGATGCAGCGGGCAGGTGAGTCGCGAAGTTGCCTGTCACCTTAACAGGTAAGTTACCACCTGTTATAGCGAGGTATCTTTAAACTCCTCCTCCTGAAACATGACACAACCCTCTTTGTTGTATTTTGTAATTTTATTGAAACAGTAAACAATCTACGAAATGCGCAAAAGTCCTCATATAATAAAATGGCCCCGCGGTGCCGTCGACCGTATGCGGCGCTCTTTTTTCGGCGTTACTGCTGCCGCGGCTAAAATTTCGTCAGCGGTTTCGTCCTGATCCAAAGCGCATCGAAACGGTTGCAGAACGCCTGTGCATTTCCCGGCTGCTCCGACCTCTCGAAAACATTCGATGAATAACCGCATGTCTTTCAAGAGCTTAGAGACCGCTTCCTCTTTTTCCGGTCCGTCGGCGTCTGCCGGGCTTCGAACGCAGTAAAGAAACTCATCTACGTTCGACAGTTCCGGTTTTTTCCAACGTTCCCGTCGCGAGGGGCGGCCGCGGCAATCGGACTCGGCCTTGGTCACTTTCGTTCGATCCATGAAGTACCGCAAGTCTCGCTCCATGGCGGATCCTAAAGCCTTAGGGACGGTTTCGTCGTCTCCTCCGCCAAGGCACAGCCAGGGATTGACTTCTTCGCTCATGACGTTTTTCTACACCTGCGAAGCGTGGTATTGTCCGCTCGCTATTTATCGACCAGGTGACACCCTTACAGGCATTTCAGCATAAAGGCGGTGTTACGGCGAAGGACGCCTGCCTCCGGAAACCGAAGGGTATATACCGCACCGGACGAATAGTTAGTCAAAAAAACCCTTCCCCCCCGGCCAATTGATAAACTGCTGTCGTTCCCCTTCCAAAAAATGAGTTCACTAATTGAAACTAAAATTAAAACCAGTTTATTGAAAGGCAAGTTTTAGACATTGCTTTCCGGGGGTAAAATTACATATGCTTGCTTTTCCGGGGGTAGATGGTCGATCTCTAGGTCACACGTGGCATCGATCAGATGAGTGGCTCGGCGGTATTCCAAGACGTTTTTAATGCGCCCGCACACACCAAGGCGCTTTATGTACGCGCCCAGCAAAAACGCGATTGCTACCGAAAGAGAGAAAAGGAAGAAAATCAAGACGATCGTTCCTTTCGGACTCGCAGGTGTTGGAGCCTTCGGAACGGGAGTCTTAGTGGTGGTGAGAGTCTTCCCGTCGTCGCACGGCAAGCCTTTAAGCGGTGTGCGGTCCGAAGGAGAAACGTTGCTATTTGCCACTGTTAGCGTCACACCAAACGTGTGTTGCTTTTCGTCCATCACTACGACCGTTTTGTAAGTACCGGAATCGTCCTTCGTTGCGTTGTAGATAGAAAACGTTGCCTCCAATCCGTTAAACGTCAAGTCGAAACGCGGTATTTTGGCTAAGGTCATGTGGCCGCAAGGTCGGTGTTGATTACCCGCTCCTGGTGAGCAGTCGGAAAGAAGAGTACTCACGAGGGGCACTCGGCAACCAGTCCTCTTTTCGTATCCTACGTAAATACTAACCGAGCTGGGATGAGCGAGCGCGGCCTCGTGGATGATTAGACTCGCTTTAAGCGAGCAAGTGCTTCTTCGGCACACCTGCGATACGCCGCTGCGAAGGTTCAAAGAGAAATCGTTTCCGCTCAGGATGACGGCGCCTAAGGGCCGCGCGACCGCGAGAACAACGTACATAAGCGGGTACCACATCCTCAAAACAACGGCGTCGGAACGCGCCTGATACCTGCGAGTCCCTCCCCTGCAATATAAGCTACCTTTTTTCTCCACCCTGCGACGTCATCCAGGTACCTTACCTCCAACTGGAAGTAGAGGTTCGGCTTTGGCTGCGGGTGCAAGGCCGGTCTGAAAGATACTTATCTGCGGAAAGGTTTTCCGCGGTGGGTCTCGCATCGGGGCAAAAGGTGAGCATGCGACAAAGCAGTTTCCGCTCCTCGAGGACGATGCTTTCGTCCTCGGGTATTGACTCGTGATTCGCCCTTTGCCATAGGTGCTGAGGAACCTTTAGGTAGAAGCAATCGGCTTCTTTCGGACTTTCCCAGCCGCGAGTGGACCGGGTAACGCCCATGCGGCACAGAATTGTCAAGAAACACACCTCGTCCGTTTCGGCCCGAAACGGGGATTCTCGTTTAATGAGGTAGTAAAACACGCACCCGAGAGACCACACGTCCAGGCCGTAACCGTACTCGTGACAGAGAAAAACTTCCGGTGATCGGTACCAGGAAGTGCAAACGTCTAAACTATGTTTCCCGCGCTCGCGGCCGTTCGCAGAGTGCCAAAATTTGGCCAATCCAAAATCCGCCACTTTGACATCGTCCACCGAGTTCATCAGGATGTTGTCGGGTTTCAGGTCTCGGTGGATGATCCGATGTTCCCGCAGGTAAATGAGAGCGCTCAGGAGCTGGGAGACGATCCTGCGGCGATGATCTCGCCTGATGCAAGAATTGATGCGAATGAAATCCTTTAGGGATGCGTGAACGTATTCCATTTGCAAAAAAACCCGCGAATCGTCTTCGAGCAACTGAATGGCGGTGATGATGTTAGAGTGGCGCATCATGGTCAGAATATCATACTCGTTGATGGTCGCCTGAGTAAGGCGGTCCTTGCCTTTACGGGTTATCTTAACGGCTATGACGTTGCCGGTAGCCTTATCGACGGCCTTCACTACCTGCCCGTAGGTCCCCTTCCCCAGCGCGGAGAGAAGGTCAAGCGTTTGGTTTACCCGTTCCGCCATGGCGCTTTCGGGAATCTTTGCGCGTTATGGAAAACCCGGGCAGCGTGTGACGCTTTTTGAAAAACGGGTAGGTGAGCACCTTGCTCGCCGATGGCCTTTTAATCGCGTTGAGGCTAAGCATGCGAATAATCACTTTTTTTGCCTCCTGACCGATGCTTAGTTTTTCTACGCAGTCGCAGACGATCGTGCAGTCTCGCTCCGCCGGTACGACCGGTCGCATCCGATCCAAGTTCGCAAAGAGATTGGGCGGCGGGAAATCATAAGCGTCTATTTCCATTTTTTTCAGAATGTGGGTCATGGTGTCCTTGGCCGGGAACATAGAGGCCGGAGCCGACAGCATTTCAAAAGCGGCCACTCCCATCGACCATACGTCGGTCGTCCGGCAGTAAGGATCTCCCAACATCATCTCGGGGGACGATGTGCTAGGGGTGCCCGAAATCCCGTACTGCCCCCACAGCCGCGAGTCCTTCACTTTCAAAGCCAACCCCAGATCCCCGAGCTTGGCGTCCGTCGTCAAATCGCGGACGAATATGTTTTCCAGTTTAACGTCGCGATGGAGGATGTTGAGGCTGTGAAGATACTGCAGCCCGCGCAGGCAGTCCCGCAGCACGTGTCGCATCTCCTCCTCCGTCAGCGGTCTGCGCAAGCGCCGCAAATAGTAGCTCAGGTCCCCCGCCATCAGCTCCAACTCCATGTAGCACACCTTTGGGTGATAAATGACCCGCATCGTTTTAATGACGTTCCGATGCCTCGCCGCGAGCGCCAAGTTGGTCTCCAGGTGCATGAGCTCGGAGGTGAGGCCGTTTTTGCTATTTAGCGGGGCCGCTTTTAAAGCGCACAAAGAACCGTCCGCTCGTTTGCGGCAGCGGTAAACGCAAGCGCTGGCGCCTTGTCCCAACAGCCGTCCAAAATGGTATTCGTTCATGATAGGCACCGCGTGCGAAATGTCGTTTGGATCCACGACGCGACATTCTTCCATTTCTTGGTCCTGGAGCGAGTCGGAATTACAAGATAAACTCGAGGGGACGATCGATGCCGAGCAGCGGGTCGGATTCGCCACTGCGTCCGTATTCATTTCGCCAACGGCGGGGGAGGGCGTACGCATCTCGGCCGCGAAACTCATAATTTCGTTTTAACAGCAGACCGGTCTTTAAAGCTAAACCCAATTTAGGTAACTCGGAGAGCGCGTTTCTTTTACTTGAGGGCGGCGAAAGCGCTTTTGGTGGGCGTTTTCGATAGAAATCGCGGCCTCGGGTAATAAGGACGGCCGTATTAAAGCGGTCGCCGAAAAAGCTGGCCACAAATATCAGTAATGGTAAGCGAGTTAAATGTATCGTTACCCCTCGTATGTCCGAGCAGGCAATTGAACGGCGCCGACTGCGGTTGTCGACCCGAGTACCTGTCCGCGCGGTTTTTCGACCGCCTGGAGCAGCGGCATCACCGCCGTTTTTACGCCCAGTACTTTCTTTACGGGGCGCTGTTCGTGTTCTTTTTATATTCCCTAATTTTGACCGGTCTTTGGCTGGGAGCTAGATCTTGTTAATCATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCCTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAGAGCCTGAAAAAAATGCTCTCAGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGACCGAGGAAAGGGAGGACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGCGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCGGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCCACGGATCAAGAGCAGACGTACTACGGCGATTTCAGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGAGAGCACGGAAAATGGGCGTAGCGTGCCAAAGGGCGNNNNNGGCCAAAGGCGCCGTTCGTTACTCGCAAACAATAAACCGTTTGTGCGAACAATCTCGCCTGAGGCAGTGTGATTTATTAACCCGCTCCCGAAAATGGCGAGGCATTCGCCACGGGAGCCCGTAACCGTTAATCATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGGCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGCTTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCAAGCAAAACGAAAAGATCGAAAAACATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTACCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTATCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGTCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTGAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATGCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGCGGGCGACCCTAGCGTTCTAGTAGTTAGCTCCGAGAATACCAACGCTAAAGGGACTTTTACATGTGTCGTTCGCAAAAACGGAGAGGTAAAGGAAACCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN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CTTCACGAGCGGCAGTTTTCCAAGGAATGTTATCCAGCGATTTTTGGAGAGCGTCCGTCAATCGACGGCACGCCTGTCCCGGCGTGGCCGGGTGCTGAATCGAAAAATCGAGTGGATTTGGCTGTCGCGCCACCGAGCGACTTCTGGCACGGCAGTTACGCGGCGTTTCTTTCTTCGTCTTATTCTTTCCGGTGCGCCGGGAAACGCAAACCGTCAGCGAACGGTTGCGGGCACGTTCCCCCGGCTTTCCACCGCAAGCCGAAAAGCTGCGTTGACGTGCCGGAAGTGGGCGGTCTTCAGCCGTCTGTAGTTGTAAAAAAGCGTTCAATAAAGAGGCGGCGCGACTGGCCATTCCGCAATTTCTCGAGTTCGTCGGTAAATTCACAAGATGAGGCGCGCGCGCTCAAAAACCTTCTCAATGGAAGAGAGATGCGGAGAAAAGTACGGAAGCTCCTTTATAGAGTACGAGGCGGTAGAAAGCTCGGAAAGCGAATACTCCGACGCCAGCGACGGGGACTCGGAAACCGAATCGATTCCCGTCCGGGGGGAAACGTGCGAGCTGTCAGACCCGAGCGACTCCGAGTTCCCGCTGACCGATCCGCCGCCTAAACGCAAAAGGCCCCGTGTGCTAGAAAGCTCAGACGACGAGGAAGCCGAACAGGCACCTCCGAGTCCCTCGGTCAAACGCTTTAAAGGCGATCCGGAGGGTCGCGCAAGCGGAATCGGTGCCCCGTTAGGGGCCGATTCGGAATCTAGTTCCGGATCCTCCTGTCCCTCCCCCGAATCCGCTTGGCGTCAATTTGGTGATAAAAACCACGCCCTTATTAACGAGGTCGCCAAGCTTCTGTGCGACGGCGAAGCCGCGGCTGCCGATCGGTACGCCGCGCTAGCCGAGTGCGCACGCCAGTATTTAGAAACCTCCCGCTACATGCTCCCTTTGAGCCGAGCCCTTTTGAGTTCCGAAACGGAAGTCCATAAGGGCCAAGCCGACCTAGAAGCCGAAGGACTGGCGCGAGAGGCCGCGTCTATCGTTCAACAAGCGGTAGAGGTAGACAGCAGTTCCCTGACTTCGTTAACGAGCGGACGGCGCGTAGCTAAGGCGGTCAGATTGGGGGCCGACGTACGATTGGCGCAGCTTAATTTGAAATGGAGTTTAGTATCTATAACGACGACTCGATCTTTTGGCCACTTAAAGAAACCGATTCAGAAGGTGTAATATATTTTGCGGAAAGCCCTCATGTTGTAATGGAAGGCTCCGGCTACGCCGACGGGAAACGACGCATCGCGTTAGATTCTAACTTCGCTTCCCCCTCGCGCGAGGACCCGATGTCGGATCCAGAAACCCACTCGGAAGCAGCGCGAGGATCCACAGAAACGCTTTACTGCGAAATGAAGCCGGTAAAGCGGTCGGAGGTCTGCGAGGCTGAACGGGTCAACAGCTCCGGCCGCTGGAAGAGCCTGGGCTCCGTTTTTCGACGACCAGAACGGGACCGTCGGTCCCGTCGCCGGTCGACTCAGACGGTAGCCTCGCCCTTTCATAATCCCTACCTCCTAACGAAATTACAAAGGGATGATCGCCGAGTGCACGAGCGCCTTCTGGCGCCGTGCCTTCGCGTGTTCTGGGGCAGCTTGTGCGACGCGTCTCACCAGCTCAGCGTCGTCATGGACAAGCCTAACATGCAGATCCCGAATTCTGTCGTGGAAACGGCCATGCGTTTTCGCACGGTATACGACATGCAAACCGCGACGCCGAATTTGGGCAGCTTGGAGGTTCACGCCATGATGGTCATGACGGGAAAACTCATCCTGCACGCCAAGGTGACCAATCAAAACACGCCGCGTTCCCACCGTGACTGGGGTTGTCTTTTGATGCGTATGTCTTTTTGGTGCTGTCAGTCTCACCGAGGGACGTCTTGCGCCCTGAGCCCGTTGTACGAAAAAGCCGTAGAACGGCTCTTTCCGCTCGGCGGAACGCGCACGTACTCCAACGTGCACAGCCACGCGGAATACTGGCAGAGCCTCCGTTCTCTGGCTCAACGCGCGGCCGAAGACAGCGACGCGACCACCGTAATGAGAGATTTAGCCGTGGCCTTAGTCACGGCGGGAGTGGCGGTCGATTCGCGTTATCTGACGAGCTCCGAAGAAGGCTTCGGGACCGAATGCAAGGAGGACTAGTTTTTTATTGACAACTCATGCTTTGTACACGCTGAAAATAGAGCAATAAAATTAATAAAAATCGTCTAGGTTTCCCGTCACTTTGCTTCTCGCCCCCAAAAGGTCCATGAGCATACTCCGCGCTTGCTCGAATCGCGGCCCCTCGTCCACCGGGCTCTTGCTGGGCATTATCGGAGAGGGAGGGGGGAAAAATTCGACCGAATCGTCGCTGTCGAAATCTTCTTCCCGAGTTGGCAGCGAACGGTACGAGCTTCGTCGGCTCAAAGAGTTAAAGTAAACGGTTTGCTGTATGGCCGGACCGGAGGGCCGCTTGCCGCCCCTTTTCTTGCTTTGAAAGCAGCACATGCACGTGGCCACGCAAGCTGCCGTCAAGGCGGTGGCAAAGAGCGCGGCGATAATGCAGATTACCGACACCAGGAGGTGATGAGGGCCGAGGTGGACTTTGCGGTTTTTATCTTCTTTTGGATAACCCGATAGCACTTGAACGGCCGCGGCGCTGTCCTGGTCGATCAGCAAGACGAAATTCCACACCGCCGATTCGTACCGGCCGTTCAGAGCGGCCGTCAGTACATAAAAGCCCGGCTGTGCGTCCGTGGCGGAGGCGAAAATTAAACGGTTTTGTCCGTCCATTTCTGCCTTGTCGCGCCAACTAGAATTAATTACCTTTTTGACGGGACACCGCGTTTTCCACTCGGCACTATTGCCGCAGAAGTAGTCTGTTCTGGCCAAAAGAGTGGCTTTGAAAAAACTGCTTATCACGCAACCGTCGTCGTTAGCCGGATGCAGGCATTCGGGTAGCATGCCCGCCGTCAAACAATCGCTGTACACGAGCAGAGATTTGCAGCCCGGGGCGGTGTTCATGTGGAACCACTCTACGGACACGTTAAATTGGGGTAGAGTCATATTGTCCACTATGTCCAAATACAGCGTGACCGGACCTTCTCCTTTCATCACGGTCATTGACTGCGGTATCCAGAAACGTTCGTTCGCGACAACCGGCTTCGAAACGGTCGTTTCCGTTTCGTTGCGGCTCTCGGAGACCGTGGTCAACGCCGGGGTCACCGGAACGGTGGAAAGAGTCTCGTTTACGGGCGTCGAGCGGTTCGAGGCGGAGGTTGGGTTCGGAGTAGTCATCGTCGCTTCCACAACGGTCAAGACGAAATCTATGCTGAGATCGTCGTCACCCGACGACACCGCTACGGAGTAAATTCCTGAATCGTTAAGATGTACGAAGGGGATCTCGATTGAAAATTCTGAAGAGCGATTGCCCCTTTTCGCTATGCGGGCTTTCAGTTCTGCGATCTGTCCGTCCGCGCAATGACCCTTCTGAAAATGAGTGAAGTCGCAGGAGATCTCCACCAATTTCACACCATCTCCCTGGGAATAGTGGCAACCTAAAGGCAGGCGAAGGTCCTCCACGCACTGACCGTCGTGCGAGCAAACTTTTTCGAAACTTGCCACCGAGCACTCCTTGGTACGGTAATGCCAAAGATCGAGTTCTACCCTTTCCTCGTTTTCCTCAGAGGTGATCGTGACAGAAAACGGAAAGCTGACACTTTGGCCTTCTTCGGCCGCGGCCGTGCGTTTAGGGGCCGTCAAGTTAAAGACAGAGGCTAGATTCGGAACCGCCAAGCACATTGCGGTGCACGCGAGCAGCGAAAAAGAAAGACGCATGATGCAGCGGGCAGGTGAGTCGCGAAGCTGCCTGTCACCTTAACAGGTAAGTTACCACCTGTTATAGCGAGGTATCTTTAAACTCCTCCTCCTGAAACATGACACAACCCTCTTTGTTGTATTTTGTAATTTTATTGAAACAGTAAACAATCTACGAAATGCGCAAAAGTCCTCATATAATAAAATGGCCCCGCGGTGCCGTCGACCGTATGCGGCGCTCTTTTTTCGGCGTTACTGCAGCCGCGGCTAAAATTTCGTCAGCGGTTTCGTCCTGATCCAAAGCGCATCGAAACGGTTGCAGAACGCCTGTGCATTTCCCGGCTGCTCCGACCTGTCGAAAACATTCGATGAATAACCGCATGTCTTTCAAGAGCTTTGAGACCGCTTCCTCTTTTTCCGGTCCGTCGGCGTTTGCCGGGCTTCGAACGCAGTAAAGAAACTCATCTACGTTTGACAGTTCCGGTTTTTTCCAACGTTCCCGTCGCGAGGGGCGGCCGCGGCAATCGGACTCGGCCTTGGTCACTTTCGTTCGATCCATGAAGTACCGCAAGTCTCGCTCCATGGCGGATCCTAAAGCCTTAGGGACGGTTTCGTCGTCTCCTCCGCCAAGGCACAGCCAGGGATTGACTTCTTCGCTCATGACGTTTTTCTACACCTGAGAAGCGTGGTATTGTCCGCTCGCTATTTATCGGCCAGGTGACACCCTTACAGGCATTTCAGCATAAAGGCGGTGTTACGGCGAAGGACGCCTGCCTCCGGAAACCGAAGGGCCTATACCGCACCGGACGAATAGTTAGTCAAAAAAACCCTTCCTCCCCAACCAATTGATAAACTGCTGCCGTTCCCGTTCCAAAAAACGAGTTCACTAATTGAAACTAAAATGAAAACCAGTTTATTGAAAGGCGAGTTTTAGACATTGCTTTCCGGGGGTAAAATTACATATGCTTGCTTCTCCGGGGGTAGATGGTCGATCTCTGGTTCACACGTGGCATCGATCAGATGAGTGGCTCGGCGGTATTCCAAGATGTTTTTAATGCGCCCGCACACACCAAGGCGCTTTATGTACACGCCCAGCAAAAACGCGATTGCTACCGAAAGAGAAAAAAGGAAGAAAATCAAGACGATCGTTCCTTTCGGACTCGCAGGTGTTGGAGCCTTCGAAACGGGGGTCTTAGTGGTGGTGAGAGTCTTCCCGTCGTCGCACGGCAAGTCTTTAAGCGGTTTGCGGTCCGAAGGAGAAACGTTGCTATTTGCCACTGTTAGCGTCACACCAAACGTGTGTTGCTTTTCGTCCATCACTACGACCGTTTTGTAAGTACCAGAATCGTCCTTCGTTGCGTTGTAGATAGAAAACGTTGCCTCCAATCCGTTAAACGTCAAGTCGAAACGCGGTATTTTGGCTAAGGTCATGTGGCCGCAAGGTCGGTGTTGATTACCCGCTCCTGGTGAGCAGTCGGAAAGAAGAGTACTCACGAGGGGCACTCGGCAACCAGTCCTCTTTTCGTATCCTACGTAAATACTAACCGAGCTGGGATGAGCGAGCGCGGCCTCGTGGATGATTAGGCTCGCTTTAAGCGAGCAAGTGCTTCTGCGGCACACCTGCGATACGCCGCTGCGAAGGTTCAAGGAGAAATCGTTTCCGCTTAGGATGACGGCGGCTAAGGGCCGCGCGACCGCGAGAAAAACGTACATAAGCGGGTACCACATCCTCAAAGCAACGGCGTCGGAACGCGCCTGATACCTGCGAGTCCCTCCCCTGCAATATAAGCTACCTTTTTTCTCCACCCTGCGACGTCATCCAGGTACCTTACCTCCAACTGGAAGTAGAGGTTCGGCTTTGGCTGCGGGTGCAAGGCCGGTCTGAAAGATACTTATCTGCGGAAAGGTTTTCCGCGGTGGGTCTCGCATCGGGGCAAAAGGTGAGCATGCGACAAAGCAGTTTCCGCTCCTCGAGGACGATGCTTTCGTCCTCGGGTATTGACTCGTGATTCGCCCTTTGCCAGAGGTGCTGAGGAACCTTTAAATAGAAACAATCGGCTTCTTTCGGACTTTCCCAGCCGCGAGTGGACCGGGTAACGCCCATGCGGCACAGAATTGTCAAGAAACACACCTCGTCCGTTTCGGCCCGAAACGGGGATTCTCGTTTAATGAGATAGTAAAACACGCACCCGAGAGACCACACGTCCAGGCCGTAACCGTACTCGTGACAGAGAAAAACTTCCGGTGATCGGTACCAGGAAGTGCAAACGTCTAAACTATGTTTCCCGCGCTCGCGGCCGTTTGCAGAGTGCCAAAATTTGGCCAATCCAAAATCCGCCACTTTGACATCGTCCACCGAGTTCATCAGGATGTTATCGGGTTTCAGGTCTCGGTGGATGATCCGATGTTCCCGCAGGTAAATGAGAGCGCTCAGGAGCTGGGAGACGATCCTGCGGCGATGGTCTCGCCTGATGCAAGAATTGATGCGAATGAAATCCTTTAGGGATGCGTGAACGTATTCCATTTGCAAAAAAACCCGCGAATCGTCTTCGAGCAACTGAATGGCGGTGATGATGTTAGAGTGGCGCATCATGGTCAGAATATCATACTCGTTGATGGTCGCCTGAGTAAGGCGGTCCTTGCCTTTACGGGTTATCTTAACGGCTATGACGTTGCCGGTAGCCTTATCGACGGCCTTCACTACCTGCCCGTAGGTCCCCTTCCCCAGCGCGGAGAGAAGGTCAAGCGTTTGGTTTACCCGTTCCGCCATGGCGCTTTCGGGAATCTTTGCGCGTTATGGAAAACCCGGGCAGCGTGTGACGCTTTTTGAAAAACGGGTAGGTGAGCACCTTGCTCGCCGATGGCCTTTTAATCGCGTTGAGGCTAAGCATGCGAATAATCACTTTTTTTGCCTCCTGACCGATGCTTAGTTTTTCTACGCAGTCGCAGACGATCGTGCAGTCTCGCTCCGCCGGTACGACCGGTCGCATCCGATCCAAGTTCGCAAAGAGATTGGGCGGCGGGAAATCATAAGCGTCTATTTCCATTTTTTTCAGAATGTGGGTCATGGTGTCCTTGGCCGGGAACATAGAGGCCGGAGCCGACAGCATTTCGAAAGCGGCCACTCCCATCGACCATACGTCGGTCGTCCGGCAGTAAGGATCTCCCAACATCATCTCGGGGGACGATGTGCTAGGGGTACCCGAAATCCCGTACTGCCCCCACAGCCGCGAGTCCTTCACTTTCAAAGCCAACCCCAGATCCCCGAGCTTGGCGTCCGTCGTCAAATCGCGGACGAATATGTTTTCCAGTTTAACGTCGCGATGGAGGATGTTGAGGCTGTGAAGATACTGCAGCCCGCGCAGGCAGTCCCGAAGCACGTGTCGCATCTCCTCCTCCGTCAGCGGTCTGCGCAAGCGCCGCAAATAGTAGCTCAGGTCCCCCGCCATCAGCTCCAACTCCATGTAACACACCTTTGGGTGATAAATGACCCGCATCGTTTTAATGACGTTCCGATGCCTCGCCGCGAGCGCCAAGTTGGTCTCCAGGTGCATGAGCTCGGAGGTGAGGCCGTTTTTGTTATTTAGCGGGGCCGCTTTTAAAGCGCACATAGAACCGTCCGCTCGTTTGCGGCAGCGGTAGACGCAAGCGCTGGCGCCTTGTCCCAACAGCCGTCCAAAATGGTATTCGTTCATGATAGGCACCGCGTGCGAAATGTCGTTTGGATCCACGACGCGACATTCTTCCATTTCTTGGTCCTGGCGCGAGTCGGAATTACAAGATAAACTCGAGGGGACGATCGATGCCGAGCAGCGGGTCGGATTCGCCACTGCGTCCGTACTCATTTCGCCGACGGCGGGGGAGGGCGTACGCATCTCGGCCGCGAAACTCATAATTTCGTTTTAACAGCAGACCGGTCTTTAAAGCTAAACCAATTTTAGGTAACTCGGAGAGCGCGTTTCTTTTACTTGAGGGCGGCGAAAGCGCTTTTGGTGGGCGTTTTCGATAGAAACCGCGGCCTCGGGTAATAAGGACGGCCGTATTAAAGCGGTCGCCGAAAAAGCTGGCCACAAATATCAGTAATGGTAAGCGAGTTAAATGTATCGTTACCCCTCGTATGTCCGAGCAGGCAATTGAACGGCGCCGACTGCGGTTGTCGACCCGAGTACCTGTCCGCGCGGTTTTTCGACCGCCCGGAGCACCGGCATCACCGCCGTTTTTACGCCCAGTACTTTCTTTACGGGGCGCTGTTCGTGTTCTTTTTATATTCCCTAATTTTGACCGGTCTTTGGCTGGGAGCTAGATCTTGTTAATCATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCTTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAAAGCCTGAAAAAAATGCTCTCGGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGGCCGAGGAAAGGGAGAACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGTGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCCGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCGACGGATCAAGAGCAGACGTACTACGGCGATTTCCGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGAGAGCACGGAAAATGGGCGTAGCGTGATAAAGGGCGAAAACGGCCAAAGGCGCCGTTCGTTACTCGCAAACAATAAACCGTTTGTGCGAACAATCTTGCCTGAGGCAGTGTGATTTATTAACCCGCTCCCGAAAATGGCGAGGCATTCGCCACGGGAGCCCGTAACCGTTAACCATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGTCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGATTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCTAGCAAAACGAAAAGATCGAAAAATATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTGCCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTACCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGCCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTTAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATTCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTGTCCGAGACCCTGTACTTAAACCCCCCGGTAGTAAAAAGCCGCGTCGGCGACTCAGTAAAACTTTGTCCGAAGAATGAAGAGGGTCCGTTTTCCAAAATAATTTGGGTGGCCAAAGGAAAAAAAGTTTTCGATTGTGCAAACGGCGTTCGTTGCGAACCTCAACAAATCAAAGAACCGTGGCGTGTTTCGATCGCAGACCGTCGATGTTATTTCATTCAAGACGTTCGTCTTTCGGACGGGGGCGCCTACGTTTTTTTCTTTAAAACGGGACGCCAAGTAGTAACCGGGCGGATCGATCTCATCGTCCACCGTAAAGGAGACCGTGTTGTGGAAATCAGTGATCGTCCAACAATATCGGTTGAACGAGCGACGCAAAAACCTGTTGGAACTTCGATCTCGGAGACTGGCTCGCCACCGAAAATAGAAGACGAAGTCGCCGTAAAAACTTTACCCGACCCGAAAATTTTCCCCATTTTAGAACTCAAAAACGAAACAACCGGCCGCTGTCGCGCGCGATTGGAATGTGATGTCTACGGCCTCGATGAAAGCGAAATGCCACAATTTATTTGGCACGTGACCGAATCGCAGCACGTGTATAGTAGAGGGCTTGCGGGCGATCCTAGCATTCTAGTAGTTAGCTCCGAGAATACCAACGCTAAAGGGATTTTTACATGTGTCGTTCGCAAAAACGGAGAGGTTAAGGAAACCTCAATCCGTTTTTCAAACGTGTGCGTGTTCAAGCGAAGCAAGGCTGTGATGTATGTGGCGTTAGGAGTGCTTCTGGGCCTGCTGCTCCTCATCGGGGTCTGTGTCGGGTTGTTCTTTTACTTGCAAAAAAAGGGACATTGTTATAAGCCGCGTTCACAGCCCGACGTCATTCCCAAAGAACCCGAAATGTCTTTGAGTGTTGTTAACGAGAATGTCTCTGTTCAATAAATTTTGCATGTTCGAGAAAAGCACAGCGAAGCGCGTTTCCTTTTCCCGCCCCGCTCCGCCCGTACCAACCCGCCGCTCCCCGCTCCCTCCGCTGCACCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCTCCGTACTTCCCCTTCAGTTCCTCTGGCCGGTTCCCGGATTCTGGCCTCTTGNTAATCTCTACGCTCGTACGGGNNNNNNNNNNNNNNNNCCCTTTTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCCCCCCCCCTGTCTGTCCCCTGTCTTATCCTCTCGTCCCCCCCTCGACCTCTCTCCTCCTTAACCCGGATCAGGGTTTTCCTCACCTGCTGCTCCTTTTTATTTTCCTCATTCTAAATTGGCCTTTTGTTCCCTCTCCGGTGCCCGCCTCTTGGTTTTTTTTTTTTGTCTCCTTCTCTTTCTTTCCTGAAACCGACAGCGTTCTTGATCTGGTTTCCCCGTTCCTTTTTTGGTTCTTTCCGTGAGTCGATCCAAAGGGTCTTTGATCCGGTCCCCGGCCGCCAGTCTGCGTGGCGTCTCTTTCTTTTCCCTTTCCCCCTCCGTGAATGCCTTTTTTGGGCGGTGGTCTGACCGCCGAAAATCAGATGTTCGGTTCCCTTTGTATCTGTTCTCGGAGCGGCTTCAGATCAACCAAGTTTTACTTTCTTTTTTTTTTCCCCTTCCTTCCCCCCTTCTGAAAAACGCCCCCTTTTTTTTTCTCCCGAACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCTCCCTTGCTTCTTGCTCCCTCTCCTCTTCGCAGCACTGTTTTCTTTTTTGTCTTCGCTTGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGGGGGGCAAGGCAAGGAAACGTTTTATGGGCACCCTTGCCTGCTCGGGGAGGTGAACCCCCTGCAGTTTCCTGTTTTCCGGCCCGACAATTTAACTTTATTCCCTCAAGGGAATAAGAACGAGGGTAAAGCATCGGGAAGGGCACCCCCCGGGTGTCCGACCGTCCGGCACGGATAGACGCCGACCACGGAACGCCCCGGCCCTCGCTCCGCTCCCCGGTCCCCTCCCCTTCGGCCTGCAGTGGCGGGCGCGGGGCCGCCTTCGTATAGCGCCCGCGGGACGCCCGCGGTGAAGCCCATCAGGGCCAGGGTCCGGGCGGTCCCGGGAACACCGAGCGGGCCGTGCGCGTGCGGCCGCCGGCAGCGCTCCTCCCCCCCCCCATGTCCATCCGTGGCCCGCCCGGGGGCGCCTCCCCCGCGCGCGGATAGCCTGCGCTGGAGACGAGGTCCGGCGGGCGGTCGGGTCACGGGCGGGGCTAGCCGCGGTGGGCGGCAGCCGACCTGGCGAGCGGCTCCGCGCCCTGCCCCGCGGCGTCACAACCGGCCCAGGCCGAACACGGCCAACGTCCGGCGCAGGCGCGCGGGGCAGTCCGGGCCGCAGGGGGCGCGAGGCAGTGGGAGGGGGGCGCGGGGTCGCCCGTGCGTCGAGCGGCAGAGCCGGCTGAGGCGCCAGGGGGCGGTGCGGTATTCGGATTACGTCAATTGGTCTGCGTGTTGGCTCTGCTGGGGGAAGTGGGCTAGGGTCTCGGCGACCGGGCCCACGCGCTGCTGCCGCCAGGGGTCGTCCTCTTCGGCAACGATCTGCAGGAGTCGCATCGTGGTTAAAAGAGCAAGGACAAGGGCCACTTGTCGGAGAANNNNNNNNNNNNNNNNNCGGCTTTTGCNNNNNNNNNNNNNNCCCCCNTCTCCTCANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNATATAGAGACCNNNTTCCTCTTTCTGAATTCCACTATTCCTCTCCTACCTCCTCCGCCGGCGCCTGGACTCCCTTTACAACTAGCCAGTTCAAAACCAGCCCCCGGATTTGTAGAAATGGTTCGGCATCGTCGGCCCGGCTGCCGTGGCCTGGCAGCCCGGATTTCCCGCCGATTCTCGAGGGCGGCCCGGTACATACGCGCGCCATCTGCTCCCACCCGTACCCTTCAGGGAAAAAAGGATTGTCCTGACTCAGGCCGTCCAGGGTAGTCACGATCCGGAGGAAGGGGATGGTGGCAAGAGAGCGCAGAGGGAGGAGAAAAGGGCGGGGGGTGACGTTGTGCGGATAGAGGAAAGGAAGGACGAAAAACTCAGGTGGCCCAAGCGAGGCACTAAACACGGACTGTACAACTCAACCCGCCACTATCCTTTCTCTCAGTTCGGGAAGGAGGCATGCGAACTGCGGCCTGAAGGTAGGCCTGTACAAAACAACGCCTTGCACCCCTGAGGAGGAAGGAAAAAAAAAAGAAAAAGAGACGGAACGAAAAAAAAAGGAAGACAATCGTTAATGCCATACCGGAACTAATTTCTGTTTCTGCCCAGACACAGCGGCGAAGAAGGATAAAATAAGAAGAAGCCCGCGGTGGGAGTTAGTTCTTTCTATATTTCGGCGATTCAGAGGATGAGCGTCCTCCGTTTTCCGCAGGCCCCTCACTTTGGGACGGTGGGGATCGNNNNGCGGGGCGTCGGCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCGAGGAGAGGTGGTNGGGGAAGTGGGGGCGAAGCGGAGGGACCGGGGAGTAGGTGCGTCGTCTCAGGTCGCCCTTGGCCTTGTGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGGGGCCGATGGCTCCGACGGTTATGTCTAGTCCCGTCGATTTTCTGTTTGGCCCTGGGGAGGGAGGAGGGGTGCGAGGCGCCGAAGATTCTTCGCTGCGCGCTCCGGGCAAGCCCTCGTCAGGCGAAGAGAAGGGATTCTGGGAGTCCGTGCTGCTGCCGCTTCGTACCTCAATTGGGGTTCCTGAACTNNNNNNACATATACCATCGCTGCCACTACTGCTATGGTAGGTCGAATTACTCTATCCACACCACCCACCTCTTCTTCTGTTCTTTAAGCCTCCCCTCCGTTTTACCTCTCCTGTTGGCCTCCTTCCTGTTTTGTTGAGNNNNNNANNNNNNNNNNNNNNTTTAGTGCTCTTGCGTTGTTTCTCCTTTACAACCCTCTTGCTTCTTTCGTAGCTAGACTACACCCCCCTGTCGCTGCATCACCACGAAAGAAGGTGAATGGTTAGCCGTTTCTTCCCGGTTATCCTGGGCTTCTTCGGTCCCTTCATTAATTTCTCCTATGCTCTGCCGTCGCGATTATCGAATCTCCTTCCTCTGGGCCCTCCTGTTGGGCGGTCAGCTCCGTCTCATTCTAGCGCGGACGAAGAGGAAGAGTTATTATGAAGAAAGCTAAATAAAGGGATTGCAGATGAGCAGCCGTGGGTCGAGCCGTCCCGCTAAGGGATGCGACCTTCGGGATAGCGGGGCGCGGACGGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTGTATGTCTGTTTCTCTGTATGTGTGTGTGTGTGTGTTTGTGTGTTTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCTCTTCTTCCTCC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CTTCACGAGCGGCAGTTTTCCAAGGAATGTTATCCAGCGATTTTTGGAGAGCGTCCGTCAATCGACGGCACGCCTGTCCCGGCGTGGCCGGGTGCTGAATCGAAAAATCGAGTGGATTTGGCTGTCGCGCCACCGAGCGACTTCTGGCACGGCAGTTACGCGGCGTTTCTTTCTTCGTCTTATTCTTTCCGGTGCGCCGGGAAACGCAAACCGTCAGCGAACGGTTGCGGGCACGTTCCCCCGGCTTTCCACCGCAAGCCGAAAAGCTGCGTTGACGTGCCGGAAGTGGGCGGTCTTCAGCCGTCTGTAGTTGTAAAAAAGCGTTCAATAAAGAGGCGGCGCGACTGGCCATTCCGCAATTTCTCGAGTTCGTCGGTAAATTCACAAGATGAGGCGCGCGCGCTCAAAAACCTTCTCAATGGAAGAGAGATGCGGAGAAAAGTACGGAAGCTCCTTTATAGAGTACGAGGCGGTAGAAAGCTCGGAAAGCGAATACTCCGACGCCAGCGACGGGGACTCGGAAACCGAATCGATTCCCGTCCGGGGGGAAACGTGCGAGCTGTCAGACCCGAGCGACTCCGAGTTCCCGCTGACCGATCCGCCGCCTAAACGCAAAAGGCCCCGTGTGCTAGAAAGCTCAGACGACGAGGAAGCCGAACAGGCACCTCCGAGTCCCTCGGTCAAACGCTTTAAAGGCGATCCGGAGGGTCGCGCAAGCGGAATCGGTGCCCCGTTAGGGGCCGATTCGGAATCTAGTTCCGGATCCTCCTGTCCCTCCCCCGAATCCGCTTGGCGTCAATTTGGTGATAAAAACCACGCCCTTATTAACGAGGTCGCCAAGCTTCTGTGCGACGGCGAAGCCGCGGCTGCCGATCGGTACGCCGCGCTAGCCGAGTGCGCACGCCAGTATTTAGAAACCTCCCGCTACATGCTCCCTTTGAGCCGAGCCCTTTTGAGTTCCGAAACGGAAGTCCATAAGGGCCAAGCCGACCTAGAAGCCGAAGGACTGGCGCGAGAGGCCGCGTCTATCGTTCAACAAGCGGTAGAGGTAGACAGCAGTTCCCTGACTTCGTTAACGAGCGGACGGCGCGTAGCTAAGGCGGTCAGATTGGGGGCCGACGTACGATTGGCGCAGCTTAATTTGAAATGGAGTTTAGTATCTATAACGACGACTCGATCTTTTGGCCACTTAAAGAAACCGATTCAGAAGGTGTAATATATTTTGCGGAAAGCCCTCATGTTGTAATGGAAGGCTCCGGCTACGCCGACGGGAAACGACGCATCGCGTTAGATTCTAACTTCGCTTCCCCCTCGCGCGAGGACCCGATGTCGGATCCAGAAACCCACTCGGAAGCAGCGCGAGGATCCACAGAAACGCTTTACTGCGAAATGAAGCCGGTAAAGCGGTCGGAGGTCTGCGAGGCTGAACGGGTCAACAGCTCCGGCCGCTGGAAGAGCCTGGGCTCCGTTTTTCGACGACCAGAACGGGACCGTCGGTCCCGTCGCCGGTCGACTCAGACGGTAGCCTCGCCCTTTCATAATCCCTACCTCCTAACGAAATTACAAAGGGATGATCGCCGAGTGCACGAGCGCCTTCTGGCGCCGTGCCTTCGCGTGTTCTGGGGCAGCTTGTGCGACGCGTCTCACCAGCTCAGCGTCGTCATGGACAAGCCTAACATGCAGATCCCGAATTCTGTCGTGGAAACGGCCATGCGTTTTCGCACGGTATACGACATGCAAACCGCGACGCCGAATTTGGGCAGCTTGGAGGTTCACGCCATGATGGTCATGACGGGAAAACTCATCCTGCACGCCAAGGTGACCAATCAAAACACGCCGCGTTCCCACCGTGACTGGGGTTGTCTTTTGATGCGTATGTCTTTTTGGTGCTGTCAGTCTCACCGAGGGACGTCTTGCGCCCTGAGCCCGTTGTACGAAAAAGCCGTAGAACGGCTCTTTCCGCTCGGCGGAACGCGCACGTACTCCAACGTGCACAGCCACGCGGAATACTGGCAGAGCCTCCGTTCTCTGGCTCAACGCGCGGCCGAAGACAGCGACGCGACCACCGTAATGAGAGATTTAGCCGTGGCCTTAGTCACGGCGGGAGTGGCGGTCGATTCGCGTTATCTGACGAGCTCCGAAGAAGGCTTCGGGACCGAATGCAAGGAGGACTAGTTTTTTATTGACAACTCATGCTTTGTACACGCTGAAAATAGAGCAATAAAATTAATAAAAATCGTCTAGGTTTCCCGTCACTTTGCTTCTCGCCCCCAAAAGGTCCATGAGCATACTCCGCGCTTGCTCGAATCGCGGCCCCTCGTCCACCGGGCTCTTGCTGGGCATTATCGGAGAGGGAGGGGGGAAAAATTCGACCGAATCGTCGCTGTCGAAATCTTCTTCCCGAGTTGGCAGCGAACGGTACGAGCTTCGTCGGCTCAAAGAGTTAAAGTAAACGGTTTGCTGTATGGCCGGACCGGAGGGCCGCTTGCCGCCCCTTTTCTTGCTTTGAAAGCAGCACATGCACGTGGCCACGCAAGCTGCCGTCAAGGCGGTGGCAAAGAGCGCGGCGATAATGCAGATTACCGACACCAGGAGGTGATGAGGGCCGAGGTGGACTTTGCGGTTTTTATCTTCTTTTGGATAACCCGATAGCACTTGAACGGCCGCGGCGCTGTCCTGGTCGATCAGCAAGACGAAATTCCACACCGCCGATTCGTACCGGCCGTTCAGAGCGGCCGTCAGTACATAAAAGCCCGGCTGTGCGTCCGTGGCGGAGGCGAAAATTAAACGGTTTTGTCCGTCCATTTCTGCCTTGTCGCGCCAACTAGAATTAATTACCTTTTTGACGGGACACCGCGTTTTCCACTCGGCACTATTGCCGCAGAAGTAGTCTGTTCTGGCCAAAAGAGTGGCTTTGAAAAAACTGCTTATCACGCAACCGTCGTCGTTAGCCGGATGCAGGCATTCGGGTAGCATGCCCGCCGTCAAACAATCGCTGTACACGAGCAGAGATTTGCAGCCCGGGGCGGTGTTCATGTGGAACCACTCTACGGACACGTTAAATTGGGGTAGAGTCATATTGTCCACTATGTCCAAATACAGCGTGACCGGACCTTCTCCTTTCATCACGGTCATTGACTGCGGTATCCAGAAACGTTCGTTCGCGACAACCGGCTTCGAAACGGTCGTTTCCGTTTCGTTGCGGCTCTCGGAGACCGTGGTCAACGCCGGGGTCACCGGAACGGTGGAAAGAGTCTCGTTTACGGGCGTCGAGCGGTTCGAGGCGGAGGTTGGGTTCGGAGTAGTCATCGTCGCTTCCACAACGGTCAAGACGAAATCTATGCTGAGATCGTCGTCACCCGACGACACCGCTACGGAGTAAATTCCTGAATCGTTAAGATGTACGAAGGGGATCTCGATTGAAAATTCTGAAGAGCGATTGCCCCTTTTCGCTATGCGGGCTTTCAGTTCTGCGATCTGTCCGTCCGCGCAATGACCCTTCTGAAAATGAGTGAAGTCGCAGGAGATCTCCACCAATTTCACACCATCTCCCTGGGAATAGTGGCAACCTAAAGGCAGGCGAAGGTCCTCCACGCACTGACCGTCGTGCGAGCAAACTTTTTCGAAACTTGCCACCGAGCACTCCTTGGTACGGTAATGCCAAAGATCGAGTTCTACCCTTTCCTCGTTTTCCTCAGAGGTGATCGTGACAGAAAACGGAAAGCTGACACTTTGGCCTTCTTCGGCCGCGGCCGTGCGTTTAGGGGCCGTCAAGTTAAAGACAGAGGCTAGATTCGGAACCGCCAAGCACATTGCGGTGCACGCGAGCAGCGAAAAAGAAAGACGCATGATGCAGCGGGCAGGTGAGTCGCGAAGCTGCCTGTCACCTTAACAGGTAAGTTACCACCTGTTATAGCGAGGTATCTTTAAACTCCTCCTCCTGAAACATGACACAACCCTCTTTGTTGTATTTTGTAATTTTATTGAAACAGTAAACAATCTACGAAATGCGCAAAAGTCCTCATATAATAAAATGGCCCCGCGGTGCCGTCGACCGTATGCGGCGCTCTTTTTTCGGCGTTACTGCAGCCGCGGCTAAAATTTCGTCAGCGGTTTCGTCCTGATCCAAAGCGCATCGAAACGGTTGCAGAACGCCTGTGCATTTCCCGGCTGCTCCGACCTGTCGAAAACATTCGATGAATAACCGCATGTCTTTCAAGAGCTTTGAGACCGCTTCCTCTTTTTCCGGTCCGTCGGCGTTTGCCGGGCTTCGAACGCAGTAAAGAAACTCATCTACGTTTGACAGTTCCGGTTTTTTCCAACGTTCCCGTCGCGAGGGGCGGCCGCGGCAATCGGACTCGGCCTTGGTCACTTTCGTTCGATCCATGAAGTACCGCAAGTCTCGCTCCATGGCGGATCCTAAAGCCTTAGGGACGGTTTCGTCGTCTCCTCCGCCAAGGCACAGCCAGGGATTGACTTCTTCGCTCATGACGTTTTTCTACACCTGAGAAGCGTGGTATTGTCCGCTCGCTATTTATCGGCCAGGTGACACCCTTACAGGCATTTCAGCATAAAGGCGGTGTTACGGCGAAGGACGCCTGCCTCCGGAAACCGAAGGGCCTATACCGCACCGGACGAATAGTTAGTCAAAAAAACCCTTCCTCCCCAACCAATTGATAAACTGCTGCCGTTCCCGTTCCAAAAAACGAGTTCACTAATTGAAACTAAAATGAAAACCAGTTTATTGAAAGGCGAGTTTTAGACATTGCTTTCCGGGGGTAAAATTACATATGCTTGCTTCTCCGGGGGTAGATGGTCGATCTCTGGTTCACACGTGGCATCGATCAGATGAGTGGCTCGGCGGTATTCCAAGATGTTTTTAATGCGCCCGCACACACCAAGGCGCTTTATGTACACGCCCAGCAAAAACGCGATTGCTACCGAAAGAGAAAAAAGGAAGAAAATCAAGACGATCGTTCCTTTCGGACTCGCAGGTGTTGGAGCCTTCGAAACGGGGGTCTTAGTGGTGGTGAGAGTCTTCCCGTCGTCGCACGGCAAGTCTTTAAGCGGTTTGCGGTCCGAAGGAGAAACGTTGCTATTTGCCACTGTTAGCGTCACACCAAACGTGTGTTGCTTTTCGTCCATCACTACGACCGTTTTGTAAGTACCAGAATCGTCCTTCGTTGCGTTGTAGATAGAAAACGTTGCCTCCAATCCGTTAAACGTCAAGTCGAAACGCGGTATTTTGGCTAAGGTCATGTGGCCGCAAGGTCGGTGTTGATTACCCGCTCCTGGTGAGCAGTCGGAAAGAAGAGTACTCACGAGGGGCACTCGGCAACCAGTCCTCTTTTCGTATCCTACGTAAATACTAACCGAGCTGGGATGAGCGAGCGCGGCCTCGTGGATGATTAGGCTCGCTTTAAGCGAGCAAGTGCTTCTGCGGCACACCTGCGATACGCCGCTGCGAAGGTTCAAGGAGAAATCGTTTCCGCTTAGGATGACGGCGGCTAAGGGCCGCGCGACCGCGAGAAAAACGTACATAAGCGGGTACCACATCCTCAAAGCAACGGCGTCGGAACGCGCCTGATACCTGCGAGTCCCTCCCCTGCAATATAAGCTACCTTTTTTCTCCACCCTGCGACGTCATCCAGGTACCTTACCTCCAACTGGAAGTAGAGGTTCGGCTTTGGCTGCGGGTGCAAGGCCGGTCTGAAAGATACTTATCTGCGGAAAGGTTTTCCGCGGTGGGTCTCGCATCGGGGCAAAAGGTGAGCATGCGACAAAGCAGTTTCCGCTCCTCGAGGACGATGCTTTCGTCCTCGGGTATTGACTCGTGATTCGCCCTTTGCCAGAGGTGCTGAGGAACCTTTAAATAGAAACAATCGGCTTCTTTCGGACTTTCCCAGCCGCGAGTGGACCGGGTAACGCCCATGCGGCACAGAATTGTCAAGAAACACACCTCGTCCGTTTCGGCCCGAAACGGGGATTCTCGTTTAATGAGATAGTAAAACACGCACCCGAGAGACCACACGTCCAGGCCGTAACCGTACTCGTGACAGAGAAAAACTTCCGGTGATCGGTACCAGGAAGTGCAAACGTCTAAACTATGTTTCCCGCGCTCGCGGCCGTTTGCAGAGTGCCAAAATTTGGCCAATCCAAAATCCGCCACTTTGACATCGTCCACCGAGTTCATCAGGATGTTATCGGGTTTCAGGTCTCGGTGGATGATCCGATGTTCCCGCAGGTAAATGAGAGCGCTCAGGAGCTGGGAGACGATCCTGCGGCGATGGTCTCGCCTGATGCAAGAATTGATGCGAATGAAATCCTTTAGGGATGCGTGAACGTATTCCATTTGCAAAAAAACCCGCGAATCGTCTTCGAGCAACTGAATGGCGGTGATGATGTTAGAGTGGCGCATCATGGTCAGAATATCATACTCGTTGATGGTCGCCTGAGTAAGGCGGTCCTTGCCTTTACGGGTTATCTTAACGGCTATGACGTTGCCGGTAGCCTTATCGACGGCCTTCACTACCTGCCCGTAGGTCCCCTTCCCCAGCGCGGAGAGAAGGTCAAGCGTTTGGTTTACCCGTTCCGCCATGGCGCTTTCGGGAATCTTTGCGCGTTATGGAAAACCCGGGCAGCGTGTGACGCTTTTTGAAAAACGGGTAGGTGAGCACCTTGCTCGCCGATGGCCTTTTAATCGCGTTGAGGCTAAGCATGCGAATAATCACTTTTTTTGCCTCCTGACCGATGCTTAGTTTTTCTACGCAGTCGCAGACGATCGTGCAGTCTCGCTCCGCCGGTACGACCGGTCGCATCCGATCCAAGTTCGCAAAGAGATTGGGCGGCGGGAAATCATAAGCGTCTATTTCCATTTTTTTCAGAATGTGGGTCATGGTGTCCTTGGCCGGGAACATAGAGGCCGGAGCCGACAGCATTTCGAAAGCGGCCACTCCCATCGACCATACGTCGGTCGTCCGGCAGTAAGGATCTCCCAACATCATCTCGGGGGACGATGTGCTAGGGGTACCCGAAATCCCGTACTGCCCCCACAGCCGCGAGTCCTTCACTTTCAAAGCCAACCCCAGATCCCCGAGCTTGGCGTCCGTCGTCAAATCGCGGACGAATATGTTTTCCAGTTTAACGTCGCGATGGAGGATGTTGAGGCTGTGAAGATACTGCAGCCCGCGCAGGCAGTCCCGAAGCACGTGTCGCATCTCCTCCTCCGTCAGCGGTCTGCGCAAGCGCCGCAAATAGTAGCTCAGGTCCCCCGCCATCAGCTCCAACTCCATGTAACACACCTTTGGGTGATAAATGACCCGCATCGTTTTAATGACGTTCCGATGCCTCGCCGCGAGCGCCAAGTTGGTCTCCAGGTGCATGAGCTCGGAGGTGAGGCCGTTTTTGTTATTTAGCGGGGCCGCTTTTAAAGCGCACATAGAACCGTCCGCTCGTTTGCGGCAGCGGTAGACGCAAGCGCTGGCGCCTTGTCCCAACAGCCGTCCAAAATGGTATTCGTTCATGATAGGCACCGCGTGCGAAATGTCGTTTGGATCCACGACGCGACATTCTTCCATTTCTTGGTCCTGGCGCGAGTCGGAATTACAAGATAAACTCGAGGGGACGATCGATGCCGAGCAGCGGGTCGGATTCGCCACTGCGTCCGTACTCATTTCGCCGACGGCGGGGGAGGGCGTACGCATCTCGGCCGCGAAACTCATAATTTCGTTTTAACAGCAGACCGGTCTTTAAAGCTAAACCAATTTTAGGTAACTCGGAGAGCGCGTTTCTTTTACTTGAGGGCGGCGAAAGCGCTTTTGGTGGGCGTTTTCGATAGAAACCGCGGCCTCGGGTAATAAGGACGGCCGTATTAAAGCGGTCGCCGAAAAAGCTGGCCACAAATATCAGTAATGGTAAGCGAGTTAAATGTATCGTTACCCCTCGTATGTCCGAGCAGGCAATTGAACGGCGCCGACTGCGGTTGTCGACCCGAGTACCTGTCCGCGCGGTTTTTCGACCGCCCGGAGCACCGGCATCACCGCCGTTTTTACGCCCAGTACTTTCTTTACGGGGCGCTGTTCGTGTTCTTTTTATATTCCCTAATTTTGACCGGTCTTTGGCTGGGAGCTAGATCTTGTTAATCATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCTTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAAAGCCTGAAAAAAATGCTCTCGGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGGCCGAGGAAAGGGAGAACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGTGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCCGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCGACGGATCAAGAGCAGACGTACTACGGCGATTTCCGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGAGAGCACGGAAAATGGGCGTAGCGTGATAAAGGGCGAAAACGGCCAAAGGCGCCGTTCGTTACTCGCAAACAATAAACCGTTTGTGCGAACAATCTTGCCTGAGGCAGTGTGATTTATTAACCCGCTCCCGAAAATGGCGAGGCATTCGCCACGGGAGCCCGTAACCGTTAACCATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGTCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGATTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCTAGCAAAACGAAAAGATCGAAAAATATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTGCCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTACCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGCCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTTAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATTCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTGTCCGAGACCCTGTACTTAAACCCCCCGGTAGTAAAAAGCCGCGTCGGCGACTCAGTAAAACTTTGTCCGAAGAATGAAGAGGGTCCGTTTTCCAAAATAATTTGGGTGGCCAAAGGAAAAAAAGTTTTCGATTGTGCAAACGGCGTTCGTTGCGAACCTCAACAAATCAAAGAACCGTGGCGTGTTTCGATCGCAGACCGTCGATGTTATTTCATTCAAGACGTTCGTCTTTCGGACGGGGGCGCCTACGTTTTTTTCTTTAAAACGGGACGCCAAGTAGTAACCGGGCGGATCGATCTCATCGTCCACCGTAAAGGAGACCGTGTTGTGGAAATCAGTGATCGTCCAACAATATCGGTTGAACGAGCGACGCAAAAACCTGTTGGAACTTCGATCTCGGAGACTGGCTCGCCACCGAAAATAGAAGACGAAGTCGCCGTAAAAACTTTACCCGACCCGAAAATTTTCCCCATTTTAGAACTCAAAAACGAAACAACCGGCCGCTGTCGCGCGCGATTGGAATGTGATGTCTACGGCCTCGATGAAAGCGAAATGCCACAATTTATTTGGCACGTGACCGAATCGCAGCACGTGTATAGTAGAGGGCTTGCGGGCGATCCTAGCATTCTAGTAGTTAGCTCCGAGAATACCAACGCTAAAGGGATTTTTACATGTGTCGTTCGCAAAAACGGAGAGGTTAAGGAAACCTCAATCCGTTTTTCAAACGTGTGCGTGTTCAAGCGAAGCAAGGCTGTGATGTATGTGGCGTTAGGAGTGCTTCTGGGCCTGCTGCTCCTCATCGGGGTCTGTGTCGGGTTGTTCTTTTACTTGCAAAAAAAGGGACATTGTTATAAGCCGCGTTCACAGCCCGACGTCATTCCCAAAGAACCCGAAATGTCTTTGAGTGTTGTTAACGAGAATGTCTCTGTTCAATAAATTTTGCATGTTCGAGAAAAGCACAGCGAAGCGCGTTTCCTTTTCCCGCCCCGCTCCGCCCGTACCAACCCGCCGCTCCCCGCTCCCTCCGCTGCACNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCCCGGAGCCGCGGACCTCCGGTCTCCAGTGACAGGCGAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGTTTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGCTGCTCTCACCTGTTCTCTTCATAGAATATTGGATCGTCCTGACTTCGCTCCTCCACGGCAGTCTCGATGTGTTGTTATGCGCCGCTGGCTTTATAGAACTGACGTAGCAGTAAAGGCCTGCGGGGGACGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTGTAATGCCTGTATTAGCCTCTACAGTACAACCCCTGGGTAATATACAAAAAAAAAGAAAAAAAACGAGTTCGTAAGGGAGATGCGGAAGGGGCTTGATGCAAAACAGGGTCTCATTTCTTNNNNNNNNNNNNAACAGCGGCGAAGAAGGCAATTGTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCTGTGATTGCTTGTTTGTGCTTTTTTGTCTGAGTGTGTGTGTGTTGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN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CTTCACGAGCGGCAGTTTTCCAAGGAATGTTATCCAGCGATTTTTGGAGAGCGTCCGTCAATCGACGGCACGCCTGTCCCGGCGTGGCCGGGTGCTGAATCGAAAAATCGAGTGGATTTGGCTGTCGCGCCACCGAGCGACTTCTGGCACGGCAGTTACGCGGCGTTTCTTTCTTCGTCTTATTCTTTCCGGTGCGCCGGGAAACGCAAACCGTCAGCGAACGGTTGCGGGCACGTTCCCCCGGCTTTCCACCGCAAGCCGAAAAGCTGCGTTGACGTGCCGGAAGTGGGCGGTCTTCAGCCGTCTGTAGTTGTAAAAAAGCGTTCAATAAAGAGGCGGCGCGACTGGCCATTCCGCAATTTCTCGAGTTCGTCGGTAAATTCACAAGATGAGGCGCGCGCGCTCAAAAACCTTCTCAATGGAAGAGAGATGCGGAGAAAAGTACGGAAGCTCCTTTATAGAGTACGAGGCGGTAGAAAGCTCGGAAAGCGAATACTCCGACGCCAGCGACGGGGACTCGGAAACCGAATCGATTCCCGTCCGGGGGGAAACGTGCGAGCTGTCAGACCCGAGCGACTCCGAGTTCCCGCTGACCGATCCGCCGCCTAAACGCAAAAGGCCCCGTGTGCTAGAAAGCTCAGACGACGAGGAAGCCGAACAGGCACCTCCGAGTCCCTCGGTCAAACGCTTTAAAGGCGATCCGGAGGGTCGCGCAAGCGGAATCGGTGCCCCGTTAGGGGCCGATTCGGAATCTAGTTCCGGATCCTCCTGTCCCTCCCCCGAATCCGCTTGGCGTCAATTTGGTGATAAAAACCACGCCCTTATTAACGAGGTCGCCAAGCTTCTGTGCGACGGCGAAGCCGCGGCTGCCGATCGGTACGCCGCGCTAGCCGAGTGCGCACGCCAGTATTTAGAAACCTCCCGCTACATGCTCCCTTTGAGCCGAGCCCTTTTGAGTTCCGAAACGGAAGTCCATAAGGGCCAAGCCGACCTAGAAGCCGAAGGACTGGCGCGAGAGGCCGCGTCTATCGTTCAACAAGCGGTAGAGGTAGACAGCAGTTCCCTGACTTCGTTAACGAGCGGACGGCGCGTAGCTAAGGCGGTCAGATTGGGGGCCGACGTACGATTGGCGCAGCTTAATTTGAAATGGAGTTTAGTATCTATAACGACGACTCGATCTTTTGGCCACTTAAAGAAACCGATTCAGAAGGTGTAATATATTTTGCGGAAAGCCCTCATGTTGTAATGGAAGGCTCCGGCTACGCCGACGGGAAACGACGCATCGCGTTAGATTCTAACTTCGCTTCCCCCTCGCGCGAGGACCCGATGTCGGATCCAGAAACCCACTCGGAAGCAGCGCGAGGATCCACAGAAACGCTTTACTGCGAAATGAAGCCGGTAAAGCGGTCGGAGGTCTGCGAGGCTGAACGGGTCAACAGCTCCGGCCGCTGGAAGAGCCTGGGCTCCGTTTTTCGACGACCAGAACGGGACCGTCGGTCCCGTCGCCGGTCGACTCAGACGGTAGCCTCGCCCTTTCATAATCCCTACCTCCTAACGAAATTACAAAGGGATGATCGCCGAGTGCACGAGCGCCTTCTGGCGCCGTGCCTTCGCGTGTTCTGGGGCAGCTTGTGCGACGCGTCTCACCAGCTCAGCGTCGTCATGGACAAGCCTAACATGCAGATCCCGAATTCTGTCGTGGAAACGGCCATGCGTTTTCGCACGGTATACGACATGCAAACCGCGACGCCGAATTTGGGCAGCTTGGAGGTTCACGCCATGATGGTCATGACGGGAAAACTCATCCTGCACGCCAAGGTGACCAATCAAAACACGCCGCGTTCCCACCGTGACTGGGGTTGTCTTTTGATGCGTATGTCTTTTTGGTGCTGTCAGTCTCACCGAGGGACGTCTTGCGCCCTGAGCCCGTTGTACGAAAAAGCCGTAGAACGGCTCTTTCCGCTCGGCGGAACGCGCACGTACTCCAACGTGCACAGCCACGCGGAATACTGGCAGAGCCTCCGTTCTCTGGCTCAACGCGCGGCCGAAGACAGCGACGCGACCACCGTAATGAGAGATTTAGCCGTGGCCTTAGTCACGGCGGGAGTGGCGGTCGATTCGCGTTATCTGACGAGCTCCGAAGAAGGCTTCGGGACCGAATGCAAGGAGGACTAGTTTTTTATTGACAACTCATGCTTTGTACACGCTGAAAATAGAGCAATAAAATTAATAAAAATCGTCTAGGTTTCCCGTCACTTTGCTTCTCGCCCCCAAAAGGTCCATGAGCATACTCCGCGCTTGCTCGAATCGCGGCCCCTCGTCCACCGGGCTCTTGCTGGGCATTATCGGAGAGGGAGGGGGGAAAAATTCGACCGAATCGTCGCTGTCGAAATCTTCTTCCCGAGTTGGCAGCGAACGGTACGAGCTTCGTCGGCTCAAAGAGTTAAAGTAAACGGTTTGCTGTATGGCCGGACCGGAGGGCCGCTTGCCGCCCCTTTTCTTGCTTTGAAAGCAGCACATGCACGTGGCCACGCAAGCTGCCGTCAAGGCGGTGGCAAAGAGCGCGGCGATAATGCAGATTACCGACACCAGGAGGTGATGAGGGCCGAGGTGGACTTTGCGGTTTTTATCTTCTTTTGGATAACCCGATAGCACTTGAACGGCCGCGGCGCTGTCCTGGTCGATCAGCAAGACGAAATTCCACACCGCCGATTCGTACCGGCCGTTCAGAGCGGCCGTCAGTACATAAAAGCCCGGCTGTGCGTCCGTGGCGGAGGCGAAAATTAAACGGTTTTGTCCGTCCATTTCTGCCTTGTCGCGCCAACTAGAATTAATTACCTTTTTGACGGGACACCGCGTTTTCCACTCGGCACTATTGCCGCAGAAGTAGTCTGTTCTGGCCAAAAGAGTGGCTTTGAAAAAACTGCTTATCACGCAACCGTCGTCGTTAGCCGGATGCAGGCATTCGGGTAGCATGCCCGCCGTCAAACAATCGCTGTACACGAGCAGAGATTTGCAGCCCGGGGCGGTGTTCATGTGGAACCACTCTACGGACACGTTAAATTGGGGTAGAGTCATATTGTCCACTATGTCCAAATACAGCGTGACCGGACCTTCTCCTTTCATCACGGTCATTGACTGCGGTATCCAGAAACGTTCGTTCGCGACAACCGGCTTCGAAACGGTCGTTTCCGTTTCGTTGCGGCTCTCGGAGACCGTGGTCAACGCCGGGGTCACCGGAACGGTGGAAAGAGTCTCGTTTACGGGCGTCGAGCGGTTCGAGGCGGAGGTTGGGTTCGGAGTAGTCATCGTCGCTTCCACAACGGTCAAGACGAAATCTATGCTGAGATCGTCGTCACCCGACGACACCGCTACGGAGTAAATTCCTGAATCGTTAAGATGTACGAAGGGGATCTCGATTGAAAATTCTGAAGAGCGATTGCCCCTTTTCGCTATGCGGGCTTTCAGTTCTGCGATCTGTCCGTCCGCGCAATGACCCTTCTGAAAATGAGTGAAGTCGCAGGAGATCTCCACCAATTTCACACCATCTCCCTGGGAATAGTGGCAACCTAAAGGCAGGCGAAGGTCCTCCACGCACTGACCGTCGTGCGAGCAAACTTTTTCGAAACTTGCCACCGAGCACTCCTTGGTACGGTAATGCCAAAGATCGAGTTCTACCCTTTCCTCGTTTTCCTCAGAGGTGATCGTGACAGAAAACGGAAAGCTGACACTTTGGCCTTCTTCGGCCGCGGCCGTGCGTTTAGGGGCCGTCAAGTTAAAGACAGAGGCTAGATTCGGAACCGCCAAGCACATTGCGGTGCACGCGAGCAGCGAAAAAGAAAGACGCATGATGCAGCGGGCAGGTGAGTCGCGAAGCTGCCTGTCACCTTAACAGGTAAGTTACCACCTGTTATAGCGAGGTATCTTTAAACTCCTCCTCCTGAAACATGACACAACCCTCTTTGTTGTATTTTGTAATTTTATTGAAACAGTAAACAATCTACGAAATGCGCAAAAGTCCTCATATAATAAAATGGCCCCGCGGTGCCGTCGACCGTATGCGGCGCTCTTTTTTCGGCGTTACTGCAGCCGCGGCTAAAATTTCGTCAGCGGTTTCGTCCTGATCCAAAGCGCATCGAAACGGTTGCAGAACGCCTGTGCATTTCCCGGCTGCTCCGACCTGTCGAAAACATTCGATGAATAACCGCATGTCTTTCAAGAGCTTTGAGACCGCTTCCTCTTTTTCCGGTCCGTCGGCGTTTGCCGGGCTTCGAACGCAGTAAAGAAACTCATCTACGTTTGACAGTTCCGGTTTTTTCCAACGTTCCCGTCGCGAGGGGCGGCCGCGGCAATCGGACTCGGCCTTGGTCACTTTCGTTCGATCCATGAAGTACCGCAAGTCTCGCTCCATGGCGGATCCTAAAGCCTTAGGGACGGTTTCGTCGTCTCCTCCGCCAAGGCACAGCCAGGGATTGACTTCTTCGCTCATGACGTTTTTCTACACCTGAGAAGCGTGGTATTGTCCGCTCGCTATTTATCGGCCAGGTGACACCCTTACAGGCATTTCAGCATAAAGGCGGTGTTACGGCGAAGGACGCCTGCCTCCGGAAACCGAAGGGCCTATACCGCACCGGACGAATAGTTAGTCAAAAAAACCCTTCCTCCCCAACCAATTGATAAACTGCTGCCGTTCCCGTTCCAAAAAACGAGTTCACTAATTGAAACTAAAATGAAAACCAGTTTATTGAAAGGCGAGTTTTAGACATTGCTTTCCGGGGGTAAAATTACATATGCTTGCTTCTCCGGGGGTAGATGGTCGATCTCTGGTTCACACGTGGCATCGATCAGATGAGTGGCTCGGCGGTATTCCAAGATGTTTTTAATGCGCCCGCACACACCAAGGCGCTTTATGTACACGCCCAGCAAAAACGCGATTGCTACCGAAAGAGAAAAAAGGAAGAAAATCAAGACGATCGTTCCTTTCGGACTCGCAGGTGTTGGAGCCTTCGAAACGGGGGTCTTAGTGGTGGTGAGAGTCTTCCCGTCGTCGCACGGCAAGTCTTTAAGCGGTTTGCGGTCCGAAGGAGAAACGTTGCTATTTGCCACTGTTAGCGTCACACCAAACGTGTGTTGCTTTTCGTCCATCACTACGACCGTTTTGTAAGTACCAGAATCGTCCTTCGTTGCGTTGTAGATAGAAAACGTTGCCTCCAATCCGTTAAACGTCAAGTCGAAACGCGGTATTTTGGCTAAGGTCATGTGGCCGCAAGGTCGGTGTTGATTACCCGCTCCTGGTGAGCAGTCGGAAAGAAGAGTACTCACGAGGGGCACTCGGCAACCAGTCCTCTTTTCGTATCCTACGTAAATACTAACCGAGCTGGGATGAGCGAGCGCGGCCTCGTGGATGATTAGGCTCGCTTTAAGCGAGCAAGTGCTTCTGCGGCACACCTGCGATACGCCGCTGCGAAGGTTCAAGGAGAAATCGTTTCCGCTTAGGATGACGGCGGCTAAGGGCCGCGCGACCGCGAGAAAAACGTACATAAGCGGGTACCACATCCTCAAAGCAACGGCGTCGGAACGCGCCTGATACCTGCGAGTCCCTCCCCTGCAATATAAGCTACCTTTTTTCTCCACCCTGCGACGTCATCCAGGTACCTTACCTCCAACTGGAAGTAGAGGTTCGGCTTTGGCTGCGGGTGCAAGGCCGGTCTGAAAGATACTTATCTGCGGAAAGGTTTTCCGCGGTGGGTCTCGCATCGGGGCAAAAGGTGAGCATGCGACAAAGCAGTTTCCGCTCCTCGAGGACGATGCTTTCGTCCTCGGGTATTGACTCGTGATTCGCCCTTTGCCAGAGGTGCTGAGGAACCTTTAAATAGAAACAATCGGCTTCTTTCGGACTTTCCCAGCCGCGAGTGGACCGGGTAACGCCCATGCGGCACAGAATTGTCAAGAAACACACCTCGTCCGTTTCGGCCCGAAACGGGGATTCTCGTTTAATGAGATAGTAAAACACGCACCCGAGAGACCACACGTCCAGGCCGTAACCGTACTCGTGACAGAGAAAAACTTCCGGTGATCGGTACCAGGAAGTGCAAACGTCTAAACTATGTTTCCCGCGCTCGCGGCCGTTTGCAGAGTGCCAAAATTTGGCCAATCCAAAATCCGCCACTTTGACATCGTCCACCGAGTTCATCAGGATGTTATCGGGTTTCAGGTCTCGGTGGATGATCCGATGTTCCCGCAGGTAAATGAGAGCGCTCAGGAGCTGGGAGACGATCCTGCGGCGATGGTCTCGCCTGATGCAAGAATTGATGCGAATGAAATCCTTTAGGGATGCGTGAACGTATTCCATTTGCAAAAAAACCCGCGAATCGTCTTCGAGCAACTGAATGGCGGTGATGATGTTAGAGTGGCGCATCATGGTCAGAATATCATACTCGTTGATGGTCGCCTGAGTAAGGCGGTCCTTGCCTTTACGGGTTATCTTAACGGCTATGACGTTGCCGGTAGCCTTATCGACGGCCTTCACTACCTGCCCGTAGGTCCCCTTCCCCAGCGCGGAGAGAAGGTCAAGCGTTTGGTTTACCCGTTCCGCCATGGCGCTTTCGGGAATCTTTGCGCGTTATGGAAAACCCGGGCAGCGTGTGACGCTTTTTGAAAAACGGGTAGGTGAGCACCTTGCTCGCCGATGGCCTTTTAATCGCGTTGAGGCTAAGCATGCGAATAATCACTTTTTTTGCCTCCTGACCGATGCTTAGTTTTTCTACGCAGTCGCAGACGATCGTGCAGTCTCGCTCCGCCGGTACGACCGGTCGCATCCGATCCAAGTTCGCAAAGAGATTGGGCGGCGGGAAATCATAAGCGTCTATTTCCATTTTTTTCAGAATGTGGGTCATGGTGTCCTTGGCCGGGAACATAGAGGCCGGAGCCGACAGCATTTCGAAAGCGGCCACTCCCATCGACCATACGTCGGTCGTCCGGCAGTAAGGATCTCCCAACATCATCTCGGGGGACGATGTGCTAGGGGTACCCGAAATCCCGTACTGCCCCCACAGCCGCGAGTCCTTCACTTTCAAAGCCAACCCCAGATCCCCGAGCTTGGCGTCCGTCGTCAAATCGCGGACGAATATGTTTTCCAGTTTAACGTCGCGATGGAGGATGTTGAGGCTGTGAAGATACTGCAGCCCGCGCAGGCAGTCCCGAAGCACGTGTCGCATCTCCTCCTCCGTCAGCGGTCTGCGCAAGCGCCGCAAATAGTAGCTCAGGTCCCCCGCCATCAGCTCCAACTCCATGTAACACACCTTTGGGTGATAAATGACCCGCATCGTTTTAATGACGTTCCGATGCCTCGCCGCGAGCGCCAAGTTGGTCTCCAGGTGCATGAGCTCGGAGGTGAGGCCGTTTTTGTTATTTAGCGGGGCCGCTTTTAAAGCGCACATAGAACCGTCCGCTCGTTTGCGGCAGCGGTAGACGCAAGCGCTGGCGCCTTGTCCCAACAGCCGTCCAAAATGGTATTCGTTCATGATAGGCACCGCGTGCGAAATGTCGTTTGGATCCACGACGCGACATTCTTCCATTTCTTGGTCCTGGCGCGAGTCGGAATTACAAGATAAACTCGAGGGGACGATCGATGCCGAGCAGCGGGTCGGATTCGCCACTGCGTCCGTACTCATTTCGCCGACGGCGGGGGAGGGCGTACGCATCTCGGCCGCGAAACTCATAATTTCGTTTTAACAGCAGACCGGTCTTTAAAGCTAAACCAATTTTAGGTAACTCGGAGAGCGCGTTTCTTTTACTTGAGGGCGGCGAAAGCGCTTTTGGTGGGCGTTTTCGATAGAAACCGCGGCCTCGGGTAATAAGGACGGCCGTATTAAAGCGGTCGCCGAAAAAGCTGGCCACAAATATCAGTAATGGTAAGCGAGTTAAATGTATCGTTACCCCTCGTATGTCCGAGCAGGCAATTGAACGGCGCCGACTGCGGTTGTCGACCCGAGTACCTGTCCGCGCGGTTTTTCGACCGCCCGGAGCACCGGCATCACCGCCGTTTTTACGCCCAGTACTTTCTTTACGGGGCGCTGTTCGTGTTCTTTTTATATTCCCTAATTTTGACCGGTCTTTGGCTGGGAGCTAGATCTTGTTAATCATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCTTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAAAGCCTGAAAAAAATGCTCTCGGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGGCCGAGGAAAGGGAGAACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGTGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCCGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCGACGGATCAAGAGCAGACGTACTACGGCGATTTCCGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGAGAGCACGGAAAATGGGCGTAGCGTGATAAAGGGCGAAAACGGCCAAAGGCGCCGTTCGTTACTCGCAAACAATAAACCGTTTGTGCGAACAATCTTGCCTGAGGCAGTGTGATTTATTAACCCGCTCCCGAAAATGGCGAGGCATTCGCCACGGGAGCCCGTAACCGTTAACCATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGTCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGATTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCTAGCAAAACGAAAAGATCGAAAAATATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTGCCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTACCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGATCAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGCCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTTAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATTCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTGTCCGGGACACGGGCCTAAAAGCTCCCGGTAGTAAAAAGCCGCGTCGGCGACCCAGCAAAACTTTGNNNNNNNNNNNNNNAGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNGAACCTNNNNNNNTCAATGACCCGTGGCGTGTTTCGTTCGCAGACCGTCGATGTTATTTCATTCAAGACGTTCGTCTTTCGGACGGGGGCGCCTACGTTTTTTTCTATAAAACGGGACGCCAAGTAGTAACCGGGCGGATCGATCTCATCGTCCACCGTAAAGGAGACCGTGTTGTGGAAATCAGTGATCGTCCAACAATATCGGTTGAACGAGCGACGCAAAAACCTGTTGGAACTTCGATCTCGGAGACTGGCTCGCCACCGAAAATAGAAGACGAAGTCGCCGTAAAAACTTTACCCGACCCGAAAATTTTCCCCATTTTAGAACTCAAAAACGAAACAACCGGCCGCTGTCGCGCGCGATTGGAATGTGATGTCTACGGCCTCGATGAAAGCGAAATGCCACAATTTATTTGGCACGTGACCGAATCGCAGCACGTGTATAGTAGAGGGCTTGCGGGAGATCCTAGGATTCTGGTAGTGAGCACCGGGAATACCAACGCTAACTGGATTTTTACATGTGTCGTGCGCGAAGGCGGAGAGGTTAAGGAAACCTCAATCCGTATTTCAAACGTGTGCGTGTTCAAGCGAAGCAAGGCTGTGATGTATNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTCTNTCCGNGGTGCCGCCTCATCNCCCNCACCCGATTTNTGAATTTTTTNTTAAANNGGAAGGAAGGGAAGGGAATGTCGCGCGCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCACGGCTACCGNNNTTNGTCTTTTTNNGCCGCTGGNNNNNNNNNNNNNNNNTTTGCCCTCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN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GAGCCTTCGAAACGGGGGTCTTAGTGGTGGTGAGAGTCTTCCCGTCGTCGCACGGCAAGTCTTTAAGCGGTTTGCGGTCCGAAGGAGAAACGTTGCTATTTGCCACTGTTAGCGTCACACCAAACGTGTGTTGCTTTTCGTCCATCACTACGACCGTTTTGTAAGTACCAGAATCGTCCTTCGTTGCGTTGTAGATAGAAAACGTTGCCTCCAATCCGTTAAACGTCAAGTCGAAACGCGGTATTTTGGCTAAGGTCATGTGGCCGCAAGGTCGGTGTTGATTACCCGCTCCTGGTGAGCAGTCGGAAAGAAGAGTACTCACGAGGGGCACTCGGCAACCAGTCCTCTTTTCGTATCCTACGTAAATACTAACCGAGCTGGGATGAGCGAGCGCGGCCTCGTGGATGATTAGGCTCGCTTTAAGCGAGCAAGTGCTTCTGCGGCACACCTGCGATACGCCGCTGCGAAGGTTCAAGGAGAAATCGTTTCCGCTTAGGATGACGGCGGCTAAGGGCCGCGCGACCGCGAGAAAAACGTACATAAGCGGGTACCACATCCTCAAAGCAACGGCGTCGGAACGCGCCTGATACCTGCGAGTCCCTCCCCTGCAATATAAGCTACCTTTTTTCTCCACCCTGCGACGTCATCCAGGTACCTTACCTCCAACTGGAAGTAGAGGTTCGGCTTTGGCTGCGGGTGCAAGGCCGGTCTGAAAGATACTTATCTGCGGAAAGGTTTTCCGCGGTGGGTCTCGCATCGGGGCAAAAGGTGAGCATGCGACAAAGCAGTTTCCGCTCCTCGAGGACGATGCTTTCGTCCTCGGGTATTGACTCGTGATTCGCCCTTTGCCAGAGGTGCTGAGGAACCTTTAAATAGAAACAATCGGCTTCTTTCGGACTTTCCCAGCCGCGAGTGGACCGGGTAACGCCCATGCGGCACAGAATTGTCAAGAAACACACCTCGTCCGTTTCGGCCCGAAACGGGGATTCTCGTTTAATGAGATAGTAAAACACGCACCCGAGAGACCACACGTCCAGGCCGTAACCGTACTCGTGACAGAGAAAAACTTCCGGTGATCGGTACCAGGAAGTGCAAACGTCTAAACTATGTTTCCCGCGCTCGCGGCCGTTTGCAGAGTGCCAAAATTTGGCCAATCCAAAATCCGCCACTTTGACATCGTCCACCGAGTTCATCAGGATGTTATCGGGTTTCAGGTCTCGGTGGATGATCCGATGTTCCCGCAGGTAAATGAGAGCGCTCAGGAGCTGGGAGACGATCCTGCGGCGATGGTCTCGCCTGATGCAAGAATTGATGCGAATGAAATCCTTTAGGGATGCGTGAACGTATTCCATTTGCAAAAAAACCCGCGAATCGTCTTCGAGCAACTGAATGGCGGTGATGATGTTAGAGTGGCGCATCATGGTCAGAATATCATACTCGTTGATGGTCGCCTGAGTAAGGCGGTCCTTGCCTTTACGGGTTATCTTAACGGCTATGACGTTGCCGGTAGCCTTATCGACGGCCTTCACTACCTGCCCGTAGGTCCCCTTCCCCAGCGCGGAGAGAAGGTCAAGCGTTTGGTTTACCCGTTCCGCCATGGCGCTTTCGGGAATCTTTGCGCGTTATGGAAAACCCGGGCAGCGTGTGACGCTTTTTGAAAAACGGGTAGGTGAGCACCTTGCTCGCCGATGGCCTTTTAATCGCGTTGAGGCTAAGCATGCGAATAATCACTTTTTTTGCCTCCTGACCGATGCTTAGTTTTTCTACGCAGTCGCAGACGATCGTGCAGTCTCGCTCCGCCGGTACGACCGGTCGCATCCGATCCAAGTTCGCAAAGAGATTGGGCGGCGGGAAATCATAAGCGTCTATTTCCATTTTTTTCAGAATGTGGGTCATGGTGTCCTTGGCCGGGAACATAGAGGCCGGAGCCGACAGCATTTCGAAAGCGGCCACTCCCATCGACCATACGTCGGTCGTCCGGCAGTAAGGATCTCCCAACATCATCTCGGGGGACGATGTGCTAGGGGTACCCGAAATCCCGTACTGCCCCCACAGCCGCGAGTCCTTCACTTTCAAAGCCAACCCCAGATCCCCGAGCTTGGCGTCCGTCGTCAAATCGCGGACGAATATGTTTTCCAGTTTAACGTCGCGATGGAGGATGTTGAGGCTGTGAAGATACTGCAGCCCGCGCAGGCAGTCCCGAAGCACGTGTCGCATCTCCTCCTCCGTCAGCGGTCTGCGCAAGCGCCGCAAATAGTAGCTCAGGTCCCCCGCCATCAGCTCCAACTCCATGTAACACACCTTTGGGTGATAAATGACCCGCATCGTTTTAATGACGTTCCGATGCCTCGCCGCGAGCGCCAAGTTGGTCTCCAGGTGCATGAGCTCGGAGGTGAGGCCGTTTTTGTTATTTAGCGGGGCCGCTTTTAAAGCGCACATAGAACCGTCCGCTCGTTTGCGGCAGCGGTAGACGCAAGCGCTGGCGCCTTGTCCCAACAGCCGTCCAAAATGGTATTCGTTCATGATAGGCACCGCGTGCGAAATGTCGTTTGGATCCACGACGCGACATTCTTCCATTTCTTGGTCCTGGCGCGAGTCGGAATTACAAGATAAACTCGAGGGGACGATCGATGCCGAGCAGCGGGTCGGATTCGCCACTGCGTCCGTACTCATTTCGCCGACGGCGGGGGAGGGCGTACGCATCTCGGCCGCGAAACTCATAATTTCGTTTTAACAGCAGACCGGTCTTTAAAGCTAAACCAATTTTAGGTAACTCGGAGAGCGCGTTTCTTTTACTTGAGGGCGGCGAAAGCGCTTTTGGTGGGCGTTTTCGATAGAAACCGCGGCCTCGGGTAATAAGGACGGCCGTATTAAAGCGGTCGCCGAAAAAGCTGGCCACAAATATCAGTAATGGTAAGCGAGTTAAATGTATCGTTACCCCTCGTATGTCCGAGCAGGCAATTGAACGGCGCCGACTGCGGTTGTCGACCCGAGTACCTGTCCGCGCGGTTTTTCGACCGCCCGGAGCACCGGCATCACCGCCGTTTTTACGCCCAGTACTTTCTTTACGGGGCGCTGTTCGTGTTCTTTTTATATTCCCTAATTTTGACCGGTCTTTGGCTGGGAGCTAGATCTTGTTAATCATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCTTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAAAGCCTGAAAAAAATGCTCTCGGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGGCCGAGGAAAGGGAGAACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGTGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCCGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCGACGGATCAAGAGCAGACGTACTACGGCGATTTCCGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGAGAGCACGGAAAATGGGCGTAGCGTGATAAAGGGCGAAAACGGCCAAAGGCGCCGTTCGTTACTCGCAAACAATAAACCGTTTGTGCGAACAATCTTGCCTGAGGCAGTGTGATTTATTAACCCGCTCCCGAAAATGGCGAGGCATTCGCCACGGGAGCCCGTAACCGTTAACCATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGTCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGATTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCTAGCAAAACGAAAAGATCGAAAAATATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTGCCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTACCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGCCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTTAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATTCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN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GAGCCTTCGAAACGGGGGTCTTAGTGGTGGTGAGAGTCTTCCCGTCGTCGCACGGCAAGTCTTTAAGCGGTTTGCGGTCCGAAGGAGAAACGTTGCTATTTGCCACTGTTAGCGTCACACCAAACGTGTGTTGCTTTTCGTCCATCACTACGACCGTTTTGTAAGTACCAGAATCGTCCTTCGTTGCGTTGTAGATAGAAAACGTTGCCTCCAATCCGTTAAACGTCAAGTCGAAACGCGGTATTTTGGCTAAGGTCATGTGGCCGCAAGGTCGGTGTTGATTACCCGCTCCTGGTGAGCAGTCGGAAAGAAGAGTACTCACGAGGGGCACTCGGCAACCAGTCCTCTTTTCGTATCCTACGTAAATACTAACCGAGCTGGGATGAGCGAGCGCGGCCTCGTGGATGATTAGGCTCGCTTTAAGCGAGCAAGTGCTTCTGCGGCACACCTGCGATACGCCGCTGCGAAGGTTCAAGGAGAAATCGTTTCCGCTTAGGATGACGGCGGCTAAGGGCCGCGCGACCGCGAGAAAAACGTACATAAGCGGGTACCACATCCTCAAAGCAACGGCGTCGGAACGCGCCTGATACCTGCGAGTCCCTCCCCTGCAATATAAGCTACCTTTTTTCTCCACCCTGCGACGTCATCCAGGTACCTTACCTCCAACTGGAAGTAGAGGTTCGGCTTTGGCTGCGGGTGCAAGGCCGGTCTGAAAGATACTTATCTGCGGAAAGGTTTTCCGCGGTGGGTCTCGCATCGGGGCAAAAGGTGAGCATGCGACAAAGCAGTTTCCGCTCCTCGAGGACGATGCTTTCGTCCTCGGGTATTGACTCGTGATTCGCCCTTTGCCAGAGGTGCTGAGGAACCTTTAAATAGAAACAATCGGCTTCTTTCGGACTTTCCCAGCCGCGAGTGGACCGGGTAACGCCCATGCGGCACAGAATTGTCAAGAAACACACCTCGTCCGTTTCGGCCCGAAACGGGGATTCTCGTTTAATGAGATAGTAAAACACGCACCCGAGAGACCACACGTCCAGGCCGTAACCGTACTCGTGACAGAGAAAAACTTCCGGTGATCGGTACCAGGAAGTGCAAACGTCTAAACTATGTTTCCCGCGCTCGCGGCCGTTTGCAGAGTGCCAAAATTTGGCCAATCCAAAATCCGCCACTTTGACATCGTCCACCGAGTTCATCAGGATGTTATCGGGTTTCAGGTCTCGGTGGATGATCCGATGTTCCCGCAGGTAAATGAGAGCGCTCAGGAGCTGGGAGACGATCCTGCGGCGATGGTCTCGCCTGATGCAAGAATTGATGCGAATGAAATCCTTTAGGGATGCGTGAACGTATTCCATTTGCAAAAAAACCCGCGAATCGTCTTCGAGCAACTGAATGGCGGTGATGATGTTAGAGTGGCGCATCATGGTCAGAATATCATACTCGTTGATGGTCGCCTGAGTAAGGCGGTCCTTGCCTTTACGGGTTATCTTAACGGCTATGACGTTGCCGGTAGCCTTATCGACGGCCTTCACTACCTGCCCGTAGGTCCCCTTCCCCAGCGCGGAGAGAAGGTCAAGCGTTTGGTTTACCCGTTCCGCCATGGCGCTTTCGGGAATCTTTGCGCGTTATGGAAAACCCGGGCAGCGTGTGACGCTTTTTGAAAAACGGGTAGGTGAGCACCTTGCTCGCCGATGGCCTTTTAATCGCGTTGAGGCTAAGCATGCGAATAATCACTTTTTTTGCCTCCTGACCGATGCTTAGTTTTTCTACGCAGTCGCAGACGATCGTGCAGTCTCGCTCCGCCGGTACGACCGGTCGCATCCGATCCAAGTTCGCAAAGAGATTGGGCGGCGGGAAATCATAAGCGTCTATTTCCATTTTTTTCAGAATGTGGGTCATGGTGTCCTTGGCCGGGAACATAGAGGCCGGAGCCGACAGCATTTCGAAAGCGGCCACTCCCATCGACCATACGTCGGTCGTCCGGCAGTAAGGATCTCCCAACATCATCTCGGGGGACGATGTGCTAGGGGTACCCGAAATCCCGTACTGCCCCCACAGCCGCGAGTCCTTCACTTTCAAAGCCAACCCCAGATCCCCGAGCTTGGCGTCCGTCGTCAAATCGCGGACGAATATGTTTTCCAGTTTAACGTCGCGATGGAGGATGTTGAGGCTGTGAAGATACTGCAGCCCGCGCAGGCAGTCCCGAAGCATGTGTCGCATCTCCTCCTCCGTCAGCGGTCTGCGCAAGCGCCGCAAATAGTAGCTCAGGTCCCCCGCCATCAGCTCCAACTCCATGTAACACACCTTTGGGTGATAAATGACCCGCATCGTTTTAATGACGTTCCGATGCCTCGCCGCGAGCGCCAAGTTGGTCTCCAGGTGCATGAGCTCGGAGGTGAGGCCGTTTTTGTTATTTAGCGGGGCCGCTTTTAAAGCGCACATAGAACCGTCCGCTCGTTTGCGGCAGCGGTAGACGCAAGCGCTGGCGCCTTGTCCCAACAGCCGTCCAAAATGGTATTCGTTCATGATAGGCACCGCGTGCGAAATGTCGTTTGGATCCACGACGCGACATTCTTCCATTTCTTGGTCCTGGCGCGAGTCGGAATTACAAGATAAACTCGAGGGGACGATCGATGCCGAGCAGCGGGTCGGATTCGCCACTGCGTCCGTACTCATTTCGCCGACGGCGGGGGAGGGCGTACGCATCTCGGCCGCGAAACTCATAATTTCGTTTTAACAGCAGACCGGTCTTTAAAGCTAAACCAATTTTAGGTAACTCGGAGAGCGCGTTTCTTTTACTTGAGGGCGGCGAAAGCGCTTTTGGTGGGCGTTTTCGATAGAAACCGCGGCCTCGGGTAATAAGGACGGCCGTATTAAAGCGGTCGCCGAAAAAGCTGGCCACAAATATCAGTAATGGTAAGCGAGTTAAATGTATCGTTACCCCTCGTATGTCCGAGCAGGCAATTGAACGGCGCCGACTGCGGTTGTCGACCCGAGTACCTGTCCGCGCGGTTTTTCGACCGCCCGGAGCACCGGCATCACCGCCGTTTTTACGCCCAGTACTTTCTTTACGGGGCGCTGTTCGTGTTCTTTTTATATTCCCTAATTTTGACCGGTCTTTGGCTGGGAGCTAGATCTTGTTAATCATGACCACGCGTCCGCGCCAAAAGTCGGCGCGTGCCAATCACCGGAAGCTTTGCGGCGAGAGCTCTCCTGACTCGGCTGCGTGCTCGCCTTCGCCTGCGAAAAGGGAAACTTCCGCCTACGTGCGTGTAGCTTTAAGCCCTCCTCGGAGGTGCAGTCCGGGCGGAAAAAGCCTGAAAAAAATGCTCTCGGTCCCCGACCAGCGCCCCTGGGAACGCGAAGGAGAGTGGACGGCCGAGGAAAGGGAGAACGGCAACCGCATATTGCGGCTGCGGCAGTTGAACGACGTTCTCACGCTGTTAACCGATCATCGACAACGCCTGAGCGAAGCGGGCTTTTTAAGTGGCCACGAGCCTTTTTACCCAGAAGCGGCAAACATGCTGCTTTTGATCGCCGCCATCGCCCAGAAGGCGATCGCCGTTTCGCCCATGACGTTGGTTTTTTACCAAGAAATATTCGCGCAGCTGGGCGTCACGGACGAGTGCTTGATGCCGGTAATATCGTGGGATATTCGGGACGCCCGAAAATGGGCGCCGCAAACTTTTAACTTTCGTGAATTCGAAGGTTTGCTCATCAGTTTATGGCACGTGATCGACCGCTTATCTCGCTGCCCGGCGCCCGTTTTGGAGGCTACCCGCAGTTGTGCGCTCTGCCTGGCAGCGTGCCGCAGTTATTTTTGGTGTCTGTTGCCTTTGACTAATTTCACCCTGCCCGGAACCTTGCCTTTCGACGACCTAGGCCAGGATTTACGGTACTCGGCGGGCGCGGGAATTAAAGACATGGTCACTCAAAAAGCGCAGCGCTCGACGGATCAAGAGCAGACGTACTACGGCGATTTCCGGGCGCTGCTAAACTTAGGTCGCTTTCCTCGCCGGGGCGAAGCGCGACTTACCTGAGAGCACGGAAAATGGGCGTAGCGTGATAAAGGGCGAAAACGGCCAAAGGCGCCGTTCGTTACTCGCAAACAATAAACCGTTTGTGCGAACAATCTTGCCTGAGGCAGTGTGATTTATTAACCCGCTCCCGAAAATGGCGAGGCATTCGCCACGGGAGCCCGTAACCGTTAACCATGGGCTTGCCCGCTCTAACGTGCGTTCTCGTGGTTTTACTAAGTGGCGGGGTTTTTTCCCAGCCCGAAAGGCTTCGCGTGTTTAAAGACCAAAACGGGTTTGTGCGTTTGTGCGTATCCGAGGTCCCGTCGGATAACGTGGTACGGTGGGAGTATGAGAACCGCACTTTGCTCGACTGTCGAGCGAAAGACGATTGCCATCTGTCGGAGCAAGCCGGGCCGCCCTTTCTTTTTGAGTACGTATCGCACTGCCTGCGTTTTAACGCGGCCATTTCCGGCTTTTACGGCAGCTGGCTAGCAAAACGAAAAGATCGAAAAATATTGGCCAGCTTCGAGGTAGACCGCATGGACGTTTTTCAACACGTGATCAGTTCATGGCCAACAAATTCAGATATCTTCGTTTGTCCAGGACGCCCCGTGCCGTGGGACTATAGAATCGATTGGTATTTCAACGGGTTGCTGATTTATTCCAAAACTAGTTTGCTCGAAAAAGGAACGCCGCGTTCCGAATCGCGGTTCGAACAAAGGCTGACTGACTTTTTTCACTACTGCTTAAAAATTAGCGGCTCGCAAAACGACGACGCCGGCGAATTCGCCTTAATCGCGCAAAAAGAAGACAACTCTATTCTTCAAACAGTCACGATTCAGATAAAAGCTGCGACTTTGTGGTCGAAAGAGGTAACCGCGGAAGCCGATTCCTCGTTTGTAGTCGGAGCCGGCCTTTGGAAAGAGTTTAATTTTCGACTCGGCCTGTGGTACCACAACGGGACGCTATTTCGCGTATGCGGCCTGGAAAACGCGTGTCAGGCGGTCGGCCCCGATCGATTTGCCAACCGGGCCCCGATGGTAGAAAAATACAGCCTTTTGATCAAAGACGTCAAACCCGGGGATTCGGGTCGCTACCGGCTTGTCACATCATCCGCTTTAGAGAGTCGAGTGATCACGTACGAGGTGCAAGAACTTGTACCGGAATCACACCAAGGCCCTCAAAGGGTCGAAGTTGTAGAATTTTCTTCAGCGGAACTGTGCGCTCCCAAACCGGCTGCGGCGATCGGTTATTCCTGGGTGTTCAACAACGAAACGTTTTACGAATGTGAAACCCGTTCGGCGTGTCGGACCGTCGTCGGACGGAGAAATCCGGTTTTCGGTCGTTTTCGGTTAAGCGATACAACAGCGCGAACAGCCTCCGGCGAGAAAATTTTGCATTGTCTTCGATTAACGTCCGCGCTACGTCAGCAAGCCGGAGATTACCAGGTAACCTTCTTCGATGAGAACGGATCGCTCGCCAACTGGCAATTTAAACTGACGGTGGAGGTCAAGGTTTTCTTGCCGAATACCACGCGAAAGCAGCGCGTTTCCTCACTCGAAGGCAGAAACGTCACGCTATGCTCTCGAAAGCCAAACTCTACAAGCCTCTCAGAAGCAGGATCGTTCGTCGCCTCCTTTCAAGGGGCCGTGCTATTTGAATGCCCCGAAGGCCCGCGTTGTGAGAAGCAACTGAGCCGAGCGTCCGGCTCGTTCCTGTCTTGGCAGCCGTTTTGTCTGACTTTGTTTGGGGTAGTGCAAAGCGATTCGGGATTGTACGTGCTCAGTTCTTTTCACGGGGAGGAACCGCAAAGTGACTCGTTCGAGCTGAACGTAGTTCAGGTCGAAGAGAGAACGGTCGTTGCCGAGAGCAGCCTGACGCTTTGCGCCAGCGGGCCTTTACCGGAAAAGAGCAACGCTGTTTCAGGAGTCTGGGCTTTCAATTCTAAAACAGTGGTATTGTGCCAGAATAAAACGAATTGCGCTTTAACGGGTGAGGCCCGAGTGAGATATAAAAACTTTATGCCCATTAATGTAACGTGTTTGACCATAGATCGCGTGAGCACCCAGAATGCCGGCCCCTACTTTCTCAGAGTTAAAGTGGACGGTGCGGTAAATCAGGTGGCCGCTTTTAACCTCATCGTCGAACATTCCGAGGAGAAACCGGACCCCGCGGAGGAAATCGCAGATGAAATGCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTTGTTTGTGTGTAAGTGTGTGTGTGTGTGTGTGTGTGAGATCCNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNCCAGCTCCTCNTCNTCCAGTTCCTCCTCTNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNN</edomv>\n <edomvd />\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>The Detailed Tabs in this section are Comma Separated Value (CSV) files containing data. Data represents DNA consensus sequences for ChHV5 Open Reading Frames. Consensus sequences were generated via amplicon resequencing of the ChHV-5 viral genome from tumor biopsies from green sea turtles (Chelonias mydas) with fibropapillomatosis sampled from Florida and Hawaii coastal waters.</eaover>\n <eadetcit>Morrison CL, Iwanowicz L, Work TM, Fahsbender E, Breitbart M, Adams C, Iwanowicz D, Sanders L, Ackermann M, Cornman RS. Genomic evolution, recombination, and inter-strain diversity of chelonid herpesvirus 5 (ChHV5) from Florida and Hawaii green sea turtles with fibropapillomatosis. PeerJ, submitted.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>doi.org/10.5066/F73B5Z3T</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Cheryl Morrison</cntper>\n <cntorg>U.S. Geological Survey, Northeast Region</cntorg>\n </cntperp>\n <cntpos>RESEARCH GENETICIST</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>11649 Leetown Road</address>\n <city>Kearneysville</city>\n <state>WV</state>\n <postal>25430</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>304-724-4464</cntvoice>\n <cntfax>304-724-4424</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn />\n <metstdv>FGDC-STD-001-1998</metstdv>\n <metuc>Record created using USGS Metadata Wizard tool. (https://github.com/usgs/fort-pymdwizard)</metuc>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Data Release Products](/catalog/item/5474ec49e4b04d7459a7eab2)
3. [Growth of cultured Picocystis strain ML in the presence of arsenic, and occurrence of arsenolipids in these Picocystis as well as biota and sediment from Mono Lake, California](/catalog/folder/5e94c7ab82ce172707f035f2)
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## Dates
Publication Date2020-06-11Time Period2020
## Citation
Blum, J.S., Glabonjat, R.A., Miller, L.G., Webb, S.M., Stolz, J.F., Francesconi, K.A., Oremland, R.S., and Baesman, S.M., 2020, Growth of cultured Picocystis strain ML in the presence of arsenic, and occurrence of arsenolipids in these Picocystis as well as biota and sediment from Mono Lake, California: U.S. Geological Survey data release, https://doi.org/10.5066/P90VW2FP.
## Summary
Mono Lake is a hypersaline soda lake rich in dissolved inorganic arsenic with its primary production currently dominated by Picocystis str. ML. We set out to determine if this picoplankter could metabolize inorganic arsenic, and in doing so form unusual arsenolipids (e.g., methylated arsinoyl ribosides) as reported in other saline ecosystems and by halophilic algae. We cultivated Picocystis str. ML on an inorganic seawater-based medium with either low (37 µM) or high (1,000 µM) phosphate in the presence of arsenite (~0.4 mM), arsenate (~0.8 mM), or without arsenic additions.
## Summary
Mono Lake is a hypersaline soda lake rich in dissolved inorganic arsenic with its primary production currently dominated by _Picocystis_ str. ML. We set out to determine if this picoplankter could metabolize inorganic arsenic, and in doing so form unusual arsenolipids (e.g., methylated arsinoyl ribosides) as reported in other saline ecosystems and by halophilic algae. We cultivated Picocystis str. ML on an inorganic seawater-based medium with either low (37 µM) or high (1,000 µM) phosphate in the presence of arsenite (~0.4 mM), arsenate (~0.8 mM), or without arsenic additions.
## Contacts
Point of Contact
:
[Jodi S Blum](/catalog/catalogParty/show?partyId=916)
Originator
:
[Jodi S Blum](/catalog/catalogParty/show?partyId=916),
[Ronald A Glabonjat](/catalog/catalogParty/show?partyId=Ronald+A+Glabonjat),
[Laurence G Miller](/catalog/catalogParty/show?partyId=7020),
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| Picocystis Metadata.xml<br>_Original FGDC Metadata_ | View | 54.92 KB | application/fgdc+xml |
| Arsenic species.csv | | 6.26 KB | text/csv |
| Figure 3 Picocystis growth.csv | | 1.87 KB | text/csv |
| Figure S2 Picocystis growth.csv | | 1.17 KB | text/csv |
| Arsenolipids and growth of Picocystis .xlsx | | 42.91 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
## Related External Resources
Type: Related Primary Publication
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| --- | --- |
| Glabonjat, R.A.; Blum, J.S.; Miller, L.G.; Webb, S.M.; Stolz, J.F.; Francesconi, K.A.; Oremland, R.S. Arsenolipids in Cultured Picocystis Strain ML and Their Occurrence in Biota and Sediment from Mono Lake, California. Life 2020, 10, 93 | [https://doi.org/10.3390/life10060093](https://doi.org/10.3390/life10060093 "https://doi.org/10.3390/life10060093") |
## Purpose
These data were collected to understand the biological uptake of inorganic arsenic from Mono Lake into different biological fractions in both the water column and sediment. An in-depth study of Picocystis strain ML under different phosphate and inorganic arsenic levels resulted in arsenic ending up primarily into the lipid or water soluble fraction depending on experimental conditions.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Jodi S. Blum</origin>\n <origin>Ronald A. Glabonjat</origin>\n <origin>Laurence G. Miller</origin>\n <origin>Samuel M. Webb</origin>\n <origin>John F. Stolz</origin>\n <origin>Kevin A. Francesconi</origin>\n <origin>Ronald S. Oremland</origin>\n <origin>Shaun M. Baesman</origin>\n <pubdate>20200611</pubdate>\n <title>Growth of cultured Picocystis strain ML in the presence of arsenic, and occurrence of arsenolipids in these Picocystis as well as biota and sediment from Mono Lake, California</title>\n <geoform>spreadsheet</geoform>\n <onlink>https://doi.org/10.5066/P90VW2FP</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Ronald A. Glabonjat</origin>\n <origin>Jodi S. Blum</origin>\n <origin>Laurence G. Miller</origin>\n <origin>Samuel M. Webb</origin>\n <origin>John F. Stolz</origin>\n <origin>Kevin A. Francesconi</origin>\n <origin>Ronald S. Oremland</origin>\n <pubdate>20200624</pubdate>\n <title>Arsenolipids in Cultured Picocystis Strain ML and Their Occurrence in Biota and Sediment from Mono Lake, California</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Life</sername>\n <issue>vol. 10, issue 6</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>MDPI AG</publish>\n </pubinfo>\n <othercit>ppg. 93</othercit>\n <onlink>https://doi.org/10.3390/life10060093</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Mono Lake is a hypersaline soda lake rich in dissolved inorganic arsenic with its primary production currently dominated by <i>Picocystis</i> str. ML. We set out to determine if this picoplankter could metabolize inorganic arsenic, and in doing so form unusual arsenolipids (e.g., methylated arsinoyl ribosides) as reported in other saline ecosystems and by halophilic algae. We cultivated Picocystis str. ML on an inorganic seawater-based medium with either low (37 \xc2\xb5M) or high (1,000 \xc2\xb5M) phosphate in the presence of arsenite (~0.4 mM), arsenate (~0.8 mM), or without arsenic additions.</abstract>\n <purpose>These data were collected to understand the biological uptake of inorganic arsenic from Mono Lake into different biological fractions in both the water column and sediment. An in-depth study of <i>Picocystis</i> strain ML under different phosphate and inorganic arsenic levels resulted in arsenic ending up primarily into the lipid or water soluble fraction depending on experimental conditions.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2020</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-119.1498</westbc>\n <eastbc>-118.9081</eastbc>\n <northbc>38.0743</northbc>\n <southbc>37.9409</southbc>\n </bounding>\n <descgeog>Station 6, Mono Lake, CA</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>arsenolipids</themekey>\n <themekey>Picocystis</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>arsenic</themekey>\n <themekey>plankton</themekey>\n <themekey>cell biology</themekey>\n <themekey>geochemistry</themekey>\n <themekey>microbiology</themekey>\n <themekey>biochemistry</themekey>\n <themekey>chromatography</themekey>\n <themekey>liquid chromatography</themekey>\n <themekey>mass spectroscopy</themekey>\n <themekey>biogeochemical cycling</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5e94c7ab82ce172707f035f2</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Mono Lake</placekey>\n </place>\n </keywords>\n <accconst>None. Please see \'Distribution Info\' for details.</accconst>\n <useconst>None. Users are advised to read the dataset\'s metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Jodi S Blum</cntper>\n <cntorg>U.S. Geological Survey, WATER</cntorg>\n </cntperp>\n <cntpos>Supervisory Physical Scientist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 480, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4425</cntvoice>\n <cntfax>650-329-4463</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <taxonomy>\n <keywtax>\n <taxonkt>None</taxonkt>\n <taxonkey>Artemia monica</taxonkey>\n <taxonkey>Picocystis salinarum</taxonkey>\n </keywtax>\n <taxoncl>\n <taxonrn>Domain</taxonrn>\n <taxonrv>Eukaryota</taxonrv>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Ecdysozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Arthropoda</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Crustacea</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Branchiopoda</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anostraca</taxonrv>\n <taxoncl>\n <taxonrn>Suborder</taxonrn>\n <taxonrv>Artemiina</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Artemiidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Artemia</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Artemia monica</taxonrv>\n <common>TSN: 624024</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Viridiplantae</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Chlorophyta</taxonrv>\n <common>Picocystis salinarum</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted\nLineage:</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Environmental samples were collected at station 6 (lat 37.957, long 119.032) on Mono Lake, CA. A plankton net tow (80\xc2\xb5m mesh) taken at 0.5 m depth for Artemia. Discrete water samples were collected at 12, 17, and 20 m depth using a 4-L Niskin closing bottle. Screened water samples (10\xc2\xb5m Nitex filter) were collected for the plankton samples. Sediment samples were taken by a bottom grab and sub-sampled in 25 mm segments in duplicate. All samples were frozen in dry ice on site.</procdesc>\n <procdate>201810</procdate>\n </procstep>\n <procstep>\n <procdesc>Picocystis sp. was cultured on Bigelow L1 seawater-based medium minus Na2SiO3 in 500 mL conical flasks either by placing flasks on a window shelf (ambient light) or atop a lab bench with indirect ambient light from an outside window at room temperature (~ 20 degree C). For the experiments, growth was on one of two phosphate regimens: either kept at the L1 recipe concentration (37 \xc2\xb5M) or augmented with 1.0 mM KH2PO4. Experimental variables for both phosphate conditions were the incubation of cells in medium without any arsenic addition, or augmented with sodium arsenate (~0.8 mM), or sodium arsenite (~0.4 mM).</procdesc>\n <procdate>2019</procdate>\n </procstep>\n <procstep>\n <procdesc>Arsenic oxyanion concentrations were determined by HPLC in subsamples taken over the course of the 50-60 days incubations and growth was followed on subsamples by optical density (A680).</procdesc>\n <procdate>2019</procdate>\n </procstep>\n <procstep>\n <procdesc>Extractions of arsenic species were conducted in duplicate after freeze drying the sample and making into a homogenized powder in the following order:\n1) Lipid-soluble arsenicals- extracted with pyridine and analyzed by reverse phase- high performance liquid chromatography coupled to a inductively coupled plasma mass spectrometer (RP-HPLC ICPMS) followed by by electro spray ionization mass sprectromether (ESMS)\n2) aqueous arsenic phase- extracted with 20 mM ammonium bicarbonate or 20 mM ammonium bicarbonate plus DCM for polar water-soluble arsenicals and analyzed by HPLC-ICPMS\n3) "recalcitrant arsenic"- triflouroacetate (TFA)- based extraction followed by HPLC-ICPMS</procdesc>\n <procdate>2019</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Figure 3 Picocystis growth.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.\nGrowth of Picocystis strain ML concurrent with As speciation and concentration in high and low phosphate media with and without added arsenate or arsenite.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Treatment</attrlabl>\n <attrdef>Arsenic levels during growth of Picocystis strain ML</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>no added arsenic</edomv>\n <edomvd>Picocystis strain ML grown without arsenic added to the growth medium</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>added arsenate</edomv>\n <edomvd>Picocystis strain ML grown with approximately 0.8mM arsenate added to the growth medium</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>added arsenite</edomv>\n <edomvd>Picocystis strain ML grown with approximately 0.4 mM arsenite added to the growth medium</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO4 level</attrlabl>\n <attrdef>Phosphate level of the growth medium</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>High</edomv>\n <edomvd>1.0mM KH2PO4 in growth medium of Picocystis strain ML</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Low</edomv>\n <edomvd>37 \xc2\xb5M KH2PO4 in the growth medium of Picocystis strain ML</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>time since the start of the growth curve in days</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>63</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>O.D.680</attrlabl>\n <attrdef>optical density of the cells at 680nm wavelength</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0</rdommin>\n <rdommax>0.19</rdommax>\n <attrunit>absorbance (nanometers)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenate (\xc2\xb5mol/L)</attrlabl>\n <attrdef>measured arsenate in micromoles per liter (\xc2\xb5mol/L)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>data is below detection</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>49</rdommin>\n <rdommax>942</rdommax>\n <attrunit>micromoles per liter (\xc2\xb5mol/L)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenate_QA</attrlabl>\n <attrdef>arsenate quality assurance</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ND</edomv>\n <edomvd>not determined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv><MDL</edomv>\n <edomvd>sample is below method detection limit</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>no QA flag</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>E,<RL</edomv>\n <edomvd>estimated value, sample is below the reporting limit</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenite (\xc2\xb5mol/L)</attrlabl>\n <attrdef>measured arsenite in micromoles per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>sample is below data detection</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>30</rdommin>\n <rdommax>114</rdommax>\n <attrunit>micromoles per liter (\xc2\xb5mol/L)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenite_QA</attrlabl>\n <attrdef>arsenite quality assurance</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ND</edomv>\n <edomvd>not determined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv><MDL</edomv>\n <edomvd>sample is below the method detection limit</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>E,<RL</edomv>\n <edomvd>estimated value, sample is below the reporting limit</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>no QA flag</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Arsenic species.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data. Detailed quantitative results for figures 5, 7 S3, S4, and S5.\nArsenolipids extracted in 3 fractions from Picocystis strain LM culture isolated from Mono Lake at Bigelow Labs National Center for Marine Algae and Microbiota and transferred to the USGS and then grown with and without arsenate and arsenite at high and low phosphate levels, Artemia, Plankton and sediment from Mono Lake, CA.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>AsSpecies</attrlabl>\n <attrdef>Abbreviated arsenic species name with the molecular formula listed for each species and description listed for each</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Isop408</edomv>\n <edomvd>C18H37AsO5, isoprenoidic 2-O-methoxy arsenosugar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Isop422</edomv>\n <edomvd>C19H39AsO5, isoprenoidic 2-O-methoxy arsenosugar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PL718</edomv>\n <edomvd>C29H56AsO13P, mono-acyl arsenosugar phospholipid</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PL720</edomv>\n <edomvd>C29H58AsO13, mono-acyl arsenosugar phospholipid</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HC332</edomv>\n <edomvd>C17H37AsO, arsenic-containing hydrocarbon</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HC360</edomv>\n <edomvd>C19H41AsO, arsenic-containing hydrocarbon</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Phytol</edomv>\n <edomvd>C28H55AsO5, isoprenoidic 2-O-methoxy arsenosugar</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PL978</edomv>\n <edomvd>C47H84AsO14P, di-acyl arsenosugar phospholipid</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PL980</edomv>\n <edomvd>C47H86AsO14P, di-acyl arsenosugar phospholipid</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PL982 + PL958</edomv>\n <edomvd>C47H88AsO14P + C45H88AsO14P, di-acyl arsenosugar phospholipids</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PL984 + PL986</edomv>\n <edomvd>C47H90AsO14P + C47H92AsO14P, di-acyl arsenosugar phospholipids</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PL1014</edomv>\n <edomvd>C49H96AsO14P, di-acyl arsenosugar phospholipid</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>As(V)</edomv>\n <edomvd>AsO4^3-, arsenate</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>percent of As(V) from TFA-extract</edomv>\n <edomvd>percent As(V) from the trifluoroacetate (TFA)- based extraction</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>MA</edomv>\n <edomvd>CH5AsO3, methylated As species</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DMA (+DMAA)</edomv>\n <edomvd>C2H7AsO2 (+C4H9AsO3), dimethylarsinic acid (DMA), dimethylarsinoylacetic acid (DMAA)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>percent of DMA from TFA-extract</edomv>\n <edomvd>percent DMA reported from the trifluoroacetate (TFA )-based extraction</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TMAO</edomv>\n <edomvd>C3H9AsO, trimethylarsine oxide (TMAO)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>AB</edomv>\n <edomvd>C5H12AsO2, arsenobetaines</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C2-AB</edomv>\n <edomvd>C6H14AsO2, C2-arsenobetaines [or: (2-Carboxyethyl)(trimethyl)arsonium]</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>AsRib + dehydroxy-AsRib</edomv>\n <edomvd>C7H15AsO5 + C7H13AsO4,\tarsenosugars</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>AsSugGly</edomv>\n <edomvd>C10H21AsO7, arsenosugars</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>AsSugPO4</edomv>\n <edomvd>C13H28AsO12P, arsenosugars</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>AsSugSO3</edomv>\n <edomvd>C10H21AsO9S, arsenosugars</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>AsSugSO4</edomv>\n <edomvd>C10H21AsO10S, arsenosugars</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>recalcitrant As</edomv>\n <edomvd>non-extractable arsenic, arsenic from microwave-assisted acid digestion</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenic Extraction fraction</attrlabl>\n <attrdef>Arsenic fractions were extracted in 3 groups; lipid-soluble arsenical, water- soluble aqueous arsenic phase, trifluoroacetate (TFA )- based extraction</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>lipid-soluble arsenical</edomv>\n <edomvd>extracted in the lipid-soluble arsenic fraction</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>water- soluble aqueous arsenic phase</edomv>\n <edomvd>extracted in the water- soluble aqueous arsenic fraction</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>trifluoroacetate (TFA )- based extraction</edomv>\n <edomvd>non-extractable arsenic, extracted by microwave-assisted acid digestion</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Blank</attrlabl>\n <attrdef>An empty tube served as a blank for each procedure (total n = 6, with n = 3 for each of the two procedures used). All values listed are below the limit of detection</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>-</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>< 0.01</rdommin>\n <rdommax>< 0.1</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Picocystis strain ML control</attrlabl>\n <attrdef>Picocystis strain ML grown without added arsenic, at 37 \xc2\xb5M KH2PO4, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>-</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>< 0.01</rdommin>\n <rdommax>2.8</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Picocystis st. ML control stddev</attrlabl>\n <attrdef>Picocystis strain ML control standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.2</rdommin>\n <rdommax>0.30</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Picocystis st. ML +As(III)</attrlabl>\n <attrdef>Picocystis strain ML grown with 0.4 mM arsenite added, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>< 0.01</rdommin>\n <rdommax>2210</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Picocystis st. ML +As(III) stddev</attrlabl>\n <attrdef>Picocystis strain ML grown with arsenite standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>80</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Picocystis st. ML +As(V)</attrlabl>\n <attrdef>Picocystis strain ML grown with 0.8 mM arsenate added, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>126500</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Picocystis st. ML +As(V) stddev</attrlabl>\n <attrdef>Picocystis strain ML grown with arsenate standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.03</rdommin>\n <rdommax>1700</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>high PO4 Picocystis st. ML control</attrlabl>\n <attrdef>Picocystis grown with 1.0 mM KH2PO4 in medium, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>-</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>3.2</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>high PO4 Picocystis st. ML control stddev</attrlabl>\n <attrdef>Picocystis strain ML high phosphate control standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.1</rdommin>\n <rdommax>0.80</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>high PO4 Picocystis st. ML + As(III)</attrlabl>\n <attrdef>Picocystis grown with 1.0 mM KH2PO4 in medium with 0.4 mM arsenite added, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>629</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>high PO4 Picocystis st. ML + As(III) stddev</attrlabl>\n <attrdef>Picocystis strain ML grown with 1mM phosphate and 0.4mM arsenite standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>46.00</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>high PO4 Picocystis st. ML + As(V)</attrlabl>\n <attrdef>Picocystis grown with 1.0 mM KH2PO4 in medium with 0.8mM arsenate added, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent, value for "DMA (+DMAA)" is a possible outlier</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>-</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>10600</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>high PO4 Picocystis st. ML + As(V)</attrlabl>\n <attrdef>Picocystis strain ML grown with 1mM phosphate and 0.8mM arsenate standard deviation (calculated with Excel\'s "=STDEV" function, n=2), value for "DMA (+DMAA)" is a possible outlier</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.02</rdommin>\n <rdommax>220</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Artemia</attrlabl>\n <attrdef>Artemia monica (brine shrimp) collected by zooplankton net tow, 80 \xc2\xb5m mesh, at 0.5 m depth, Station 6, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.002</rdommin>\n <rdommax>111</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Artemia stddev</attrlabl>\n <attrdef>Artemia monica standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>5</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plankton 12m</attrlabl>\n <attrdef>Mono Lake plankton (< 10\xc2\xb5m size) at 12 m depth, water sampled by 4-L Niskin closing bottle and then filtered through a 10 \xc2\xb5m Nitex screen into a 2 L Nalgene sample bottle, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent, (+) = some of this As might come from remaining lake water</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.02</rdommin>\n <rdommax>300</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plankton 12m stddev</attrlabl>\n <attrdef>Mono Lake plankton (< 10\xc2\xb5m size) at 12 m depth standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>15</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plankton 17m</attrlabl>\n <attrdef>Mono Lake plankton (< 10\xc2\xb5m size) at 17 m depth, water sampled by 4-L Niskin closing bottle and then filtered through a 10 \xc2\xb5m Nitex screen into a 2 L Nalgene sample bottle, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.02</rdommin>\n <rdommax>475</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plankton 17m stddev</attrlabl>\n <attrdef>Mono Lake plankton (< 10\xc2\xb5m size) at 17 m depth standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.002</rdommin>\n <rdommax>20</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plankton 20m</attrlabl>\n <attrdef>Mono Lake plankton (< 10 \xc2\xb5m size) at 20 m depth, water sampled by 4-L Niskin closing bottle and then filtered through a 10 \xc2\xb5m Nitex screen into a 2 L Nalgene sample bottle, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.02</rdommin>\n <rdommax>376</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plankton 20m stddev</attrlabl>\n <attrdef>Mono Lake plankton (< 10 \xc2\xb5m size) at 20 m depth standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.03</rdommin>\n <rdommax>51.0</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sediment 0-25mm</attrlabl>\n <attrdef>Mono Lake Sediment 0-25 mm depth, taken from station 6 by sediment grab, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0005</rdommin>\n <rdommax>37.6</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sediment 0-25mm stddev</attrlabl>\n <attrdef>Mono Lake Sediment 0-25 mm depth standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>3.9</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sediment 25-50mm</attrlabl>\n <attrdef>Mono Lake Sediment 25-50 mm depth, taken from station 6 by sediment grab, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0005</rdommin>\n <rdommax>48.8</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sediment 25-50mm stddev</attrlabl>\n <attrdef>Mono Lake Sediment 25-50 mm depth standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>4.30</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sediment 50-75mm</attrlabl>\n <attrdef>Mono Lake Sediment 50-75 mm depth, taken from station 6 by sediment grab, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0005</rdommin>\n <rdommax>56.7</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sediment 50-75mm stddev</attrlabl>\n <attrdef>Mono Lake Sediment 50-75 mm depth standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>3.90</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sediment 75-100mm</attrlabl>\n <attrdef>Mono Lake Sediment 75-100 mm depth, taken from station 6 by sediment grab, values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0005</rdommin>\n <rdommax>54.4</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sediment 75-100mm stddev</attrlabl>\n <attrdef>Mono Lake Sediment 75-100 mm depth standard deviation (calculated with Excel\'s "=STDEV" function, n=2)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>9.5</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NMIJ 7405-a CRM (Hijiki)</attrlabl>\n <attrdef>Trace elements and arsenic compound certified reference material Hijiki Seaweed from the National Metrology Institute of Japan (NMIJ), values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1</rdommin>\n <rdommax>9.4</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NMIJ 7405-a CRM (Hijiki) stddev</attrlabl>\n <attrdef>NMIJ 7405-a CRM (Hijiki) standard deviation (calculated with Excel\'s "=STDEV" function, n=7), certified iAs = 10.1 \xc2\xb1 0.5; certified total As = 35.8 \xc2\xb1 0.9</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>1.70</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D. tertiolecta (Graz)</attrlabl>\n <attrdef>Dunaliella tertiolecta, Institute of Chemistry, NAWI Graz, University of Graz, Austria., values below the limit of detection are listed with "<", arsenic species are listed in micromoles arsenic per gram dry mass, percent of the fraction are in percent</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1</rdommin>\n <rdommax>11.23</rdommax>\n <attrunit>micromoles arsenic per gram dry mass or percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>D. tertiolecta (Graz) stddev</attrlabl>\n <attrdef>Dunaliella tertiolecta standard deviation (calculated with Excel\'s "=STDEV" function, n=4)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>0.03</rdommin>\n <rdommax>1.87</rdommax>\n <attrunit>micromoles arsenic per gram dry mass</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Figure S2 Picocystis growth.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.\nReplicate growth curves of Picocystis strain ML (figure S2) with 37micromolar phosphate media with and without added arsenate or arsenite.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Figure S2 panel letter</attrlabl>\n <attrdef>This column describes the panel letter in the corresponding paper to this data set in supplementary figure 2</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>A</edomv>\n <edomvd>data that corresponds to panel "A"</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B</edomv>\n <edomvd>data that corresponds to panel "B"</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>data that corresponds to panel "C"</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D</edomv>\n <edomvd>data that corresponds to panel "D"</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>E</edomv>\n <edomvd>data that corresponds to panel "E"</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Treatment</attrlabl>\n <attrdef>Arsenic levels during growth of Picocystis strain ML</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>no arsenic</edomv>\n <edomvd>Picocystis strain ML grown without arsenic added to the growth medium</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>added arsenite</edomv>\n <edomvd>Picocystis strain ML grown with approximately 0.4 mM arsenite added to the growth medium</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>added arsenate</edomv>\n <edomvd>Picocystis strain ML grown with approximately 0.8mM arsenate added to the growth medium</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>time since the start of the growth curve in days</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0</rdommin>\n <rdommax>150.0</rdommax>\n <attrunit>days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>O.D.680</attrlabl>\n <attrdef>optical density of the cells at 680nm wavelength</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>0.416</rdommax>\n <attrunit>absorbance (nanometers)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenate (\xc2\xb5mol/L)</attrlabl>\n <attrdef>measured arsenate in micromoles per liter (\xc2\xb5mol/L)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv><MDL, ND</edomv>\n <edomvd><MDL: value was below the method detection limit, ND: not determined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>55</rdommin>\n <rdommax>958</rdommax>\n <attrunit>micromoles per liter (\xc2\xb5mol/L)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenite (\xc2\xb5mol/L)</attrlabl>\n <attrdef>measured arsenite in micromoles per liter</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv><MDL, ND</edomv>\n <edomvd><MDL: value was below the method detection limit, ND: not determined</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>76</rdommin>\n <rdommax>332</rdommax>\n <attrunit>micromoles per liter (\xc2\xb5mol/L)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>Three comma-separated value files (.csv) and one Excel file called Arsenolipids and growth of Picocystis.xlsx that contains all three .csv files along with data dictionaries for each table are included in this data release. Arsenolipids extracted from cultured Picocystis strain ML, plankton, Artemia, and sediment from Mono Lake, CA are presented as a table in Arsenic Species.csv.\nOptical densities, arsenite, and arsenate values taken during growth of Picocystis strain ML are presented as a table that support figure 3 and S2 in figure 3 Picocystis growth.csv and figure S2 Picocystis growth.csv.</eaover>\n <eadetcit>Data to support: Ronald A. Glabonjat, Jodi S. Blum, Laurence G. Miller, Samuel M. Webb, John F. Stolz, Kevin A. Francesconi, and Ronald S. Oremland "Arsenolipids in cultured Picocystis strain ML, and their occurrence in biota and sediment from Mono Lake, California." figures 3, 5, 7, S2, S3, S4, and S5.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/xxxxxxxx</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200817</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Shaun Baesman</cntper>\n <cntorg>U.S. Geological Survey, WATER</cntorg>\n </cntperp>\n <cntpos>Microbiologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 480, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>650-329-4459</cntvoice>\n <cntfax>650-329-4463</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Start Date2006-07-17End Date2009-07-21Publication Date2020-06-25
## Citation
Galbraith, H.S., Cole, J.C., Campbell, C.A., and Lellis, W.A., 2020, Neversink River freshwater mussel surveys: 2006-2009: U.S. Geological Survey data release, https://doi.org/10.5066/P9EFJDPX.
## Summary
Data are included for two types of field surveys conducted for freshwater mussels within the Neversink River in the Mid-Atlantic region of the United States. Timed search (qualitative) surveys were conducted in consecutive ~200 meter sections of river in 2006 and 2007; a subset of these sections were re-surveyed qualitatively in 2009. The number of mussels of each species and associated search time were recorded for each survey section to determine a catch per unit effort (CPUE; number of individuals found per person hour). Within the 2009 qualitatively surveyed areas, ten ~200 meter sections of stream were selected in which to conduct quantitative surveys to estimate mussel abundance. Quantitative survey methods follow those explained \[...\]
## Summary
Data are included for two types of field surveys conducted for freshwater mussels within the Neversink River in the Mid-Atlantic region of the United States. Timed search (qualitative) surveys were conducted in consecutive ~200 meter sections of river in 2006 and 2007; a subset of these sections were re-surveyed qualitatively in 2009. The number of mussels of each species and associated search time were recorded for each survey section to determine a catch per unit effort (CPUE; number of individuals found per person hour). Within the 2009 qualitatively surveyed areas, ten ~200 meter sections of stream were selected in which to conduct quantitative surveys to estimate mussel abundance. Quantitative survey methods follow those explained in Galbraith et al. 2016. Briefly, an imaginary grid was superimposed over each section of river, consisting of a varying number of columns and rows (depending on river width and section length). The intersection of each column a row defined a cell within the survey area. Within each cell, 4 individual random starts (quadrats) were surveyed.
## Contacts
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[Heather S Galbraith](/catalog/catalogParty/show?partyId=19689)
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[Heather S Galbraith](/catalog/catalogParty/show?partyId=19689)
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[William A Lellis](/catalog/catalogParty/show?partyId=6025)
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| Neversink\_quantitative\_survey\_data.csv | | 151.72 KB | text/csv |
## Purpose
The data were collected as part of a survey and status assessment of freshwater mussels throughout the Delaware River Basin, including the Neversink River.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Galbraith, Heather S.</origin>\n <origin>Cole, Jeffrey C.</origin>\n <origin>Campbell, Cara A.</origin>\n <origin>Lellis, William A.</origin>\n <pubdate>20200625</pubdate>\n <title>Neversink River freshwater mussel surveys: 2006-2009</title>\n <geoform>csv files</geoform>\n <pubinfo>\n <pubplace>Wellsboro, PA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9EFJDPX</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Galbraith, Heather S.</origin>\n <origin>Lellis, William A.</origin>\n <origin>Cole, Jeffrey C.</origin>\n <origin>Blakeslee, Carrie J.</origin>\n <origin>St. John White, Barbara</origin>\n <pubdate>2016</pubdate>\n <title>Population demographics for the Federally Endangered Dwarf Wedgemussel</title>\n <geoform>manuscript</geoform>\n <pubinfo>\n <pubplace>Journal of Fish and Wildlife Management</pubplace>\n <publish>U.S. Fish and Wildlife Service</publish>\n </pubinfo>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Data are included for two types of field surveys conducted for freshwater mussels within the Neversink River in the Mid-Atlantic region of the United States. Timed search (qualitative) surveys were conducted in consecutive ~200 meter sections of river in 2006 and 2007; a subset of these sections were re-surveyed qualitatively in 2009. The number of mussels of each species and associated search time were recorded for each survey section to determine a catch per unit effort (CPUE; number of individuals found per person hour). Within the 2009 qualitatively surveyed areas, ten ~200 meter sections of stream were selected in which to conduct quantitative surveys to estimate mussel abundance. Quantitative survey methods follow those explained in Galbraith et al. 2016. Briefly, an imaginary grid was superimposed over each section of river, consisting of a varying number of columns and rows (depending on river width and section length). The intersection of each column a row defined a cell within the survey area. Within each cell, 4 individual random starts (quadrats) were surveyed.</abstract>\n <purpose>The data were collected as part of a survey and status assessment of freshwater mussels throughout the Delaware River Basin, including the Neversink River</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2006</begdate>\n <enddate>2009</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-74.7498</westbc>\n <eastbc>-74.567126</eastbc>\n <northbc>41.661634</northbc>\n <southbc>41.30885</southbc>\n </bounding>\n <descgeog>Neversink River, NY</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>mollusks</themekey>\n <themekey>animal and plant census</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5ef38da082ced62aaae3ef07</themekey>\n </theme>\n <place>\n <placekt>Neversink River</placekt>\n <placekey>Orange County</placekey>\n <placekey>Sullivan County</placekey>\n <placekey>Ulster County</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Heather S. Galbraith</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Fish Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>176 Straight Run Road</address>\n <city>Wellsboro</city>\n <state>PA</state>\n <postal>16901</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>570-724-3322 x230</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>U.S. Fish and Wildlife Service provided partial funding for these surveys</datacred>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Bivalves</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2020</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>James D.Williams, Arthur E. Bogan, Robert S. Butler, Kevin S.Cummings, Jeffrey T. Garner, John L. Harris, Nathan A. Johnson, and G. Thomas Watters</origin>\n <pubdate>2017</pubdate>\n <title>A REVISED LIST OF THE FRESHWATER MUSSELS (MOLLUSCA: BIVALVIA: UNIONIDA) OF THE UNITED STATES AND CANADA</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Unknown</pubplace>\n <publish>Freshwater Mollusk Conservation Society</publish>\n </pubinfo>\n <onlink>https://molluskconservation.org/PUBLICATIONS/FMBC/FMBC_Vol20/20-2-articles/20-2-33-58-Williams%20et%20al-frmc.pdf</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <idref>\n <citeinfo>\n <origin>David L. Strayer and Kurt J. Jirka</origin>\n <pubdate>1997</pubdate>\n <title>The Pearly Mussels of New York State</title>\n <geoform>csv files</geoform>\n <pubinfo>\n <pubplace>Albany, NY</pubplace>\n <publish>New York State Museum</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Heather S Galbraith</cntper>\n <cntorg>Northeast Region: NORTH APPALACHIAN RES LAB</cntorg>\n </cntperp>\n <cntpos>RESEARCH FISH BIOLOGIST</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>176 Straight Run Rd</address>\n <city>Wellsboro</city>\n <state>PA</state>\n <postal>16901</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>570-724-3322 x230</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Jeffrey C Cole</cntper>\n <cntorg>Northeast Region: NORTH APPALACHIAN RES LAB</cntorg>\n </cntperp>\n <cntpos>ECOLOGIST</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>176 Straight Run Rd</address>\n <city>Wellsboro</city>\n <state>PA</state>\n <postal>16901</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>570-724-3322 x238</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>William A Lellis</cntper>\n <cntorg>ECOSYSTEMS: AS. DIR. FOR ECOSYSTEMS-SENIOR STAFF</cntorg>\n </cntperp>\n <cntpos>EMERITUS, Former Deputy Assoc. Director</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 300, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>703-648-4061</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>expert advice;;identification keys</taxonpro>\n <taxoncom>We defined species according to current taxonomy using characteristics described in Strayer and Jirka (1999), and through consultation with expert regional malacologists.</taxoncom>\n </taxonsys>\n <taxongen>All freshwater mussels were identified to the level of species in the data.</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Lophozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Mollusca</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bivalvia</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Palaeoheterodonta</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Unionoida</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Unionoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Unionidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Unioninae</taxonrv>\n <taxoncl>\n <taxonrn>Tribe</taxonrn>\n <taxonrv>Alasmidontini</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Alasmidonta</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Alasmidonta heterodon</taxonrv>\n <common>dwarf wedge mussel</common>\n <common>dwarf wedgemussel</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Lophozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Mollusca</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bivalvia</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Palaeoheterodonta</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Unionoida</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Unionoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Unionidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Unioninae</taxonrv>\n <taxoncl>\n <taxonrn>Tribe</taxonrn>\n <taxonrv>Alasmidontini</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Alasmidonta</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Alasmidonta undulata</taxonrv>\n <common>triangle floater</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Lophozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Mollusca</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bivalvia</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Palaeoheterodonta</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Unionoida</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Unionoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Unionidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Unioninae</taxonrv>\n <taxoncl>\n <taxonrn>Tribe</taxonrn>\n <taxonrv>Alasmidontini</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Alasmidonta</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Alasmidonta varicosa</taxonrv>\n <common>brook floater</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Lophozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Mollusca</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bivalvia</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Palaeoheterodonta</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Unionoida</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Unionoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Unionidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Ambleminae</taxonrv>\n <taxoncl>\n <taxonrn>Tribe</taxonrn>\n <taxonrv>Pleurobemini</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Elliptio</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Elliptio complanata</taxonrv>\n <common>eastern elliptio</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Lophozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Mollusca</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bivalvia</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Palaeoheterodonta</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Unionoida</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Unionoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Unionidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Unioninae</taxonrv>\n <taxoncl>\n <taxonrn>Tribe</taxonrn>\n <taxonrv>Alasmidontini</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Strophitus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Strophitus undulatus</taxonrv>\n <common>squawfoot</common>\n <common>creeper</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Lophozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Mollusca</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bivalvia</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Palaeoheterodonta</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Unionoida</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Unionoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Unionidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Anodontinae</taxonrv>\n <taxoncl>\n <taxonrn>Tribe</taxonrn>\n <taxonrv>Anodontini</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Utterbackiana</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>implicata</taxonrv>\n <common>Alewife floater</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>Data values fall within the expected range and have been checked for duplicated or omitted data. Data were mapped to confirm geospatial integrity.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>U.S. Geological Survey</origin>\n <pubdate>2018</pubdate>\n <title>USGS National Hydrography Dataset Plus High Resolution (NHDPlus HR) for 4-digit Hydrologic Unit 0204</title>\n <geoform>vector and raster digital data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://prd-tnm.s3-website-us-west-2.amazonaws.com/?prefix=StagedProducts/Hydrography/NHD/HU4/HighResolution/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>geospatial dataset</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20190101</begdate>\n <enddate>20200422</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>NHDPlus HR</srccitea>\n <srccontr>NHD hydrography dataset was used to quantify the length of each section of surveyed river</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Mussel data were collected on field data sheets and entered into digital spreadsheet format following field data collection.</procdesc>\n <procdate>2006</procdate>\n </procstep>\n <procstep>\n <procdesc>Mussel data were collected on field data sheets and entered into digital spreadsheet format following field data collection.</procdesc>\n <procdate>2007</procdate>\n </procstep>\n <procstep>\n <procdesc>Mussel data were collected on field data sheets and entered into digital spreadsheet format following field data collection.</procdesc>\n <procdate>2009</procdate>\n </procstep>\n <procstep>\n <procdesc>Data entry was quality checked by a set of 2 reviewers and errors were corrected and noted on field data sheets. Estimates of distance (e.g. section length) were originally made in the field and recorded on field data sheets. However, a standardized method for quantifying distance using GIS was employed after the fact to obtain a more accurate distance estimate. Briefly, the length of survey section was calculated using the "riverdist" package (Tyers 2017) in R (R Core Team 2013) and USGS and USEPA\'s National Hydrography Dataset Plus High Resolution (NHDPlus HR) except around islands and in braided channels where section length was manually measured using the "measure" tool in ArcMap 10.7.1 (ESRI, Redlands, CA).</procdesc>\n <procdate>2019</procdate>\n </procstep>\n <method>\n <methtype>Field</methtype>\n <methdesc>Qualitative freshwater mussel surveys were conducted using the methods described in Galbraith et al. (2016). In brief, stream reaches were divided into roughly 200 meter sections over which 1-6 surveyors (depending on stream width) visually searched the length of each section using masks and snorkels. The number of mussels of each species and associated search time were recorded for each survey section to determine a catch per unit effort (CPUE, number of mussels found per person hour). Within the qualitatively surveyed area, we selected ten 200 meter sections of stream in which to conduct quantitative surveys. A gradient of dwarf wedgemussel (Alasmidonta heterodon) abundance was used to select the sections to be quantitatively surveyed. We conducted quantitative surveys to estimate mussel abundance, assess presence of juvenile mussels, and quantify population demographics. Each quantitative survey site was sampled using 0.25 m2 quadrats deployed in a systematic random design with multiple random starts (Strayer and Smith 2003). A subset of quadrats were excavated to 10 cm or to hardpan, and excavated material was sifted through a 3 mm x 3 mm mesh screen in order to detect juvenile mussels. Counts of each species and individual length measurements of dwarf wedgemussel (and other rare species) were collected. Mussel density and abundance were calculated from quantitative mussel survey results using the Mussel Estimation Program v. 1.1.4 (developed by David R. Smith, USGS, Leetown Science Center, Kearneysville, WV).</methdesc>\n <methcite>\n <citeinfo>\n <origin>Galbraith, H.S. et al.</origin>\n <pubdate>2016</pubdate>\n <title>Population demographics for the federally endangered dwarf wedgemussel</title>\n <geoform>Journal article</geoform>\n <onlink>https://doi.org/10.3996/112014-jfwm-084</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Strayer, D.S. and Smith, D.R.</origin>\n <pubdate>2003</pubdate>\n <title>A guide to sampling freshwater mussel populations</title>\n <geoform>Book</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Cummins, K.W.</origin>\n <pubdate>1962</pubdate>\n <title>An evaluation of some techniques for the collection and analysis of benthic samples with special emphasis on lotic waters</title>\n <geoform>Journal article</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Tyers, M.</origin>\n <pubdate>2017</pubdate>\n <title>riverdist: River Network Distance Computation and Applications. R package version 0.15.0.</title>\n <geoform>R package</geoform>\n <onlink>https://CRAN.R-project.org/package=riverdist</onlink>\n </citeinfo>\n </methcite>\n </method>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>1.0E-8</latres>\n <longres>1.0E-8</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Neversink_qualitative_survey_data</enttypl>\n <enttypd>Qualitative freshwater mussel survey data for the Neversink River, NY</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Standard_section_ID</attrlabl>\n <attrdef>A numeric identifier for a section of river, approximating 200 meters in length, surveyed for freshwater mussels</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>210</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Survey_year</attrlabl>\n <attrdef>Year in which qualitative surveys were conducted</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2006</rdommin>\n <rdommax>2009</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Survey_date</attrlabl>\n <attrdef>The specific month, day, and year (MM/DD/YYYY) in which a section of river was qualitatively surveyed</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>07/17/2006</rdommin>\n <rdommax>07/21/2009</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude_N</attrlabl>\n <attrdef>Downstream bounding latitude (degrees north, oN) of surveyed river section (decimal degrees, geographic datum WGS1984)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.35493700</rdommin>\n <rdommax>41.61839200</rdommax>\n <attrunit>decimal degrees north</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude_W</attrlabl>\n <attrdef>Downstream bounding longitude (degrees west, oW) of surveyed river section (decimal degrees, geographic datum WGS1984)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-74.69726900</rdommin>\n <rdommax>-74.59319629</rdommax>\n <attrunit>decimal degrees west</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calc_length</attrlabl>\n <attrdef>Length of survey section calculated using the "riverdist" package (Tyers 2017) in R (R Core Team 2013) and USGS and USEPA\'s National Hydrography Dataset Plus High Resolution (NHDPlus HR) except around islands and in braided channels where section length was manually measured using the "measure" tool in ArcMap 10.7.1 (ESRI, Redlands, CA)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>943</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calc_riv_km</attrlabl>\n <attrdef>Calculated river kilometer: distance along the Neversink River, starting from the confluence of the Neversink and Delaware Rivers and increasing with upstream distance. Values were calculated using the "riverdist" package (Tyers 2017) in R (R Core Team 2013) and USGS and USEPA\'s National Hydrography Dataset Plus High Resolution (NHDPlus HR) except around islands and in braided channels where duplicate channel distance was manually measured using the "measure" tool in ArcMap 10.7.1 (ESRI, Redlands, CA).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>39.9</rdommax>\n <attrunit>km</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>-0.4</edomv>\n <edomvd>Negative values for river kilometer indicate distance in the Delaware River downstream of the Neversink River and Delaware River confluence</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Time_min</attrlabl>\n <attrdef>Total search time by all observers for a given section, in minutes</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>265</rdommax>\n <attrunit>minutes</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>No_ALHE</attrlabl>\n <attrdef>Total number of Alasmidonta heterodon counted in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>10</rdommax>\n <attrunit>individuals</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>No_ALUN</attrlabl>\n <attrdef>Total number of Alasmidonta undulata counted in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n <attrunit>individuals</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>No_ALVA</attrlabl>\n <attrdef>Total number of Alasmidonta varicosa counted in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>11</rdommax>\n <attrunit>individuals</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>No_UTIM</attrlabl>\n <attrdef>Total number of Utterbackiana implicata (formerly Anodonta implicata) counted in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>14</rdommax>\n <attrunit>individuals</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>No_ ELCO</attrlabl>\n <attrdef>Total number of Elliptio complanata counted in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1043</rdommax>\n <attrunit>individuals</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>No_STUN</attrlabl>\n <attrdef>Total number of Strophitus undulatus counted in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>17</rdommax>\n <attrunit>individuals</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Time_hr</attrlabl>\n <attrdef>Total search time by all observers for a given section, in hours</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3</rdommin>\n <rdommax>4.4</rdommax>\n <attrunit>hours</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ALHE_CPUE</attrlabl>\n <attrdef>Catch per unit effort (CPUE) of Alasmidonta heterodon, or total number of Alasmidonta heterodon counted per search hour in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>5.9</rdommax>\n <attrunit>individuals per search hour (CPUE)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ALUN_ CPUE</attrlabl>\n <attrdef>Catch per unit effort (CPUE) of Alasmidonta undulata, or total number of Alasmidonta undulata counted per search hour in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2</rdommax>\n <attrunit>individuals per search hour (CPUE)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ALVA_ CPUE</attrlabl>\n <attrdef>Catch per unit effort (CPUE) of Alasmidonta varicosa, or total number of Alasmidonta varicosa counted per search hour in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>6.6</rdommax>\n <attrunit>individuals per search hour (CPUE)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>UTIM_ CPUE</attrlabl>\n <attrdef>Catch per unit effort (CPUE) of Utterbackiana implicata (formerly Anodonta implicata), or total number of Utterbackiana implicata counted per search hour in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>7</rdommax>\n <attrunit>individuals per search hour (CPUE)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ELCO_ CPUE</attrlabl>\n <attrdef>Catch per unit effort (CPUE) of Elliptio complanata, or total number of Elliptio complanata counted per search hour in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>847.5</rdommax>\n <attrunit>individuals per search hour (CPUE)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>STUN_ CPUE</attrlabl>\n <attrdef>Catch per unit effort (CPUE) of Strophitus undulatus, or total number of Strophitus undulatus counted per search hour in a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>5.1</rdommax>\n <attrunit>individuals per search hour (CPUE)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SITE_NOTES</attrlabl>\n <attrdef>Relevant field notes describing location of survey section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A textual description of survey section location to assist in identifying its location; NA indicates no additional notes were collected for a given section</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Neversink_quantitative_survey_data</enttypl>\n <enttypd>Quantitative freshwater mussel survey data for the Neversink River, NY</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Section</attrlabl>\n <attrdef>A numeric identifier for a section of river, approximating 200 meters in length, surveyed for freshwater mussels. Section numbers correspond with the section ID\'s found in the "Neversink_qualitative_survey_data" file associated with this data release. In some instances, section numbers are not strictly numeric, but instead contain either an "A" or "B" modifier. This denotes a section in which the entire width of river was not surveyed, but instead separate sides of the river of the same section were surveyed.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric or alphanumeric section identification (see attribute definition)</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Column</attrlabl>\n <attrdef>A value indicating a particular column of a survey grid superimposed over a given section of river.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>7</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Row</attrlabl>\n <attrdef>A value indicating a particular row of a survey grid superimposed over a given section of river.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>26</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Quadrat</attrlabl>\n <attrdef>A value identifying each of the individual quadrats (or random starts) placed in a random pattern within each cell of the survey grid. See corresponding data release file "Neversink_quantitative_site_info" for information on cell size and quadrat position within a cell at each site.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>4</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Site_X</attrlabl>\n <attrdef>X coordinate of a quadrat location within each cell throughout the survey section, measured in meters from the origin of the survey grid across the width of the river. See corresponding data release file "Neversink_quantitative_site_info" for information on origin location at each site.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>29</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Site_Y</attrlabl>\n <attrdef>Y coordinate of a quadrat location within each cell throughout the survey section, measured in meters from the origin of the survey grid along the length of the river. See corresponding data release file "Neversink_quantitative_site_info" for information on origin location at each site.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>91</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Unit</attrlabl>\n <attrdef>Indicates if a mussel was found at the surface (Q), or beneath the surface (QB) when a quadrat was excavated to a depth of approximately 10 cm</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Q</edomv>\n <edomvd>Indicates if a mussel was found at the surface of the specified quadrat</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>QB</edomv>\n <edomvd>Indicates if a mussel was found below the surface of the specified quadrat when excavated to approximately 10 cm</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Species of mussel found within each quadrat. Blank cells (with no species information) indicate that no mussels were found in those quadrats and no additional habitat data (depth, substrate, vegetation) were collected.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>ALHE</edomv>\n <edomvd>Alasmidonta heterodon (dwarf wedgemussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ALUN</edomv>\n <edomvd>Alasmidonta undulata (triangle floater)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ALVA</edomv>\n <edomvd>Alasmidonta varicosa (brook floater)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ELCO</edomv>\n <edomvd>Elliptio complanata (eastern elliptio mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>STUN</edomv>\n <edomvd>Strophitus undulatus (creeper)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>UTIM</edomv>\n <edomvd>Utterbackiana implicata (alewife floater, previously classified as Anodonta implicata)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Length</attrlabl>\n <attrdef>Length of individual mussels, measured in millimeters at the longest point along the anterior to posterior axis of the animal</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>100</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NM</edomv>\n <edomvd>Indicates that the animal was not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Height</attrlabl>\n <attrdef>Height at the tallest point of an individual mussel, measured in millimeters from the ventral to dorsal side of the animal</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>27</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NM</edomv>\n <edomvd>Indicates that the animal was not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Width</attrlabl>\n <attrdef>Width at the widest point of an individual mussel, measured in millimeters laterally across the animal</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>16</rdommax>\n <attrunit>millimeters</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NM</edomv>\n <edomvd>Indicates that the animal was not measured</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sex</attrlabl>\n <attrdef>Sex (male or female) of each individual mussel if it could be determined from external shell morphology</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>M</edomv>\n <edomvd>Male</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>Female</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NM</edomv>\n <edomvd>Indicates that the sex of the animal was not quantified</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Depth</attrlabl>\n <attrdef>Quadrat depth, approximated in meters, generally only quantified in quadrats containing the Federally endangered dwarf wedgemussel, Alasmidonta heterodon (ALHE) or the rare brook floater, Alasmidonta varicosa (ALVA)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15</rdommin>\n <rdommax>1.30</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Substrate</attrlabl>\n <attrdef>Visual approximation of the predominant substrate type, or a combination of the two predominant substrate types if they were approximately equal (with each substrate type separated by a "/"), according to Cummins, 1962. Substrate type was generally only approximated in quadrats containing the Federally endangered dwarf wedgemussel, Alasmidonta heterodon (ALHE) or the rare brook floater, Alasmidonta varicosa (ALVA).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>SILT</edomv>\n <edomvd>Substrate measuring <0.063 mm</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>SAND</edomv>\n <edomvd>Substrate measuring 0.064-2 mm</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>GRAVEL</edomv>\n <edomvd>Substrate measuring 2-64 mm</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>COBBLE</edomv>\n <edomvd>Substrate measuring 65-256 mm</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>BOULDER</edomv>\n <edomvd>Substrate measuring >256 mm</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>BEDROCK</edomv>\n <edomvd>Solid rock at the river bottom</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Vegetation</attrlabl>\n <attrdef>Visual approximation of the percentage of a quadrat covered in rooted vegetation. Vegetation was generally only approximated in quadrats containing the Federally endangered dwarf wedgemussel, Alasmidonta heterodon (ALHE) or the rare brook floater, Alasmidonta varicosa (ALVA)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>65</rdommax>\n <attrunit>percent (%)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Neversink_quantitative_site_info</enttypl>\n <enttypd>Site information for each section surveyed during quantitative mussel surveys in the Neversink River, NY</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Section</attrlabl>\n <attrdef>A numeric identifier for a section of river, approximating 200 meters in length, surveyed for freshwater mussels. Section numbers correspond with the section ID\'s found in the "Neversink_qualitative_survey_data" and "Neversink_quantitative_survey_data" files associated with this data release. In some instances, section numbers are not strictly numeric, but instead contain either an "A" or "B" modifier. This denotes a section in which the entire width of river was not surveyed, but instead separate sides of the river of the same section were surveyed.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric or alphanumeric section identification (see attribute definition)</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Downstream_lat</attrlabl>\n <attrdef>Downstream latitude (degrees north, oN) coordinate in decimal degrees (geographic datum WGS1984) indicating the starting point (origin) for quantitative surveys; surveys were conducted in an upstream fashion from this point.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.412184</rdommin>\n <rdommax>41.449248</rdommax>\n <attrunit>decimal degrees north</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Downstream_long</attrlabl>\n <attrdef>Downstream longitude (degrees west, oW) coordinate in decimal degrees (geographic datum WGS1984) indicating the starting point (origin) for quantitative surveys; surveys were conducted in an upstream fashion from this point.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-74.625488</rdommin>\n <rdommax>-74.593196</rdommax>\n <attrunit>decimal degrees west</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The specific month, day, and year (MM/DD/YYYY) in which a quantitative survey began in a given section of river</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7/13/2009</rdommin>\n <rdommax>8/19/2009</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cell_size</attrlabl>\n <attrdef>Size of cells in meters (meters across x meters up) within a grid that was superimposed over each survey section in order to conduct quantitative surveys. Each cell contains 4 random starts (quadrat positions), that are central to the survey design.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3 x 3</rdommin>\n <rdommax>4.5 x 4.5</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Quadrat_position</attrlabl>\n <attrdef>Positions (x, y) of random starts (quadrats) in each cell in a given section, measured in meters from the origin of each cell. Each cell contained 4 random starts and the coordinates for each start are listed in order and separated by a semicolon: Start 1 x, y; Start 2 x, y; Start 3 x, y; Start 4 x, y. In one section (section 72), two different Start 1x values were used by two different surveyors.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>4</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Total_quad</attrlabl>\n <attrdef>Total number of quadrats surveyed within a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>60</rdommin>\n <rdommax>344</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Total_area</attrlabl>\n <attrdef>Total area (in meters squared) of quadrats surveyed within a given section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>135</rdommin>\n <rdommax>774</rdommax>\n <attrunit>meters squared</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Origin</attrlabl>\n <attrdef>Location of the origin of the superimposed grid or cells; quadrat positions were measured in meters from the origin towards the opposite river bank and working in an upstream direction from the origin</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Left bank descending</edomv>\n <edomvd>Location of the origin was located on the left bank of the river facing downstream (descending); surveys were completed in an upstream fashion from the origin</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Right bank descending</edomv>\n <edomvd>Location of the origin was located on the right bank of the river facing downstream (descending); surveys were completed in an upstream fashion from the origin</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Heather S Galbraith</cntper>\n <cntorg>Northeast Region: NORTH APPALACHIAN RES LAB</cntorg>\n </cntperp>\n <cntpos>RESEARCH FISH BIOLOGIST</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>176 Straight Run Rd</address>\n <city>Wellsboro</city>\n <state>PA</state>\n <postal>16901</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>570-724-3322 x230</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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4. [California Red-Legged Frogs in Point Reyes Coastal Dune Drainages (2015)](/catalog/item/588bea1fe4b0ad6732402ae6)
5. [Movement of California Red-Legged Frogs in Point Reyes Coastal Dune Drainages (2015)](/catalog/folder/588bf20de4b0ad6732402af2)
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## Dates
Publication Date2017-05-22Start Date2015-04-27End Date2015-09-24
## Citation
Halstead, B.J., and Kleeman, P.M., 2017, California Red-Legged Frogs in Point Reyes coastal dune drainages (2015): U.S. Geological Survey data release, https://doi.org/10.5066/F7RJ4GNS.
## Summary
These data provide information on the relationship between California red-legged frogs and their habitat in a unique ecosystem to better conserve this threatened species while restoring habitat for rare dune plants and animals.
## Summary
These data provide information on the relationship between California red-legged frogs and their habitat in a unique ecosystem to better conserve this threatened species while restoring habitat for rare dune plants and animals.
## Contacts
Originator
:
[Brian J Halstead](/catalog/catalogParty/show?partyId=4126),
[Patrick M Kleeman](/catalog/catalogParty/show?partyId=5541)
Metadata Contact
:
[Brian J Halstead](/catalog/catalogParty/show?partyId=4126)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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| Movement.xml<br>_Original FGDC Metadata_ | View | 14.84 KB | application/fgdc+xml |
| movement.csv | | 14.64 KB | text/csv |
## Purpose
The purpose of these data are to describe the movements by California red-legged frogs (Rana draytonii) inhabiting coastal dunes.
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## Communities
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## Tags
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- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
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- [amphibian](/catalog/items?q=&filter=tags%3Damphibian "amphibian (amphibian, Theme, None)")
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## Provenance
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Halstead, B.J.</origin>\n <origin>Kleeman, P.M.</origin>\n <pubdate>2017</pubdate>\n <title>Movement of California Red-Legged Frogs in Point Reyes coastal dune drainages (2015)</title>\n <geoform>Digital Attribute Table</geoform>\n <onlink>http://doi.org/10.5066/F7RJ4GNS</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Brian J Halstead</origin>\n <origin>Patrick M Keelman</origin>\n <pubdate>2017</pubdate>\n <title>Frogs on the beach: ecology of California red-legged frogs (Rana draytonii) in coastal dune drainages</title>\n <geoform>Publication</geoform>\n <serinfo>\n <sername>Volume 12</sername>\n <issue>Issue 1 (p 127 - 140)</issue>\n </serinfo>\n <pubinfo>\n <pubplace>United States</pubplace>\n <publish>Herpetological Conservation and Biology</publish>\n </pubinfo>\n <onlink>http://www.herpconbio.org/Volume_12/Issue_1/Halstead_Kleeman_2017.pdf</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>These data provide information on the relationship between California red-legged frogs and their habitat in a unique ecosystem to better conserve this threatened species while restoring habitat for rare dune plants and animals.</abstract>\n <purpose>The purpose of these data are to describe the movements by California red-legged frogs (Rana draytonii) inhabiting coastal dunes.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20150427</begdate>\n <enddate>20150924</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <descgeog>WGS 84</descgeog>\n <bounding>\n <westbc>-122.975412</westbc>\n <eastbc>-122.962572</eastbc>\n <northbc>38.095908</northbc>\n <southbc>38.065198</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>amphibian</themekey>\n <themekey>habitat selection</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:588bf20de4b0ad6732402af2</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>California</placekey>\n <placekey>Point Reyes National Seashore</placekey>\n <placekey>Marin County</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>The authors of these data require that users direct any questions pertaining to appropriate use or assistance with understanding limitations and interpretation of the data to the individuals/organization listed in the Point of Contact section.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S Geological Survey, PACIFIC REGION</cntorg>\n <cntper>Brian J Halstead</cntper>\n </cntorgp>\n <cntpos>Research Wildlife Biologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>800 Buissness Park Drive</address>\n <address>Suite D</address>\n <city>Dixon</city>\n <state>CA</state>\n <postal>95620</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>5306695076</cntvoice>\n <cntfax>7076785039</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Funding for this study was provided by the U.S. Geological Survey Amphibian Research and Monitoring Initiative.</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.3.1 (Build 4959) Service Pack N/A (Build N/A)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Data were collected on electronic devices that created an editable date and time stamp at the time of the observation and placed realistic limits on UTM coordinates.</attraccr>\n </attracc>\n <logic>Data received review from technicians collecting data at the end of each workday, and by a project manager at the end of each week. Spatial data were further proofed by plotting them and ensuring that locations were consistent with frog id and descriptions of habitat features.</logic>\n <complete>Data are complete. Missing information is because distances and angles require two or three observations, respectively, to be calculated.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <method>\n <methtype>Field</methtype>\n <methdesc>Field guide used for identification.</methdesc>\n <methcite>\n <citeinfo>\n <origin>Stebbins, R.C.</origin>\n <pubdate>2003</pubdate>\n <title>A Field Guide to Western Reptiles and Amphibians.</title>\n <edition>3rd</edition>\n <geoform>Publication</geoform>\n <pubinfo>\n <pubplace>New York, NY</pubplace>\n <publish>Houghton Mifflin Harcourt</publish>\n </pubinfo>\n </citeinfo>\n </methcite>\n </method>\n <procstep>\n <procdesc>Original data were:\n Date, time, and position data collected in the field by trained observers on electronic data collection devices.\n After QA/QC procedures (described elsewhere), data were further processed to:\n Calculate the distances, times, and angles between observations.</procdesc>\n <procdate>Unknown</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Tabular Digital Data</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>y</attrlabl>\n <attrdef>vector of response variables equal to 1</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>user generated automatically to run model</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>id</attrlabl>\n <attrdef>numerical representation of individual frog identification code</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>22</rdommax>\n <attrunit>interger</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>date</attrlabl>\n <attrdef>Date of observation of frog.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4/27/2015</rdommin>\n <rdommax>9/24/2015</rdommax>\n <attrunit>date</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>time</attrlabl>\n <attrdef>Time of observation of frog.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>00:04:00</rdommin>\n <rdommax>23:59:00</rdommax>\n <attrunit>hh:mm:ss (resolution in min.)</attrunit>\n <attrmres>1</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dx</attrlabl>\n <attrdef>Difference in easting between consecutive observations of the frog. Data calculated from coordinates collected in the field with handheld GPS. Calculations were automated in the R package \xe2\x80\x98adehabitatLT.\xe2\x80\x99</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-79</rdommin>\n <rdommax>248</rdommax>\n <attrunit>meters (m)</attrunit>\n <attrmres>3</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dy</attrlabl>\n <attrdef>Difference in northing between consecutive observations of the frog. Data calculated from coordinates collected in the field with handheld GPS. Calculations were automated in the R package \xe2\x80\x98adehabitatLT.\xe2\x80\x99</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-206</rdommin>\n <rdommax>158</rdommax>\n <attrunit>meters (m)</attrunit>\n <attrmres>3</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dist</attrlabl>\n <attrdef>Distance between consecutive observations of the frog. Data calculated from coordinates collected in the field with handheld GPS. Calculations were automated in the R package \xe2\x80\x98adehabitatLT.\xe2\x80\x99</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>322</rdommax>\n <attrunit>meters (m)</attrunit>\n <attrmres>3</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dt</attrlabl>\n <attrdef>Time between consecutive observations of a frog. Data calculated from time of observation data collected in the field. Calculations were automated in the R package \xe2\x80\x98adehabitatLT.\xe2\x80\x99</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>32940</rdommin>\n <rdommax>9190380</rdommax>\n <attrunit>seconds (s)</attrunit>\n <attrmres>60</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>R2n</attrlabl>\n <attrdef>The net squared displacement of a frog from its original location of capture (and release). Data calculated in the R package \xe2\x80\x98adehabitatLT.\xe2\x80\x99</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>602545</rdommax>\n <attrunit>meters (m)</attrunit>\n <attrmres>1</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>abs.angle</attrlabl>\n <attrdef>The angle of movement of the frog relative to east. Data calculated in the R package \xe2\x80\x98adehabitatLT.\xe2\x80\x99</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-2.90</rdommin>\n <rdommax>3.14</rdommax>\n <attrunit>radians</attrunit>\n <attrmres>0.000001</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>rel.angle</attrlabl>\n <attrdef>The angle of movement of the frog relative to its previous movement direction. Data calculated in the R package \xe2\x80\x98adehabitatLT.\xe2\x80\x99</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-3.13</rdommin>\n <rdommax>3.14</rdommax>\n <attrunit>radians</attrunit>\n <attrmres>0.000001</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>jdate</attrlabl>\n <attrdef>Difference between the date of observation and the day before the first telemetry observation, 26 April 2015. Difference calculated from data collected in the field at the time of observation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>151</rdommax>\n <attrunit>days (d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Denver Federal Center</address>\n <address>Building 810</address>\n <address>Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>8882758747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Tabular Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://doi.org/10.5066/F7RJ4GNS</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200830</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Brian J Halstead</cntper>\n <cntorg>U.S Geological Survey, PACIFIC REGION</cntorg>\n </cntperp>\n <cntpos>Research Wildlife Biologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>800 buissness Park Drive,</address>\n <address>Suite D</address>\n <city>Dixon</city>\n <state>CA</state>\n <postal>95620</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>5306695076</cntvoice>\n <cntfax>7076785039</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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3. [Velocity and water-quality surveys in the Ohio River between Markland Locks and Dam and McAlpine Locks and Dam, Kentucky and Indiana, October 27–November 4, 2016, and June 26–29, 2017](/catalog/item/5f21b31c82cef313ed93ffb4)
4. [Velocity measurements collected in the Ohio River from Markland Locks and Dam to McAlpine Locks and Dam, October 27–November 4, 2016 (survey #1)](/catalog/item/5f359f2f82cee144fb35983c)
5. [Velocity measurements collected at stationary locations (verticals) in the Ohio River between Markland Locks and Dam and McAlpine Locks and Dam, Kentucky and Indiana, October 27–November 4, 2016 (survey #1)](/catalog/folder/5f35a0f982cee144fb35987f)
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## Dates
Publication Date2021-02-24Start Date2016-10-27End Date2016-11-04
## Citation
Boldt, J.A., 2021, Velocity and water-quality surveys in the Ohio River between Markland Locks and Dam and McAlpine Locks and Dam, Kentucky and Indiana, October 27–November 4, 2016, and June 26–29, 2017: U.S. Geological Survey data release, https://doi.org/10.5066/P9MQHEPU.
## Summary
Velocity and water-quality surveys were completed along an approximately 71-mile reach of the Ohio River between Markland Locks and Dam (river mile 531.5) and McAlpine Locks and Dam (river mile 606.8) on October 27–November 4, 2016 (survey #1), and June 26–29, 2017 (survey #2). Water-quality data collected in this reach included surface measurements and vertical profiles of water temperature, specific conductance, pH, dissolved oxygen, turbidity, chlorophyll, and phycocyanin. Streamflow and velocity data were collected simultaneous to the water-quality data at cross-sections and along longitudinal lines (corresponding to the water-quality surface measurements) and at selected stationary locations (corresponding to the water-quality \[...\]
## Summary
Velocity and water-quality surveys were completed along an approximately 71-mile reach of the Ohio River between Markland Locks and Dam (river mile 531.5) and McAlpine Locks and Dam (river mile 606.8) on October 27–November 4, 2016 (survey #1), and June 26–29, 2017 (survey #2). Water-quality data collected in this reach included surface measurements and vertical profiles of water temperature, specific conductance, pH, dissolved oxygen, turbidity, chlorophyll, and phycocyanin. Streamflow and velocity data were collected simultaneous to the water-quality data at cross-sections and along longitudinal lines (corresponding to the water-quality surface measurements) and at selected stationary locations (corresponding to the water-quality vertical profiles). All velocity and water-quality data were georeferenced with a differential GPS receiver with submeter accuracy. The data were collected to understand variability of flow and water-quality conditions relative to simulated reaches of the Ohio River and to aid in identifying parts of the reach that may provide conditions favorable to spawning and recruitment habitat for Asian carp.
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[Justin A Boldt](/catalog/catalogParty/show?partyId=23106)
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[Justin A Boldt](/catalog/catalogParty/show?partyId=23106)
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## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Related Primary Publication | [https://doi.org/10.3133/sir20215005](https://doi.org/10.3133/sir20215005 "https://doi.org/10.3133/sir20215005") |
## Purpose
The data were collected to understand variability of flow and water-quality conditions relative to simulated reaches of the Ohio River and to aid in identifying parts of the reach that may provide conditions favorable to spawning and recruitment habitat for Asian carp.
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## Communities
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## Tags
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- [acoustic Doppler current profiler](/catalog/items?q=&filter=tags%3Dacoustic+Doppler+current+profiler "acoustic Doppler current profiler (acoustic Doppler current profiler, Theme, None)")
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- [Markland Locks and Dam](/catalog/items?q=&filter=tags%3DMarkland+Locks+and+Dam "Markland Locks and Dam (Markland Locks and Dam, Place, None)")
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Boldt, J.A.</origin>\n <pubdate>20210224</pubdate>\n <title>Velocity measurements collected at stationary locations (verticals) in the Ohio River between Markland Locks and Dam and McAlpine Locks and Dam, Kentucky and Indiana, October 27\xe2\x80\x93November 4, 2016 (survey #1)</title>\n <geoform>comma-separated values (CSV)</geoform>\n <serinfo>\n <sername>data release</sername>\n <issue>https://doi.org/10.5066/P9MQHEPU</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9MQHEPU</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Ostheimer, C.J.</origin>\n <origin>Boldt, J.A.</origin>\n <origin>Buszka, P.M.</origin>\n <pubdate>2021</pubdate>\n <title>Supporting Data and Simulation of Hypothetical Bighead Carp Egg and Larvae Development and Transport in the Ohio River between Markland Locks and Dam and McAlpine Locks and Dam, Kentucky and Indiana, by use of the Fluvial Egg Drift Simulator</title>\n <serinfo>\n <sername>Scientific Investigations Report</sername>\n <issue>2021-5005</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/sir20215005</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Velocity and water-quality surveys were completed along an approximately 71-mile reach of the Ohio River between Markland Locks and Dam (river mile 531.5) and McAlpine Locks and Dam (river mile 606.8) on October 27\xe2\x80\x93November 4, 2016 (survey #1), and June 26\xe2\x80\x9329, 2017 (survey #2). Water-quality data collected in this reach included surface measurements and vertical profiles of water temperature, specific conductance, pH, dissolved oxygen, turbidity, chlorophyll, and phycocyanin. Streamflow and velocity data were collected simultaneous to the water-quality data at cross-sections and along longitudinal lines (corresponding to the water-quality surface measurements) and at selected stationary locations (corresponding to the water-quality vertical profiles). All velocity and water-quality data were georeferenced with a differential GPS receiver with submeter accuracy. The data were collected to understand variability of flow and water-quality conditions relative to simulated reaches of the Ohio River and to aid in identifying parts of the reach that may provide conditions favorable to spawning and recruitment habitat for Asian carp.</abstract>\n <purpose>The data were collected to understand variability of flow and water-quality conditions relative to simulated reaches of the Ohio River and to aid in identifying parts of the reach that may provide conditions favorable to spawning and recruitment habitat for Asian carp.</purpose>\n <supplinf>This metadata record is for the velocity measurements collected at stationary locations (verticals) on the Ohio River from Markland Locks and Dam to McAlpine Locks and Dam, October 27\xe2\x80\x93November 4, 2016 (survey #1). The velocity data were collected with a Teledyne RDI 1200 kHz Rio Grande acoustic Doppler current profiler (ADCP). The data were georeferenced with a differential GPS receiver with submeter accuracy. ADCP data were collected and initially reviewed in the WinRiver II software (version 2.18), and final review was completed using the QRev software (version 3.43).</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20161027</begdate>\n <enddate>20161104</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-85.76000</westbc>\n <eastbc>-84.97583</eastbc>\n <northbc>38.77894</northbc>\n <southbc>38.25934</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>river</themekey>\n <themekey>velocity</themekey>\n <themekey>acoustic Doppler current profiler</themekey>\n <themekey>water quality</themekey>\n <themekey>multiparameter sonde</themekey>\n <themekey>temperature</themekey>\n <themekey>dissolved oxygen</themekey>\n <themekey>specific conductance</themekey>\n <themekey>pH</themekey>\n <themekey>turbidity</themekey>\n <themekey>chlorophyll</themekey>\n <themekey>phycocyanin</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5f35a0f982cee144fb35987f</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Ohio River</placekey>\n <placekey>Markland Locks and Dam</placekey>\n <placekey>McAlpine Locks and Dam</placekey>\n <placekey>Warsaw</placekey>\n <placekey>Louisville</placekey>\n <placekey>Kentucky</placekey>\n <placekey>Indiana</placekey>\n <placekey>United States of America</placekey>\n </place>\n </keywords>\n <accconst>None. This dataset is provided by USGS as a public service. Users of this geospatial database and geologic information derived there from should acknowledge the U.S. Geological Survey as the source of the data.</accconst>\n <useconst>Users must assume responsibility to determine the appropriate use of this data. Users should be aware of the limitations of this dataset if using for critical application.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Ohio-Kentucky-Indiana Water Science Center</cntorg>\n <cntper>Justin A. Boldt</cntper>\n </cntorgp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>9818 Bluegrass Parkway</address>\n <city>Louisville</city>\n <state>KY</state>\n <postal>40299</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>502-493-1931</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>U.S. Geological Survey, Ecosystems Mission Area, Invasive Species Program</datacred>\n <secinfo>\n <secsys>None</secsys>\n <secclass>Unclassified</secclass>\n <sechandl>None</sechandl>\n </secinfo>\n <native>Microsoft Windows 10 Enterprise 64-bit; MATLAB R2019a; WinRiver II version 2.18; QRev version 3.43</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Velocity data were quality controlled using procedures outlined in Mueller, D.S., Wagner, C.R., Rehmel, M.S., Oberg, K.A., and Rainville, F., 2013, Measuring discharge with acoustic Doppler current profilers from a moving boat (ver. 2.0, December 2013): U.S. Geological Survey Techniques and Methods, book 3, chap. A22, 95 p. https://doi.org/10.3133/tm3A22.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>The dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Velocity data were collected using a Teledyne RDI 1200 kHz Rio Grande ADCP mounted to the side of a manned boat on a rigid aluminum pole.</procdesc>\n <procdate>20161027</procdate>\n </procstep>\n <procstep>\n <procdesc>Velocity data were collected using a Teledyne RDI 1200 kHz Rio Grande ADCP mounted to the side of a manned boat on a rigid aluminum pole.</procdesc>\n <procdate>20161028</procdate>\n </procstep>\n <procstep>\n <procdesc>Velocity data were collected using a Teledyne RDI 1200 kHz Rio Grande ADCP mounted to the side of a manned boat on a rigid aluminum pole.</procdesc>\n <procdate>20161031</procdate>\n </procstep>\n <procstep>\n <procdesc>Velocity data were collected using a Teledyne RDI 1200 kHz Rio Grande ADCP mounted to the side of a manned boat on a rigid aluminum pole.</procdesc>\n <procdate>20161101</procdate>\n </procstep>\n <procstep>\n <procdesc>Velocity data were collected using a Teledyne RDI 1200 kHz Rio Grande ADCP mounted to the side of a manned boat on a rigid aluminum pole.</procdesc>\n <procdate>20161102</procdate>\n </procstep>\n <procstep>\n <procdesc>Velocity data were collected using a Teledyne RDI 1200 kHz Rio Grande ADCP mounted to the side of a manned boat on a rigid aluminum pole.</procdesc>\n <procdate>20161103</procdate>\n </procstep>\n <procstep>\n <procdesc>Velocity data were collected using a Teledyne RDI 1200 kHz Rio Grande ADCP mounted to the side of a manned boat on a rigid aluminum pole.</procdesc>\n <procdate>20161104</procdate>\n </procstep>\n <procstep>\n <procdesc>Raw data files were reviewed and processed in WinRiver II software (Teledyne RD Instruments, 2019) and QRev software (Mueller, 2016). References: Teledyne RD Instruments, 2019, WinRiver II Software User's Guide, P/N 957-6231-00, September 2019, San Diego, CA, http://www.teledynemarine.com/rdi/support; Mueller, D.S., 2016, QRev\xe2\x80\x94Software for computation and quality assurance of acoustic Doppler current profiler moving-boat streamflow measurements\xe2\x80\x94Technical manual for version 2.8: U.S. Geological Survey Open-File Report, 2016\xe2\x80\x931068, 79 p., http://dx.doi.org/10.3133/ofr20161068.</procdesc>\n <procdate>20200729</procdate>\n </procstep>\n <procstep>\n <procdesc>Processed data were exported manually and with a custom Matlab script.</procdesc>\n <procdate>20200729</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>Entity point</sdtstype>\n <ptvctcnt>138</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>velocity_verticals_survey-1.csv</enttypl>\n <enttypd>CSV</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Vertical ID</attrlabl>\n <attrdef>The ID of the XS line number and the vertical station number (from left to right) (e.g., '251v1')</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>251v1</rdommin>\n <rdommax>405v3</rdommax>\n <attrunit>none</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mean UTM Easting (m)</attrlabl>\n <attrdef>The mean Easting of the measurement location, in meters (UTM zone 16N, WGS84)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>608516.9</rdommin>\n <rdommax>675837.0</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mean UTM Northing (m)</attrlabl>\n <attrdef>The mean Northing of the measurement location, in meters (UTM zone 16N, WGS84)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4235470.9</rdommin>\n <rdommax>4294084.4</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The date the measurement was taken</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10/27/2016</rdommin>\n <rdommax>11/04/2016</rdommax>\n <attrunit>MM/DD/YYYY</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Start time (EDT)</attrlabl>\n <attrdef>The start time, in EDT, of the measurement</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>09:21:06</rdommin>\n <rdommax>18:02:33</rdommax>\n <attrunit>Eastern Daylight Time (EDT)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>End time (EDT)</attrlabl>\n <attrdef>The end time, in EDT, of the measurement</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>09:22:45</rdommin>\n <rdommax>18:03:25</rdommax>\n <attrunit>Eastern Daylight Time (EDT)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration (sec)</attrlabl>\n <attrdef>The duration of the measurement, in seconds</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>26.04</rdommin>\n <rdommax>408.37</rdommax>\n <attrunit>seconds</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Average depth (m)</attrlabl>\n <attrdef>The average depth, in meters, at the measurement location</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.27</rdommin>\n <rdommax>15.12</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mean flow direction (deg)</attrlabl>\n <attrdef>The mean flow direction, in degrees, at the measurement location</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>149.2</rdommin>\n <rdommax>328.6</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>U (cm/s)</attrlabl>\n <attrdef>The depth-averaged streamwise velocity (positive downstream), in centimeters per second, at the measurement location</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8.54</rdommin>\n <rdommax>77.78</rdommax>\n <attrunit>centimeters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>V (cm/s)</attrlabl>\n <attrdef>The depth-averaged lateral (cross-stream) velocity (positive toward left bank), in centimeters per second, at the measurement location</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41</rdommin>\n <rdommax>0.30</rdommax>\n <attrunit>centimeters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>W (cm/s)</attrlabl>\n <attrdef>The depth-averaged vertical velocity (positive up), in centimeters per second, at the measurement location</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-4.99</rdommin>\n <rdommax>11.20</rdommax>\n <attrunit>centimeters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shear velocity (cm/s)</attrlabl>\n <attrdef>The estimated shear velocity, in centimeters per second, at the specified cross-section</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-4.02</rdommin>\n <rdommax>5.67</rdommax>\n <attrunit>centimeters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shear velocity R-squared value</attrlabl>\n <attrdef>The coefficient of determination from the method used to estimate the shear velocity</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.001</rdommin>\n <rdommax>0.975</rdommax>\n <attrunit>none</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Although this information product, for the most part, is in the public domain, it also contains copyrighted materials as noted in the text. Permission to reproduce copyrighted items must be secured from the copyright owner whenever applicable. The data have been approved for release and publication by the U.S. Geological Survey (USGS). Although the data have been subjected to rigorous review and are substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the data are released on the condition that neither the USGS nor the U.S. Government may be held liable for any damages resulting from authorized or unauthorized use. Although the data have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the display or utility of the data on any other system, or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The USGS or the U.S. Government shall not be held liable for improper or incorrect use of the data described and/or contained herein. 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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Wetland and Aquatic Research Center](/catalog/item/5285678ce4b063f258e65252)
3. [Atchafalaya sediment delivery (AT-02): 2016 habitat classification](/catalog/folder/59de60d4e4b05fe04ccd39b2)
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## Dates
Publication Date2017-12-07Time Period2016-10-13
## Citation
Beck, H.J., Dugas, J., and Couvillion, B.R., 2017, Atchafalaya sediment delivery (AT-02): 2016 habitat classification: U.S. Geological Survey data release, https://doi.org/10.5066/F7P55MFQ.
## Summary
The Louisiana State Legislature created Coastal Wetlands Planning, Protection, and Restoration Act (CWPPRA) in order to conserve, restore, create and enhance Louisiana's coastal wetlands. The wetland restoration plans developed persuant to these acts specifically require an evaluation of the effectiveness of each coastal wetlands restoration project in achieving long-term solutions to arresting coastal wetlands loss. This data set includes mosaicked aerial photographs for the Atchafalaya Sediment Delivery (AT-02) project for 2016. This data set is used as a basemap for habitat classification. It also serves as a visual tool for project managers to help them identify any obvious problems or land loss within their project boundary. To \[...\]
## Summary
The Louisiana State Legislature created Coastal Wetlands Planning, Protection, and Restoration Act (CWPPRA) in order to conserve, restore, create and enhance Louisiana's coastal wetlands. The wetland restoration plans developed persuant to these acts specifically require an evaluation of the effectiveness of each coastal wetlands restoration project in achieving long-term solutions to arresting coastal wetlands loss. This data set includes mosaicked aerial photographs for the Atchafalaya Sediment Delivery (AT-02) project for 2016. This data set is used as a basemap for habitat classification. It also serves as a visual tool for project managers to help them identify any obvious problems or land loss within their project boundary. To better evaluate the effectiveness of restoration efforts, a habitat classification is performed on specific CWPPRA sites to help assess landscape changes.
## Contacts
Point of Contact
:
[Brady Couvillion](/catalog/catalogParty/show?partyId=2115)
Originator
:
[Holly J Beck](/catalog/catalogParty/show?partyId=23773),
[Jason Dugas](/catalog/catalogParty/show?partyId=2736),
[Brady Couvillion](/catalog/catalogParty/show?partyId=2115)
Metadata Contact
:
[Holly J Beck](/catalog/catalogParty/show?partyId=23773)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Land Resources](/catalog/catalogParty/show?partyId=64213)
SDC Data Owner
:
[Wetland and Aquatic Research Center](/catalog/catalogParty/show?partyId=70182)
## Attached Files - sorting - [Metadata First](/catalog/item/get/59de60d4e4b05fe04ccd39b2?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/59de60d4e4b05fe04ccd39b2?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/59de60d4e4b05fe04ccd39b2?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
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| | | | |
| --- | --- | --- | --- |
| AT\_02\_2016\_Habitat\_Classification\_Map.pdf | | 1.79 MB | application/pdf |
| | | |
| --- | --- | --- |
| AT\_02\_2016\_Habitat\_Classification\_Final.shp.xml<br>_Original FGDC Metadata_ | View | 20.71 KB |
| AT\_02\_2016\_Habitat\_Classification\_Final.CPG | | 5 Bytes |
| AT\_02\_2016\_Habitat\_Classification\_Final.dbf | | 339.54 KB |
| AT\_02\_2016\_Habitat\_Classification\_Final.prj | | 424 Bytes |
| AT\_02\_2016\_Habitat\_Classification\_Final.sbn | | 15.05 KB |
| AT\_02\_2016\_Habitat\_Classification\_Final.sbx | | 1.47 KB |
| AT\_02\_2016\_Habitat\_Classification\_Final.shp | | 1.54 MB |
| AT\_02\_2016\_Habitat\_Classification\_Final.shx | | 11.7 KB |
Shapefile:
AT\_02\_2016\_Habitat\_Classification\_Final.zip
## Related External Resources
Type: Online Link
| | |
| --- | --- |
| Web Link | [http://www.lacoast.gov](http://www.lacoast.gov "http://www.lacoast.gov") |
## Purpose
The intended use of this data set is to provide information to aid efforts in the conservation, restoration, creation and enhancement of Louisiana's coastal wetlands in order to aid in long-term solutions to these and other problems.
## [Map](/catalog/item/imap/59de60d4e4b05fe04ccd39b2)
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ScienceBase WMS
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## Communities
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## Tags
Categories
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Theme
- [CWPPRA](/catalog/items?q=&filter=tags%3DCWPPRA "CWPPRA (CWPPRA, Theme, None)")
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- [scan](/catalog/items?q=&filter=tags%3Dscan "scan (scan, Theme, None)")
- [wetlands](/catalog/items?q=&filter=tags%3Dwetlands "wetlands (wetlands, Theme, None)")
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- [Coastal Louisiana](/catalog/items?q=&filter=tags%3DCoastal+Louisiana "Coastal Louisiana (Coastal Louisiana, Place, None)")
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## Provenance
## Additional Information
### Identifiers
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>U.S. Geological Survey, Wetland and Aquatic Research Center</origin>\n <origin>Holly Beck</origin>\n <origin>Jason Dugas</origin>\n <origin>Brady Couvillion</origin>\n <pubdate>20171201</pubdate>\n <title>Atchafalaya Sediment Delivery (AT-02): 2016 Habitat Classification</title>\n <geoform>Vector Digital Data Set (Polygon)</geoform>\n <pubinfo>\n <pubplace>Lafayette, Louisiana, USA</pubplace>\n <publish>U.S. Geological Survey, Wetland and Aquatic Research Center</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7P55MFQ</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Louisiana Coastal Protection and Restoration Authority</origin>\n <origin>National Oceanic and Atmospheric Administration</origin>\n <origin>U.S. Geological Survey</origin>\n <pubdate>2017</pubdate>\n <title>Coastal Wetlands Planning, Protection and Restoration Act (CWPPRA) Authorizing Bill</title>\n <geoform>document</geoform>\n <pubinfo>\n <pubplace>Lafayette, LA</pubplace>\n <publish>USGS</publish>\n </pubinfo>\n <onlink>http://www.lacoast.gov</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The Louisiana State Legislature created Coastal Wetlands Planning, Protection, and Restoration Act (CWPPRA) in order to conserve, restore, create and enhance Louisiana\'s coastal wetlands. The wetland restoration plans developed persuant to these acts specifically require an evaluation of the effectiveness of each coastal wetlands restoration project in achieving long-term solutions to arresting coastal wetlands loss. This data set includes mosaicked aerial photographs for the Atchafalaya Sediment Delivery (AT-02) project for 2016. This data set is used as a basemap for habitat classification. It also serves as a visual tool for project managers to help them identify any obvious problems or land loss within their project boundary. To better evaluate the effectiveness of restoration efforts, a habitat classification is performed on specific CWPPRA sites to help assess landscape changes.</abstract>\n <purpose>The intended use of this data set is to provide information to aid efforts in the conservation, restoration, creation and enhancement of Louisiana\'s coastal wetlands in order to aid in long-term solutions to these and other problems.</purpose>\n <supplinf>A project boundary may be included on some hard copy maps. This boundary was created by the Louisiana Coastal Protection and Restoration Authority and therefore the information on the process will not be noted in this metadata set.\nAuthor ORCIDs: Beck, H.J.(0000-0002-0567-9329);Dugas, Jason(0000-0001-6094-7560);Couvillion, Brady(0000-0001-5323-1687)</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>20161013</caldate>\n </sngdate>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-91.284027677</westbc>\n <eastbc>-91.256944589</eastbc>\n <northbc>29.445531719</northbc>\n <southbc>29.404774175</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>CWPPRA</themekey>\n <themekey>wetlands</themekey>\n <themekey>mosaic</themekey>\n <themekey>aerial photography</themekey>\n <themekey>coastal restoration</themekey>\n <themekey>coastal conservation</themekey>\n <themekey>coastal enhancement</themekey>\n <themekey>monitoring</themekey>\n <themekey>GIS</themekey>\n <themekey>rectification</themekey>\n <themekey>image</themekey>\n <themekey>satelite imagery</themekey>\n <themekey>DOQQ</themekey>\n <themekey>scan</themekey>\n <themekey>DEM</themekey>\n <themekey>Louisiana</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:59de60d4e4b05fe04ccd39b2</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Coastal Louisiana</placekey>\n <placekey>Louisiana</placekey>\n <placekey>Gulf of Mexico</placekey>\n <placekey>South Louisiana</placekey>\n <placekey>AT-02</placekey>\n </place>\n </keywords>\n <accconst>It is strongly recommended that this data set is directly acquired from the distributor described above or from another USGS Biological Resources Division server and not indirectly through other sources which may have changed the data in some way. The distributor makes no claims as to the data\'s suitability for other purposes.</accconst>\n <useconst>Acknowledgement of the U.S. Geological Survey, Wetland and Aquatic Research Center as a data source would be appreciated in products developed from these data, and such acknowledgment as is standard for citation and legal practices for data source is expected by users of this data set. Sharing new data layers developed directly from these data would also be appreciated by WARC staff. Users should be aware that comparison with other data sets for the same area from other time periods may be inaccurate due to inconsistencies resulting from changes in mapping conventions, data collection, and computer processes over time. The distributor shall not be liable for improper or incorrect use of these data, based on the description of appropriate/inappropriate uses described in this metadata document. These data are not legal documents and are not to be used as such.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Wetland and Aquatic Research Center</cntorg>\n <cntper>Brady Couvillion</cntper>\n </cntorgp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing and physical address</addrtype>\n <address>Parker Coliseum, LSU</address>\n <city>Baton Rouge</city>\n <state>Louisiana</state>\n <postal>70803</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>225-578-7484</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>The WARC would like to acknowledge the assistance of the Louisiana Coastal Protection and Restoration Authority, National Oceanic and Atmospheric Administration, and U.S. Geological Survey.</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.5 (Build 6491) Service Pack N/A (Build N/A)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Accuracy of remotely sensed classifications is generally assessed by an accuracy assessment in which random points are assigned, and user-defined truth is compared to the classifcation results, producing statistics regarding user\'s, producer\'s, and overall accuracy. In this classification, 8828404 pixels were classified. Theoretically, at minimum, a 1% sample would be needed to appropriately assess accuracy. Assessing this many pixels is impossible, and as such, ancillary information is provided. \n\nAccuarcy assessments in similar analyses using the same classification methodologies have produced a simple overall accuracy of 96.49%, but in these assessments, point selection was biased toward areas which are likely to contain error. After accounting for this bias, the resulting assumed accuracy for the overall dataset is 98.88%.</attraccr>\n </attracc>\n <logic>Habitat data were derived from Color Infrared photography. All Habitat Classification data have gone through extensive QA/QC to ensure accuracy.</logic>\n <complete>For all calculations and manipulations done in Imagine, the software manual was consulted. Standard Operating Procedures for all of the Land/Water Classification were developed by GIS staff at the U.S. Geological Survey, Wetland and Aquatic Research Center. These data are complete.</complete>\n <posacc>\n <horizpa>\n <horizpar>The horizontal positional accuracy is assumed to be correct because of the processes used for georeferencing the source data. Data meets USGS National Map Accuracy Standards at the given scale.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>N/A</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>unknown</origin>\n <pubdate>20170225</pubdate>\n <title>2016_doqq_east_mosaic_1m_nad83_z15n_coastal_zone_sub.img</title>\n <geoform>remote-sensing image</geoform>\n <pubinfo>\n <pubplace>Louisiana</pubplace>\n <publish>unknown</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <srcscale>24000</srcscale>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20161011</begdate>\n <enddate>20161105</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>Photo Mosaic</srccitea>\n <srccontr>The primary data source for the photomosaic</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Primary Classification: \nAll habitat photo-interpretation adheres to protocols and standards used by the U.S. Fish and Wildlife\xe2\x80\x99s National Wetland Inventory (NWI) Program. The NWI habitat data classified are outlined in the \xe2\x80\x9cClassification of Wetlands and Deepwater Habitats of the United States\xe2\x80\x9d (Cowardin and other 1979, FWS/OBS \xe2\x80\x93 79/31). Noteworthy caveat, the Palustrine Emergents Nonpersistent/Floating Aquatics class is recoded to open water. Uplands were derived from a land use and land cover classification system for use with remote sensor data (Anderson, J.R., Hardy, E.E., Roach J.T., and Witmer R.E., 1976, A land use and land cover classification system for use with remote sensor data: U.S. Geological Survey Professional Paper 964, 28 p.). Habitats that are considered critical have unique modifiers for individual species mapping. Use of modifiers adopted by WARC did not alter the NWI hierarchical system. With respect to aquatic habitat, submerged aquatic vegetation (SAV) was mapped in detail with unique NWI classification codes. Tidal flats, beaches and bars was mapped to subclass level in varied tidal hydrologic regimes: irregularly-exposed, regularly flooded, and irregularly flooded. Upland unvegetated sand and vegetated dunes were differentiated with modifiers applied to Anderson classification.\n\nDetailed habitat mapping using 1- foot resolution imagery has recently been successful at WARC for environmental-related special projects, with a 1/100 ac. (0.004 ha) MMU. The digital mosaic of the high resolution color infrared aerial photography project area was brought into ArcMap Software where photo-interpretation began. Habitat types were delineated by overlaying project area boundaries onto the imagery and editing features. Ancillary data sets from 1998 through 2012, with similar resolutions, were utilized to help classify areas that may be difficult to identify. Imagery of the project area was also viewed on screen in stereo which helps determine vegetation height and proper habitat classification. Where available, LIDAR data was utilized for elevation information that help discern habitats from one another especially where floating aquatics may be present.\n\nAfter completion, the photointerpreter performed a Quality Assurance self-check of their work. In addition, a second photointerpreter performed a final in-house Quality Control, assuring accuracy and data integrity. The final in house Quality Control also reviewed all ancillary data including all available dates of imagery for the project area to ensure consistency of habitat mapping for each time period. After the WARC completed our QA/QC protocols, the data was sent to the customer for their review and comments. The customer has field experience of the project areas and can give critical feedback on the accuracy of the data. If changes were suggested, WARC reviewed the area in question and incorporated all data to make changes if necessary. After all reviews and questions were answered, the final data product was then ready for map production and submitted to an online distribution source.</procdesc>\n <procdate>20171003</procdate>\n </procstep>\n <procstep>\n <procdesc>Metadata was created.</procdesc>\n <procdate>20171030</procdate>\n </procstep>\n </lineage>\n <cloud>0</cloud>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>G-polygon</sdtstype>\n <ptvctcnt>1485</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>15</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-93.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.6096</absres>\n <ordres>0.6096</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D_North_American_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Acres</attrlabl>\n <attrdef>Area of habitat class in Acres</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.000839430344427</rdommin>\n <rdommax>280.212765746</rdommax>\n <attrunit>Acres</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hectares</attrlabl>\n <attrdef>Area of habitat class in hectares</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00033970540805</rdommin>\n <rdommax>113.39808307</rdommax>\n <attrunit>Hectares</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NWI_Descri</attrlabl>\n <attrdef>NWI habitat class description</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>NWI habitat class description</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Class</attrlabl>\n <attrdef>NWI habitat class description</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Marsh Fresh</edomv>\n <edomvd>Unknown</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Mud Flat Fresh</edomv>\n <edomvd>Unknown</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Open Water Fresh</edomv>\n <edomvd>Unknown</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Submerged Aquatics Fresh</edomv>\n <edomvd>Unknown</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Wetland Forested</edomv>\n <edomvd>Unknown</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Wetland Scrub Shrub Fresh</edomv>\n <edomvd>Unknown</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Habitat</attrlabl>\n <attrdef>NWI habitat class code</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>NWI habitat class code</udom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>The entity and attribute information provided here describes the tabular data associated with the data set. Please review the detailed descriptions that are provided (the individual attribute descriptions) for information on the values that appear as fields/table entries of the data set.</eaover>\n <eadetcit>The entity and attribute information was generated by the individual and/or agency identified as the originator of the data set. Please review the rest of the metadata record for additional details and information.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Although these data have been processed successfully on a computer system at the U. S. Geological Survey, Wetland and Aquatic Research Center, no warranty expressed or implied is made regarding the accuracy or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. This disclaimer applies both to individual use of the data and aggregate use with other data. It is strongly recommended that these data are directly acquired from a Biological Resources Division server, and not indirectly through other sources which may have changed the data in some way. It is also strongly recommended that careful attention be paid to the contents of the metadata file associated with these data. WARC shall not be held liable for improper or incorrect use of the data described and/or contained herein. So, these data are provided "as is" and without any express or implied warranties, including, without limitation, the implied warranties or merchantability and fitness for a particular purpose. Also, use of trade names or commercial products in this metadata is solely for the purpose of providing specific information, and does not imply recommendation or endorsement by the US Government. Any downloading and use of these data signifies a user\'s agreement to comprehension and compliance of the WARC Standard Disclaimer. Insure all portions of metadata are read and clearly understood before using these data in order to protect both user and WARC interests.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/F7P55MFQ</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None, if data are available online</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200830</metd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Wetland and Aquatic Research Center</cntorg>\n <cntper>Holly Beck</cntper>\n </cntorgp>\n <cntpos>Metadata Specialist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical Address</addrtype>\n <address>Parker Coliseum, LSU</address>\n <city>Baton Rouge</city>\n <state>Louisiana</state>\n <postal>70803</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>225-578-7490</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <metuc>Record created using USGS Metadata Wizard tool. (https://github.com/usgs/fort-pymdwizard)</metuc>\n </metainfo>\n</metadata>' |
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3. [Dataset for Alaska Marine Fish Ecology Catalog](/catalog/item/5841a424e4b04fc80e518bb5)
4. [Marine Arctic polygon distribution of Twohorn Sculpin (Icelus bicornis) (Reinhardt, 1840)](/catalog/folder/58812ca4e4b00a062356ff2d)
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## Dates
Publication Date2017Time Period2017
## Citation
Thorsteinson, L.K., 2017, Dataset for Alaska Marine Fish Ecology Catalog: U.S. Geological Survey data release, https://doi.org/10.5066/F7M61HD7.
## Summary
Region(s) of distribution of Twohorn Sculpin (Icelus bicornis) (Reinhardt, 1840) in the Arctic as digitized for U.S. Geological Survey Scientific Investigations Report 2016-5038. For details on the project and purpose, see the report at https://doi.org/10.3133/sir20165038. Complete metadata for the collection of species datasets is in the metadata document "Dataset\_for\_Alaska\_Marine\_Fish\_Ecology\_Catalog.xml" at https://doi.org/10.5066/F7M61HD7. Source(s) for this digitized data layer are listed in the metadata Process Steps section. Note that the original source may show an extended area; some datasets were limited to the published map boundary. Distributions of marine fishes are shown in adjacent Arctic seas where reliable data are \[...\]
## Summary
Region(s) of distribution of Twohorn Sculpin (Icelus bicornis) (Reinhardt, 1840) in the Arctic as digitized for U.S. Geological Survey Scientific Investigations Report 2016-5038. For details on the project and purpose, see the report at https://doi.org/10.3133/sir20165038. Complete metadata for the collection of species datasets is in the metadata document "Dataset\_for\_Alaska\_Marine\_Fish\_Ecology\_Catalog.xml" at https://doi.org/10.5066/F7M61HD7. Source(s) for this digitized data layer are listed in the metadata Process Steps section. Note that the original source may show an extended area; some datasets were limited to the published map boundary. Distributions of marine fishes are shown in adjacent Arctic seas where reliable data are available. The data were clipped to show only the marine distribution areas although some species also may have an inland presence.
## Contacts
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[Durelle Smith, Staff Scientist](/catalog/catalogParty/show?partyId=Durelle+Smith%2C+Staff+Scientist)
Originator
:
[Lyman K. Thorsteinson](/catalog/catalogParty/show?partyId=Lyman+K.+Thorsteinson)
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[Jacqueline Olson](/catalog/catalogParty/show?partyId=Jacqueline+Olson)
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| 3-7-3g\_Icelus\_bicornus.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/58812ca4e4b00a062356ff2d?f=__disk__51%2F5c%2F9a%2F515c9a2cf7096849a621c0bbce189e4f805c02e2&width=150&height=54) | 133.52 KB | image/jpeg |
| 3-7-3m\_Icelus\_bicornis.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/58812ca4e4b00a062356ff2d?f=__disk__c5%2Fe9%2Fb9%2Fc5e9b9d52490e5a54f9877fde5986ab60871e26c&width=150&height=123) | 542.55 KB | image/jpeg |
| 3-7-3p\_Icelus\_bicornis.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/58812ca4e4b00a062356ff2d?f=__disk__45%2F4d%2F15%2F454d153cda8bfd5d7437ea0754a78440c161df10&width=150&height=60) | 295.92 KB | image/jpeg |
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| Ice\_bic\_py.shp.xml<br>_Original FGDC Metadata_ | View | 17.88 KB |
| Ice\_bic\_py.cpg | | 5 Bytes |
| Ice\_bic\_py.dbf | | 127 Bytes |
| Ice\_bic\_py.prj | | 396 Bytes |
| Ice\_bic\_py.sbn | | 132 Bytes |
| Ice\_bic\_py.sbx | | 116 Bytes |
| Ice\_bic\_py.shp | | 154.15 KB |
| Ice\_bic\_py.shx | | 108 Bytes |
Shapefile:
Ice\_bic\_py.zip
## Purpose
See report: https://doi.org/10.3133/sir20165038
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## Tags
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- [Twohorn Sculpin](/catalog/items?q=&filter=tags%3DTwohorn+Sculpin "Twohorn Sculpin (Twohorn Sculpin, Theme, See Taxonomic Identification.)")
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## Provenance
## Additional Information
### Shapefile Extension
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| minX | -178.3805456969649 |
| maxY | 89.2413564219021 |
| maxX | 166.7657396872549 | |
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| size | 5 |
| dateUploaded | Thu Jan 19 14:16:20 MST 2017 |
| name | Ice\_bic\_py.dbf |
| contentType | application/unknown |
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| dateUploaded | Thu Jan 19 14:16:20 MST 2017 |
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| dateUploaded | Thu Jan 19 14:16:20 MST 2017 |
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| name | Ice\_bic\_py.shp.xml |
| contentType | application/fgdc+xml |
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| dateUploaded | Wed Aug 26 16:19:11 MDT 2020 |
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| name | Ice\_bic\_py.shx |
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| size | 108 |
| dateUploaded | Thu Jan 19 14:16:20 MST 2017 | |
| geometryType | MultiPolygon |
| name | Ice\_bic\_py |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Lyman K. Thorsteinson</origin>\n <pubdate>2017</pubdate>\n <title>Marine Arctic polygon distribution of Twohorn Sculpin (Icelus bicornis) (Reinhardt, 1840)</title>\n <geoform>Vector Digital Data Set (Polygon)</geoform>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7M61HD7</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Lyman K. Thorsteinson (ed)</origin>\n <origin>Milton S. Love (ed)</origin>\n <pubdate>2016</pubdate>\n <title>Alaska Arctic Marine Fish Ecology Catalog</title>\n <geoform>Publication (Book)</geoform>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/sir20165038</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Region(s) of distribution of Twohorn Sculpin (Icelus bicornis) (Reinhardt, 1840) in the Arctic as digitized for U.S. Geological Survey Scientific Investigations Report 2016-5038. For details on the project and purpose, see the report at https://doi.org/10.3133/sir20165038. Complete metadata for the collection of species datasets is in the metadata document "Dataset_for_Alaska_Marine_Fish_Ecology_Catalog.xml" at https://doi.org/10.5066/F7M61HD7. Source(s) for this digitized data layer are listed in the metadata Process Steps section. Note that the original source may show an extended area; some datasets were limited to the published map boundary. Distributions of marine fishes are shown in adjacent Arctic seas where reliable data are available. The data were clipped to show only the marine distribution areas although some species also may have an inland presence.</abstract>\n <purpose>See report: https://doi.org/10.3133/sir20165038</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2017</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-180.0</westbc>\n <eastbc>180.0</eastbc>\n <northbc>90.0</northbc>\n <southbc>58.231577801</southbc>\n </bounding>\n <descgeog>See range references listed in Sources.</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>See Taxonomic Identification.</themekt>\n <themekey>Twohorn Sculpin</themekey>\n <themekey>Icelus bicornis</themekey>\n <themekey>(Reinhardt, 1840)</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>fish</themekey>\n <themekey>biogeography</themekey>\n <themekey>marine fishery resources</themekey>\n <themekey>ecology</themekey>\n </theme>\n <theme>\n <themekt>Data categories for marine planning</themekt>\n <themekey>Distributions</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>marine</themekey>\n <themekey>Arctic</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:58812ca4e4b00a062356ff2d</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Arctic</placekey>\n <placekey>Chukchi Sea</placekey>\n <placekey>Bering Strait</placekey>\n <placekey>Bering Sea</placekey>\n <placekey>Alaska</placekey>\n <placekey>Yukon</placekey>\n <placekey>Northwest Territories</placekey>\n <placekey>Nunavut</placekey>\n </place>\n <place>\n <placekt>None</placekt>\n <placekey>Beaufort Sea</placekey>\n <placekey>northwest Canada</placekey>\n <placekey>northeast Russia</placekey>\n <placekey>Chukchi-Beaufort Lease Area</placekey>\n <placekey>U.S. Exclusive Economic Zone</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Durelle Smith, Staff Scientist</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>4210 University Drive</address>\n <city>Anchorage</city>\n <state>AK</state>\n <postal>99508</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>907-786-7104</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>From the report (SIR-20165038): This study was supported by the U.S. Department of the Interior, Bureau of Ocean Energy Management, Environmental Studies Program, Alaska OCS Region, through Interagency Agreement Number M09PG00005 with the U.S. Geological Survey (USGS). We appreciate the program planning advice and project reviews by fishery specialists in the Bureau of Ocean Energy Management and all expert technical reviews provided during the USGS-managed peer review process. We extend special appeciation to the USGS Tacoma Publishing Service Center for their editorial, production, and publication assistance.</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.4.1 (Build 5686) Service Pack N/A (Build N/A)</native>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Fishes</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>See Methods.</origin>\n <title>See Methods.</title>\n <geoform>OTHER</geoform>\n <pubinfo>\n <publish>See Methods.</publish>\n </pubinfo>\n </citeinfo>\n </classcit>\n </classsys>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>See references.</cntper>\n <cntorg>See references.</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>See references.</address>\n <city>See references.</city>\n <state>See references.</state>\n <postal>See references.</postal>\n <country>See references.</country>\n </cntaddr>\n <cntvoice>See references.</cntvoice>\n <cntemail>See references.</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>Sources and methods of nomenclature are described in chapters 1 and 2 of the report (https://doi.org/10.3133/sir20165038). The resource for classification is: Mecklenburg, C.W., Mecklenburg, T.A., Sheiko, B.A., and Steinke, D., 2016, Pacific Arctic marine fishes: Akureyri, Iceland, Conservation of Arctic Flora and Fauna, Monitoring Series Report No. 23, 406 p., accessed May 10, 2016, at http://caff.is/monitoring-series/370-pacific-arctic-marine-fishes.</taxonpro>\n <taxoncom>See Methods.</taxoncom>\n </taxonsys>\n <taxongen>Twohorn Sculpin (Icelus bicornis) (Reinhardt, 1840)</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Osteichthyes</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Actinopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Neopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Infraclass</taxonrn>\n <taxonrv>Teleostei</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Acanthopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Scorpaeniformes</taxonrv>\n <taxoncl>\n <taxonrn>Suborder</taxonrn>\n <taxonrv>Cottoidei</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Cottoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Cottidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Icelus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Icelus bicornis</taxonrv>\n <common>twohorn sculpin</common>\n <common>ic\xc3\xa8le \xc3\xa0 deux cornes</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the dataset has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the dataset has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Varies</origin>\n <pubdate>20160808</pubdate>\n <title>See methodology summary above.</title>\n <geoform>Varies</geoform>\n <pubinfo>\n <pubplace>Varies</pubplace>\n <publish>Varies</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20140101</begdate>\n <enddate>20160808</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>DistributionSource</srccitea>\n <srccontr>Source information used in support of the development of the dataset.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>See collection metadata: https://doi.org/10.5066/F7M61HD7</procdesc>\n <procdate>20160808</procdate>\n </procstep>\n <method>\n <methtype>both</methtype>\n <methdesc>All methods are documented in the following range sources identified in the report http://dx.doi.org/10.3133/sir2016503. \n\nRange: U.S. Beaufort Sea; presence in U.S. Chukchi Sea assumed from confirmed presence in adjacent waters of the East Siberian Sea, the slope north of the U.S. Chukchi Sea, and reported presence in western Chukchi Sea [2]. Worldwide: Predominantly Arctic; circumpolar [2].\n\n2. Mecklenburg, C.W., M\xc3\xb8ller, P.R., and Steinke, D., 2011, Biodiversity of arctic marine fishes\xe2\x80\x94Taxonomy and zoogeography: Marine Biodiversity, v. 41, no. 1, p. 109\xe2\x80\x93140, Online Resource 1.</methdesc>\n </method>\n </lineage>\n <cloud>Unknown</cloud>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>G-polygon</sdtstype>\n <ptvctcnt>1</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <mapproj>\n <mapprojn>PSPLambertAzimthalEqual (ESRI Full Name: PSPLambertAzimthalEqual)</mapprojn>\n <lamberta>\n <longpc>0.0</longpc>\n <latprjc>75.0</latprjc>\n <feast>0.0</feast>\n <fnorth>0.0</fnorth>\n </lamberta>\n </mapproj>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.6096</absres>\n <ordres>0.6096</ordres>\n </coordrep>\n <plandu>meter</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D_North_American_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>Esri</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>Esri</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Name</attrlabl>\n <attrdef>Blank field</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Blank field</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latdd</attrlabl>\n <attrdef>Unknown</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>69.22</rdommin>\n <rdommax>69.22</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longdd</attrlabl>\n <attrdef>Unknown</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-165.02</rdommin>\n <rdommax>-165.02</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>point</attrlabl>\n <attrdef>Unknown</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>point</edomv>\n <edomvd>Unknown</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Although these data have been processed successfully on a computer system at the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The USGS or the U.S. Government shall not be held liable for improper or incorrect use of the data described and/or contained herein.</distliab>\n <techpreq>User will need unzip software for the package. GIS data requires software capable of importing ESRI shapefiles; ArcExplorer is free, see www.esri.com. The report requires PDF-reading software (Adobe Reader is one free option).</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200826</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Jacqueline Olson</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Cartographer</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2130 SW 5th Avenue</address>\n <city>Portland</city>\n <state>OR</state>\n <postal>97201</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>NA</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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1. [Near-surface geophysical data collected along streams near Silverton, Colorado, USA](/catalog/item/5e82649fe4b01d5092794b29)
2. [Ground penetrating radar (GPR) data collected in a mine-impacted wetland near Silverton, Colorado in September 2019](/catalog/folder/5e82a916e4b01d5092794b8b)
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## Dates
Publication Date2020-05-12Start Date2019-09-05End Date2019-09-11
## Citation
Terry, N., Briggs, M., Rutila, E., Werkema, D., and Dyment, S., 2020, Near-surface geophysical data collected along streams near Silverton, Colorado, USA: U.S. Geological Survey data release, https://doi.org/10.5066/P97HDPAY.
## Summary
This child item contains ground penetrating radar (GPR) data collected over a small alpine wetland between Mogul Mine and Cement Creek located near Silverton, Colorado. Mine-impacted water is transported to Cement Creek via surface channels and groundwater through this wetland. The GPR method transmits radar pulses into the ground and measures the returned amplitude from these pulses over time. Variations in subsurface electromagnetic (EM) properties (dielectric permittivity, electrical conductivity, and magnetic susceptibility) affect the timing and amplitude of returned radar energy. For example, variation in water or mineral content are physical properties that often influence the EM properties that are observed with GPR. For these \[...\]
## Summary
This child item contains ground penetrating radar (GPR) data collected over a small alpine wetland between Mogul Mine and Cement Creek located near Silverton, Colorado. Mine-impacted water is transported to Cement Creek via surface channels and groundwater through this wetland. The GPR method transmits radar pulses into the ground and measures the returned amplitude from these pulses over time. Variations in subsurface electromagnetic (EM) properties (dielectric permittivity, electrical conductivity, and magnetic susceptibility) affect the timing and amplitude of returned radar energy. For example, variation in water or mineral content are physical properties that often influence the EM properties that are observed with GPR. For these deployments a MALA GX monitor and 450 MHz HDR antennas were used and measurements were made over several transects within the wetland. Additional details are contained in the ‘readme.txt’ files within each zip data directory.
## Contacts
Point of Contact
:
[Neil C Terry](/catalog/catalogParty/show?partyId=71778)
Originator
:
[Neil C Terry](/catalog/catalogParty/show?partyId=71778),
[Martin A Briggs](/catalog/catalogParty/show?partyId=60112),
[Elizabeth Rutila](/catalog/catalogParty/show?partyId=Elizabeth+Rutila),
[Dale Werkema](/catalog/catalogParty/show?partyId=Dale+Werkema),
[Stephen Dyment](/catalog/catalogParty/show?partyId=Stephen+Dyment)
Metadata Contact
:
[Neil C Terry](/catalog/catalogParty/show?partyId=71778)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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| | | | |
| --- | --- | --- | --- |
| Silverton\_GPR\_metadata.xml<br>_Original FGDC Metadata_ | View | 10.35 KB | application/fgdc+xml |
| gpr.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5e82a916e4b01d5092794b8b?f=__disk__3e%2F27%2Fc6%2F3e27c6580057502a402cedf071c4ea07e655a875&width=150&height=67) | 813 KB | image/jpeg |
| Raw.zip | | 402.58 MB | application/zip |
| readme.txt | | 637 Bytes | text/plain |
| Scripts.zip | | 3.32 KB | application/zip |
## Purpose
These GPR data were collected experimentally to determine the potential of radar for future research at the field site. In particular, the data were collected to look at variations in notable reflectors and zones of attenuation that might indicate important horizons within the peat and variations in groundwater quality, respectively.
## Preview Image
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## [Map](/catalog/item/imap/5e82a916e4b01d5092794b8b)
[![Map Preview](https://www.sciencebase.gov/catalog/file/get/5e82a916e4b01d5092794b8b?f=__disk__be%2F5a%2F0f%2Fbe5a0fb7746b582d75c185ba0e6cbee92fbc7499)](/catalog/item/imap/5e82a916e4b01d5092794b8b)
## Communities
- USGS New York Water Science Center
## Tags
Theme
- [Groundwater](/catalog/items?q=&filter=tags%3DGroundwater "Groundwater (Groundwater, Theme, USGS Thesaurus)")
- [InlandWaters](/catalog/items?q=&filter=tags%3DInlandWaters "InlandWaters (InlandWaters, Theme, USGS Thesaurus)")
- [Surface Water](/catalog/items?q=&filter=tags%3DSurface+Water "Surface Water (Surface Water, Theme, USGS Thesaurus)")
- [environment](/catalog/items?q=&filter=tags%3Denvironment "environment (environment, Theme, ISO 19115 Topic Category)")
- [geophysics](/catalog/items?q=&filter=tags%3Dgeophysics "geophysics (geophysics, Theme, USGS Thesaurus)")
- [geoscientificInformation](/catalog/items?q=&filter=tags%3DgeoscientificInformation "geoscientificInformation (geoscientificInformation, Theme, ISO 19115 Topic Category)")
- [ground penetrating radar](/catalog/items?q=&filter=tags%3Dground+penetrating+radar "ground penetrating radar (ground penetrating radar, Theme, USGS Thesaurus)")
- [hydrology](/catalog/items?q=&filter=tags%3Dhydrology "hydrology (hydrology, Theme, USGS Thesaurus)")
- [wetland functions](/catalog/items?q=&filter=tags%3Dwetland+functions "wetland functions (wetland functions, Theme, USGS Thesaurus)")
Place
- [California Gulch](/catalog/items?q=&filter=tags%3DCalifornia+Gulch "California Gulch (California Gulch, Place, None)")
- [Cement Creek](/catalog/items?q=&filter=tags%3DCement+Creek "Cement Creek (Cement Creek, Place, None)")
- [Colorado](/catalog/items?q=&filter=tags%3DColorado "Colorado (Colorado, Place, None)")
- [Silverton](/catalog/items?q=&filter=tags%3DSilverton "Silverton (Silverton, Place, None)")
## Provenance
Data sourceInput directly
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Neil Terry</origin>\n <origin>Martin Briggs</origin>\n <origin>Elizabeth Rutila</origin>\n <origin>Dale Werkema</origin>\n <origin>Stephen Dyment</origin>\n <pubdate>20200512</pubdate>\n <title>Ground penetrating radar (GPR) data collected in a mine-impacted wetland near Silverton, Colorado in September 2019</title>\n <geoform>ground penetrating radar data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <othercit>Terry, N., M.A. Briggs, Rutila, E., D. Werkema, and Dyment, S., 2020, Near-surface geophysical data collected along streams near Silverton, Colorado, USA: U.S. Geological Survey, doi:https://doi.org/10.5066/P97HDPAY</othercit>\n <onlink>https://doi.org/10.5066/P97HDPAY</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This child item contains ground penetrating radar (GPR) data collected over a small alpine wetland between Mogul Mine and Cement Creek located near Silverton, Colorado. Mine-impacted water is transported to Cement Creek via surface channels and groundwater through this wetland. The GPR method transmits radar pulses into the ground and measures the returned amplitude from these pulses over time. Variations in subsurface electromagnetic (EM) properties (dielectric permittivity, electrical conductivity, and magnetic susceptibility) affect the timing and amplitude of returned radar energy. For example, variation in water or mineral content are physical properties that often influence the EM properties that are observed with GPR. For these deployments a MALA GX monitor and 450 MHz HDR antennas were used and measurements were made over several transects within the wetland. Additional details are contained in the \xe2\x80\x98readme.txt\xe2\x80\x99 files within each zip data directory.</abstract>\n <purpose>These GPR data were collected experimentally to determine the potential of radar for future research at the field site. In particular, the data were collected to look at variations in notable reflectors and zones of attenuation that might indicate important horizons within the peat and variations in groundwater quality, respectively.</purpose>\n <supplinf>Data collection and analysis has been supported by a variety of sources, including: The U.S. Department of Environmental Protection (USEPA), U.S. Geological Survey (USGS) Office of Groundwater, and the USGS Toxics Substances Hydrology Program.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20190905</begdate>\n <enddate>20190911</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>In work</progress>\n <update>Irregular</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-107.650189</westbc>\n <eastbc>-107.569008</eastbc>\n <northbc>37.934210</northbc>\n <southbc>37.891172</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Groundwater</themekey>\n <themekey>InlandWaters</themekey>\n <themekey>Surface Water</themekey>\n <themekey>ground penetrating radar</themekey>\n <themekey>wetland functions</themekey>\n <themekey>hydrology</themekey>\n <themekey>geophysics</themekey>\n </theme>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>geoscientificInformation</themekey>\n <themekey>environment</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5e82a916e4b01d5092794b8b</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Colorado</placekey>\n <placekey>Silverton</placekey>\n <placekey>Cement Creek</placekey>\n <placekey>California Gulch</placekey>\n </place>\n </keywords>\n <accconst>None. Acknowledgement of the U.S. Geological Survey would be appreciated in products derived from this data release.</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Neil Terry</cntper>\n <cntorg>U.S. Geological Survey, Hydrogeophysics Branch</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>U.S. Geological Survey, 11 Sherman Place, Unit 5015</address>\n <city>Storrs</city>\n <state>CT</state>\n <postal>06269</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>860-487-7402</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Data collection and analysis has been supported by a variety of sources, including: The U.S. Department of Environmental Protection (USEPA), U.S. Geological Survey (USGS) Office of Groundwater, and the USGS Toxics Substances Hydrology Program.</datacred>\n <native>.rd7, .rd3, .rad, and .cor (instrument files), .r (conversion script), .txt (readme files)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>These data include raw instrument files, with these data being processed to varied degrees, depending on the specific objectives of the work. These details are all described in the local readme files for each field deployment/method.</attraccr>\n </attracc>\n <logic>Data were reviewed for consistency.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Data were collected in a variety of ways depending on the method and objective, as described in the local readme files for each field deployment.</procdesc>\n <procdate>2020</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Cement Creek, Silverton, CO, USA</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.001</latres>\n <longres>0.001</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>North American Datum of 1983</horizdn>\n <ellips>GRS 1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Raw.zip</enttypl>\n <enttypd>This zip directory contains raw GPR data files as detailed by the internal 'Read.me' file.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Scripts.zip</enttypl>\n <enttypd>This zip directory contains a conversion script to convert raw instrument data to .csv as detailed by the internal 'Read.me' file.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>README.txt</enttypl>\n <enttypd>This high level text file describes the content of the .zip directories of this GPR child item of the data release.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - ScienceBase Catalogue</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. \nAlthough this information product, for the most part, is in the public domain, it also may contain copyrighted materials as noted in the text. Permission to reproduce copyrighted items must be secured from the copyright owner.\nUnless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.\nAlthough these data have been processed successfully on a computer system at the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. The USGS or the U.S. Government shall not be held liable for improper or incorrect use of the data described and/or contained herein.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200818</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Neil Terry</cntper>\n <cntorg>U.S. Geological Survey, Hydrogeophysics Branch</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>U.S. Geological Survey, 11 Sherman Place, Unit 5015</address>\n <city>Storrs</city>\n <state>CT</state>\n <postal>06269</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>860-487-7402</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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3. [Velocity profiling at the US Army Corps of Engineers Electric Dispersal Barrier in the Chicago Sanitary and Ship Canal during passage of fully loaded commercial tows in August 2016](/catalog/item/584adbb6e4b07e29c706de0d)
4. [Velocity profiling at the US Army Corps of Engineers Electric Dispersal Barrier in the Chicago Sanitary and Ship Canal during passage of fully loaded commercial tows in August 2016: Barge Mounted Channel Master](/catalog/folder/58531790e4b0e2663625f1b9)
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## Dates
Publication Date2017Time Period2016-08-02Time Period2016-08-03Time Period2016-08-04Time Period2016-08-05Time Period2016-08-08Time Period2016-08-09Time Period2016-08-10Time Period2016-08-11
## Citation
LeRoy, J.Z., Jackson, P.R., and Engel, F.L., 2017, Velocity profiling at the US Army Corps of Engineers Electric Dispersal Barrier in the Chicago Sanitary and Ship Canal during passage of fully loaded commercial tows in August 2016: U.S. Geological Survey data release, https://doi.org/10.5066/F7K35RTP.
## Summary
In 2016, the U.S. Fish and Wildlife Service, U.S. Geological Survey, and U.S. Army Corps of Engineers undertook a large-scale interagency field study to determine the influence of commercial barge vessels on the efficacy of the Electric Dispersal Barrier System (EDBS) in the Chicago Sanitary and Ship Canal (CSSC) in preventing fish passage. This study included a series of trials in which a tow, consisting of a tug vessel and six fully-loaded barges, transited the EDBS in both upstream-bound (n = 23) and downstream-bound (n = 22) directions. A 1,200 kHz Teledyne RDI Channel Master Acoustic Doppler Velocity Meter (ADVM) was mounted on the barge at the position of the rake-to-box junction. The ADVM faced outward from the side of the barge \[...\]
## Summary
In 2016, the U.S. Fish and Wildlife Service, U.S. Geological Survey, and U.S. Army Corps of Engineers undertook a large-scale interagency field study to determine the influence of commercial barge vessels on the efficacy of the Electric Dispersal Barrier System (EDBS) in the Chicago Sanitary and Ship Canal (CSSC) in preventing fish passage. This study included a series of trials in which a tow, consisting of a tug vessel and six fully-loaded barges, transited the EDBS in both upstream-bound (n = 23) and downstream-bound (n = 22) directions. A 1,200 kHz Teledyne RDI Channel Master Acoustic Doppler Velocity Meter (ADVM) was mounted on the barge at the position of the rake-to-box junction. The ADVM faced outward from the side of the barge (side-looking) and was placed at a depth of 1.4 meters below the water surface. The ADVM was located at a distance of 0.7 meters from the box side of the gap (measured toward the rake), and recessed 0.93 meters into the gap as measured perpendicular to the side of the barge. The side-looking ADVM measured horizontal profiles of streamwise and cross-stream components of velocity at 35 bins spaced by 0.5 meters starting at 0.8 meters and up to 17.8 meters measured perpendicular to the side of the barge, unless the barge was within 17.8 meters of the West canal wall. All velocity measurements represent an average of 10 pings, recorded every 10 seconds during measurement. A Hemisphere V102(TM) differential GPS (dGPS) with Doppler-based heading was mounted on the box side of the rake-to-box junction and synchronized with the side-looking ADVM. The dGPS provided sub-meter accuracy positions, heading (accuracy ± 0.75°), and speed of the tow at a sampling frequency of 10 Hz. The time-stamped velocity measurements from the barge-mounted ADVM was matched to the nearest-in-time dGPS position and corrected for the velocity of the moving tow. Once corrected for the movement of the tow, the velocity data were rotated into the local streamwise-normal coordinate system, such that reported streamwise velocities are parallel to the banklines of the CSSC at the EDBS and positive downstream, and reported cross-stream velocities are perpendicular to the banklines and positive toward the east canal bank. All ADVM velocity time series data are included in this data release as Comma Separated Value (CSV) files. This Data Product is related to these other data products collected at the EDBS during the August 2016 study period: - Wall mounted CM data link - Wall mounted SW data link - Barge mounted CM data link - Barge mounted SW data link
## Contacts
Point of Contact
:
[Jessica Z. LeRoy](/catalog/catalogParty/show?partyId=Jessica+Z.+LeRoy)
Originator
:
[Jessica Z. LeRoy](/catalog/catalogParty/show?partyId=Jessica+Z.+LeRoy),
[P. Ryan Jackson](/catalog/catalogParty/show?partyId=P.+Ryan+Jackson),
[Frank L. Engel](/catalog/catalogParty/show?partyId=Frank+L.+Engel)
Metadata Contact
:
[Frank L. Engel](/catalog/catalogParty/show?partyId=Frank+L.+Engel)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey+-+ScienceBase)
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| | | | |
| --- | --- | --- | --- |
| Barge\_Mounted\_Channel\_Master.xml<br>“Metadata”<br>_Original FGDC Metadata_ | View | 1.78 MB | application/fgdc+xml |
| BargeChannelMaster\_CSV.zip<br>“Zipped folder containing CSV data files” | | 563.36 KB | application/zip |
## Purpose
Data were obtained to determine the influence of commercial barge vessels on the efficacy of the Electric Dispersal Barrier System (EDBS) in the Chicago Sanitary and Ship Canal (CSSC) in preventing fish passage.
## [Map](/catalog/item/imap/58531790e4b0e2663625f1b9)
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## Communities
- USGS Data Release Products
## Tags
Theme
- [acoustic doppler current profiling](/catalog/items?q=&filter=tags%3Dacoustic+doppler+current+profiling "acoustic doppler current profiling (acoustic doppler current profiling, Theme, USGS Thesaurus)")
- [hydrodynamics](/catalog/items?q=&filter=tags%3Dhydrodynamics "hydrodynamics (hydrodynamics, Theme, USGS Thesaurus)")
Place
- [Chicago Sanitary and Ship Canal](/catalog/items?q=&filter=tags%3DChicago+Sanitary+and+Ship+Canal "Chicago Sanitary and Ship Canal (Chicago Sanitary and Ship Canal, Place, Geographic Names Information System)")
- [Illinois](/catalog/items?q=&filter=tags%3DIllinois "Illinois (Illinois, Place, Geographic Names Information System)")
- [Romeoville](/catalog/items?q=&filter=tags%3DRomeoville "Romeoville (Romeoville, Place, Geographic Names Information System)")
- [Will County](/catalog/items?q=&filter=tags%3DWill+County "Will County (Will County, Place, Geographic Names Information System)")
## Provenance
Data sourceInput directly
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Jessica Z. LeRoy</origin>\n <origin>P. Ryan Jackson</origin>\n <origin>Frank L. Engel</origin>\n <pubdate>20161220</pubdate>\n <title>Velocity profiling at the US Army Corps of Engineers Electric Dispersal Barrier in the Chicago Sanitary and Ship Canal during passage of fully loaded commercial tows: Barge Mounted Channel Master in August 2016</title>\n <geoform>Tabular data (CSV)</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://dx.doi.org/10.5066/F7K35RTP</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>In 2016, the U.S. Fish and Wildlife Service, U.S. Geological Survey, and U.S. Army Corps of Engineers undertook a large-scale interagency field study to determine the influence of commercial barge vessels on the efficacy of the Electric Dispersal Barrier System (EDBS) in the Chicago Sanitary and Ship Canal (CSSC) in preventing fish passage. This study included a series of trials in which a tow, consisting of a tug vessel and six fully-loaded barges, transited the EDBS in both upstream-bound (n = 23) and downstream-bound (n = 22) directions. \n\nA 1,200 kHz Teledyne RDI Channel Master Acoustic Doppler Velocity Meter (ADVM) was mounted on the barge at the position of the rake-to-box junction. The ADVM faced outward from the side of the barge (side-looking) and was placed at a depth of 1.4 meters below the water surface. The ADVM was located at a distance of 0.7 meters from the box side of the gap (measured toward the rake), and recessed 0.93 meters into the gap as measured perpendicular to the side of the barge. \n\nThe side-looking ADVM measured horizontal profiles of streamwise and cross-stream components of velocity at 35 bins spaced by 0.5 meters starting at 0.8 meters and up to 17.8 meters measured perpendicular to the side of the barge, unless the barge was within 17.8 meters of the West canal wall. All velocity measurements represent an average of 10 pings, recorded every 10 seconds during measurement.\n\nA Hemisphere V102(TM) differential GPS (dGPS) with Doppler-based heading was mounted on the box side of the rake-to-box junction and synchronized with the side-looking ADVM. The dGPS provided sub-meter accuracy positions, heading (accuracy \xc2\xb1 0.75\xc2\xb0), and speed of the tow at a sampling frequency of 10 Hz. The time-stamped velocity measurements from the barge-mounted ADVM was matched to the nearest-in-time dGPS position and corrected for the velocity of the moving tow. Once corrected for the movement of the tow, the velocity data were rotated into the local streamwise-normal coordinate system, such that reported streamwise velocities are parallel to the banklines of the CSSC at the EDBS and positive downstream, and reported cross-stream velocities are perpendicular to the banklines and positive toward the east canal bank. All ADVM velocity time series data are included in this data release as Comma Separated Value (CSV) files.</abstract>\n <purpose>Data were obtained to determine the influence of commercial barge vessels on the efficacy of the Electric Dispersal Barrier System (EDBS) in the Chicago Sanitary and Ship Canal (CSSC) in preventing fish passage.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>20160802</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160803</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160804</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160805</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160808</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160809</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160810</caldate>\n </sngdate>\n <sngdate>\n <caldate>20160811</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>As needed</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-88.0607843399</westbc>\n <eastbc>-88.0590033531</eastbc>\n <northbc>41.646556618</northbc>\n <southbc>41.6401176031</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>hydrodynamics</themekey>\n <themekey>acoustic doppler current profiling</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:58531790e4b0e2663625f1b9</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Illinois</placekey>\n <placekey>Will County</placekey>\n <placekey>Romeoville</placekey>\n <placekey>Chicago Sanitary and Ship Canal</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Jessica Z. LeRoy</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>405 N. Goodwin Ave</address>\n <city>Urbana</city>\n <state>Illinois</state>\n <postal>61801</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>217-328-9765</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Great Lakes Restoration Initiative</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Review ADVM cell and dGPS data for accuracy and completeness</procdesc>\n <procdate>20161208</procdate>\n </procstep>\n <procstep>\n <procdesc>Match ADVM cells to nearest-in-time dGPS measurement and correct ADVM velocities for the speed of the tow</procdesc>\n <procdate>20161208</procdate>\n </procstep>\n <procstep>\n <procdesc>Rotate ADVM cell data into the local streamwise-normal coordinate system, such that reported streamwise velocities are parallel to the banklines of the CSSC at the EDBS and positive downstream, and reported cross-stream velocities are perpendicular to the banklines and positive toward the East canal bank</procdesc>\n <procdate>20161208</procdate>\n </procstep>\n <procstep>\n <procdesc>Assemble reviewed and processed data into Comma Separated Value (CSV) files according to experiment trial number</procdesc>\n <procdate>20161208</procdate>\n </procstep>\n <procstep>\n <procdesc>Assemble metadata using detailed field and processing notes. Metadata created using custom Matlab scripts.</procdesc>\n <procdate>20161213</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Data collected in the Chicago Sanitary and Ship Canal near Romeoville, Will County, Illinois.</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>08022016_CMBarge_down1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2016</rdommin>\n <rdommax>2016</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>2</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>50</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.641</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411770</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.64</rdommin>\n <rdommax>8.98</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>183.11</rdommin>\n <rdommax>193.09</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.98773</rdommin>\n <rdommax>1.3787</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24199</rdommin>\n <rdommax>0.21482</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32215</rdommin>\n <rdommax>0.14159</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36958</rdommin>\n <rdommax>0.10205</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35459</rdommin>\n <rdommax>0.093294</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40333</rdommin>\n <rdommax>0.11028</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41911</rdommin>\n <rdommax>0.071897</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40119</rdommin>\n <rdommax>0.093531</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40529</rdommin>\n <rdommax>0.12836</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41817</rdommin>\n <rdommax>0.071231</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43687</rdommin>\n <rdommax>0.030675</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42237</rdommin>\n <rdommax>0.070244</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43794</rdommin>\n <rdommax>0.050738</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42504</rdommin>\n <rdommax>-0.065353</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40125</rdommin>\n <rdommax>0.0011401</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41543</rdommin>\n <rdommax>-0.0058285</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.4267</rdommin>\n <rdommax>-0.004831</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40188</rdommin>\n <rdommax>-0.055579</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40409</rdommin>\n <rdommax>-0.037436</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42417</rdommin>\n <rdommax>-0.015529</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3798</rdommin>\n <rdommax>-0.00077368</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42099</rdommin>\n <rdommax>-0.013121</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37081</rdommin>\n <rdommax>-0.029394</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36377</rdommin>\n <rdommax>-0.094554</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37556</rdommin>\n <rdommax>-0.13189</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3746</rdommin>\n <rdommax>-0.10785</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37609</rdommin>\n <rdommax>-0.079863</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39758</rdommin>\n <rdommax>-0.055229</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.50618</rdommin>\n <rdommax>0.029792</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45613</rdommin>\n <rdommax>0.080776</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.58411</rdommin>\n <rdommax>-0.022842</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15898</rdommin>\n <rdommax>0.059215</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15385</rdommin>\n <rdommax>0.085065</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14948</rdommin>\n <rdommax>0.087259</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14896</rdommin>\n <rdommax>0.088718</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13856</rdommin>\n <rdommax>0.10015</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13766</rdommin>\n <rdommax>0.13903</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13597</rdommin>\n <rdommax>0.14116</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13896</rdommin>\n <rdommax>0.12143</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1553</rdommin>\n <rdommax>0.12896</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14701</rdommin>\n <rdommax>0.13804</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12475</rdommin>\n <rdommax>0.14951</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14244</rdommin>\n <rdommax>0.14223</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13144</rdommin>\n <rdommax>0.15761</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12974</rdommin>\n <rdommax>0.16864</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12184</rdommin>\n <rdommax>0.1062</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13034</rdommin>\n <rdommax>0.10351</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10828</rdommin>\n <rdommax>0.12303</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10024</rdommin>\n <rdommax>0.12799</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12092</rdommin>\n <rdommax>0.14745</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1137</rdommin>\n <rdommax>0.12816</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.114</rdommin>\n <rdommax>0.12684</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1121</rdommin>\n <rdommax>0.11363</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10282</rdommin>\n <rdommax>0.12349</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.096077</rdommin>\n <rdommax>0.11618</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1055</rdommin>\n <rdommax>0.12093</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.094538</rdommin>\n <rdommax>0.13851</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.087086</rdommin>\n <rdommax>0.12351</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.091367</rdommin>\n <rdommax>0.2482</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.07944</rdommin>\n <rdommax>0.1219</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.085626</rdommin>\n <rdommax>0.21888</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08022016_CMBarge_down2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2016</rdommin>\n <rdommax>2016</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>2</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>19</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>52</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.641</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.059</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411770</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610500</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.99</rdommin>\n <rdommax>6.73</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>183.83</rdommin>\n <rdommax>192.58</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.93629</rdommin>\n <rdommax>1.353</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.023424</rdommin>\n <rdommax>0.49285</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.062952</rdommin>\n <rdommax>0.2961</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.078781</rdommin>\n <rdommax>0.2976</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.079607</rdommin>\n <rdommax>0.25534</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1225</rdommin>\n <rdommax>0.24868</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10447</rdommin>\n <rdommax>0.22751</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12484</rdommin>\n <rdommax>0.22889</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16542</rdommin>\n <rdommax>0.22102</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14354</rdommin>\n <rdommax>0.20716</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10978</rdommin>\n <rdommax>0.19293</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13349</rdommin>\n <rdommax>0.20502</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13172</rdommin>\n <rdommax>0.15185</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11072</rdommin>\n <rdommax>0.16113</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10141</rdommin>\n <rdommax>0.15267</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11659</rdommin>\n <rdommax>0.1631</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1095</rdommin>\n <rdommax>0.14206</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13259</rdommin>\n <rdommax>0.12108</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.076779</rdommin>\n <rdommax>0.12508</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11013</rdommin>\n <rdommax>0.13455</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12527</rdommin>\n <rdommax>0.10815</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10381</rdommin>\n <rdommax>0.12444</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19794</rdommin>\n <rdommax>0.12897</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27069</rdommin>\n <rdommax>0.15894</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56274</rdommin>\n <rdommax>0.1138</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15002</rdommin>\n <rdommax>0.063025</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13592</rdommin>\n <rdommax>0.10891</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13489</rdommin>\n <rdommax>0.1189</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11759</rdommin>\n <rdommax>0.13436</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11036</rdommin>\n <rdommax>0.13707</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11628</rdommin>\n <rdommax>0.1372</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12275</rdommin>\n <rdommax>0.14354</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10384</rdommin>\n <rdommax>0.14001</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10355</rdommin>\n <rdommax>0.14117</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.079921</rdommin>\n <rdommax>0.14383</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.076991</rdommin>\n <rdommax>0.15117</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.072986</rdommin>\n <rdommax>0.14579</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.069745</rdommin>\n <rdommax>0.14916</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.071124</rdommin>\n <rdommax>0.16892</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.073062</rdommin>\n <rdommax>0.15504</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.055798</rdommin>\n <rdommax>0.15278</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.054104</rdommin>\n <rdommax>0.17993</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.044693</rdommin>\n <rdommax>0.15713</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.044775</rdommin>\n <rdommax>0.15736</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.049029</rdommin>\n <rdommax>0.15753</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.03184</rdommin>\n <rdommax>0.16171</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10772</rdommin>\n <rdommax>0.089273</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.072249</rdommin>\n <rdommax>0.049271</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21062</rdommin>\n <rdommax>0.18288</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08022016_CMBarge_up1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2016</rdommin>\n <rdommax>2016</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>2</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>14</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>18</rdommin>\n <rdommax>26</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>54</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610300</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.99</rdommin>\n <rdommax>6.69</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.0077</rdommin>\n <rdommax>359.96</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1524</rdommin>\n <rdommax>1.5588</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16913</rdommin>\n <rdommax>0.53983</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18241</rdommin>\n <rdommax>0.55828</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16285</rdommin>\n <rdommax>0.53005</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18197</rdommin>\n <rdommax>0.58011</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20546</rdommin>\n <rdommax>0.54788</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16227</rdommin>\n <rdommax>0.58685</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19332</rdommin>\n <rdommax>0.5508</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21578</rdommin>\n <rdommax>0.58958</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22042</rdommin>\n <rdommax>0.58732</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17914</rdommin>\n <rdommax>0.57113</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.14896</rdommin>\n <rdommax>0.56946</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18665</rdommin>\n <rdommax>0.61389</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17598</rdommin>\n <rdommax>0.62026</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19404</rdommin>\n <rdommax>0.58801</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23276</rdommin>\n <rdommax>0.59286</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19707</rdommin>\n <rdommax>0.59507</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19344</rdommin>\n <rdommax>0.60238</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20467</rdommin>\n <rdommax>0.51464</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21022</rdommin>\n <rdommax>0.55564</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18423</rdommin>\n <rdommax>0.55128</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20997</rdommin>\n <rdommax>0.48819</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21305</rdommin>\n <rdommax>0.47862</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20761</rdommin>\n <rdommax>0.49319</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23188</rdommin>\n <rdommax>0.66246</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25565</rdommin>\n <rdommax>0.61348</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15728</rdommin>\n <rdommax>0.5881</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.098304</rdommin>\n <rdommax>0.7195</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24018</rdommin>\n <rdommax>0.2868</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.031064</rdommin>\n <rdommax>0.19219</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0166</rdommin>\n <rdommax>0.18182</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0053943</rdommin>\n <rdommax>0.15307</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.015705</rdommin>\n <rdommax>0.094687</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.044399</rdommin>\n <rdommax>0.080159</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.045332</rdommin>\n <rdommax>0.057723</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.049229</rdommin>\n <rdommax>0.035542</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.060007</rdommin>\n <rdommax>0.032319</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.067169</rdommin>\n <rdommax>0.021666</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.067807</rdommin>\n <rdommax>0.020398</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.070973</rdommin>\n <rdommax>0.022505</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.072723</rdommin>\n <rdommax>0.022243</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.086005</rdommin>\n <rdommax>0.018569</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.097289</rdommin>\n <rdommax>0.015228</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.093912</rdommin>\n <rdommax>0.015305</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10124</rdommin>\n <rdommax>0.015433</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12573</rdommin>\n <rdommax>0.018835</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14424</rdommin>\n <rdommax>0.020327</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11927</rdommin>\n <rdommax>0.032276</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11519</rdommin>\n <rdommax>0.038776</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11426</rdommin>\n <rdommax>0.0085645</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12668</rdommin>\n <rdommax>0.0085398</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13542</rdommin>\n <rdommax>0.0088611</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18835</rdommin>\n <rdommax>-0.010046</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18668</rdommin>\n <rdommax>-0.0041858</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15625</rdommin>\n <rdommax>0.0041167</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26257</rdommin>\n <rdommax>-0.030023</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14504</rdommin>\n <rdommax>-0.10565</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08022016_CMBarge_up2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2016</rdommin>\n <rdommax>2016</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>2</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>33</rdommin>\n <rdommax>42</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>57</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610300</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.59</rdommin>\n <rdommax>7.17</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.7739</rdommin>\n <rdommax>7.7674</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.95687</rdommin>\n <rdommax>1.4353</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12295</rdommin>\n <rdommax>0.55742</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16745</rdommin>\n <rdommax>0.54201</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15699</rdommin>\n <rdommax>0.55076</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15938</rdommin>\n <rdommax>0.54555</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19792</rdommin>\n <rdommax>0.56134</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18389</rdommin>\n <rdommax>0.52685</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18724</rdommin>\n <rdommax>0.57027</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15599</rdommin>\n <rdommax>0.56221</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1576</rdommin>\n <rdommax>0.59937</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16724</rdommin>\n <rdommax>0.59915</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19438</rdommin>\n <rdommax>0.5709</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16721</rdommin>\n <rdommax>0.54306</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18215</rdommin>\n <rdommax>0.54003</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1509</rdommin>\n <rdommax>0.5309</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.13752</rdommin>\n <rdommax>0.53869</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18035</rdommin>\n <rdommax>0.55779</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.14513</rdommin>\n <rdommax>0.58081</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1709</rdommin>\n <rdommax>0.60182</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.13988</rdommin>\n <rdommax>0.56388</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12006</rdommin>\n <rdommax>0.546</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1252</rdommin>\n <rdommax>0.54379</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.13177</rdommin>\n <rdommax>0.53196</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16707</rdommin>\n <rdommax>0.55157</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12415</rdommin>\n <rdommax>0.58176</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19222</rdommin>\n <rdommax>0.56368</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16183</rdommin>\n <rdommax>0.51687</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.069742</rdommin>\n <rdommax>0.4741</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19344</rdommin>\n <rdommax>0.46857</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.021194</rdommin>\n <rdommax>0.17161</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.012949</rdommin>\n <rdommax>0.15476</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.019105</rdommin>\n <rdommax>0.1437</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.033694</rdommin>\n <rdommax>0.064787</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.065241</rdommin>\n <rdommax>0.049005</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.06741</rdommin>\n <rdommax>0.027905</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0955</rdommin>\n <rdommax>0.025618</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.097431</rdommin>\n <rdommax>0.010865</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11176</rdommin>\n <rdommax>0.011431</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11244</rdommin>\n <rdommax>0.0096015</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.099298</rdommin>\n <rdommax>0.0040401</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11648</rdommin>\n <rdommax>-0.0066123</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11871</rdommin>\n <rdommax>-0.015546</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10991</rdommin>\n <rdommax>-0.002478</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11908</rdommin>\n <rdommax>-0.0012777</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11503</rdommin>\n <rdommax>-0.0044003</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12451</rdommin>\n <rdommax>-0.0051684</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11898</rdommin>\n <rdommax>-0.019922</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.121</rdommin>\n <rdommax>-0.009223</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12616</rdommin>\n <rdommax>-0.01528</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12606</rdommin>\n <rdommax>-0.0067548</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13254</rdommin>\n <rdommax>-0.021504</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12464</rdommin>\n <rdommax>-0.0098105</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13018</rdommin>\n <rdommax>-0.022087</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12438</rdommin>\n <rdommax>-0.014373</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12342</rdommin>\n <rdommax>-0.015233</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15436</rdommin>\n <rdommax>-0.018643</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14628</rdommin>\n <rdommax>-0.049561</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08032016_CMBarge_down1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>3</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>33</rdommin>\n <rdommax>42</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>57</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.66</rdommin>\n <rdommax>12.68</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>181.21</rdommin>\n <rdommax>195.37</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.82826</rdommin>\n <rdommax>1.5536</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26693</rdommin>\n <rdommax>0.18789</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28297</rdommin>\n <rdommax>0.14608</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30024</rdommin>\n <rdommax>0.11524</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37172</rdommin>\n <rdommax>0.091775</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39467</rdommin>\n <rdommax>0.15181</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39239</rdommin>\n <rdommax>0.009596</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32214</rdommin>\n <rdommax>0.036081</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34468</rdommin>\n <rdommax>0.012655</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36029</rdommin>\n <rdommax>0.034088</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38066</rdommin>\n <rdommax>-0.03512</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40219</rdommin>\n <rdommax>-0.042766</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.4284</rdommin>\n <rdommax>-0.011716</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39791</rdommin>\n <rdommax>-0.02724</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42024</rdommin>\n <rdommax>-0.04801</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40078</rdommin>\n <rdommax>0.00090486</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48559</rdommin>\n <rdommax>0.33527</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53136</rdommin>\n <rdommax>0.60141</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43933</rdommin>\n <rdommax>0.26144</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48803</rdommin>\n <rdommax>0.24951</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44659</rdommin>\n <rdommax>0.22678</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51721</rdommin>\n <rdommax>0.25476</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53114</rdommin>\n <rdommax>0.48127</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49171</rdommin>\n <rdommax>0.51844</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.60137</rdommin>\n <rdommax>0.54458</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.93584</rdommin>\n <rdommax>0.59266</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52187</rdommin>\n <rdommax>0.59509</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.6136</rdommin>\n <rdommax>0.58971</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.55576</rdommin>\n <rdommax>0.5882</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.86942</rdommin>\n <rdommax>0.58581</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.81406</rdommin>\n <rdommax>0.49143</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27446</rdommin>\n <rdommax>0.092545</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23537</rdommin>\n <rdommax>0.12306</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18427</rdommin>\n <rdommax>0.15746</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18976</rdommin>\n <rdommax>0.14383</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21629</rdommin>\n <rdommax>0.14219</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24281</rdommin>\n <rdommax>0.17629</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23534</rdommin>\n <rdommax>0.16436</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22679</rdommin>\n <rdommax>0.16575</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24502</rdommin>\n <rdommax>0.1934</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19713</rdommin>\n <rdommax>0.19132</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17477</rdommin>\n <rdommax>0.166</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19201</rdommin>\n <rdommax>0.17166</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18625</rdommin>\n <rdommax>0.15862</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20637</rdommin>\n <rdommax>0.15089</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20374</rdommin>\n <rdommax>0.25362</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18506</rdommin>\n <rdommax>0.18051</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21053</rdommin>\n <rdommax>0.28524</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20223</rdommin>\n <rdommax>0.26608</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17773</rdommin>\n <rdommax>0.19163</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19427</rdommin>\n <rdommax>0.14403</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17563</rdommin>\n <rdommax>0.1803</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21063</rdommin>\n <rdommax>0.15077</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24008</rdommin>\n <rdommax>0.045062</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41409</rdommin>\n <rdommax>0.10342</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37928</rdommin>\n <rdommax>0.18591</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21079</rdommin>\n <rdommax>0.091004</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23457</rdommin>\n <rdommax>0.13274</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2932</rdommin>\n <rdommax>0.063024</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27887</rdommin>\n <rdommax>0.10903</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.46757</rdommin>\n <rdommax>0.23095</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08032016_CMBarge_down2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>3</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>39</rdommin>\n <rdommax>46</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>52</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.641</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411750</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.36</rdommin>\n <rdommax>11.27</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>181.08</rdommin>\n <rdommax>188.44</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.2089</rdommin>\n <rdommax>1.5639</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24327</rdommin>\n <rdommax>0.26345</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26582</rdommin>\n <rdommax>0.22918</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35503</rdommin>\n <rdommax>0.24269</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39465</rdommin>\n <rdommax>0.11649</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27588</rdommin>\n <rdommax>0.14746</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40948</rdommin>\n <rdommax>0.11017</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30598</rdommin>\n <rdommax>0.081152</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29246</rdommin>\n <rdommax>0.085068</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29744</rdommin>\n <rdommax>0.083564</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34737</rdommin>\n <rdommax>0.0074754</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30516</rdommin>\n <rdommax>0.010091</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31202</rdommin>\n <rdommax>0.025582</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31551</rdommin>\n <rdommax>0.068527</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31935</rdommin>\n <rdommax>-0.026337</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34409</rdommin>\n <rdommax>0.0012596</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31628</rdommin>\n <rdommax>0.11167</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.63157</rdommin>\n <rdommax>-0.044896</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42712</rdommin>\n <rdommax>0.10012</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3287</rdommin>\n <rdommax>0.057128</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51235</rdommin>\n <rdommax>0.066412</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31646</rdommin>\n <rdommax>0.40642</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.76422</rdommin>\n <rdommax>0.47427</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.81504</rdommin>\n <rdommax>0.51347</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.6741</rdommin>\n <rdommax>0.62096</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49855</rdommin>\n <rdommax>0.80228</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.86736</rdommin>\n <rdommax>0.78854</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.89382</rdommin>\n <rdommax>0.71883</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29654</rdommin>\n <rdommax>-0.023979</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28436</rdommin>\n <rdommax>0.011091</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29418</rdommin>\n <rdommax>-0.0012991</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26744</rdommin>\n <rdommax>0.0050472</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21843</rdommin>\n <rdommax>0.036972</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21466</rdommin>\n <rdommax>0.035339</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2024</rdommin>\n <rdommax>0.036274</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19609</rdommin>\n <rdommax>0.049663</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21208</rdommin>\n <rdommax>0.043636</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21009</rdommin>\n <rdommax>0.064644</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20608</rdommin>\n <rdommax>0.069132</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19709</rdommin>\n <rdommax>0.067256</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19311</rdommin>\n <rdommax>0.078415</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20011</rdommin>\n <rdommax>0.089676</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19589</rdommin>\n <rdommax>0.099366</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17916</rdommin>\n <rdommax>0.12414</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32246</rdommin>\n <rdommax>0.37885</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18011</rdommin>\n <rdommax>0.28232</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.178</rdommin>\n <rdommax>0.055079</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19012</rdommin>\n <rdommax>0.38298</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19448</rdommin>\n <rdommax>0.1343</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28937</rdommin>\n <rdommax>0.1314</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18827</rdommin>\n <rdommax>0.39629</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18591</rdommin>\n <rdommax>0.30683</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18694</rdommin>\n <rdommax>0.32851</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35455</rdommin>\n <rdommax>0.11355</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26892</rdommin>\n <rdommax>0.1389</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08032016_CMBarge_up1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>3</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>52</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411750</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610300</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.17</rdommin>\n <rdommax>358.69</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.8837</rdommin>\n <rdommax>8.1183</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.3221</rdommin>\n <rdommax>1.6514</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18551</rdommin>\n <rdommax>0.57079</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21079</rdommin>\n <rdommax>0.594</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24464</rdommin>\n <rdommax>0.58209</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28414</rdommin>\n <rdommax>0.60022</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22387</rdommin>\n <rdommax>0.61876</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24526</rdommin>\n <rdommax>0.59194</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24984</rdommin>\n <rdommax>0.61028</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26362</rdommin>\n <rdommax>0.62937</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24493</rdommin>\n <rdommax>0.7295</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2424</rdommin>\n <rdommax>0.61894</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23038</rdommin>\n <rdommax>0.60331</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22292</rdommin>\n <rdommax>0.63851</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27128</rdommin>\n <rdommax>0.6358</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28343</rdommin>\n <rdommax>0.64008</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24703</rdommin>\n <rdommax>0.63005</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23727</rdommin>\n <rdommax>0.61991</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27436</rdommin>\n <rdommax>0.63927</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25834</rdommin>\n <rdommax>0.62488</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28567</rdommin>\n <rdommax>0.63047</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27624</rdommin>\n <rdommax>0.59464</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2855</rdommin>\n <rdommax>0.61305</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24426</rdommin>\n <rdommax>0.60547</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27999</rdommin>\n <rdommax>0.61495</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26517</rdommin>\n <rdommax>0.61085</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2453</rdommin>\n <rdommax>0.60945</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18877</rdommin>\n <rdommax>0.64925</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18737</rdommin>\n <rdommax>0.63147</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18305</rdommin>\n <rdommax>0.62103</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1662</rdommin>\n <rdommax>0.6185</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18198</rdommin>\n <rdommax>0.59123</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.06735</rdommin>\n <rdommax>0.21533</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.035285</rdommin>\n <rdommax>0.20787</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.020708</rdommin>\n <rdommax>0.1521</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.011675</rdommin>\n <rdommax>0.12084</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0071069</rdommin>\n <rdommax>0.088958</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.030811</rdommin>\n <rdommax>0.082403</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.037965</rdommin>\n <rdommax>0.083185</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.05388</rdommin>\n <rdommax>0.072276</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.060729</rdommin>\n <rdommax>0.060985</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.08306</rdommin>\n <rdommax>0.048224</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.092083</rdommin>\n <rdommax>0.045715</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.097378</rdommin>\n <rdommax>0.04681</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.09151</rdommin>\n <rdommax>0.045124</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.085382</rdommin>\n <rdommax>0.046314</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1087</rdommin>\n <rdommax>0.054041</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.098273</rdommin>\n <rdommax>0.040288</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10384</rdommin>\n <rdommax>0.046313</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10819</rdommin>\n <rdommax>0.048693</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10484</rdommin>\n <rdommax>0.053355</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10273</rdommin>\n <rdommax>0.067661</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.098166</rdommin>\n <rdommax>0.063336</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11998</rdommin>\n <rdommax>0.04489</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11853</rdommin>\n <rdommax>0.04641</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12423</rdommin>\n <rdommax>0.011549</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13142</rdommin>\n <rdommax>0.030617</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10535</rdommin>\n <rdommax>0.032795</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13071</rdommin>\n <rdommax>0.0079605</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12096</rdommin>\n <rdommax>0.013311</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12407</rdommin>\n <rdommax>0.0091212</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12969</rdommin>\n <rdommax>-0.030668</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08032016_CMBarge_up2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>3</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6</rdommin>\n <rdommax>13</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>55</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.03</rdommin>\n <rdommax>9.77</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.6041</rdommin>\n <rdommax>8.8381</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1575</rdommin>\n <rdommax>1.7234</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2053</rdommin>\n <rdommax>0.63486</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23735</rdommin>\n <rdommax>0.61454</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25337</rdommin>\n <rdommax>0.65649</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19588</rdommin>\n <rdommax>0.65356</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21753</rdommin>\n <rdommax>0.68346</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20269</rdommin>\n <rdommax>0.67474</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22258</rdommin>\n <rdommax>0.65522</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21923</rdommin>\n <rdommax>0.67586</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2332</rdommin>\n <rdommax>0.65736</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20367</rdommin>\n <rdommax>0.69371</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15123</rdommin>\n <rdommax>0.65928</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15997</rdommin>\n <rdommax>0.646</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23472</rdommin>\n <rdommax>0.66032</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15363</rdommin>\n <rdommax>0.64951</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2063</rdommin>\n <rdommax>0.69216</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1945</rdommin>\n <rdommax>0.70246</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18005</rdommin>\n <rdommax>0.69012</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1649</rdommin>\n <rdommax>0.72703</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15732</rdommin>\n <rdommax>0.73859</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12844</rdommin>\n <rdommax>0.70813</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12326</rdommin>\n <rdommax>0.6881</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12837</rdommin>\n <rdommax>0.6771</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15092</rdommin>\n <rdommax>0.74404</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.10506</rdommin>\n <rdommax>0.72156</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.13618</rdommin>\n <rdommax>0.69868</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12596</rdommin>\n <rdommax>0.75267</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.011914</rdommin>\n <rdommax>0.7472</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.081148</rdommin>\n <rdommax>0.73698</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.045736</rdommin>\n <rdommax>0.66738</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.04621</rdommin>\n <rdommax>0.54215</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.089007</rdommin>\n <rdommax>0.24324</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.055051</rdommin>\n <rdommax>0.23448</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.021044</rdommin>\n <rdommax>0.21586</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.014434</rdommin>\n <rdommax>0.14743</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.013495</rdommin>\n <rdommax>0.10835</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.035611</rdommin>\n <rdommax>0.082884</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.045216</rdommin>\n <rdommax>0.064241</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.058286</rdommin>\n <rdommax>0.053289</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.060726</rdommin>\n <rdommax>0.047716</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.071744</rdommin>\n <rdommax>0.030294</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.088347</rdommin>\n <rdommax>0.052077</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.092664</rdommin>\n <rdommax>0.031752</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.083472</rdommin>\n <rdommax>0.025908</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.089609</rdommin>\n <rdommax>0.018393</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10259</rdommin>\n <rdommax>0.029868</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.089886</rdommin>\n <rdommax>0.040622</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10678</rdommin>\n <rdommax>0.028257</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.096323</rdommin>\n <rdommax>0.026907</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10073</rdommin>\n <rdommax>0.013316</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10677</rdommin>\n <rdommax>0.021986</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11181</rdommin>\n <rdommax>0.0091346</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11429</rdommin>\n <rdommax>0.012131</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10974</rdommin>\n <rdommax>0.027314</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12597</rdommin>\n <rdommax>0.015258</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14334</rdommin>\n <rdommax>0.023795</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11591</rdommin>\n <rdommax>0.019166</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15532</rdommin>\n <rdommax>0.00034166</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13336</rdommin>\n <rdommax>0.0049059</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13641</rdommin>\n <rdommax>0.011709</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12549</rdommin>\n <rdommax>0.0078628</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08042016_CMBarge_down1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>4</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>8</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>54</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.66</rdommin>\n <rdommax>12.31</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>182.08</rdommin>\n <rdommax>193.47</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1472</rdommin>\n <rdommax>1.6565</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27961</rdommin>\n <rdommax>0.287</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34315</rdommin>\n <rdommax>0.2061</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34359</rdommin>\n <rdommax>0.18587</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34642</rdommin>\n <rdommax>0.089846</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42425</rdommin>\n <rdommax>0.0919</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3716</rdommin>\n <rdommax>0.051955</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39005</rdommin>\n <rdommax>0.062225</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45733</rdommin>\n <rdommax>0.10438</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39072</rdommin>\n <rdommax>0.099866</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39911</rdommin>\n <rdommax>0.087305</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44861</rdommin>\n <rdommax>0.069249</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40368</rdommin>\n <rdommax>0.036638</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39006</rdommin>\n <rdommax>0.065335</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37445</rdommin>\n <rdommax>0.04993</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44619</rdommin>\n <rdommax>0.047905</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41532</rdommin>\n <rdommax>0.34832</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31992</rdommin>\n <rdommax>0.076514</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31837</rdommin>\n <rdommax>0.21057</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36722</rdommin>\n <rdommax>0.16382</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.92891</rdommin>\n <rdommax>0.23989</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32473</rdommin>\n <rdommax>0.33735</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.54954</rdommin>\n <rdommax>0.52321</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.81355</rdommin>\n <rdommax>0.64512</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29601</rdommin>\n <rdommax>0.54397</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.97485</rdommin>\n <rdommax>0.63354</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64432</rdommin>\n <rdommax>0.64723</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.67432</rdommin>\n <rdommax>0.66928</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39609</rdommin>\n <rdommax>0.76119</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.93042</rdommin>\n <rdommax>0.56228</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.96465</rdommin>\n <rdommax>0.78242</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2314</rdommin>\n <rdommax>0.033177</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24725</rdommin>\n <rdommax>0.067111</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24839</rdommin>\n <rdommax>0.096166</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24789</rdommin>\n <rdommax>0.10347</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23463</rdommin>\n <rdommax>0.12347</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18931</rdommin>\n <rdommax>0.13583</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16635</rdommin>\n <rdommax>0.13109</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1635</rdommin>\n <rdommax>0.14047</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1571</rdommin>\n <rdommax>0.15273</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14028</rdommin>\n <rdommax>0.14967</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15208</rdommin>\n <rdommax>0.14034</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14081</rdommin>\n <rdommax>0.10252</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12686</rdommin>\n <rdommax>0.11179</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12299</rdommin>\n <rdommax>0.088424</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17091</rdommin>\n <rdommax>0.091973</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2</rdommin>\n <rdommax>0.1217</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11301</rdommin>\n <rdommax>0.073608</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11723</rdommin>\n <rdommax>0.13775</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1403</rdommin>\n <rdommax>0.099038</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14317</rdommin>\n <rdommax>0.569</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19478</rdommin>\n <rdommax>0.3121</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51752</rdommin>\n <rdommax>0.38814</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22672</rdommin>\n <rdommax>0.59652</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32724</rdommin>\n <rdommax>0.29138</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19501</rdommin>\n <rdommax>0.31046</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3692</rdommin>\n <rdommax>0.27157</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2521</rdommin>\n <rdommax>0.14541</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25855</rdommin>\n <rdommax>0.20046</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.4461</rdommin>\n <rdommax>0.52897</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32506</rdommin>\n <rdommax>0.51895</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08042016_CMBarge_down2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>4</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>11</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>21</rdommin>\n <rdommax>29</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>54</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.04</rdommin>\n <rdommax>7.43</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>174.18</rdommin>\n <rdommax>195.45</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.93629</rdommin>\n <rdommax>1.5588</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34646</rdommin>\n <rdommax>0.29254</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40856</rdommin>\n <rdommax>0.18156</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3982</rdommin>\n <rdommax>0.083815</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45846</rdommin>\n <rdommax>0.033883</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52682</rdommin>\n <rdommax>0.03405</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.58925</rdommin>\n <rdommax>0.023439</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.60576</rdommin>\n <rdommax>0.022766</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.60495</rdommin>\n <rdommax>-0.095412</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.60677</rdommin>\n <rdommax>-0.1096</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.60064</rdommin>\n <rdommax>-0.10172</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.62421</rdommin>\n <rdommax>-0.071256</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.66337</rdommin>\n <rdommax>0.15738</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64273</rdommin>\n <rdommax>0.19202</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.62728</rdommin>\n <rdommax>0.20984</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.84845</rdommin>\n <rdommax>0.17678</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.47856</rdommin>\n <rdommax>0.4068</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39935</rdommin>\n <rdommax>0.47953</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.61094</rdommin>\n <rdommax>0.63208</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.90682</rdommin>\n <rdommax>0.74306</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.94076</rdommin>\n <rdommax>0.4706</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43966</rdommin>\n <rdommax>0.3827</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.46297</rdommin>\n <rdommax>0.46082</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35245</rdommin>\n <rdommax>0.66332</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26367</rdommin>\n <rdommax>-0.0045503</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28064</rdommin>\n <rdommax>0.00416</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24375</rdommin>\n <rdommax>0.02956</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23073</rdommin>\n <rdommax>0.054119</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24306</rdommin>\n <rdommax>0.082677</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22066</rdommin>\n <rdommax>0.086549</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20436</rdommin>\n <rdommax>0.11274</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2017</rdommin>\n <rdommax>0.097796</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18826</rdommin>\n <rdommax>0.094089</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20019</rdommin>\n <rdommax>0.089564</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20672</rdommin>\n <rdommax>0.072865</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21108</rdommin>\n <rdommax>0.078001</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21455</rdommin>\n <rdommax>0.089995</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19108</rdommin>\n <rdommax>0.080194</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36225</rdommin>\n <rdommax>0.099678</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1779</rdommin>\n <rdommax>0.11179</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29353</rdommin>\n <rdommax>0.053569</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27211</rdommin>\n <rdommax>0.25475</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2957</rdommin>\n <rdommax>0.48953</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17825</rdommin>\n <rdommax>0.29573</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1722</rdommin>\n <rdommax>0.18327</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1987</rdommin>\n <rdommax>0.40383</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18427</rdommin>\n <rdommax>0.41078</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08042016_CMBarge_down3.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>4</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>17</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>55</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.641</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.31</rdommin>\n <rdommax>13.43</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>181.19</rdommin>\n <rdommax>194.02</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1318</rdommin>\n <rdommax>1.461</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25503</rdommin>\n <rdommax>0.30033</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26506</rdommin>\n <rdommax>0.28749</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2908</rdommin>\n <rdommax>0.075579</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29055</rdommin>\n <rdommax>0.075773</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31847</rdommin>\n <rdommax>0.039721</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33545</rdommin>\n <rdommax>-0.00088722</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3393</rdommin>\n <rdommax>0.035199</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34</rdommin>\n <rdommax>0.0047432</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30729</rdommin>\n <rdommax>-0.0071019</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3401</rdommin>\n <rdommax>-0.022357</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3324</rdommin>\n <rdommax>-0.028341</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3487</rdommin>\n <rdommax>-0.00035981</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36355</rdommin>\n <rdommax>-0.026691</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3898</rdommin>\n <rdommax>-0.0056111</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34289</rdommin>\n <rdommax>0.016388</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53833</rdommin>\n <rdommax>-0.014485</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3412</rdommin>\n <rdommax>0.14814</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52316</rdommin>\n <rdommax>-0.042767</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40142</rdommin>\n <rdommax>0.015582</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44006</rdommin>\n <rdommax>0.031196</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45036</rdommin>\n <rdommax>0.027851</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.90097</rdommin>\n <rdommax>0.24062</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.98685</rdommin>\n <rdommax>0.42526</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.89932</rdommin>\n <rdommax>0.65509</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.96479</rdommin>\n <rdommax>0.9316</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.98469</rdommin>\n <rdommax>0.71515</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.59925</rdommin>\n <rdommax>0.6185</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.82266</rdommin>\n <rdommax>0.57128</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.9844</rdommin>\n <rdommax>0.64167</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.83603</rdommin>\n <rdommax>0.60103</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.4065</rdommin>\n <rdommax>0.052473</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25513</rdommin>\n <rdommax>0.091186</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2496</rdommin>\n <rdommax>0.10741</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2595</rdommin>\n <rdommax>0.12026</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23444</rdommin>\n <rdommax>0.1256</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24388</rdommin>\n <rdommax>0.14301</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20716</rdommin>\n <rdommax>0.15088</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20705</rdommin>\n <rdommax>0.16393</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20309</rdommin>\n <rdommax>0.18178</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20153</rdommin>\n <rdommax>0.15283</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20269</rdommin>\n <rdommax>0.1531</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19571</rdommin>\n <rdommax>0.13975</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1809</rdommin>\n <rdommax>0.13336</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17363</rdommin>\n <rdommax>0.13735</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17863</rdommin>\n <rdommax>0.090522</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18264</rdommin>\n <rdommax>0.30707</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18051</rdommin>\n <rdommax>0.35451</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18199</rdommin>\n <rdommax>0.51684</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20877</rdommin>\n <rdommax>0.32447</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20688</rdommin>\n <rdommax>0.50099</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21807</rdommin>\n <rdommax>0.15756</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45363</rdommin>\n <rdommax>0.20589</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19894</rdommin>\n <rdommax>0.48675</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.63721</rdommin>\n <rdommax>0.11196</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24165</rdommin>\n <rdommax>0.2579</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35138</rdommin>\n <rdommax>0.15879</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17202</rdommin>\n <rdommax>0.2486</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42682</rdommin>\n <rdommax>0.17783</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41098</rdommin>\n <rdommax>0.32672</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41994</rdommin>\n <rdommax>0.31254</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08042016_CMBarge_down4.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>4</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>27</rdommin>\n <rdommax>35</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>52</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411770</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.71</rdommin>\n <rdommax>11.81</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>183.11</rdommin>\n <rdommax>195.42</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1318</rdommin>\n <rdommax>1.6514</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.55953</rdommin>\n <rdommax>0.53206</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25371</rdommin>\n <rdommax>0.51095</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29991</rdommin>\n <rdommax>0.25085</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31703</rdommin>\n <rdommax>0.17734</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35888</rdommin>\n <rdommax>0.13092</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41678</rdommin>\n <rdommax>0.049367</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49399</rdommin>\n <rdommax>0.098315</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41152</rdommin>\n <rdommax>0.040474</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39464</rdommin>\n <rdommax>0.076055</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.9915</rdommin>\n <rdommax>0.053399</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.72138</rdommin>\n <rdommax>0.075604</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41373</rdommin>\n <rdommax>0.054244</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45782</rdommin>\n <rdommax>0.035645</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.47451</rdommin>\n <rdommax>0.16587</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52686</rdommin>\n <rdommax>0.097603</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51635</rdommin>\n <rdommax>0.054322</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.47015</rdommin>\n <rdommax>0.08574</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45195</rdommin>\n <rdommax>0.13218</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37926</rdommin>\n <rdommax>0.14063</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.73969</rdommin>\n <rdommax>0.029109</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41588</rdommin>\n <rdommax>0.045666</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.85123</rdommin>\n <rdommax>0.52738</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43856</rdommin>\n <rdommax>0.37761</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.62068</rdommin>\n <rdommax>0.19597</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.75247</rdommin>\n <rdommax>0.43135</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53234</rdommin>\n <rdommax>0.080869</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32372</rdommin>\n <rdommax>0.093485</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51926</rdommin>\n <rdommax>0.1287</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26023</rdommin>\n <rdommax>0.16409</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32518</rdommin>\n <rdommax>0.14263</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35042</rdommin>\n <rdommax>0.14975</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32622</rdommin>\n <rdommax>0.15627</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30681</rdommin>\n <rdommax>0.18459</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35721</rdommin>\n <rdommax>0.16335</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52566</rdommin>\n <rdommax>0.16731</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36229</rdommin>\n <rdommax>0.18982</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31565</rdommin>\n <rdommax>0.19714</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25669</rdommin>\n <rdommax>0.15607</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2543</rdommin>\n <rdommax>0.18701</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35451</rdommin>\n <rdommax>0.13223</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26242</rdommin>\n <rdommax>0.14583</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24313</rdommin>\n <rdommax>0.10169</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23645</rdommin>\n <rdommax>0.10039</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23719</rdommin>\n <rdommax>0.10135</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33383</rdommin>\n <rdommax>0.11526</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20227</rdommin>\n <rdommax>0.12857</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33052</rdommin>\n <rdommax>0.249</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18655</rdommin>\n <rdommax>0.15415</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30777</rdommin>\n <rdommax>0.22635</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43938</rdommin>\n <rdommax>0.12904</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08042016_CMBarge_up1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>4</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>9</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>26</rdommin>\n <rdommax>33</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>54</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.44</rdommin>\n <rdommax>8.1</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.8361</rdommin>\n <rdommax>8.2802</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.2192</rdommin>\n <rdommax>1.7388</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.078365</rdommin>\n <rdommax>0.91215</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34392</rdommin>\n <rdommax>0.91325</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32654</rdommin>\n <rdommax>0.94799</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29297</rdommin>\n <rdommax>0.94239</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32979</rdommin>\n <rdommax>0.92375</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.42494</rdommin>\n <rdommax>0.89648</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.44235</rdommin>\n <rdommax>0.89577</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.42805</rdommin>\n <rdommax>0.99834</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.091161</rdommin>\n <rdommax>0.92564</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.59874</rdommin>\n <rdommax>0.89175</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16414</rdommin>\n <rdommax>0.92991</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.8854</rdommin>\n <rdommax>0.93992</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56506</rdommin>\n <rdommax>0.90859</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.7075</rdommin>\n <rdommax>0.90453</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3565</rdommin>\n <rdommax>0.91161</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.47425</rdommin>\n <rdommax>0.92154</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33737</rdommin>\n <rdommax>0.99501</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.39108</rdommin>\n <rdommax>0.98133</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.39876</rdommin>\n <rdommax>0.99846</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.4388</rdommin>\n <rdommax>0.96801</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.42886</rdommin>\n <rdommax>0.97907</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.44602</rdommin>\n <rdommax>0.94157</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.41168</rdommin>\n <rdommax>0.98881</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.43063</rdommin>\n <rdommax>0.93317</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.40138</rdommin>\n <rdommax>0.99747</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.37317</rdommin>\n <rdommax>0.93624</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3731</rdommin>\n <rdommax>0.99806</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.40221</rdommin>\n <rdommax>0.94632</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.37825</rdommin>\n <rdommax>0.93292</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3964</rdommin>\n <rdommax>0.62839</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11788</rdommin>\n <rdommax>0.22313</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.025636</rdommin>\n <rdommax>0.18699</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11659</rdommin>\n <rdommax>0.18109</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.028501</rdommin>\n <rdommax>0.15674</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.034037</rdommin>\n <rdommax>0.091022</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.023952</rdommin>\n <rdommax>0.052597</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.053241</rdommin>\n <rdommax>0.038234</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28302</rdommin>\n <rdommax>0.034005</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43069</rdommin>\n <rdommax>0.022664</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41759</rdommin>\n <rdommax>0.074301</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.50701</rdommin>\n <rdommax>0.12081</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-1.1239</rdommin>\n <rdommax>0.056674</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-1.2969</rdommin>\n <rdommax>0.052115</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-1.5919</rdommin>\n <rdommax>0.047662</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-1.5663</rdommin>\n <rdommax>0.026747</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-1.7025</rdommin>\n <rdommax>0.061845</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25995</rdommin>\n <rdommax>0.076507</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19582</rdommin>\n <rdommax>0.10352</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23155</rdommin>\n <rdommax>0.08091</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28493</rdommin>\n <rdommax>0.091879</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25315</rdommin>\n <rdommax>0.019711</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15777</rdommin>\n <rdommax>0.012319</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17534</rdommin>\n <rdommax>0.022826</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17359</rdommin>\n <rdommax>0.019852</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18689</rdommin>\n <rdommax>0.024084</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18058</rdommin>\n <rdommax>0.0030204</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18921</rdommin>\n <rdommax>0.031565</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1732</rdommin>\n <rdommax>-0.0016672</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16983</rdommin>\n <rdommax>0.013587</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1799</rdommin>\n <rdommax>-0.16001</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08042016_CMBarge_up2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>4</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>31</rdommin>\n <rdommax>38</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>58</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.14</rdommin>\n <rdommax>7.97</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.6737</rdommin>\n <rdommax>7.8029</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1318</rdommin>\n <rdommax>1.7491</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.095891</rdommin>\n <rdommax>0.67841</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.082796</rdommin>\n <rdommax>0.70467</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.071235</rdommin>\n <rdommax>0.67163</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.063368</rdommin>\n <rdommax>0.71079</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0034859</rdommin>\n <rdommax>0.69627</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.035376</rdommin>\n <rdommax>0.71036</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.025827</rdommin>\n <rdommax>0.69452</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.058626</rdommin>\n <rdommax>0.68352</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.050247</rdommin>\n <rdommax>0.71998</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.03232</rdommin>\n <rdommax>0.69435</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00046386</rdommin>\n <rdommax>0.68361</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.031924</rdommin>\n <rdommax>0.67117</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.033276</rdommin>\n <rdommax>0.7065</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.037486</rdommin>\n <rdommax>0.70103</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.076264</rdommin>\n <rdommax>0.70747</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.076579</rdommin>\n <rdommax>0.69468</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.021843</rdommin>\n <rdommax>0.6565</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.046035</rdommin>\n <rdommax>0.6698</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.069826</rdommin>\n <rdommax>0.67476</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.048375</rdommin>\n <rdommax>0.67663</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.047819</rdommin>\n <rdommax>0.67042</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.076264</rdommin>\n <rdommax>0.69028</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.025524</rdommin>\n <rdommax>0.68421</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0684</rdommin>\n <rdommax>0.69817</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.068928</rdommin>\n <rdommax>0.66599</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.050117</rdommin>\n <rdommax>0.69276</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.060621</rdommin>\n <rdommax>0.70133</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1371</rdommin>\n <rdommax>0.6829</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10171</rdommin>\n <rdommax>0.67214</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.082472</rdommin>\n <rdommax>0.25618</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.051841</rdommin>\n <rdommax>0.23098</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.030504</rdommin>\n <rdommax>0.23109</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0086589</rdommin>\n <rdommax>0.17496</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0054433</rdommin>\n <rdommax>0.1118</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.031149</rdommin>\n <rdommax>0.067453</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.038206</rdommin>\n <rdommax>0.055451</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.052361</rdommin>\n <rdommax>0.033827</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.045333</rdommin>\n <rdommax>0.042102</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.072371</rdommin>\n <rdommax>0.039242</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.070682</rdommin>\n <rdommax>0.029859</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.07708</rdommin>\n <rdommax>0.020747</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.067834</rdommin>\n <rdommax>0.0074148</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.084001</rdommin>\n <rdommax>0.012657</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.074465</rdommin>\n <rdommax>0.014092</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10194</rdommin>\n <rdommax>0.0081495</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.093899</rdommin>\n <rdommax>0.0090999</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.09918</rdommin>\n <rdommax>0.015523</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1061</rdommin>\n <rdommax>0.006841</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10511</rdommin>\n <rdommax>0.0073107</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.095018</rdommin>\n <rdommax>0.0013534</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.09499</rdommin>\n <rdommax>0.016875</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1038</rdommin>\n <rdommax>0.0077675</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11149</rdommin>\n <rdommax>0.0046706</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1154</rdommin>\n <rdommax>0.0042406</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11867</rdommin>\n <rdommax>0.0042414</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11477</rdommin>\n <rdommax>-0.0033371</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18426</rdommin>\n <rdommax>-0.013601</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10479</rdommin>\n <rdommax>0.0014886</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12151</rdommin>\n <rdommax>-0.0058521</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13263</rdommin>\n <rdommax>-0.055885</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08042016_CMBarge_up3.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>4</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>14</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>31</rdommin>\n <rdommax>38</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>57</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610300</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.87</rdommin>\n <rdommax>8.43</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.7001</rdommin>\n <rdommax>344.64</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.3941</rdommin>\n <rdommax>1.7028</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20486</rdommin>\n <rdommax>0.60865</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11957</rdommin>\n <rdommax>0.59649</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11512</rdommin>\n <rdommax>0.57922</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19534</rdommin>\n <rdommax>0.7286</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22157</rdommin>\n <rdommax>0.61821</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30712</rdommin>\n <rdommax>0.64819</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.335</rdommin>\n <rdommax>0.61739</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33717</rdommin>\n <rdommax>0.60555</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2994</rdommin>\n <rdommax>0.60664</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3048</rdommin>\n <rdommax>0.59771</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3456</rdommin>\n <rdommax>0.60181</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31387</rdommin>\n <rdommax>0.59371</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30076</rdommin>\n <rdommax>0.621</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26259</rdommin>\n <rdommax>0.57938</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26766</rdommin>\n <rdommax>0.59047</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29964</rdommin>\n <rdommax>0.69046</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2467</rdommin>\n <rdommax>0.58878</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26349</rdommin>\n <rdommax>0.65272</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26156</rdommin>\n <rdommax>0.62782</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23338</rdommin>\n <rdommax>0.59279</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15082</rdommin>\n <rdommax>0.63071</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25087</rdommin>\n <rdommax>0.57907</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27793</rdommin>\n <rdommax>0.62774</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28052</rdommin>\n <rdommax>0.60599</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28012</rdommin>\n <rdommax>0.61841</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27498</rdommin>\n <rdommax>0.59307</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25047</rdommin>\n <rdommax>0.80968</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17207</rdommin>\n <rdommax>0.6535</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26273</rdommin>\n <rdommax>0.61181</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26963</rdommin>\n <rdommax>0.63423</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.013309</rdommin>\n <rdommax>0.33214</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.009012</rdommin>\n <rdommax>0.3564</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.060701</rdommin>\n <rdommax>0.29262</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1412</rdommin>\n <rdommax>0.25021</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18945</rdommin>\n <rdommax>0.22018</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20793</rdommin>\n <rdommax>0.19632</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22084</rdommin>\n <rdommax>0.17633</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23302</rdommin>\n <rdommax>0.18558</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25321</rdommin>\n <rdommax>0.14579</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24681</rdommin>\n <rdommax>0.16249</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2777</rdommin>\n <rdommax>0.17511</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26736</rdommin>\n <rdommax>0.14486</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2668</rdommin>\n <rdommax>0.13351</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28283</rdommin>\n <rdommax>0.14439</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25954</rdommin>\n <rdommax>0.14165</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25739</rdommin>\n <rdommax>0.12662</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28524</rdommin>\n <rdommax>0.12668</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29736</rdommin>\n <rdommax>0.11423</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2676</rdommin>\n <rdommax>0.12167</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25947</rdommin>\n <rdommax>0.13349</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26154</rdommin>\n <rdommax>0.14018</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2472</rdommin>\n <rdommax>0.12976</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24867</rdommin>\n <rdommax>0.16567</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24223</rdommin>\n <rdommax>0.15209</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25773</rdommin>\n <rdommax>0.12726</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24522</rdommin>\n <rdommax>0.13576</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24796</rdommin>\n <rdommax>0.14729</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24742</rdommin>\n <rdommax>0.14028</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21015</rdommin>\n <rdommax>0.11685</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.225</rdommin>\n <rdommax>0.1511</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08042016_CMBarge_up4.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>4</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>42</rdommin>\n <rdommax>49</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>57</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.81</rdommin>\n <rdommax>9.26</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.354</rdommin>\n <rdommax>356.93</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.84369</rdommin>\n <rdommax>1.708</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17365</rdommin>\n <rdommax>0.6661</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.095746</rdommin>\n <rdommax>0.6166</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.087284</rdommin>\n <rdommax>0.65528</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23297</rdommin>\n <rdommax>0.6401</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27699</rdommin>\n <rdommax>0.65005</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31404</rdommin>\n <rdommax>0.68078</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27827</rdommin>\n <rdommax>0.67368</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33178</rdommin>\n <rdommax>0.70684</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30682</rdommin>\n <rdommax>0.65049</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3227</rdommin>\n <rdommax>0.64856</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33674</rdommin>\n <rdommax>0.67807</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29204</rdommin>\n <rdommax>0.70129</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33963</rdommin>\n <rdommax>0.65381</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33766</rdommin>\n <rdommax>0.67453</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29733</rdommin>\n <rdommax>0.67832</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2742</rdommin>\n <rdommax>0.69699</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27358</rdommin>\n <rdommax>0.68551</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28556</rdommin>\n <rdommax>0.62452</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33511</rdommin>\n <rdommax>0.66586</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3176</rdommin>\n <rdommax>0.62177</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.37111</rdommin>\n <rdommax>0.64255</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31455</rdommin>\n <rdommax>0.64931</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.35627</rdommin>\n <rdommax>0.59886</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33024</rdommin>\n <rdommax>0.59584</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2713</rdommin>\n <rdommax>0.76442</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27098</rdommin>\n <rdommax>0.62175</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29245</rdommin>\n <rdommax>0.57839</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2603</rdommin>\n <rdommax>0.58557</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30453</rdommin>\n <rdommax>0.62791</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29647</rdommin>\n <rdommax>0.75724</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.070143</rdommin>\n <rdommax>0.2714</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.045493</rdommin>\n <rdommax>0.2819</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.025314</rdommin>\n <rdommax>0.25902</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.00040113</rdommin>\n <rdommax>0.20432</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.021592</rdommin>\n <rdommax>0.12664</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.043268</rdommin>\n <rdommax>0.083348</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.06728</rdommin>\n <rdommax>0.07796</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.067426</rdommin>\n <rdommax>0.065358</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11069</rdommin>\n <rdommax>0.044135</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.099483</rdommin>\n <rdommax>0.048033</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18944</rdommin>\n <rdommax>0.05526</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13656</rdommin>\n <rdommax>0.050903</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12902</rdommin>\n <rdommax>0.037632</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13728</rdommin>\n <rdommax>0.028047</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1307</rdommin>\n <rdommax>0.071878</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13755</rdommin>\n <rdommax>0.057686</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13938</rdommin>\n <rdommax>0.042396</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12024</rdommin>\n <rdommax>0.040935</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11304</rdommin>\n <rdommax>0.027212</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14448</rdommin>\n <rdommax>0.035301</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13732</rdommin>\n <rdommax>0.015863</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14378</rdommin>\n <rdommax>0.01448</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14271</rdommin>\n <rdommax>0.03564</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12494</rdommin>\n <rdommax>0.020168</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19105</rdommin>\n <rdommax>0.0089505</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17496</rdommin>\n <rdommax>0.015733</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19201</rdommin>\n <rdommax>0.013594</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19767</rdommin>\n <rdommax>0.024083</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18584</rdommin>\n <rdommax>0.029091</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19439</rdommin>\n <rdommax>0.010255</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08052016_CMBarge_down1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>5</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>42</rdommin>\n <rdommax>50</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>59</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.53</rdommin>\n <rdommax>9.25</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>183.83</rdommin>\n <rdommax>189.44</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.99288</rdommin>\n <rdommax>1.5176</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32309</rdommin>\n <rdommax>0.52977</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32667</rdommin>\n <rdommax>0.13684</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41649</rdommin>\n <rdommax>0.087982</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43773</rdommin>\n <rdommax>0.064371</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.66692</rdommin>\n <rdommax>-0.012037</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37839</rdommin>\n <rdommax>0.00046079</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41026</rdommin>\n <rdommax>-0.0079167</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48447</rdommin>\n <rdommax>0.033997</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48765</rdommin>\n <rdommax>0.0017159</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43511</rdommin>\n <rdommax>-0.0011232</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42477</rdommin>\n <rdommax>0.027149</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.67377</rdommin>\n <rdommax>0.0019835</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.9195</rdommin>\n <rdommax>0.12616</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39217</rdommin>\n <rdommax>0.12648</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48822</rdommin>\n <rdommax>0.1633</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43713</rdommin>\n <rdommax>0.38837</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.63028</rdommin>\n <rdommax>0.27938</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56814</rdommin>\n <rdommax>0.2977</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.83081</rdommin>\n <rdommax>0.29161</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.70808</rdommin>\n <rdommax>0.45769</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.99442</rdommin>\n <rdommax>0.38684</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26411</rdommin>\n <rdommax>-0.025916</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22578</rdommin>\n <rdommax>-0.0038349</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25743</rdommin>\n <rdommax>0.041993</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18877</rdommin>\n <rdommax>0.030982</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16115</rdommin>\n <rdommax>0.049515</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15916</rdommin>\n <rdommax>0.066047</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15017</rdommin>\n <rdommax>0.12449</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15415</rdommin>\n <rdommax>0.13857</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.119</rdommin>\n <rdommax>0.16815</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13612</rdommin>\n <rdommax>0.17294</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1541</rdommin>\n <rdommax>0.18376</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25237</rdommin>\n <rdommax>0.17144</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2476</rdommin>\n <rdommax>0.1833</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17645</rdommin>\n <rdommax>0.17144</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15655</rdommin>\n <rdommax>0.2238</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31371</rdommin>\n <rdommax>0.1122</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25477</rdommin>\n <rdommax>0.11422</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22359</rdommin>\n <rdommax>0.15298</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18889</rdommin>\n <rdommax>0.25696</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2322</rdommin>\n <rdommax>0.22284</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37379</rdommin>\n <rdommax>0.20094</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08052016_CMBarge_up1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>5</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>9</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>51</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>53</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411750</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.49</rdommin>\n <rdommax>10.99</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.93886</rdommin>\n <rdommax>10.31</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.79224</rdommin>\n <rdommax>1.5176</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11534</rdommin>\n <rdommax>0.50699</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15396</rdommin>\n <rdommax>0.52573</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15569</rdommin>\n <rdommax>0.53188</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.14151</rdommin>\n <rdommax>0.53064</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.14461</rdommin>\n <rdommax>0.54208</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15281</rdommin>\n <rdommax>0.52901</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15178</rdommin>\n <rdommax>0.5439</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18686</rdommin>\n <rdommax>0.53961</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.14904</rdommin>\n <rdommax>0.55201</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16563</rdommin>\n <rdommax>0.54199</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12791</rdommin>\n <rdommax>0.50606</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1509</rdommin>\n <rdommax>0.51628</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11746</rdommin>\n <rdommax>0.49996</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16108</rdommin>\n <rdommax>0.5195</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1237</rdommin>\n <rdommax>0.5129</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12926</rdommin>\n <rdommax>0.52488</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15732</rdommin>\n <rdommax>0.49535</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12062</rdommin>\n <rdommax>0.49645</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.10152</rdommin>\n <rdommax>0.50622</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.099873</rdommin>\n <rdommax>0.49754</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11431</rdommin>\n <rdommax>0.511</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.13254</rdommin>\n <rdommax>0.49174</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.10605</rdommin>\n <rdommax>0.61254</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12149</rdommin>\n <rdommax>0.69513</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24034</rdommin>\n <rdommax>0.67426</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23722</rdommin>\n <rdommax>0.56775</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.069566</rdommin>\n <rdommax>0.55579</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.042285</rdommin>\n <rdommax>0.83496</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.085571</rdommin>\n <rdommax>0.71817</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.057536</rdommin>\n <rdommax>0.24637</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.04001</rdommin>\n <rdommax>0.21315</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.037251</rdommin>\n <rdommax>0.20103</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0029893</rdommin>\n <rdommax>0.15415</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0074301</rdommin>\n <rdommax>0.12163</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.015445</rdommin>\n <rdommax>0.11086</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.015324</rdommin>\n <rdommax>0.10128</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.018615</rdommin>\n <rdommax>0.10021</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.037807</rdommin>\n <rdommax>0.078868</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.040763</rdommin>\n <rdommax>0.099259</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.040976</rdommin>\n <rdommax>0.080058</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.034042</rdommin>\n <rdommax>0.077872</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.039517</rdommin>\n <rdommax>0.074365</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0432</rdommin>\n <rdommax>0.063378</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.053407</rdommin>\n <rdommax>0.05478</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.049114</rdommin>\n <rdommax>0.055728</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.054106</rdommin>\n <rdommax>0.06499</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.052091</rdommin>\n <rdommax>0.060174</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.055582</rdommin>\n <rdommax>0.055251</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.05415</rdommin>\n <rdommax>0.07664</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.056161</rdommin>\n <rdommax>0.057196</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.047549</rdommin>\n <rdommax>0.046113</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.063534</rdommin>\n <rdommax>0.037513</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.060772</rdommin>\n <rdommax>0.042458</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.082724</rdommin>\n <rdommax>0.054368</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.078257</rdommin>\n <rdommax>0.097297</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.068666</rdommin>\n <rdommax>0.1012</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.079642</rdommin>\n <rdommax>0.044532</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16219</rdommin>\n <rdommax>0.03162</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.089499</rdommin>\n <rdommax>0.029376</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.038279</rdommin>\n <rdommax>-0.015074</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08052016_CMBarge_up2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>5</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>11</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>17</rdommin>\n <rdommax>25</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>51</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.19</rdommin>\n <rdommax>349.75</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.8779</rdommin>\n <rdommax>360</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.0186</rdommin>\n <rdommax>1.5485</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23424</rdommin>\n <rdommax>0.55136</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24547</rdommin>\n <rdommax>0.52929</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28936</rdommin>\n <rdommax>0.52241</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30062</rdommin>\n <rdommax>0.54019</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30822</rdommin>\n <rdommax>0.57419</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2805</rdommin>\n <rdommax>0.51319</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30217</rdommin>\n <rdommax>0.5457</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26437</rdommin>\n <rdommax>0.55116</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29127</rdommin>\n <rdommax>0.54008</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26</rdommin>\n <rdommax>0.52377</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29515</rdommin>\n <rdommax>0.53404</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2598</rdommin>\n <rdommax>0.52177</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24119</rdommin>\n <rdommax>0.54709</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29711</rdommin>\n <rdommax>0.5328</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27753</rdommin>\n <rdommax>0.53773</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26636</rdommin>\n <rdommax>0.50384</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29322</rdommin>\n <rdommax>0.51519</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.061092</rdommin>\n <rdommax>0.20417</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.039629</rdommin>\n <rdommax>0.16945</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.021683</rdommin>\n <rdommax>0.14752</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0039588</rdommin>\n <rdommax>0.124</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0033947</rdommin>\n <rdommax>0.11923</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0059211</rdommin>\n <rdommax>0.10013</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.01224</rdommin>\n <rdommax>0.08148</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.014496</rdommin>\n <rdommax>0.084623</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.028335</rdommin>\n <rdommax>0.078438</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.032701</rdommin>\n <rdommax>0.07117</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.034817</rdommin>\n <rdommax>0.060836</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.025362</rdommin>\n <rdommax>0.064687</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.03621</rdommin>\n <rdommax>0.057887</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.036997</rdommin>\n <rdommax>0.069133</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.062592</rdommin>\n <rdommax>0.056149</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.055349</rdommin>\n <rdommax>0.052898</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.063592</rdommin>\n <rdommax>0.036781</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08082016_CMBarge_down1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>12</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>55</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.641</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.14</rdommin>\n <rdommax>359.98</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>185.09</rdommin>\n <rdommax>188.87</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.0855</rdommin>\n <rdommax>1.708</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.9314</rdommin>\n <rdommax>0.42157</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.6545</rdommin>\n <rdommax>0.092028</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.78274</rdommin>\n <rdommax>-0.008533</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.99797</rdommin>\n <rdommax>0.07011</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.94531</rdommin>\n <rdommax>0.10323</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.66948</rdommin>\n <rdommax>0.039514</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.97859</rdommin>\n <rdommax>0.016772</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.68853</rdommin>\n <rdommax>-0.0022322</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.79975</rdommin>\n <rdommax>-0.03293</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.57805</rdommin>\n <rdommax>-0.058824</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.72951</rdommin>\n <rdommax>-0.030791</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.76736</rdommin>\n <rdommax>-0.031275</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.74367</rdommin>\n <rdommax>-0.0079609</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.71711</rdommin>\n <rdommax>-0.052173</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41732</rdommin>\n <rdommax>0.008033</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52824</rdommin>\n <rdommax>-0.062642</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51556</rdommin>\n <rdommax>-0.015906</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.58323</rdommin>\n <rdommax>-0.026299</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.7568</rdommin>\n <rdommax>0.019748</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.69995</rdommin>\n <rdommax>0.37013</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.89062</rdommin>\n <rdommax>0.32757</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.72519</rdommin>\n <rdommax>0.15825</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5556</rdommin>\n <rdommax>-0.01451</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3036</rdommin>\n <rdommax>0.0065385</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48926</rdommin>\n <rdommax>0.033632</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31477</rdommin>\n <rdommax>0.043369</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18767</rdommin>\n <rdommax>0.051285</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18891</rdommin>\n <rdommax>0.068126</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1695</rdommin>\n <rdommax>0.061677</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13742</rdommin>\n <rdommax>0.066391</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11333</rdommin>\n <rdommax>0.08464</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.075917</rdommin>\n <rdommax>0.083743</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12958</rdommin>\n <rdommax>0.098</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16762</rdommin>\n <rdommax>0.10259</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13588</rdommin>\n <rdommax>0.13875</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15625</rdommin>\n <rdommax>0.087028</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.068359</rdommin>\n <rdommax>0.09503</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1682</rdommin>\n <rdommax>0.071669</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.054279</rdommin>\n <rdommax>0.16774</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.047856</rdommin>\n <rdommax>0.21869</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21372</rdommin>\n <rdommax>0.22753</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52156</rdommin>\n <rdommax>0.28086</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.66625</rdommin>\n <rdommax>0.10003</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12385</rdommin>\n <rdommax>0.35448</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08082016_CMBarge_down2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>14</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>19</rdommin>\n <rdommax>28</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>51</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.061</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411670</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610300</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2</rdommin>\n <rdommax>359.59</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>184.34</rdommin>\n <rdommax>191.01</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.6945</rdommin>\n <rdommax>2.0218</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.94874</rdommin>\n <rdommax>0.22943</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.74747</rdommin>\n <rdommax>0.33466</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.72474</rdommin>\n <rdommax>0.21457</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.98175</rdommin>\n <rdommax>0.17168</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.58044</rdommin>\n <rdommax>0.12226</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.68872</rdommin>\n <rdommax>0.094574</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.79044</rdommin>\n <rdommax>0.11075</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45742</rdommin>\n <rdommax>0.090445</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48007</rdommin>\n <rdommax>0.11415</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39753</rdommin>\n <rdommax>0.088577</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56308</rdommin>\n <rdommax>0.41385</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32654</rdommin>\n <rdommax>0.22124</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42303</rdommin>\n <rdommax>0.55724</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44228</rdommin>\n <rdommax>0.57713</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31643</rdommin>\n <rdommax>0.40958</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.59516</rdommin>\n <rdommax>0.44813</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.92944</rdommin>\n <rdommax>0.40496</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3856</rdommin>\n <rdommax>0.049045</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45605</rdommin>\n <rdommax>0.052412</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39695</rdommin>\n <rdommax>0.067532</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44692</rdommin>\n <rdommax>0.052821</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30945</rdommin>\n <rdommax>0.063345</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24503</rdommin>\n <rdommax>0.072403</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2355</rdommin>\n <rdommax>0.067804</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13433</rdommin>\n <rdommax>0.080882</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.097916</rdommin>\n <rdommax>0.088016</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12111</rdommin>\n <rdommax>0.09205</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11274</rdommin>\n <rdommax>0.089642</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12762</rdommin>\n <rdommax>0.089682</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11696</rdommin>\n <rdommax>0.11296</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20292</rdommin>\n <rdommax>0.099619</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26304</rdommin>\n <rdommax>0.11001</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34131</rdommin>\n <rdommax>0.20826</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28625</rdommin>\n <rdommax>0.23734</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08082016_CMBarge_down3.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>39</rdommin>\n <rdommax>47</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>58</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411770</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.54</rdommin>\n <rdommax>359.51</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>185.15</rdommin>\n <rdommax>189.36</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.96201</rdommin>\n <rdommax>1.5999</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24408</rdommin>\n <rdommax>0.41276</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23992</rdommin>\n <rdommax>0.26551</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26665</rdommin>\n <rdommax>0.17969</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34432</rdommin>\n <rdommax>0.20468</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30413</rdommin>\n <rdommax>0.21601</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33203</rdommin>\n <rdommax>0.19097</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31424</rdommin>\n <rdommax>0.24317</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35352</rdommin>\n <rdommax>0.29445</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37781</rdommin>\n <rdommax>0.21969</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31037</rdommin>\n <rdommax>0.23198</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30541</rdommin>\n <rdommax>0.1943</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.362</rdommin>\n <rdommax>0.23013</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3652</rdommin>\n <rdommax>0.20243</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31774</rdommin>\n <rdommax>0.20188</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32064</rdommin>\n <rdommax>0.16307</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2978</rdommin>\n <rdommax>0.18109</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.67408</rdommin>\n <rdommax>0.20437</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32462</rdommin>\n <rdommax>0.21531</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31251</rdommin>\n <rdommax>0.13464</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34878</rdommin>\n <rdommax>0.10528</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38667</rdommin>\n <rdommax>0.11503</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34094</rdommin>\n <rdommax>0.13387</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.6263</rdommin>\n <rdommax>0.15183</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.67371</rdommin>\n <rdommax>0.51313</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51254</rdommin>\n <rdommax>0.56253</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.98097</rdommin>\n <rdommax>0.1829</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19866</rdommin>\n <rdommax>-0.037129</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16307</rdommin>\n <rdommax>-0.0014193</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14167</rdommin>\n <rdommax>0.031487</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11052</rdommin>\n <rdommax>0.048249</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.083624</rdommin>\n <rdommax>0.053299</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.092647</rdommin>\n <rdommax>0.07812</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.077068</rdommin>\n <rdommax>0.085378</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.058569</rdommin>\n <rdommax>0.087933</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.058424</rdommin>\n <rdommax>0.082758</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.053913</rdommin>\n <rdommax>0.070119</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.077359</rdommin>\n <rdommax>0.088615</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.057496</rdommin>\n <rdommax>0.072927</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.048716</rdommin>\n <rdommax>0.084883</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.036216</rdommin>\n <rdommax>0.090181</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.040348</rdommin>\n <rdommax>0.092623</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.047262</rdommin>\n <rdommax>0.094891</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.046194</rdommin>\n <rdommax>0.24774</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.03777</rdommin>\n <rdommax>0.09405</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.023236</rdommin>\n <rdommax>0.14037</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.043798</rdommin>\n <rdommax>0.12365</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12471</rdommin>\n <rdommax>0.094731</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.072331</rdommin>\n <rdommax>0.10289</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13457</rdommin>\n <rdommax>0.13173</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18234</rdommin>\n <rdommax>0.16366</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22557</rdommin>\n <rdommax>0.19621</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38087</rdommin>\n <rdommax>0.34182</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08082016_CMBarge_down4.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>45</rdommin>\n <rdommax>52</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6</rdommin>\n <rdommax>56</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.641</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.06</rdommin>\n <rdommax>359.94</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>184.85</rdommin>\n <rdommax>188.86</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.0855</rdommin>\n <rdommax>1.5382</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45348</rdommin>\n <rdommax>0.13405</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32402</rdommin>\n <rdommax>0.13032</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32104</rdommin>\n <rdommax>0.11702</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36213</rdommin>\n <rdommax>0.096195</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38957</rdommin>\n <rdommax>0.11546</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40106</rdommin>\n <rdommax>-0.02269</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38963</rdommin>\n <rdommax>0.068933</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37351</rdommin>\n <rdommax>0.064247</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37317</rdommin>\n <rdommax>0.048527</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37381</rdommin>\n <rdommax>0.017235</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36108</rdommin>\n <rdommax>-0.020958</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35848</rdommin>\n <rdommax>-0.054018</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.46823</rdommin>\n <rdommax>-0.091086</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34312</rdommin>\n <rdommax>-0.069465</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35399</rdommin>\n <rdommax>-0.063003</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34723</rdommin>\n <rdommax>-0.064525</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.7832</rdommin>\n <rdommax>-0.099904</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33034</rdommin>\n <rdommax>-0.028439</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.76269</rdommin>\n <rdommax>-0.093757</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40234</rdommin>\n <rdommax>0.11532</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.93223</rdommin>\n <rdommax>0.0036676</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42349</rdommin>\n <rdommax>0.12746</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31308</rdommin>\n <rdommax>0.11034</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.95825</rdommin>\n <rdommax>0.12301</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.66924</rdommin>\n <rdommax>0.39743</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.70345</rdommin>\n <rdommax>0.811</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.96092</rdommin>\n <rdommax>0.66006</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21587</rdommin>\n <rdommax>0.0039936</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20491</rdommin>\n <rdommax>0.017981</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15745</rdommin>\n <rdommax>0.043922</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1535</rdommin>\n <rdommax>0.039969</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11973</rdommin>\n <rdommax>0.061802</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13098</rdommin>\n <rdommax>0.082698</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.095205</rdommin>\n <rdommax>0.086763</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10181</rdommin>\n <rdommax>0.091013</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10086</rdommin>\n <rdommax>0.088652</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.065631</rdommin>\n <rdommax>0.087141</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.068859</rdommin>\n <rdommax>0.093224</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.059632</rdommin>\n <rdommax>0.1188</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.04481</rdommin>\n <rdommax>0.099992</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.05328</rdommin>\n <rdommax>0.10451</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.049356</rdommin>\n <rdommax>0.10701</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.035307</rdommin>\n <rdommax>0.11794</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20176</rdommin>\n <rdommax>0.10555</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.050306</rdommin>\n <rdommax>0.12304</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15325</rdommin>\n <rdommax>0.34207</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.021737</rdommin>\n <rdommax>0.094627</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.03624</rdommin>\n <rdommax>0.46922</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15736</rdommin>\n <rdommax>0.10362</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10392</rdommin>\n <rdommax>0.10888</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23919</rdommin>\n <rdommax>0.151</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16577</rdommin>\n <rdommax>0.16054</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31575</rdommin>\n <rdommax>0.11555</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26462</rdommin>\n <rdommax>0.42017</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08082016_CMBarge_up1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>36</rdommin>\n <rdommax>44</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>57</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17</rdommin>\n <rdommax>359.78</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.3431</rdommin>\n <rdommax>10.571</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1163</rdommin>\n <rdommax>1.5845</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.086382</rdommin>\n <rdommax>0.6349</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.053751</rdommin>\n <rdommax>0.69936</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1271</rdommin>\n <rdommax>0.60872</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1966</rdommin>\n <rdommax>0.58011</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20868</rdommin>\n <rdommax>0.5951</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22678</rdommin>\n <rdommax>0.61765</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21505</rdommin>\n <rdommax>0.62094</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24772</rdommin>\n <rdommax>0.63316</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22628</rdommin>\n <rdommax>0.66619</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2354</rdommin>\n <rdommax>0.65415</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23549</rdommin>\n <rdommax>0.61124</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25129</rdommin>\n <rdommax>0.72695</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24714</rdommin>\n <rdommax>0.63546</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26217</rdommin>\n <rdommax>0.65439</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26103</rdommin>\n <rdommax>0.65935</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29065</rdommin>\n <rdommax>0.65279</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26617</rdommin>\n <rdommax>0.63925</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25946</rdommin>\n <rdommax>0.66523</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23808</rdommin>\n <rdommax>0.67387</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27311</rdommin>\n <rdommax>0.62026</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22608</rdommin>\n <rdommax>0.80146</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26903</rdommin>\n <rdommax>0.63572</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28772</rdommin>\n <rdommax>0.70314</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27799</rdommin>\n <rdommax>0.65817</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22147</rdommin>\n <rdommax>0.71207</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28386</rdommin>\n <rdommax>0.76896</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2451</rdommin>\n <rdommax>0.71095</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23612</rdommin>\n <rdommax>0.66124</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26713</rdommin>\n <rdommax>0.61061</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23407</rdommin>\n <rdommax>0.48391</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0072185</rdommin>\n <rdommax>0.22838</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.058864</rdommin>\n <rdommax>0.20541</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.050073</rdommin>\n <rdommax>0.18717</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.053298</rdommin>\n <rdommax>0.16513</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.060321</rdommin>\n <rdommax>0.19198</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.076111</rdommin>\n <rdommax>0.18614</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.093447</rdommin>\n <rdommax>0.15125</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.078836</rdommin>\n <rdommax>0.13922</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11424</rdommin>\n <rdommax>0.146</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11162</rdommin>\n <rdommax>0.14551</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10452</rdommin>\n <rdommax>0.1225</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.096048</rdommin>\n <rdommax>0.15099</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12008</rdommin>\n <rdommax>0.16276</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12244</rdommin>\n <rdommax>0.13159</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10726</rdommin>\n <rdommax>0.14549</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11206</rdommin>\n <rdommax>0.12248</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11308</rdommin>\n <rdommax>0.13096</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10663</rdommin>\n <rdommax>0.13718</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10715</rdommin>\n <rdommax>0.08696</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12443</rdommin>\n <rdommax>0.081784</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11028</rdommin>\n <rdommax>0.074469</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10827</rdommin>\n <rdommax>0.075357</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10569</rdommin>\n <rdommax>0.060195</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10599</rdommin>\n <rdommax>0.068647</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10536</rdommin>\n <rdommax>0.057728</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10729</rdommin>\n <rdommax>0.0364</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10147</rdommin>\n <rdommax>0.021176</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10588</rdommin>\n <rdommax>0.0071152</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11768</rdommin>\n <rdommax>0.0088676</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12687</rdommin>\n <rdommax>0.0011313</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08082016_CMBarge_up2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>13</rdommin>\n <rdommax>13</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>36</rdommin>\n <rdommax>47</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>55</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.03</rdommin>\n <rdommax>359.91</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.82245</rdommin>\n <rdommax>359.97</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.78196</rdommin>\n <rdommax>1.3581</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.14002</rdommin>\n <rdommax>0.58148</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19025</rdommin>\n <rdommax>0.6344</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22375</rdommin>\n <rdommax>0.64533</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22774</rdommin>\n <rdommax>0.63466</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22815</rdommin>\n <rdommax>0.66016</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23293</rdommin>\n <rdommax>0.63748</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18687</rdommin>\n <rdommax>0.6536</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22164</rdommin>\n <rdommax>0.61863</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21822</rdommin>\n <rdommax>0.61748</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21293</rdommin>\n <rdommax>0.61647</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24256</rdommin>\n <rdommax>0.63286</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20732</rdommin>\n <rdommax>0.61708</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18587</rdommin>\n <rdommax>0.59132</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22876</rdommin>\n <rdommax>0.62406</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24521</rdommin>\n <rdommax>0.6516</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18985</rdommin>\n <rdommax>0.62977</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21047</rdommin>\n <rdommax>0.66823</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23739</rdommin>\n <rdommax>0.63103</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21791</rdommin>\n <rdommax>0.64081</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23283</rdommin>\n <rdommax>0.62293</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20443</rdommin>\n <rdommax>0.6276</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1909</rdommin>\n <rdommax>0.62594</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20188</rdommin>\n <rdommax>0.64176</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30491</rdommin>\n <rdommax>0.62983</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34089</rdommin>\n <rdommax>0.6506</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3788</rdommin>\n <rdommax>0.61952</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33639</rdommin>\n <rdommax>0.61191</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34619</rdommin>\n <rdommax>0.64849</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32242</rdommin>\n <rdommax>0.62201</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33764</rdommin>\n <rdommax>0.56047</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.02561</rdommin>\n <rdommax>0.18256</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.032714</rdommin>\n <rdommax>0.16665</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.052181</rdommin>\n <rdommax>0.15275</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.059298</rdommin>\n <rdommax>0.15011</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.067499</rdommin>\n <rdommax>0.12797</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.064896</rdommin>\n <rdommax>0.13014</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.079322</rdommin>\n <rdommax>0.12827</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.089036</rdommin>\n <rdommax>0.1121</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.098772</rdommin>\n <rdommax>0.12247</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10691</rdommin>\n <rdommax>0.10904</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11985</rdommin>\n <rdommax>0.11459</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13718</rdommin>\n <rdommax>0.11122</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13362</rdommin>\n <rdommax>0.10465</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12229</rdommin>\n <rdommax>0.10335</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13657</rdommin>\n <rdommax>0.10107</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13457</rdommin>\n <rdommax>0.10434</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12498</rdommin>\n <rdommax>0.11829</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14731</rdommin>\n <rdommax>0.067758</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1514</rdommin>\n <rdommax>0.059974</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15225</rdommin>\n <rdommax>0.055211</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14092</rdommin>\n <rdommax>0.056081</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15245</rdommin>\n <rdommax>0.051829</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14877</rdommin>\n <rdommax>0.066036</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15775</rdommin>\n <rdommax>0.048911</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16279</rdommin>\n <rdommax>0.059951</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14651</rdommin>\n <rdommax>0.045119</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13142</rdommin>\n <rdommax>0.057103</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16403</rdommin>\n <rdommax>0.048623</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1511</rdommin>\n <rdommax>0.043452</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16378</rdommin>\n <rdommax>0.004453</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08082016_CMBarge_up3.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>12</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>59</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.58</rdommin>\n <rdommax>356.18</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.4367</rdommin>\n <rdommax>11.832</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.2295</rdommin>\n <rdommax>1.7131</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2039</rdommin>\n <rdommax>0.65704</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26977</rdommin>\n <rdommax>0.65885</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32463</rdommin>\n <rdommax>0.64316</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31609</rdommin>\n <rdommax>0.63696</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24147</rdommin>\n <rdommax>0.65553</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20936</rdommin>\n <rdommax>0.63274</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19826</rdommin>\n <rdommax>0.65806</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23056</rdommin>\n <rdommax>0.68836</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27499</rdommin>\n <rdommax>0.64274</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23154</rdommin>\n <rdommax>0.63783</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21567</rdommin>\n <rdommax>0.63861</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23701</rdommin>\n <rdommax>0.64505</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.329</rdommin>\n <rdommax>0.62051</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28365</rdommin>\n <rdommax>0.63775</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20959</rdommin>\n <rdommax>0.66936</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29581</rdommin>\n <rdommax>0.67281</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23944</rdommin>\n <rdommax>0.63455</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2372</rdommin>\n <rdommax>0.62637</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24093</rdommin>\n <rdommax>0.6588</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2105</rdommin>\n <rdommax>0.63586</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22646</rdommin>\n <rdommax>0.7317</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2132</rdommin>\n <rdommax>0.7037</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1979</rdommin>\n <rdommax>0.74115</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20103</rdommin>\n <rdommax>0.6475</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18836</rdommin>\n <rdommax>0.63247</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11354</rdommin>\n <rdommax>0.69063</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1071</rdommin>\n <rdommax>0.5951</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.052999</rdommin>\n <rdommax>0.58108</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.019746</rdommin>\n <rdommax>0.69649</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.036832</rdommin>\n <rdommax>0.56361</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.050178</rdommin>\n <rdommax>0.19058</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.05949</rdommin>\n <rdommax>0.16359</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10287</rdommin>\n <rdommax>0.15585</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17334</rdommin>\n <rdommax>0.15311</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21504</rdommin>\n <rdommax>0.13579</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18945</rdommin>\n <rdommax>0.124</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16429</rdommin>\n <rdommax>0.12491</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15348</rdommin>\n <rdommax>0.12893</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15304</rdommin>\n <rdommax>0.12925</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17266</rdommin>\n <rdommax>0.13164</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18948</rdommin>\n <rdommax>0.11645</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.195</rdommin>\n <rdommax>0.12689</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18007</rdommin>\n <rdommax>0.12689</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19942</rdommin>\n <rdommax>0.11771</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21487</rdommin>\n <rdommax>0.12455</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21602</rdommin>\n <rdommax>0.11444</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20458</rdommin>\n <rdommax>0.10375</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20872</rdommin>\n <rdommax>0.10789</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22093</rdommin>\n <rdommax>0.097778</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21628</rdommin>\n <rdommax>0.062655</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22428</rdommin>\n <rdommax>0.067149</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24471</rdommin>\n <rdommax>0.055787</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21995</rdommin>\n <rdommax>0.051669</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22399</rdommin>\n <rdommax>0.057876</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20898</rdommin>\n <rdommax>0.048803</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2053</rdommin>\n <rdommax>0.0516</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20402</rdommin>\n <rdommax>0.037696</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18976</rdommin>\n <rdommax>0.0053978</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19133</rdommin>\n <rdommax>-0.006549</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20408</rdommin>\n <rdommax>-0.055317</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08082016_CMBarge_up4.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>13</rdommin>\n <rdommax>20</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>58</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610300</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.04</rdommin>\n <rdommax>359.98</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.7536</rdommin>\n <rdommax>9.9896</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.0649</rdommin>\n <rdommax>1.9189</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11035</rdommin>\n <rdommax>0.58151</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1552</rdommin>\n <rdommax>0.60056</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19011</rdommin>\n <rdommax>0.51593</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19719</rdommin>\n <rdommax>0.56342</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22158</rdommin>\n <rdommax>0.52846</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15574</rdommin>\n <rdommax>0.59346</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1957</rdommin>\n <rdommax>0.6116</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19921</rdommin>\n <rdommax>0.54458</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20552</rdommin>\n <rdommax>0.61241</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19641</rdommin>\n <rdommax>0.59943</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1793</rdommin>\n <rdommax>0.57823</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21311</rdommin>\n <rdommax>0.56435</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1811</rdommin>\n <rdommax>0.61766</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.144</rdommin>\n <rdommax>0.60314</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.13973</rdommin>\n <rdommax>0.58997</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16939</rdommin>\n <rdommax>0.6391</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12618</rdommin>\n <rdommax>0.56787</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12063</rdommin>\n <rdommax>0.57207</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.10927</rdommin>\n <rdommax>0.56993</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.071226</rdommin>\n <rdommax>0.57287</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.05654</rdommin>\n <rdommax>0.57699</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.062244</rdommin>\n <rdommax>0.55108</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11546</rdommin>\n <rdommax>0.59508</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11446</rdommin>\n <rdommax>0.60196</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.10424</rdommin>\n <rdommax>0.54812</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.099568</rdommin>\n <rdommax>0.57807</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1533</rdommin>\n <rdommax>0.59417</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16804</rdommin>\n <rdommax>0.58739</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.10554</rdommin>\n <rdommax>0.5977</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11212</rdommin>\n <rdommax>0.56406</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0031344</rdommin>\n <rdommax>0.17728</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.058298</rdommin>\n <rdommax>0.16841</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.086662</rdommin>\n <rdommax>0.188</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11819</rdommin>\n <rdommax>0.17896</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14355</rdommin>\n <rdommax>0.12241</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17912</rdommin>\n <rdommax>0.082332</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14466</rdommin>\n <rdommax>0.074924</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1629</rdommin>\n <rdommax>0.075952</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14665</rdommin>\n <rdommax>0.071201</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16988</rdommin>\n <rdommax>0.09135</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17054</rdommin>\n <rdommax>0.067635</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18204</rdommin>\n <rdommax>0.068201</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17963</rdommin>\n <rdommax>0.06456</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18583</rdommin>\n <rdommax>0.075858</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18876</rdommin>\n <rdommax>0.088363</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19453</rdommin>\n <rdommax>0.08271</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18911</rdommin>\n <rdommax>0.056086</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20768</rdommin>\n <rdommax>0.065579</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20045</rdommin>\n <rdommax>0.057524</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19124</rdommin>\n <rdommax>0.061404</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19369</rdommin>\n <rdommax>0.056086</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19877</rdommin>\n <rdommax>0.053955</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20389</rdommin>\n <rdommax>0.047458</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20452</rdommin>\n <rdommax>0.040479</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2121</rdommin>\n <rdommax>0.048005</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2024</rdommin>\n <rdommax>0.049015</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22066</rdommin>\n <rdommax>0.010004</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21179</rdommin>\n <rdommax>-0.0065399</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23943</rdommin>\n <rdommax>-0.024003</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22144</rdommin>\n <rdommax>-0.032872</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08092016_CMBarge_down1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>9</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>11</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6</rdommin>\n <rdommax>56</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.84</rdommin>\n <rdommax>7.01</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>184.05</rdommin>\n <rdommax>189.88</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.99288</rdommin>\n <rdommax>1.4867</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12345</rdommin>\n <rdommax>0.34887</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24366</rdommin>\n <rdommax>0.11925</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24574</rdommin>\n <rdommax>0.069488</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27599</rdommin>\n <rdommax>0.058492</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31396</rdommin>\n <rdommax>0.069095</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34085</rdommin>\n <rdommax>0.043706</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43077</rdommin>\n <rdommax>0.058767</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32629</rdommin>\n <rdommax>0.033176</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32526</rdommin>\n <rdommax>0.019669</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34924</rdommin>\n <rdommax>0.038353</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.90816</rdommin>\n <rdommax>0.055601</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38464</rdommin>\n <rdommax>0.12343</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22983</rdommin>\n <rdommax>0.085565</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.77888</rdommin>\n <rdommax>0.24452</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23475</rdommin>\n <rdommax>0.1868</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38171</rdommin>\n <rdommax>0.029302</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.96641</rdommin>\n <rdommax>0.61043</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.99932</rdommin>\n <rdommax>0.94883</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.69161</rdommin>\n <rdommax>0.71514</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25297</rdommin>\n <rdommax>0.56067</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24185</rdommin>\n <rdommax>-0.011895</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1852</rdommin>\n <rdommax>-0.012704</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1386</rdommin>\n <rdommax>-0.0076473</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12979</rdommin>\n <rdommax>0.0075704</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10505</rdommin>\n <rdommax>0.016912</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.087001</rdommin>\n <rdommax>0.034615</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.083118</rdommin>\n <rdommax>0.050249</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.075316</rdommin>\n <rdommax>0.061547</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.071129</rdommin>\n <rdommax>0.064444</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.074465</rdommin>\n <rdommax>0.056051</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.075884</rdommin>\n <rdommax>0.052905</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.053324</rdommin>\n <rdommax>0.065539</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.054212</rdommin>\n <rdommax>0.077975</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.054606</rdommin>\n <rdommax>0.082021</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.047649</rdommin>\n <rdommax>0.25095</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1092</rdommin>\n <rdommax>0.1002</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34559</rdommin>\n <rdommax>0.17539</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22651</rdommin>\n <rdommax>0.15484</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15963</rdommin>\n <rdommax>0.10629</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13759</rdommin>\n <rdommax>0.11378</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08092016_CMBarge_down2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>9</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>14</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>48</rdommin>\n <rdommax>55</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>56</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.061</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411670</rdommin>\n <rdommax>411770</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5.64</rdommin>\n <rdommax>14.45</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>185.64</rdommin>\n <rdommax>190.74</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1884</rdommin>\n <rdommax>1.816</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2323</rdommin>\n <rdommax>0.51826</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26451</rdommin>\n <rdommax>0.53561</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.97477</rdommin>\n <rdommax>0.54388</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48902</rdommin>\n <rdommax>0.36937</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41283</rdommin>\n <rdommax>0.12796</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.66368</rdommin>\n <rdommax>0.17544</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49858</rdommin>\n <rdommax>0.14374</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40399</rdommin>\n <rdommax>0.11105</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33285</rdommin>\n <rdommax>0.14937</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.47182</rdommin>\n <rdommax>0.12206</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28871</rdommin>\n <rdommax>0.15308</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31353</rdommin>\n <rdommax>0.11789</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34382</rdommin>\n <rdommax>0.13103</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27924</rdommin>\n <rdommax>0.20688</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.9816</rdommin>\n <rdommax>0.27631</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.8439</rdommin>\n <rdommax>0.50737</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49303</rdommin>\n <rdommax>0.93262</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.89279</rdommin>\n <rdommax>0.73919</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.683</rdommin>\n <rdommax>0.66132</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41658</rdommin>\n <rdommax>0.54575</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.67165</rdommin>\n <rdommax>0.83029</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.441</rdommin>\n <rdommax>0.57419</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.80589</rdommin>\n <rdommax>0.89263</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.93886</rdommin>\n <rdommax>0.65772</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53551</rdommin>\n <rdommax>0.93403</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3613</rdommin>\n <rdommax>-0.057222</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.50409</rdommin>\n <rdommax>-0.0711</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53336</rdommin>\n <rdommax>-0.072602</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45669</rdommin>\n <rdommax>-0.022813</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27723</rdommin>\n <rdommax>-0.02568</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25962</rdommin>\n <rdommax>0.015762</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23067</rdommin>\n <rdommax>0.021216</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17444</rdommin>\n <rdommax>0.045532</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1353</rdommin>\n <rdommax>0.067687</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14818</rdommin>\n <rdommax>0.083986</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12822</rdommin>\n <rdommax>0.096451</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28728</rdommin>\n <rdommax>0.10972</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1177</rdommin>\n <rdommax>0.16932</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11606</rdommin>\n <rdommax>0.11429</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18427</rdommin>\n <rdommax>0.36131</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17169</rdommin>\n <rdommax>0.13069</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16614</rdommin>\n <rdommax>0.10256</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39472</rdommin>\n <rdommax>0.077593</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26983</rdommin>\n <rdommax>0.12345</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28699</rdommin>\n <rdommax>0.14167</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36582</rdommin>\n <rdommax>0.092422</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21296</rdommin>\n <rdommax>0.15334</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39602</rdommin>\n <rdommax>0.25025</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56394</rdommin>\n <rdommax>0.19395</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40518</rdommin>\n <rdommax>0.10956</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08092016_CMBarge_down3.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>9</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>16</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6</rdommin>\n <rdommax>56</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.061</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411670</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610300</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.91</rdommin>\n <rdommax>10.28</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>184.55</rdommin>\n <rdommax>190.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1163</rdommin>\n <rdommax>1.7903</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44147</rdommin>\n <rdommax>0.23666</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35428</rdommin>\n <rdommax>0.12524</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.54412</rdommin>\n <rdommax>0.028917</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.50224</rdommin>\n <rdommax>0.015034</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.72607</rdommin>\n <rdommax>0.054108</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45614</rdommin>\n <rdommax>0.037042</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.95315</rdommin>\n <rdommax>0.047002</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.91719</rdommin>\n <rdommax>0.18741</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.4376</rdommin>\n <rdommax>0.11127</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.66919</rdommin>\n <rdommax>0.33</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.413</rdommin>\n <rdommax>0.30317</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.80755</rdommin>\n <rdommax>0.79749</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.62925</rdommin>\n <rdommax>0.45936</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.59837</rdommin>\n <rdommax>0.47095</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.80682</rdommin>\n <rdommax>0.3293</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49569</rdommin>\n <rdommax>0.11839</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64599</rdommin>\n <rdommax>0.032307</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.87001</rdommin>\n <rdommax>0.19008</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.85613</rdommin>\n <rdommax>0.3121</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.81788</rdommin>\n <rdommax>0.31822</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.61321</rdommin>\n <rdommax>0.21762</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39022</rdommin>\n <rdommax>0.67414</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.81404</rdommin>\n <rdommax>0.9919</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.93676</rdommin>\n <rdommax>0.82438</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.87425</rdommin>\n <rdommax>0.40152</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53022</rdommin>\n <rdommax>0.77524</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.80763</rdommin>\n <rdommax>0.54064</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32438</rdommin>\n <rdommax>-0.049047</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41643</rdommin>\n <rdommax>-0.0045061</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48008</rdommin>\n <rdommax>-0.0047195</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19728</rdommin>\n <rdommax>0.013259</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36041</rdommin>\n <rdommax>0.028891</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26466</rdommin>\n <rdommax>0.030451</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36954</rdommin>\n <rdommax>0.070765</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26318</rdommin>\n <rdommax>0.11914</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31177</rdommin>\n <rdommax>0.1468</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17112</rdommin>\n <rdommax>0.14901</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51375</rdommin>\n <rdommax>0.16306</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17116</rdommin>\n <rdommax>0.16012</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56775</rdommin>\n <rdommax>0.15135</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12741</rdommin>\n <rdommax>0.10624</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.59504</rdommin>\n <rdommax>0.092217</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.75209</rdommin>\n <rdommax>0.10114</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.4999</rdommin>\n <rdommax>0.10297</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64357</rdommin>\n <rdommax>0.15278</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18955</rdommin>\n <rdommax>0.3941</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27063</rdommin>\n <rdommax>0.23936</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37853</rdommin>\n <rdommax>0.1388</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20996</rdommin>\n <rdommax>0.12234</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2708</rdommin>\n <rdommax>0.33845</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.61981</rdommin>\n <rdommax>0.3584</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34076</rdommin>\n <rdommax>0.3555</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34966</rdommin>\n <rdommax>0.13965</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34656</rdommin>\n <rdommax>0.33103</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08092016_CMBarge_up1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>9</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>18</rdommin>\n <rdommax>25</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>57</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.41</rdommin>\n <rdommax>9.44</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.8524</rdommin>\n <rdommax>8.5519</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.90028</rdommin>\n <rdommax>1.8211</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.03226</rdommin>\n <rdommax>0.73682</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.049097</rdommin>\n <rdommax>0.66969</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12799</rdommin>\n <rdommax>0.73365</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27008</rdommin>\n <rdommax>0.74653</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27573</rdommin>\n <rdommax>0.74145</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26157</rdommin>\n <rdommax>0.74238</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23758</rdommin>\n <rdommax>0.7164</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18952</rdommin>\n <rdommax>0.70537</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18467</rdommin>\n <rdommax>0.74031</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28402</rdommin>\n <rdommax>0.73528</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24612</rdommin>\n <rdommax>0.73629</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27982</rdommin>\n <rdommax>0.7414</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28534</rdommin>\n <rdommax>0.72417</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34733</rdommin>\n <rdommax>0.71519</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29769</rdommin>\n <rdommax>0.73519</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28879</rdommin>\n <rdommax>0.74718</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27036</rdommin>\n <rdommax>0.73665</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23756</rdommin>\n <rdommax>0.72419</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2653</rdommin>\n <rdommax>0.73668</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25454</rdommin>\n <rdommax>0.72566</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27829</rdommin>\n <rdommax>0.73247</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25861</rdommin>\n <rdommax>0.72377</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27451</rdommin>\n <rdommax>0.72665</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21609</rdommin>\n <rdommax>0.65451</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24852</rdommin>\n <rdommax>0.93599</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.1992</rdommin>\n <rdommax>0.94318</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20021</rdommin>\n <rdommax>0.86095</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16163</rdommin>\n <rdommax>0.75541</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19545</rdommin>\n <rdommax>0.68475</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12619</rdommin>\n <rdommax>0.70138</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.036931</rdommin>\n <rdommax>0.25073</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.015782</rdommin>\n <rdommax>0.21256</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.00063056</rdommin>\n <rdommax>0.19713</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.027707</rdommin>\n <rdommax>0.17933</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.038308</rdommin>\n <rdommax>0.18269</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.043704</rdommin>\n <rdommax>0.17462</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.049288</rdommin>\n <rdommax>0.16174</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.061706</rdommin>\n <rdommax>0.16297</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10938</rdommin>\n <rdommax>0.15996</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.097412</rdommin>\n <rdommax>0.17174</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11912</rdommin>\n <rdommax>0.16346</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11105</rdommin>\n <rdommax>0.17085</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11912</rdommin>\n <rdommax>0.16657</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13</rdommin>\n <rdommax>0.14761</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11999</rdommin>\n <rdommax>0.16875</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12357</rdommin>\n <rdommax>0.16864</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13756</rdommin>\n <rdommax>0.1628</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12887</rdommin>\n <rdommax>0.14516</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11919</rdommin>\n <rdommax>0.12505</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15416</rdommin>\n <rdommax>0.12385</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14372</rdommin>\n <rdommax>0.08708</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15729</rdommin>\n <rdommax>0.050189</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16314</rdommin>\n <rdommax>0.073346</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16548</rdommin>\n <rdommax>0.072412</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38998</rdommin>\n <rdommax>0.057182</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11622</rdommin>\n <rdommax>0.049516</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34289</rdommin>\n <rdommax>0.055438</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24055</rdommin>\n <rdommax>0.031735</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18211</rdommin>\n <rdommax>0.057066</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37638</rdommin>\n <rdommax>0.0519</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08092016_CMBarge_up2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>9</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>14</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>18</rdommin>\n <rdommax>25</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>58</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411750</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.48</rdommin>\n <rdommax>9.77</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.6403</rdommin>\n <rdommax>358.31</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.1832</rdommin>\n <rdommax>2.2018</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16201</rdommin>\n <rdommax>0.66368</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18467</rdommin>\n <rdommax>0.68901</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15732</rdommin>\n <rdommax>0.67892</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18853</rdommin>\n <rdommax>0.70122</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21356</rdommin>\n <rdommax>0.6769</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20181</rdommin>\n <rdommax>0.67584</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.035194</rdommin>\n <rdommax>0.35543</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.010763</rdommin>\n <rdommax>0.31471</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.048262</rdommin>\n <rdommax>0.28876</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.049052</rdommin>\n <rdommax>0.27598</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.064702</rdommin>\n <rdommax>0.28064</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00043023</rdommin>\n <rdommax>0.24072</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08092016_CMBarge_up3.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>9</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>22</rdommin>\n <rdommax>29</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>59</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.36</rdommin>\n <rdommax>10.54</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.764</rdommin>\n <rdommax>9.9149</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.0237</rdommin>\n <rdommax>1.888</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16636</rdommin>\n <rdommax>0.79083</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24909</rdommin>\n <rdommax>0.67995</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22432</rdommin>\n <rdommax>0.67446</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28873</rdommin>\n <rdommax>0.61053</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23699</rdommin>\n <rdommax>0.62424</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18061</rdommin>\n <rdommax>0.60133</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16623</rdommin>\n <rdommax>0.66153</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2207</rdommin>\n <rdommax>0.67025</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15249</rdommin>\n <rdommax>0.76414</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23924</rdommin>\n <rdommax>0.75288</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22607</rdommin>\n <rdommax>0.78009</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24049</rdommin>\n <rdommax>0.67005</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20575</rdommin>\n <rdommax>0.77577</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26255</rdommin>\n <rdommax>0.76282</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28947</rdommin>\n <rdommax>0.76288</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26357</rdommin>\n <rdommax>0.75119</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31026</rdommin>\n <rdommax>0.7313</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22695</rdommin>\n <rdommax>0.67371</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24461</rdommin>\n <rdommax>0.73482</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2291</rdommin>\n <rdommax>0.73502</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24538</rdommin>\n <rdommax>0.70394</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24319</rdommin>\n <rdommax>0.72578</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22033</rdommin>\n <rdommax>0.74326</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24795</rdommin>\n <rdommax>0.76454</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.205</rdommin>\n <rdommax>0.69666</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20348</rdommin>\n <rdommax>0.7445</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.12902</rdommin>\n <rdommax>0.69173</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17126</rdommin>\n <rdommax>0.74535</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11185</rdommin>\n <rdommax>0.77151</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.13861</rdommin>\n <rdommax>0.7195</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.042582</rdommin>\n <rdommax>0.27445</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.027456</rdommin>\n <rdommax>0.27608</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.012387</rdommin>\n <rdommax>0.28671</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.020235</rdommin>\n <rdommax>0.24634</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10225</rdommin>\n <rdommax>0.23948</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11442</rdommin>\n <rdommax>0.21056</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.065321</rdommin>\n <rdommax>0.18342</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.04426</rdommin>\n <rdommax>0.14818</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.050893</rdommin>\n <rdommax>0.13675</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.061654</rdommin>\n <rdommax>0.1397</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.065447</rdommin>\n <rdommax>0.12553</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.09875</rdommin>\n <rdommax>0.12711</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.076195</rdommin>\n <rdommax>0.12839</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.095674</rdommin>\n <rdommax>0.12649</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.095922</rdommin>\n <rdommax>0.11945</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12874</rdommin>\n <rdommax>0.13106</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12622</rdommin>\n <rdommax>0.13532</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13075</rdommin>\n <rdommax>0.12623</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12671</rdommin>\n <rdommax>0.13507</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13219</rdommin>\n <rdommax>0.12584</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14502</rdommin>\n <rdommax>0.093623</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13998</rdommin>\n <rdommax>0.09548</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13115</rdommin>\n <rdommax>0.095167</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14621</rdommin>\n <rdommax>0.08111</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14121</rdommin>\n <rdommax>0.10313</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13736</rdommin>\n <rdommax>0.088051</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14111</rdommin>\n <rdommax>0.11105</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14832</rdommin>\n <rdommax>0.086017</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15547</rdommin>\n <rdommax>0.099585</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16263</rdommin>\n <rdommax>0.094307</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08102016_CMBarge_down1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>10</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>58</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.641</rdommin>\n <rdommax>41.648</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.059</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411780</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611200</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.58</rdommin>\n <rdommax>11.08</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>184.51</rdommin>\n <rdommax>189.3</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21092</rdommin>\n <rdommax>1.8006</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.74417</rdommin>\n <rdommax>0.25085</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.97032</rdommin>\n <rdommax>0.2443</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64638</rdommin>\n <rdommax>0.20622</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.94348</rdommin>\n <rdommax>0.21708</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.9903</rdommin>\n <rdommax>0.18452</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.9666</rdommin>\n <rdommax>0.16445</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.75257</rdommin>\n <rdommax>0.16509</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.79155</rdommin>\n <rdommax>0.18328</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.85661</rdommin>\n <rdommax>0.11792</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5259</rdommin>\n <rdommax>0.13024</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.71328</rdommin>\n <rdommax>0.19251</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.90487</rdommin>\n <rdommax>0.16673</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.66011</rdommin>\n <rdommax>0.065618</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.76195</rdommin>\n <rdommax>0.24036</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.91573</rdommin>\n <rdommax>0.19685</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.841</rdommin>\n <rdommax>0.031419</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.99301</rdommin>\n <rdommax>0.23046</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.55233</rdommin>\n <rdommax>0.18505</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.78279</rdommin>\n <rdommax>0.26295</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.55115</rdommin>\n <rdommax>0.078003</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.95955</rdommin>\n <rdommax>0.45326</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.68358</rdommin>\n <rdommax>0.70723</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.96725</rdommin>\n <rdommax>0.73402</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.50098</rdommin>\n <rdommax>0.80263</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.91315</rdommin>\n <rdommax>0.63717</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.8006</rdommin>\n <rdommax>0.82737</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36093</rdommin>\n <rdommax>0.026703</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5052</rdommin>\n <rdommax>0.030419</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36224</rdommin>\n <rdommax>0.022386</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21189</rdommin>\n <rdommax>0.022862</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39165</rdommin>\n <rdommax>0.045224</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31042</rdommin>\n <rdommax>0.12677</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20829</rdommin>\n <rdommax>0.062174</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31386</rdommin>\n <rdommax>0.06097</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21812</rdommin>\n <rdommax>0.06951</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19574</rdommin>\n <rdommax>0.083915</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25237</rdommin>\n <rdommax>0.083439</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21767</rdommin>\n <rdommax>0.083852</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2253</rdommin>\n <rdommax>0.091345</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25198</rdommin>\n <rdommax>0.092298</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24099</rdommin>\n <rdommax>0.31476</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24037</rdommin>\n <rdommax>0.092385</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20279</rdommin>\n <rdommax>0.28476</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17656</rdommin>\n <rdommax>0.11148</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22062</rdommin>\n <rdommax>0.13296</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5589</rdommin>\n <rdommax>0.28274</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21281</rdommin>\n <rdommax>0.30618</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53246</rdommin>\n <rdommax>0.17369</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45198</rdommin>\n <rdommax>0.46141</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2294</rdommin>\n <rdommax>0.43169</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28767</rdommin>\n <rdommax>0.52021</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23657</rdommin>\n <rdommax>0.46864</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08102016_CMBarge_down2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>11</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>15</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>54</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.061</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411750</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611000</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.09</rdommin>\n <rdommax>12.6</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>183.37</rdommin>\n <rdommax>191.88</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.3993</rdommin>\n <rdommax>1.8623</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.63293</rdommin>\n <rdommax>0.060639</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.82411</rdommin>\n <rdommax>0.16644</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.89669</rdommin>\n <rdommax>-0.052645</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.92258</rdommin>\n <rdommax>-0.12765</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.96668</rdommin>\n <rdommax>-0.17491</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.80401</rdommin>\n <rdommax>-0.13864</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.75675</rdommin>\n <rdommax>-0.19208</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.6439</rdommin>\n <rdommax>-0.20463</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.59145</rdommin>\n <rdommax>-0.19137</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.58792</rdommin>\n <rdommax>0.0002829</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.57862</rdommin>\n <rdommax>0.059009</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52726</rdommin>\n <rdommax>0.11699</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.71108</rdommin>\n <rdommax>0.024583</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.86637</rdommin>\n <rdommax>0.18782</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.77587</rdommin>\n <rdommax>0.53282</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48692</rdommin>\n <rdommax>0.53401</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.88859</rdommin>\n <rdommax>0.10745</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.9139</rdommin>\n <rdommax>0.27656</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.80947</rdommin>\n <rdommax>0.4281</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.82483</rdommin>\n <rdommax>0.36048</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.92172</rdommin>\n <rdommax>0.26433</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.99435</rdommin>\n <rdommax>0.39425</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.69373</rdommin>\n <rdommax>0.92054</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.57125</rdommin>\n <rdommax>0.65189</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.95039</rdommin>\n <rdommax>0.73158</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31646</rdommin>\n <rdommax>0.027067</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.4479</rdommin>\n <rdommax>0.031266</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3397</rdommin>\n <rdommax>0.039579</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28659</rdommin>\n <rdommax>0.054073</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22709</rdommin>\n <rdommax>0.10653</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23409</rdommin>\n <rdommax>0.080221</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19589</rdommin>\n <rdommax>0.069772</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20065</rdommin>\n <rdommax>0.072104</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16362</rdommin>\n <rdommax>0.084596</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25437</rdommin>\n <rdommax>0.097707</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18739</rdommin>\n <rdommax>0.10152</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21902</rdommin>\n <rdommax>0.10007</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14336</rdommin>\n <rdommax>0.19089</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36818</rdommin>\n <rdommax>0.11194</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25631</rdommin>\n <rdommax>0.3626</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18498</rdommin>\n <rdommax>0.24166</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56936</rdommin>\n <rdommax>0.34132</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19116</rdommin>\n <rdommax>0.63817</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52818</rdommin>\n <rdommax>0.77407</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56469</rdommin>\n <rdommax>0.57927</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.59261</rdommin>\n <rdommax>0.50766</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53175</rdommin>\n <rdommax>0.6264</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33081</rdommin>\n <rdommax>0.30068</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31016</rdommin>\n <rdommax>0.54167</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24502</rdommin>\n <rdommax>0.65277</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08102016_CMBarge_down3.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>59</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>58</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.12</rdommin>\n <rdommax>13.02</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>184.81</rdommin>\n <rdommax>190.18</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.2552</rdommin>\n <rdommax>1.6411</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64987</rdommin>\n <rdommax>0.28248</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32803</rdommin>\n <rdommax>0.34365</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32543</rdommin>\n <rdommax>0.043066</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.54415</rdommin>\n <rdommax>0.025407</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.84051</rdommin>\n <rdommax>0.027501</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.94766</rdommin>\n <rdommax>-0.034784</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48799</rdommin>\n <rdommax>0.004264</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.7863</rdommin>\n <rdommax>-0.038594</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38037</rdommin>\n <rdommax>-0.071826</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39004</rdommin>\n <rdommax>0.051729</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32735</rdommin>\n <rdommax>-0.016912</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3686</rdommin>\n <rdommax>0.17169</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64708</rdommin>\n <rdommax>0.072856</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34514</rdommin>\n <rdommax>0.23791</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37394</rdommin>\n <rdommax>0.18341</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33897</rdommin>\n <rdommax>0.49298</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44929</rdommin>\n <rdommax>0.35492</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.54614</rdommin>\n <rdommax>0.25664</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42484</rdommin>\n <rdommax>0.36639</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56819</rdommin>\n <rdommax>0.54367</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34902</rdommin>\n <rdommax>0.56761</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.36271</rdommin>\n <rdommax>0.31752</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.65993</rdommin>\n <rdommax>0.44982</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.99966</rdommin>\n <rdommax>0.38884</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.61744</rdommin>\n <rdommax>0.47404</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.8639</rdommin>\n <rdommax>0.59083</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30372</rdommin>\n <rdommax>-0.050867</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25469</rdommin>\n <rdommax>-0.0078853</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2736</rdommin>\n <rdommax>0.0084566</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22477</rdommin>\n <rdommax>0.040612</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37022</rdommin>\n <rdommax>0.013724</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3087</rdommin>\n <rdommax>0.061157</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13146</rdommin>\n <rdommax>0.030084</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21296</rdommin>\n <rdommax>0.03829</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.092382</rdommin>\n <rdommax>0.048405</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.089246</rdommin>\n <rdommax>0.058476</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.081941</rdommin>\n <rdommax>0.049179</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.068288</rdommin>\n <rdommax>0.066121</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19945</rdommin>\n <rdommax>0.21375</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16473</rdommin>\n <rdommax>0.061561</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.090135</rdommin>\n <rdommax>0.070077</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45246</rdommin>\n <rdommax>0.072947</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17614</rdommin>\n <rdommax>0.12421</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19752</rdommin>\n <rdommax>0.13006</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20891</rdommin>\n <rdommax>0.10349</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44296</rdommin>\n <rdommax>0.35499</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28421</rdommin>\n <rdommax>0.10663</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21608</rdommin>\n <rdommax>0.24388</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24556</rdommin>\n <rdommax>0.32168</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.4236</rdommin>\n <rdommax>0.53575</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22958</rdommin>\n <rdommax>0.18702</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24233</rdommin>\n <rdommax>0.18525</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08102016_CMBarge_down4.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>16</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>59</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.061</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411670</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.45</rdommin>\n <rdommax>15.24</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>183.35</rdommin>\n <rdommax>192.43</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.2141</rdommin>\n <rdommax>1.7543</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41804</rdommin>\n <rdommax>0.070284</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31763</rdommin>\n <rdommax>0.3933</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.62791</rdommin>\n <rdommax>0.069713</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.96116</rdommin>\n <rdommax>-0.029631</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.72853</rdommin>\n <rdommax>-0.045248</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.47731</rdommin>\n <rdommax>-0.061526</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44791</rdommin>\n <rdommax>-0.084816</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38294</rdommin>\n <rdommax>-0.08255</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35476</rdommin>\n <rdommax>-0.098912</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.7433</rdommin>\n <rdommax>0.028702</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.69831</rdommin>\n <rdommax>-0.003166</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.37019</rdommin>\n <rdommax>-0.0062334</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52749</rdommin>\n <rdommax>0.1669</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41525</rdommin>\n <rdommax>0.02644</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.60596</rdommin>\n <rdommax>0.017653</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.84159</rdommin>\n <rdommax>0.27298</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48093</rdommin>\n <rdommax>0.37361</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.45722</rdommin>\n <rdommax>0.45723</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.74606</rdommin>\n <rdommax>0.52577</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38209</rdommin>\n <rdommax>0.56798</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49397</rdommin>\n <rdommax>0.33821</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.35111</rdommin>\n <rdommax>0.27178</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.78068</rdommin>\n <rdommax>0.49393</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.74431</rdommin>\n <rdommax>0.53</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.97104</rdommin>\n <rdommax>0.7443</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.91542</rdommin>\n <rdommax>0.71997</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.97544</rdommin>\n <rdommax>0.75385</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.94963</rdommin>\n <rdommax>0.6325</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.84252</rdommin>\n <rdommax>0.37453</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27257</rdommin>\n <rdommax>-0.0019206</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27009</rdommin>\n <rdommax>-0.014858</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27217</rdommin>\n <rdommax>0.010577</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33656</rdommin>\n <rdommax>0.034619</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18626</rdommin>\n <rdommax>0.030746</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19282</rdommin>\n <rdommax>0.045262</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11313</rdommin>\n <rdommax>0.076331</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13594</rdommin>\n <rdommax>0.076174</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11735</rdommin>\n <rdommax>0.069218</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20142</rdommin>\n <rdommax>0.07061</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20236</rdommin>\n <rdommax>0.10934</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12649</rdommin>\n <rdommax>0.10491</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16223</rdommin>\n <rdommax>0.11384</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13919</rdommin>\n <rdommax>0.12011</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28314</rdommin>\n <rdommax>0.10665</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13904</rdommin>\n <rdommax>0.13821</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17702</rdommin>\n <rdommax>0.12566</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24391</rdommin>\n <rdommax>0.095059</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29673</rdommin>\n <rdommax>0.098072</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44677</rdommin>\n <rdommax>0.097792</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.28385</rdommin>\n <rdommax>0.15349</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.27327</rdommin>\n <rdommax>0.1139</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23938</rdommin>\n <rdommax>0.33632</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20414</rdommin>\n <rdommax>0.33434</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22353</rdommin>\n <rdommax>0.5009</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5238</rdommin>\n <rdommax>0.35689</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.32947</rdommin>\n <rdommax>0.60185</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26528</rdommin>\n <rdommax>0.77132</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39772</rdommin>\n <rdommax>0.43925</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08102016_CMBarge_up2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>33</rdommin>\n <rdommax>41</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9</rdommin>\n <rdommax>59</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.42</rdommin>\n <rdommax>11.53</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.7359</rdommin>\n <rdommax>10.923</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.7408</rdommin>\n <rdommax>1.8211</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17887</rdommin>\n <rdommax>0.72012</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20264</rdommin>\n <rdommax>0.65179</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20714</rdommin>\n <rdommax>0.72079</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17807</rdommin>\n <rdommax>0.6576</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24271</rdommin>\n <rdommax>0.65614</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20648</rdommin>\n <rdommax>0.68388</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16563</rdommin>\n <rdommax>0.76672</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19777</rdommin>\n <rdommax>0.68682</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.16773</rdommin>\n <rdommax>0.72608</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15426</rdommin>\n <rdommax>0.66814</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.15835</rdommin>\n <rdommax>0.71996</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17359</rdommin>\n <rdommax>0.70301</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20794</rdommin>\n <rdommax>0.743</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20285</rdommin>\n <rdommax>0.70889</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2336</rdommin>\n <rdommax>0.72495</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22547</rdommin>\n <rdommax>0.73696</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28158</rdommin>\n <rdommax>0.71593</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31781</rdommin>\n <rdommax>0.7029</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26973</rdommin>\n <rdommax>0.68348</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27929</rdommin>\n <rdommax>0.72737</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24489</rdommin>\n <rdommax>0.72588</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29531</rdommin>\n <rdommax>0.7788</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25002</rdommin>\n <rdommax>0.76086</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19755</rdommin>\n <rdommax>0.70789</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0092491</rdommin>\n <rdommax>0.69094</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.050463</rdommin>\n <rdommax>0.68201</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17562</rdommin>\n <rdommax>0.70318</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19661</rdommin>\n <rdommax>0.74278</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.020863</rdommin>\n <rdommax>0.70493</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.10895</rdommin>\n <rdommax>0.66497</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0029538</rdommin>\n <rdommax>0.20652</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.021722</rdommin>\n <rdommax>0.20948</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.039123</rdommin>\n <rdommax>0.21612</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.08055</rdommin>\n <rdommax>0.20322</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10689</rdommin>\n <rdommax>0.14866</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13267</rdommin>\n <rdommax>0.12459</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11168</rdommin>\n <rdommax>0.10353</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10588</rdommin>\n <rdommax>0.096965</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14533</rdommin>\n <rdommax>0.10711</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14282</rdommin>\n <rdommax>0.10221</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14972</rdommin>\n <rdommax>0.10209</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15967</rdommin>\n <rdommax>0.10933</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16956</rdommin>\n <rdommax>0.11215</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16994</rdommin>\n <rdommax>0.10522</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17271</rdommin>\n <rdommax>0.09376</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18663</rdommin>\n <rdommax>0.077902</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19345</rdommin>\n <rdommax>0.051597</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19947</rdommin>\n <rdommax>0.048293</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1899</rdommin>\n <rdommax>0.044875</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19287</rdommin>\n <rdommax>0.054807</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18904</rdommin>\n <rdommax>0.037264</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18665</rdommin>\n <rdommax>0.039791</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1948</rdommin>\n <rdommax>0.045536</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21073</rdommin>\n <rdommax>0.061807</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21825</rdommin>\n <rdommax>0.038667</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20085</rdommin>\n <rdommax>0.08968</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21733</rdommin>\n <rdommax>0.18068</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22094</rdommin>\n <rdommax>0.18362</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23075</rdommin>\n <rdommax>0.050312</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21093</rdommin>\n <rdommax>0.0040647</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08102016_CMBarge_up3.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>14</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>22</rdommin>\n <rdommax>30</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>52</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.65</rdommin>\n <rdommax>9.79</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.4703</rdommin>\n <rdommax>10.194</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.82311</rdommin>\n <rdommax>1.8777</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33931</rdommin>\n <rdommax>0.78278</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34975</rdommin>\n <rdommax>0.70301</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3475</rdommin>\n <rdommax>0.67851</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33841</rdommin>\n <rdommax>0.68332</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31312</rdommin>\n <rdommax>0.68442</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29598</rdommin>\n <rdommax>0.71239</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34985</rdommin>\n <rdommax>0.71368</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31892</rdommin>\n <rdommax>0.67301</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3393</rdommin>\n <rdommax>0.72691</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32232</rdommin>\n <rdommax>0.69852</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31062</rdommin>\n <rdommax>0.69713</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.29764</rdommin>\n <rdommax>0.66241</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33143</rdommin>\n <rdommax>0.70156</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34577</rdommin>\n <rdommax>0.64819</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3127</rdommin>\n <rdommax>0.67983</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33194</rdommin>\n <rdommax>0.62701</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31351</rdommin>\n <rdommax>0.71345</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2866</rdommin>\n <rdommax>0.66742</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34016</rdommin>\n <rdommax>0.75516</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2951</rdommin>\n <rdommax>0.64684</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.45971</rdommin>\n <rdommax>0.68227</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.41966</rdommin>\n <rdommax>0.65008</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.41873</rdommin>\n <rdommax>0.64884</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.39963</rdommin>\n <rdommax>0.65623</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33591</rdommin>\n <rdommax>0.64168</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13716</rdommin>\n <rdommax>0.67709</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.020926</rdommin>\n <rdommax>0.65467</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.017734</rdommin>\n <rdommax>0.64213</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18691</rdommin>\n <rdommax>0.72662</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.073375</rdommin>\n <rdommax>0.5701</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0024957</rdommin>\n <rdommax>0.17987</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.025811</rdommin>\n <rdommax>0.17378</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.023486</rdommin>\n <rdommax>0.15514</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.035828</rdommin>\n <rdommax>0.1625</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.047248</rdommin>\n <rdommax>0.13877</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.041094</rdommin>\n <rdommax>0.12991</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.052623</rdommin>\n <rdommax>0.13069</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.071063</rdommin>\n <rdommax>0.12129</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.070118</rdommin>\n <rdommax>0.12013</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.08931</rdommin>\n <rdommax>0.12794</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1106</rdommin>\n <rdommax>0.12606</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11879</rdommin>\n <rdommax>0.10628</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11489</rdommin>\n <rdommax>0.1157</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11677</rdommin>\n <rdommax>0.11092</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12479</rdommin>\n <rdommax>0.099218</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11566</rdommin>\n <rdommax>0.10397</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13813</rdommin>\n <rdommax>0.11904</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.132</rdommin>\n <rdommax>0.099284</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16303</rdommin>\n <rdommax>0.092473</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14788</rdommin>\n <rdommax>0.092045</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14537</rdommin>\n <rdommax>0.053005</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15829</rdommin>\n <rdommax>0.021516</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16309</rdommin>\n <rdommax>0.018379</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15933</rdommin>\n <rdommax>0.012173</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16801</rdommin>\n <rdommax>0.0060367</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17659</rdommin>\n <rdommax>0.0090132</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19469</rdommin>\n <rdommax>0.012672</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.186</rdommin>\n <rdommax>0.010013</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1805</rdommin>\n <rdommax>0.14514</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1606</rdommin>\n <rdommax>0.019377</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08102016_CMBarge_up4.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>33</rdommin>\n <rdommax>39</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>58</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.641</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411700</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.31</rdommin>\n <rdommax>11.17</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.4537</rdommin>\n <rdommax>9.6866</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.034</rdommin>\n <rdommax>1.9549</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32015</rdommin>\n <rdommax>0.61209</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34097</rdommin>\n <rdommax>0.57751</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28178</rdommin>\n <rdommax>0.55436</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28486</rdommin>\n <rdommax>0.57839</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.28531</rdommin>\n <rdommax>0.56035</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31412</rdommin>\n <rdommax>0.5348</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32685</rdommin>\n <rdommax>0.5721</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34484</rdommin>\n <rdommax>0.56129</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32787</rdommin>\n <rdommax>0.58372</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.35887</rdommin>\n <rdommax>0.61981</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34841</rdommin>\n <rdommax>0.59841</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33355</rdommin>\n <rdommax>0.60525</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34077</rdommin>\n <rdommax>0.587</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31507</rdommin>\n <rdommax>0.62196</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31253</rdommin>\n <rdommax>0.64123</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31971</rdommin>\n <rdommax>0.60341</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32076</rdommin>\n <rdommax>0.61359</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31105</rdommin>\n <rdommax>0.63322</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33899</rdommin>\n <rdommax>0.60657</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32212</rdommin>\n <rdommax>0.61547</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.33827</rdommin>\n <rdommax>0.61057</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31956</rdommin>\n <rdommax>0.61753</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34465</rdommin>\n <rdommax>0.62154</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.36535</rdommin>\n <rdommax>0.67653</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.35096</rdommin>\n <rdommax>0.68742</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.36395</rdommin>\n <rdommax>0.63747</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.35183</rdommin>\n <rdommax>0.59798</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.36014</rdommin>\n <rdommax>0.7542</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30015</rdommin>\n <rdommax>0.97576</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34483</rdommin>\n <rdommax>0.61854</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.014844</rdommin>\n <rdommax>0.23407</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.022278</rdommin>\n <rdommax>0.24474</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.033434</rdommin>\n <rdommax>0.24564</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.054095</rdommin>\n <rdommax>0.19493</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.049483</rdommin>\n <rdommax>0.18656</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.070089</rdommin>\n <rdommax>0.14035</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.057508</rdommin>\n <rdommax>0.12392</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.082869</rdommin>\n <rdommax>0.11762</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.097511</rdommin>\n <rdommax>0.11997</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11359</rdommin>\n <rdommax>0.11924</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.151</rdommin>\n <rdommax>0.10925</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16386</rdommin>\n <rdommax>0.11249</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14836</rdommin>\n <rdommax>0.11841</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16305</rdommin>\n <rdommax>0.12714</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17697</rdommin>\n <rdommax>0.12383</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18509</rdommin>\n <rdommax>0.12211</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17893</rdommin>\n <rdommax>0.10253</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18272</rdommin>\n <rdommax>0.11287</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20212</rdommin>\n <rdommax>0.10965</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20239</rdommin>\n <rdommax>0.10388</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18504</rdommin>\n <rdommax>0.10521</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19349</rdommin>\n <rdommax>0.096287</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20899</rdommin>\n <rdommax>0.093805</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17488</rdommin>\n <rdommax>0.10301</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18284</rdommin>\n <rdommax>0.077509</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17257</rdommin>\n <rdommax>0.07104</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17136</rdommin>\n <rdommax>0.069498</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18921</rdommin>\n <rdommax>0.076263</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21091</rdommin>\n <rdommax>0.096727</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19204</rdommin>\n <rdommax>0.0075292</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08112016_CMBarge_down1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>11</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>11</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>33</rdommin>\n <rdommax>40</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>50</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411680</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610300</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.84</rdommin>\n <rdommax>8.92</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>183.28</rdommin>\n <rdommax>189.3</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.245</rdommin>\n <rdommax>2.0115</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31956</rdommin>\n <rdommax>0.24331</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43522</rdommin>\n <rdommax>0.14889</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.55964</rdommin>\n <rdommax>0.15414</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.754</rdommin>\n <rdommax>0.055059</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51949</rdommin>\n <rdommax>0.080862</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.62125</rdommin>\n <rdommax>0.13442</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.67045</rdommin>\n <rdommax>0.061225</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.76921</rdommin>\n <rdommax>0.072269</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.76912</rdommin>\n <rdommax>0.058392</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.68871</rdommin>\n <rdommax>0.027077</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64173</rdommin>\n <rdommax>0.056746</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.75022</rdommin>\n <rdommax>0.090228</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5997</rdommin>\n <rdommax>0.10328</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5361</rdommin>\n <rdommax>0.05315</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64919</rdommin>\n <rdommax>0.13871</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51732</rdommin>\n <rdommax>0.1562</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.55302</rdommin>\n <rdommax>0.060274</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.61849</rdommin>\n <rdommax>0.044293</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52339</rdommin>\n <rdommax>0.04673</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53716</rdommin>\n <rdommax>0.0082784</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5004</rdommin>\n <rdommax>0.0010153</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42957</rdommin>\n <rdommax>0.00037938</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.43111</rdommin>\n <rdommax>0.039639</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5845</rdommin>\n <rdommax>0.099847</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.99017</rdommin>\n <rdommax>0.080806</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.7129</rdommin>\n <rdommax>0.11775</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38912</rdommin>\n <rdommax>0.25325</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.82136</rdommin>\n <rdommax>0.65703</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.3938</rdommin>\n <rdommax>0.5063</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39057</rdommin>\n <rdommax>0.3577</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.34941</rdommin>\n <rdommax>-0.041405</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33043</rdommin>\n <rdommax>-0.050421</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23771</rdommin>\n <rdommax>-0.0078808</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.18054</rdommin>\n <rdommax>0.0026225</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1587</rdommin>\n <rdommax>0.027941</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15816</rdommin>\n <rdommax>0.03253</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.16374</rdommin>\n <rdommax>0.03811</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12855</rdommin>\n <rdommax>0.05003</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12182</rdommin>\n <rdommax>0.052518</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1021</rdommin>\n <rdommax>0.066428</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.088766</rdommin>\n <rdommax>0.09533</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.091862</rdommin>\n <rdommax>0.078102</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.092565</rdommin>\n <rdommax>0.10135</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.076183</rdommin>\n <rdommax>0.13117</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.068399</rdommin>\n <rdommax>0.13532</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.080539</rdommin>\n <rdommax>0.15008</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13135</rdommin>\n <rdommax>0.1316</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.075419</rdommin>\n <rdommax>0.09518</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.070022</rdommin>\n <rdommax>0.081506</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.067059</rdommin>\n <rdommax>0.11254</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.075308</rdommin>\n <rdommax>0.1025</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.062252</rdommin>\n <rdommax>0.093235</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.055289</rdommin>\n <rdommax>0.085182</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.038477</rdommin>\n <rdommax>0.16108</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.046494</rdommin>\n <rdommax>0.16438</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21405</rdommin>\n <rdommax>0.094288</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.034436</rdommin>\n <rdommax>0.11537</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.29966</rdommin>\n <rdommax>0.16459</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24555</rdommin>\n <rdommax>0.17117</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.08904</rdommin>\n <rdommax>0.17522</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08112016_CMBarge_down2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>11</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>34</rdommin>\n <rdommax>42</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>53</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411770</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.17</rdommin>\n <rdommax>12.47</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>183.93</rdommin>\n <rdommax>191.7</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.926</rdommin>\n <rdommax>1.7903</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.42632</rdommin>\n <rdommax>0.16099</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.44254</rdommin>\n <rdommax>0.13913</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.47593</rdommin>\n <rdommax>0.098498</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.52381</rdommin>\n <rdommax>0.05622</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.6141</rdommin>\n <rdommax>0.029824</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51243</rdommin>\n <rdommax>0.045319</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.47891</rdommin>\n <rdommax>-0.01662</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.55075</rdommin>\n <rdommax>-0.018141</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.57876</rdommin>\n <rdommax>0.0048474</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.59871</rdommin>\n <rdommax>-0.029039</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.5391</rdommin>\n <rdommax>-0.0012213</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.57069</rdommin>\n <rdommax>0.011181</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.48579</rdommin>\n <rdommax>-0.012589</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.53956</rdommin>\n <rdommax>0.018218</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49882</rdommin>\n <rdommax>0.029207</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.47523</rdommin>\n <rdommax>0.0021151</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49679</rdommin>\n <rdommax>0.0028169</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.46651</rdommin>\n <rdommax>-0.0077173</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49768</rdommin>\n <rdommax>0.010393</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.50994</rdommin>\n <rdommax>0.011668</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.479</rdommin>\n <rdommax>-0.049201</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.81703</rdommin>\n <rdommax>0.10776</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.65924</rdommin>\n <rdommax>0.16197</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.91082</rdommin>\n <rdommax>0.1833</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.64863</rdommin>\n <rdommax>0.10932</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.51578</rdommin>\n <rdommax>0.23521</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.54437</rdommin>\n <rdommax>0.32631</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.54995</rdommin>\n <rdommax>0.21118</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.68706</rdommin>\n <rdommax>0.47669</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.39092</rdommin>\n <rdommax>0.39637</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26872</rdommin>\n <rdommax>-0.019126</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23629</rdommin>\n <rdommax>0.011453</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.20517</rdommin>\n <rdommax>0.03769</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1727</rdommin>\n <rdommax>0.047472</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1458</rdommin>\n <rdommax>0.070545</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12132</rdommin>\n <rdommax>0.068484</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1113</rdommin>\n <rdommax>0.081059</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12277</rdommin>\n <rdommax>0.05707</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.13846</rdommin>\n <rdommax>0.061288</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11772</rdommin>\n <rdommax>0.057582</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.079441</rdommin>\n <rdommax>0.081203</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.074804</rdommin>\n <rdommax>0.057333</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.074977</rdommin>\n <rdommax>0.074212</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.070107</rdommin>\n <rdommax>0.072257</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.077985</rdommin>\n <rdommax>0.085202</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10733</rdommin>\n <rdommax>0.080169</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.068689</rdommin>\n <rdommax>0.075188</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.070553</rdommin>\n <rdommax>0.077905</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.07309</rdommin>\n <rdommax>0.071285</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.060449</rdommin>\n <rdommax>0.078634</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.079703</rdommin>\n <rdommax>0.078782</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.23807</rdommin>\n <rdommax>0.23921</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.028513</rdommin>\n <rdommax>0.34908</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.05499</rdommin>\n <rdommax>0.3948</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.26998</rdommin>\n <rdommax>0.27778</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10169</rdommin>\n <rdommax>0.17866</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.06552</rdommin>\n <rdommax>0.37061</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.088733</rdommin>\n <rdommax>0.13801</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30701</rdommin>\n <rdommax>0.25254</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.14143</rdommin>\n <rdommax>0.26608</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08112016_CMBarge_up1.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>11</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>10</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>46</rdommin>\n <rdommax>53</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>51</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.641</rdommin>\n <rdommax>41.647</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411700</rdommin>\n <rdommax>411750</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.41</rdommin>\n <rdommax>11.17</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.0419</rdommin>\n <rdommax>8.3668</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.70479</rdommin>\n <rdommax>2.1298</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21353</rdommin>\n <rdommax>0.68151</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19676</rdommin>\n <rdommax>0.70904</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23189</rdommin>\n <rdommax>0.68732</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19643</rdommin>\n <rdommax>0.67362</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26473</rdommin>\n <rdommax>0.66884</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21381</rdommin>\n <rdommax>0.65448</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19271</rdommin>\n <rdommax>0.65849</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24057</rdommin>\n <rdommax>0.7001</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.23138</rdommin>\n <rdommax>0.6988</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25593</rdommin>\n <rdommax>0.69922</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.21858</rdommin>\n <rdommax>0.65914</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22862</rdommin>\n <rdommax>0.70022</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.17629</rdommin>\n <rdommax>0.69331</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20145</rdommin>\n <rdommax>0.73132</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.20836</rdommin>\n <rdommax>0.73936</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22951</rdommin>\n <rdommax>0.7018</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32648</rdommin>\n <rdommax>0.69969</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34917</rdommin>\n <rdommax>0.66559</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.45104</rdommin>\n <rdommax>0.63773</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3586</rdommin>\n <rdommax>0.64862</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.4312</rdommin>\n <rdommax>0.68072</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.39918</rdommin>\n <rdommax>0.68565</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.38314</rdommin>\n <rdommax>0.7129</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.40752</rdommin>\n <rdommax>0.68811</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.38716</rdommin>\n <rdommax>0.65674</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3754</rdommin>\n <rdommax>0.64677</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.38012</rdommin>\n <rdommax>0.68609</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.40058</rdommin>\n <rdommax>0.98445</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.36132</rdommin>\n <rdommax>0.62447</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24003</rdommin>\n <rdommax>0.54957</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.003284</rdommin>\n <rdommax>0.22188</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0011513</rdommin>\n <rdommax>0.19303</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.019074</rdommin>\n <rdommax>0.17809</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.0097389</rdommin>\n <rdommax>0.15958</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.041457</rdommin>\n <rdommax>0.16567</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.029111</rdommin>\n <rdommax>0.16069</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.053112</rdommin>\n <rdommax>0.15323</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.072008</rdommin>\n <rdommax>0.1511</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.085983</rdommin>\n <rdommax>0.15547</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.113</rdommin>\n <rdommax>0.15798</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11614</rdommin>\n <rdommax>0.13553</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.11302</rdommin>\n <rdommax>0.13963</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10887</rdommin>\n <rdommax>0.13867</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10868</rdommin>\n <rdommax>0.15201</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10686</rdommin>\n <rdommax>0.13719</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.086047</rdommin>\n <rdommax>0.13935</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10721</rdommin>\n <rdommax>0.14028</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.095274</rdommin>\n <rdommax>0.14819</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.093577</rdommin>\n <rdommax>0.12883</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.09391</rdommin>\n <rdommax>0.11984</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.089597</rdommin>\n <rdommax>0.10072</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.092703</rdommin>\n <rdommax>0.094298</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1019</rdommin>\n <rdommax>0.042526</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10014</rdommin>\n <rdommax>0.00216</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.094309</rdommin>\n <rdommax>0.010797</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.086869</rdommin>\n <rdommax>0.0078108</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.076835</rdommin>\n <rdommax>0.010872</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.10172</rdommin>\n <rdommax>0.081789</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.12212</rdommin>\n <rdommax>0.029889</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.088213</rdommin>\n <rdommax>-0.0031546</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>08112016_CMBarge_up2.csv</enttypl>\n <enttypd>Comma separated values file containing the time series of the measurements by the barge-mounted Channel Master during each transit of the EDBS by the test tow.</enttypd>\n <enttypds>User defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>16</rdommin>\n <rdommax>16</rdommax>\n <attrunit>year</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Month</attrlabl>\n <attrdef>Month</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8</rdommin>\n <rdommax>8</rdommax>\n <attrunit>month</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11</rdommin>\n <rdommax>11</rdommax>\n <attrunit>day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hour</attrlabl>\n <attrdef>Hour</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15</rdommin>\n <rdommax>15</rdommax>\n <attrunit>hour</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Min</attrlabl>\n <attrdef>Minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>9</rdommax>\n <attrunit>minute</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Second</attrlabl>\n <attrdef>Second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>54</rdommax>\n <attrunit>second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>41.64</rdommin>\n <rdommax>41.646</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longigtude in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-88.06</rdommin>\n <rdommax>-88.06</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Easting</attrlabl>\n <attrdef>UTM Easting in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>411690</rdommin>\n <rdommax>411760</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Northing</attrlabl>\n <attrdef>UTM Northing in meters</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4610400</rdommin>\n <rdommax>4611100</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Heading</attrlabl>\n <attrdef>Heading in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.99</rdommin>\n <rdommax>359.13</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Course</attrlabl>\n <attrdef>Course in degrees from North</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.83639</rdommin>\n <rdommax>9.5083</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BargeSpeed(m/s)</attrlabl>\n <attrdef>Barge speed in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.0546</rdommin>\n <rdommax>1.996</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.49174</rdommin>\n <rdommax>0.78157</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.048541</rdommin>\n <rdommax>0.80726</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.11157</rdommin>\n <rdommax>0.77033</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.2722</rdommin>\n <rdommax>0.79248</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34162</rdommin>\n <rdommax>0.81255</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.32488</rdommin>\n <rdommax>0.87152</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34913</rdommin>\n <rdommax>0.81657</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24846</rdommin>\n <rdommax>0.77142</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1066</rdommin>\n <rdommax>0.78322</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.087696</rdommin>\n <rdommax>0.79285</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.41055</rdommin>\n <rdommax>0.79059</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.40459</rdommin>\n <rdommax>0.81761</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.044694</rdommin>\n <rdommax>0.78561</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.15974</rdommin>\n <rdommax>0.7866</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33163</rdommin>\n <rdommax>0.82661</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21259</rdommin>\n <rdommax>0.90941</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27042</rdommin>\n <rdommax>0.81562</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27066</rdommin>\n <rdommax>0.892</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.31416</rdommin>\n <rdommax>0.7756</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26403</rdommin>\n <rdommax>0.86525</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.39774</rdommin>\n <rdommax>0.84263</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.22478</rdommin>\n <rdommax>0.86549</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.392</rdommin>\n <rdommax>0.77961</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.37299</rdommin>\n <rdommax>0.79734</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3846</rdommin>\n <rdommax>0.82408</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vx</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.035452</rdommin>\n <rdommax>0.18625</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.020802</rdommin>\n <rdommax>0.1446</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.040576</rdommin>\n <rdommax>0.14942</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.054785</rdommin>\n <rdommax>0.1366</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>2.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.064556</rdommin>\n <rdommax>0.10039</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.062977</rdommin>\n <rdommax>0.1097</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.058625</rdommin>\n <rdommax>0.099162</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.21914</rdommin>\n <rdommax>0.098956</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>4.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.33394</rdommin>\n <rdommax>0.084599</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.61638</rdommin>\n <rdommax>0.088073</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>5.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.24176</rdommin>\n <rdommax>0.079394</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.31677</rdommin>\n <rdommax>0.077651</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.69524</rdommin>\n <rdommax>0.075248</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.56691</rdommin>\n <rdommax>0.069148</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>7.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.38081</rdommin>\n <rdommax>0.079223</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.30688</rdommin>\n <rdommax>0.083267</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>8.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.17378</rdommin>\n <rdommax>0.061469</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.2281</rdommin>\n <rdommax>0.11635</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>9.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.1606</rdommin>\n <rdommax>0.044958</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25542</rdommin>\n <rdommax>0.0041262</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>10.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.22879</rdommin>\n <rdommax>0.0040994</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19528</rdommin>\n <rdommax>0.0011252</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>11.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.235</rdommin>\n <rdommax>0.010776</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.19198</rdommin>\n <rdommax>0.11048</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>12.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.25399</rdommin>\n <rdommax>0.029945</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>13.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>14.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>15.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>16.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.274Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>17.774Vy</attrlabl>\n <attrdef>Velocity at center of cell. Attribute label prefix inidcates cell center distance from the side of the barge, in meters. Suffix describes streamwise (Vx) or cross-stream (Vy) velocity component.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>NaN</rdommin>\n <rdommax>NaN</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200814</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Frank L. Engel</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>405 N. Goodwin Ave.</address>\n <city>Urbana</city>\n <state>Illinois</state>\n <postal>61801</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>217-328-9774</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Data Release Products](/catalog/item/5474ec49e4b04d7459a7eab2)
3. [Detailed geologic mapping geodatabase for the Blue Ridge Parkway in Virginia with station point photographs](/catalog/item/5672fd24e4b01a7f82451e9d)
4. [Detailed geologic mapping geodatabase for the Blue Ridge Parkway in Virginia](/catalog/folder/56ce06f6e4b0b1892d9f0e89)
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## Dates
Publication Date2016Start Date2009End Date2014
## Citation
Carter, M.W., Crider, E.A., Southworth, C.S., and Aleinikoff, J.N., 2016, Detailed geologic mapping geodatabase for the Blue Ridge Parkway in Virginia with station point photographs: U.S. Geological Survey data release, http://dx.doi.org/10.5066/F7DN434F.
## Summary
The US Geological Survey, in cooperation with the National Park Service, mapped 35 7.5-minute quadrangles, within a 2-mile-wide+ corridor centered on the Parkway, from BLRI (Blue Ridge Parkway) Mile Post (MP) 0 near Afton, Virginia southward to MP 218 at Cumberland Knob, approximately 1.3 km south of the Virginia – North Carolina State Line. Detailed bedrock geologic mapping for this project was conducted at 1:24,000-scale by systematically traversing roads, trails, creeks, and ridges within and adjacent to the 2-mile-wide+ corridor along the 216.9-mile length of the BLRI in Virginia. Geologic data at more than 23,000 station points were collected during this project (September 2009 – February 2014), with approximately 19,500 included \[...\]
## Summary
The US Geological Survey, in cooperation with the National Park Service, mapped 35 7.5-minute quadrangles, within a 2-mile-wide+ corridor centered on the Parkway, from BLRI (Blue Ridge Parkway) Mile Post (MP) 0 near Afton, Virginia southward to MP 218 at Cumberland Knob, approximately 1.3 km south of the Virginia – North Carolina State Line. Detailed bedrock geologic mapping for this project was conducted at 1:24,000-scale by systematically traversing roads, trails, creeks, and ridges within and adjacent to the 2-mile-wide+ corridor along the 216.9-mile length of the BLRI in Virginia. Geologic data at more than 23,000 station points were collected during this project (September 2009 – February 2014), with approximately 19,500 included in the accompanying database. Station point geologic data collected included lithology, structural measurements (bedding, foliations, folds, lineations, etc), mineral resource information, and other important geologic observations. Station points at the start of this project (September 2009) were located in the field using topographic reckoning; after May 2012 stations were located using Topo Maps (latest version 1.12.1) for Apple IPad 2, model MC744LL/A. Since the start of the project, station point geologic data and locational metadata were recorded both in analog (field notebook and topographic field sheets) and digitally in ESRI ArcGIS (latest version ArcMAP 10.1). Station point geologic data were used to identify major map units, construct contact lines between map units, identify the nature of those contacts (igneous, stratigraphic or structural), determine contact convention control (exact – located in field to within 15 meters; approximate – located to within 60 meters; inferred – located greater than 60 meters), trace structural elements (faults, fold axes, etc) across the project area, and determine fault orientation and kinematics. Geologic line work was initially drafted in the field during the course of systematic detailed mapping; line editing occurred during office compilation in Adobe Illustrator (latest version CS 4). Final editing occurred during conversion and compilation of Illustrator line work into the ArcGIS database, where it was merged with station point geologic data. Station point geologic data, contacts and faults from previous work in the BLRI corridor were evaluated for compilation and synthesis in the BLRI mapping project. Station point geologic data compiled from previous work are referenced and marked with a “C” in the database. Compiled line work is also clearly tagged and referenced. The BLRI cuts at an oblique angle nearly the entire width of the Blue Ridge Geologic Province in Virginia. Thus, the geology varies significantly along it’s along its 216-mile traverse. North of Roanoke (BLRI MP 115), the Blue Ridge is defined as an orogen-scale, northwest-vergent, northeast-plunging reclined anticlinorium, and from its start at MP 0 near Afton, Virginia, southward to Roanoke, the BLRI traverses the western limb of this structure. Here, rocks range in age from Mesoproterozoic to Cambrian: Mesoproterozoic orthogneisses and metamorphosed granitoid rocks of the Shenandoah massif comprise “basement” to Neoproterozoic to Cambrian mildy- to non-metamorphosed to sedimentary “cover” rocks; the BLRI crisscrosses in many places the contact between cover and basement. Mesoproterozoic basement rocks in the Shenandoah massif represent the original crust of the Laurentian (ancestral North American) continent; sedimentary cover rocks were deposited directly on this crust during extension and breakup of the Rodinian supercontinent in the Neoproterozoic to earliest Cambrian. Very locally, diabase dikes of earliest Jurassic age intrude older basement and cover sequences. These dikes were emplaced in the Blue Ridge during continental extension (rifting) and the opening of the Atlantic Ocean in the Mesozoic Era. From MP 103.3 to MP 110.3 near Roanoke, the BLRI crosses into and out of a part of the Valley and Ridge Geologic Province. Unmetamorphosed sedimentary rocks of Cambrian to Ordovician age – mostly shale, siltstone and carbonate – occur here. These rocks were deposited in a terrestrial to shallow marine environment on the Laurentian continental margin, after extensional breakup of Rodinian supercontinent in the Neoproterozoic and earliest Cambrian, but before mid- to late-Paleozoic orogenesis. South of Roanoke, the Blue Ridge Geologic Province quickly transitions from an anticlinorium to a stack of imbricated thrust sheets. After crossing the southern end of the Shenandoah Mesoproterozoic basement massif (MP 124.1 to MP 144.4), the BLRI enters the eastern Blue Ridge province, a fault-bounded geologic terrane comprised of high-metamorphic-grade sedimentary and volcanic rocks deposited east of the Laurentian continental margin from the Neoproterozoic to early Paleozoic. These rocks were significantly metamorphosed, deformed, and transported westward onto the Laurentian margin along major orogenic faults during Paleozoic orogenesis. Sixty bedrock map units underlie the BLRI in Virginia. These units consist of one or more distinguishing lithologies (rock types), and are grouped into formal and informal hierarchal frameworks based on age, stratigraphy (formations-groups), and tectonogenesis. Many of these units exhibit characteristics and field relationships that are critical to our understanding of Appalachian orogenesis. Most of these units are named based on the dominant occurring lithology; other units follow formal nomenclature, some of which was developed and has been used for more than 100 years. Oldest rocks occurring along the BLRI corridor are Mesoproterozoic orthopyroxene-bearing basement rocks of the Shenandoah massif, in the core of the Blue Ridge anticlinorium. Preliminary SHRIMP U-Pb zircon geochronology (J. N. Aleinikoff, this study) shows that these rocks can be grouped based on crystallization ages: Group I (~1.2 to 1.14 Ga) are strongly foliated orthogneisses and Group II (~1.06 to 1.0 Ga) are less deformed metagranitoids. Group I orthogneisses, which occur discontinuously from near Irish Gap (MP 37) to Cahas Overlook (MP 139), comprise 10 map units: leucogranitic gneiss (Yllg); megacrystic quartz-monzonitic gneiss (Yqg); granitic gneiss (Yg); lineated granitoid gneiss (Ylgg); garnetiferous leucogneiss (Yglg); Sandy Creek gneiss (Ysg); porphyroblastic garnet-biotite leucogranitic gneiss (Ygtg); dioritic gneiss (Ydg); Pilot gneiss (Ypg); and megacrystic granodioritic gneiss (Ygg). Group II metagranitoids, which are first encountered along the BLRI at Reeds Gap (MP 14) and occur discontinuously to Roanoke River Overlook (MP 115), comprise 8 map units: megacrystic meta-quartz monzonitoid (Yqm); massive metagranitoid (Ymgm); megacrystic metagranitoid (Ypgm); mesocratic porphyritic metagranitoid (Ygpm); metagranodioritoid (Ygdm); Vesuvius megaporphyritic metagranitoid (Yvm); quartz-feldspar leucogranitoid (Yqfm); and Peaks of Otter metagranitoid (Ypom). An additional relatively undeformed metagranitoid with a preliminary SHRIMP U-Pb zircon age of ~1.12 Ga is assigned to the Bottom Creek Suite (Ybcm), and well layered migmatitic gneiss (Ymg) near Irish Gap (MP 37) has a a preliminary SHRIMP U-Pb zircon age of ~1.05 Ga. Other rocks of Mesoproterozoic age include orthogneisses in the Fries thrust sheet between MP 139 and MP 144.5 that range in age from ~1.19 to ~1.07 Ga: biotite-muscovite leucogneiss (Ymlg); biotite granitic augen gneiss (Ybgg); blue-quartz gneiss (Ybqg); and biotite leucogneiss (Yblg). Latest Mesoproterozoic rocks include paragneiss and pegmatite (Yprg) near Porters Mountain Overlook (MP 90), and a suite of igneous intrusive nelsonites and jotunites (Yjn). Two units, foliated metagreenstone (Zdm) and foliated metagranitoid (Zgm), locally intrude older Mesoproterozoic rocks in the core of the Blue Ridge anticlinorium. Metagreenstone is fine-grained and mafic in composition, and occur as narrow dikes and sills; metagranitoid is medium-grained and generally felsic in composition, and intrude basement rocks as small plutons, stocks, and a few narrow dikes. On the west limb of the Blue Ridge anticlinorium, metamorphosed sedimentary and volcanic rocks of Neoproterozoic to Cambrian age crop out discontinuously along the BLRI from near Afton (MP 0) to MP 103.3, in the vicinity Roanoke Mountain (MP 120 to MP 124), to near Adney Gap (MP 136). These rocks are assigned to a formal stratigraphic sequence: Swift Run Formation; Catoctin Formation; Chilhowee Group. Metasedimentary and meta-igneous rocks of lower Paleozoic (?) to Neoproterozoic age are assigned to the Alligator Back Formation, Lynchburg Group, and Ashe Formation. These units crop out southeast of the Red Valley fault from MP 144.5 southwestward to the North Carolina–Virginia State Line at Mile Post 216.9. Rocks assigned to the Alligator Back crop out in the Blue Ridge Parkway corridor from Mile Post 174.5 southward to the North Carolina–Virginia State Line: compositional-layered biotite-muscovite gneiss (abg); garnet-biotite-muscovite-quartz schist (abs); quartzite and quartz-rich metasandstone (abq); and marble (abm). The following lithologic map units along the BLRI corridor are correlated with Lynchburg Group formations: graphitic schist (lgs), muscovite-biotite metagraywacke (lmg), and graphite-muscovite-quartz metasandstone (lms). These rocks crop out between the Red Valley fault (Mile Post 144.5) and the Rock Castle Creek fault (Mile Post 174.5). Coarse-grained- to conglomeratic metagraywacke (acm), underlying Lynchburg Group rocks west of the Rock Castle Creek fault in the vicinity of Rakes Millpond (MP 162.3) and Rocky Knob Visitors Center (MP 169), are considered to be the lower metamorphic grade-equivalent of the higher metamorphic-grade Ashe Formation at its type section in northwestern North Carolina. Five meta-igneous lithologic map units occur as mappable bodies interlayered or intrusive into metasedimentary rocks of the Alligator Back Formation and Lynchburg Group. Altered ultramafic and ultrabasic rocks (um) occur mostly within the Lynchburg Group, but few thin bodies also occur within laminated amphibolite gneiss (aml) locally (laminated amphibolite gneiss is associated with rocks of the Alligator Back Formation). Amphibolites of the Lynchburg Group include biotite-bearing amphibolite (amb), clinozoisite-bearing amphibolite (amc) and quartz-layered amphibolite (amq). Map units that occur beneath the Blue Ridge fault are assigned to the Valley and Ridge Province. In the BLRI corridor, these rocks are first exposed near Bearwallow Gap (MP 91) and continue southward beyond Roanoke near MP 125. Oldest formations are Shady Dolomite (Cs) and Waynesboro Formation (Cw), which regionally can be mapped in stratigraphic continuity with cover and basement rocks of the Blue Ridge anticlinorium. Conversely, nowhere in the Appalachians can rocks of the Elbrook Formation (Ce) or Conococheague Formation (Cco) be mapped in direct stratigraphic continuity with Mesoproterozoic basement rocks in the core of the Blue Ridge anticlinorium; however, they do stratigraphically overlie older Waynesboro Formation and Shady Dolomite within imbricates of the Blue Ridge fault system. Ordovician Martinsburg Formation (Omb) occurs beneath the Pulaski fault north of Roanoke River, about 0.85 km northwest of MP 108. Paleozoic mylonite (Pzmy) is a tectonic rock unit that that occurs in high-strain fault zones in the core of the Blue Ridge anticlinorium from near Afton (MP 0) to Adney Gap (MP 136). Jurassic diabase (Jd) occurs in narrow dikes that intrude older map units, just south of Roanoke River near MP 118 and MP 125, north of James River near MP 56, and in the vicinity of Afton near MP 3 and north of MP 0.
... show more ...
## Contacts
Point of Contact
:
[U.S. Geological Survey, Eastern Geology and Paleoclimate Science Center](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Eastern+Geology+and+Paleoclimate+Science+Center)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey+-+ScienceBase)
Metadata Contact
:
[Ernest A Crider](/catalog/catalogParty/show?partyId=Ernest+A+Crider)
Originator
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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| BlueRidgeParkway.xml<br>_Original FGDC Metadata_ | View | 32.38 KB | application/fgdc+xml |
| BlueRidgeParkway.gdb.zip<br>“Blue Ridge Parkway Geodatabase” | | 5.14 MB | application/zip |
| SupplementalDocumentation.zip | | 74.25 KB | application/zip |
## Purpose
The geologic map database for the Blue Ridge Parkway can be utilized to address numerous county and state, land-use, and environmental issues. Possible applications of this database include the study of landslide hazards, groundwater resource issues, land-use planning for growing communities, and further studies related to earthquake hazards. These data can also be used to study the close association between bedrock geology, overlying soils and surface ecology. All of these applications require accurate, concise, and user-friendly geologic map data to produce viable derivative products and to enable sound land-use decisions.
## [Map](/catalog/item/imap/56ce06f6e4b0b1892d9f0e89)
[![Map Preview](https://www.sciencebase.gov/catalog/file/get/56ce06f6e4b0b1892d9f0e89?f=__disk__15%2Fb6%2Fcf%2F15b6cfc777fa404d4cf40e30874498ae96bec1e9)](/catalog/item/imap/56ce06f6e4b0b1892d9f0e89)
## Communities
- USGS Data Release Products
## Tags
Theme
- [Alligator Back Formation](/catalog/items?q=&filter=tags%3DAlligator+Back+Formation "Alligator Back Formation (Alligator Back Formation, Theme, None)")
- [Antietam Formation](/catalog/items?q=&filter=tags%3DAntietam+Formation "Antietam Formation (Antietam Formation, Theme, None)")
- [Ashe Formation](/catalog/items?q=&filter=tags%3DAshe+Formation "Ashe Formation (Ashe Formation, Theme, None)")
- [Bedrock](/catalog/items?q=&filter=tags%3DBedrock "Bedrock (Bedrock, Theme, None)")
- [Bottom Creek Metagranitoid Suite](/catalog/items?q=&filter=tags%3DBottom+Creek+Metagranitoid+Suite "Bottom Creek Metagranitoid Suite (Bottom Creek Metagranitoid Suite, Theme, None)")
- [Carbonate](/catalog/items?q=&filter=tags%3DCarbonate "Carbonate (Carbonate, Theme, None)")
- [Chilhowee Group](/catalog/items?q=&filter=tags%3DChilhowee+Group "Chilhowee Group (Chilhowee Group, Theme, None)")
- [Conococheague Formation](/catalog/items?q=&filter=tags%3DConococheague+Formation "Conococheague Formation (Conococheague Formation, Theme, None)")
- [Crossnore Plutonic Suite](/catalog/items?q=&filter=tags%3DCrossnore+Plutonic+Suite "Crossnore Plutonic Suite (Crossnore Plutonic Suite, Theme, None)")
- [Diabase](/catalog/items?q=&filter=tags%3DDiabase "Diabase (Diabase, Theme, None)")
- [Elbrook Formation](/catalog/items?q=&filter=tags%3DElbrook+Formation "Elbrook Formation (Elbrook Formation, Theme, None)")
- [Ervin](/catalog/items?q=&filter=tags%3DErvin "Ervin (Ervin, Theme, None)")
- [Folds](/catalog/items?q=&filter=tags%3DFolds "Folds (Folds, Theme, None)")
- [Formation](/catalog/items?q=&filter=tags%3DFormation "Formation (Formation, Theme, None)")
- [Geology](/catalog/items?q=&filter=tags%3DGeology "Geology (Geology, Theme, None)")
- [Gneiss](/catalog/items?q=&filter=tags%3DGneiss "Gneiss (Gneiss, Theme, None)")
- [Granite](/catalog/items?q=&filter=tags%3DGranite "Granite (Granite, Theme, None)")
- [Hampton Formation](/catalog/items?q=&filter=tags%3DHampton+Formation "Hampton Formation (Hampton Formation, Theme, None)")
- [Harpers Formation](/catalog/items?q=&filter=tags%3DHarpers+Formation "Harpers Formation (Harpers Formation, Theme, None)")
- [Lynchburg Group](/catalog/items?q=&filter=tags%3DLynchburg+Group "Lynchburg Group (Lynchburg Group, Theme, None)")
- [Martinsburg Formation](/catalog/items?q=&filter=tags%3DMartinsburg+Formation "Martinsburg Formation (Martinsburg Formation, Theme, None)")
- [Mesoproterozoic gneisses of the Fries Thrust Sheet](/catalog/items?q=&filter=tags%3DMesoproterozoic+gneisses+of+the+Fries+Thrust+Sheet "Mesoproterozoic gneisses of the Fries Thrust Sheet (Mesoproterozoic gneisses of the Fries Thrust Sheet, Theme, None)")
- [Metabasalt](/catalog/items?q=&filter=tags%3DMetabasalt "Metabasalt (Metabasalt, Theme, None)")
- [Metagranitoid](/catalog/items?q=&filter=tags%3DMetagranitoid "Metagranitoid (Metagranitoid, Theme, None)")
- [Normal Fault](/catalog/items?q=&filter=tags%3DNormal+Fault "Normal Fault (Normal Fault, Theme, None)")
- [Peaks of Otter Metagranitoid](/catalog/items?q=&filter=tags%3DPeaks+of+Otter+Metagranitoid "Peaks of Otter Metagranitoid (Peaks of Otter Metagranitoid, Theme, None)")
- [Pilot Gneiss](/catalog/items?q=&filter=tags%3DPilot+Gneiss "Pilot Gneiss (Pilot Gneiss, Theme, None)")
- [Reverse Fault](/catalog/items?q=&filter=tags%3DReverse+Fault "Reverse Fault (Reverse Fault, Theme, None)")
- [Sandy Creek Gneiss](/catalog/items?q=&filter=tags%3DSandy+Creek+Gneiss "Sandy Creek Gneiss (Sandy Creek Gneiss, Theme, None)")
- [Shady Dolomite](/catalog/items?q=&filter=tags%3DShady+Dolomite "Shady Dolomite (Shady Dolomite, Theme, None)")
- [Structure](/catalog/items?q=&filter=tags%3DStructure "Structure (Structure, Theme, None)")
- [Swift Run Formation](/catalog/items?q=&filter=tags%3DSwift+Run+Formation "Swift Run Formation (Swift Run Formation, Theme, None)")
- [Thrust Fault](/catalog/items?q=&filter=tags%3DThrust+Fault "Thrust Fault (Thrust Fault, Theme, None)")
- [Unicoi Formation](/catalog/items?q=&filter=tags%3DUnicoi+Formation "Unicoi Formation (Unicoi Formation, Theme, None)")
- [Wayneboro Formation](/catalog/items?q=&filter=tags%3DWayneboro+Formation "Wayneboro Formation (Wayneboro Formation, Theme, None)")
- [Weverton Formation](/catalog/items?q=&filter=tags%3DWeverton+Formation "Weverton Formation (Weverton Formation, Theme, None)")
Place
- [Adney Gap](/catalog/items?q=&filter=tags%3DAdney+Gap "Adney Gap (Adney Gap, Place, None)")
- [Air Bellows Gap](/catalog/items?q=&filter=tags%3DAir+Bellows+Gap "Air Bellows Gap (Air Bellows Gap, Place, None)")
- [Ashville](/catalog/items?q=&filter=tags%3DAshville "Ashville (Ashville, Place, None)")
- [Bald Mountain](/catalog/items?q=&filter=tags%3DBald+Mountain "Bald Mountain (Bald Mountain, Place, None)")
- [Balsam Gap](/catalog/items?q=&filter=tags%3DBalsam+Gap "Balsam Gap (Balsam Gap, Place, None)")
- [Beacon Heights](/catalog/items?q=&filter=tags%3DBeacon+Heights "Beacon Heights (Beacon Heights, Place, None)")
- [Bear Den](/catalog/items?q=&filter=tags%3DBear+Den "Bear Den (Bear Den, Place, None)")
- [Bear Mountain Gap](/catalog/items?q=&filter=tags%3DBear+Mountain+Gap "Bear Mountain Gap (Bear Mountain Gap, Place, None)")
- [Bearwallow Gap](/catalog/items?q=&filter=tags%3DBearwallow+Gap "Bearwallow Gap (Bearwallow Gap, Place, None)")
- [Beech Gap](/catalog/items?q=&filter=tags%3DBeech+Gap "Beech Gap (Beech Gap, Place, None)")
- [Beetree Gap](/catalog/items?q=&filter=tags%3DBeetree+Gap "Beetree Gap (Beetree Gap, Place, None)")
- [Benge Gap](/catalog/items?q=&filter=tags%3DBenge+Gap "Benge Gap (Benge Gap, Place, None)")
- [Big Island](/catalog/items?q=&filter=tags%3DBig+Island "Big Island (Big Island, Place, None)")
- [Big Witch Gap](/catalog/items?q=&filter=tags%3DBig+Witch+Gap "Big Witch Gap (Big Witch Gap, Place, None)")
- [Biltmore Estate](/catalog/items?q=&filter=tags%3DBiltmore+Estate "Biltmore Estate (Biltmore Estate, Place, None)")
- [Blackhorse Gap](/catalog/items?q=&filter=tags%3DBlackhorse+Gap "Blackhorse Gap (Blackhorse Gap, Place, None)")
- [Blowing Rock](/catalog/items?q=&filter=tags%3DBlowing+Rock "Blowing Rock (Blowing Rock, Place, None)")
- [Blue Ridge Music Center Visitor Center](/catalog/items?q=&filter=tags%3DBlue+Ridge+Music+Center+Visitor+Center "Blue Ridge Music Center Visitor Center (Blue Ridge Music Center Visitor Center, Place, None)")
- [Blue Ridge Park Visitor Center and Park Headquarters](/catalog/items?q=&filter=tags%3DBlue+Ridge+Park+Visitor+Center+and+Park+Headquarters "Blue Ridge Park Visitor Center and Park Headquarters (Blue Ridge Park Visitor Center and Park Headquarters, Place, None)")
- [Blue Ridge Parkway](/catalog/items?q=&filter=tags%3DBlue+Ridge+Parkway "Blue Ridge Parkway (Blue Ridge Parkway, Place, None)")
- [Bluff Mountain](/catalog/items?q=&filter=tags%3DBluff+Mountain "Bluff Mountain (Bluff Mountain, Place, None)")
- [Buck Creek Gap](/catalog/items?q=&filter=tags%3DBuck+Creek+Gap "Buck Creek Gap (Buck Creek Gap, Place, None)")
- [Buena Vista](/catalog/items?q=&filter=tags%3DBuena+Vista "Buena Vista (Buena Vista, Place, None)")
- [Bull Gap](/catalog/items?q=&filter=tags%3DBull+Gap "Bull Gap (Bull Gap, Place, None)")
- [Cherokee](/catalog/items?q=&filter=tags%3DCherokee "Cherokee (Cherokee, Place, None)")
- [Cherokee Indian Reservation](/catalog/items?q=&filter=tags%3DCherokee+Indian+Reservation "Cherokee Indian Reservation (Cherokee Indian Reservation, Place, None)")
- [Chestoa View](/catalog/items?q=&filter=tags%3DChestoa+View "Chestoa View (Chestoa View, Place, None)")
- [Cold Mountain](/catalog/items?q=&filter=tags%3DCold+Mountain "Cold Mountain (Cold Mountain, Place, None)")
- [Crabtree Falls](/catalog/items?q=&filter=tags%3DCrabtree+Falls "Crabtree Falls (Crabtree Falls, Place, None)")
- [Crabtree Faults](/catalog/items?q=&filter=tags%3DCrabtree+Faults "Crabtree Faults (Crabtree Faults, Place, None)")
- [Craggy Gardens Visitor Center](/catalog/items?q=&filter=tags%3DCraggy+Gardens+Visitor+Center "Craggy Gardens Visitor Center (Craggy Gardens Visitor Center, Place, None)")
- [Craven Gap](/catalog/items?q=&filter=tags%3DCraven+Gap "Craven Gap (Craven Gap, Place, None)")
- [Crossnore](/catalog/items?q=&filter=tags%3DCrossnore "Crossnore (Crossnore, Place, None)")
- [Cumberland Knob](/catalog/items?q=&filter=tags%3DCumberland+Knob "Cumberland Knob (Cumberland Knob, Place, None)")
- [Daniel Boone's Trace](/catalog/items?q=&filter=tags%3DDaniel+Boone%27s+Trace "Daniel Boone's Trace (Daniel Boone's Trace, Place, None)")
- [Deep Gap](/catalog/items?q=&filter=tags%3DDeep+Gap "Deep Gap (Deep Gap, Place, None)")
- [Devils Backbone Overlook](/catalog/items?q=&filter=tags%3DDevils+Backbone+Overlook "Devils Backbone Overlook (Devils Backbone Overlook, Place, None)")
- [Devils Courthouse](/catalog/items?q=&filter=tags%3DDevils+Courthouse "Devils Courthouse (Devils Courthouse, Place, None)")
- [Doughton Park](/catalog/items?q=&filter=tags%3DDoughton+Park "Doughton Park (Doughton Park, Place, None)")
- [E.B. Jeffress Park](/catalog/items?q=&filter=tags%3DE.B.+Jeffress+Park "E.B. Jeffress Park (E.B. Jeffress Park, Place, None)")
- [Elk Pasture Gap](/catalog/items?q=&filter=tags%3DElk+Pasture+Gap "Elk Pasture Gap (Elk Pasture Gap, Place, None)")
- [Ervin](/catalog/items?q=&filter=tags%3DErvin "Ervin (Ervin, Place, None)")
- [Fallingwater Cascades](/catalog/items?q=&filter=tags%3DFallingwater+Cascades "Fallingwater Cascades (Fallingwater Cascades, Place, None)")
- [Fancy Gap](/catalog/items?q=&filter=tags%3DFancy+Gap "Fancy Gap (Fancy Gap, Place, None)")
- [Flat Rock](/catalog/items?q=&filter=tags%3DFlat+Rock "Flat Rock (Flat Rock, Place, None)")
- [Fox Hunters Paradise](/catalog/items?q=&filter=tags%3DFox+Hunters+Paradise "Fox Hunters Paradise (Fox Hunters Paradise, Place, None)")
- [George Washington National Forest](/catalog/items?q=&filter=tags%3DGeorge+Washington+National+Forest "George Washington National Forest (George Washington National Forest, Place, None)")
- [Gillespie Gap](/catalog/items?q=&filter=tags%3DGillespie+Gap "Gillespie Gap (Gillespie Gap, Place, None)")
- [Glendale Springs](/catalog/items?q=&filter=tags%3DGlendale+Springs "Glendale Springs (Glendale Springs, Place, None)")
- [Graggy Dome](/catalog/items?q=&filter=tags%3DGraggy+Dome "Graggy Dome (Graggy Dome, Place, None)")
- [Grandfather Mountain](/catalog/items?q=&filter=tags%3DGrandfather+Mountain "Grandfather Mountain (Grandfather Mountain, Place, None)")
- [Grandfather Mountain State Park](/catalog/items?q=&filter=tags%3DGrandfather+Mountain+State+Park "Grandfather Mountain State Park (Grandfather Mountain State Park, Place, None)")
- [Graveyard Fields](/catalog/items?q=&filter=tags%3DGraveyard+Fields "Graveyard Fields (Graveyard Fields, Place, None)")
- [Great Valley Overlook](/catalog/items?q=&filter=tags%3DGreat+Valley+Overlook "Great Valley Overlook (Great Valley Overlook, Place, None)")
- [Green Knob](/catalog/items?q=&filter=tags%3DGreen+Knob "Green Knob (Green Knob, Place, None)")
- [Greenstone Trail](/catalog/items?q=&filter=tags%3DGreenstone+Trail "Greenstone Trail (Greenstone Trail, Place, None)")
- [Groundhog Mountain](/catalog/items?q=&filter=tags%3DGroundhog+Mountain "Groundhog Mountain (Groundhog Mountain, Place, None)")
- [Hawksbill Mountain](/catalog/items?q=&filter=tags%3DHawksbill+Mountain "Hawksbill Mountain (Hawksbill Mountain, Place, None)")
- [Hominy Creek](/catalog/items?q=&filter=tags%3DHominy+Creek "Hominy Creek (Hominy Creek, Place, None)")
- [Humpback Mountain](/catalog/items?q=&filter=tags%3DHumpback+Mountain "Humpback Mountain (Humpback Mountain, Place, None)")
- [Humpback Rocks Visitor Center](/catalog/items?q=&filter=tags%3DHumpback+Rocks+Visitor+Center "Humpback Rocks Visitor Center (Humpback Rocks Visitor Center, Place, None)")
- [Indian Gap](/catalog/items?q=&filter=tags%3DIndian+Gap "Indian Gap (Indian Gap, Place, None)")
- [Irish Gap](/catalog/items?q=&filter=tags%3DIrish+Gap "Irish Gap (Irish Gap, Place, None)")
- [James River](/catalog/items?q=&filter=tags%3DJames+River "James River (James River, Place, None)")
- [James River Visitor Center and Canal](/catalog/items?q=&filter=tags%3DJames+River+Visitor+Center+and+Canal "James River Visitor Center and Canal (James River Visitor Center and Canal, Place, None)")
- [Jefferson National Forest](/catalog/items?q=&filter=tags%3DJefferson+National+Forest "Jefferson National Forest (Jefferson National Forest, Place, None)")
- [Julian Price Memorial Park](/catalog/items?q=&filter=tags%3DJulian+Price+Memorial+Park "Julian Price Memorial Park (Julian Price Memorial Park, Place, None)")
- [Jumpinoff Rock](/catalog/items?q=&filter=tags%3DJumpinoff+Rock "Jumpinoff Rock (Jumpinoff Rock, Place, None)")
- [Lake Powhaten](/catalog/items?q=&filter=tags%3DLake+Powhaten "Lake Powhaten (Lake Powhaten, Place, None)")
- [Laurel Springs](/catalog/items?q=&filter=tags%3DLaurel+Springs "Laurel Springs (Laurel Springs, Place, None)")
- [Lineville River](/catalog/items?q=&filter=tags%3DLineville+River "Lineville River (Lineville River, Place, None)")
- [Linville](/catalog/items?q=&filter=tags%3DLinville "Linville (Linville, Place, None)")
- [Linville Falls](/catalog/items?q=&filter=tags%3DLinville+Falls "Linville Falls (Linville Falls, Place, None)")
- [Linville Falls Visitor Center](/catalog/items?q=&filter=tags%3DLinville+Falls+Visitor+Center "Linville Falls Visitor Center (Linville Falls Visitor Center, Place, None)")
- [Little Switzerland](/catalog/items?q=&filter=tags%3DLittle+Switzerland "Little Switzerland (Little Switzerland, Place, None)")
- [Looking Glass Rock Overlook](/catalog/items?q=&filter=tags%3DLooking+Glass+Rock+Overlook "Looking Glass Rock Overlook (Looking Glass Rock Overlook, Place, None)")
- [Mabry Hill](/catalog/items?q=&filter=tags%3DMabry+Hill "Mabry Hill (Mabry Hill, Place, None)")
- [McKinney Gap](/catalog/items?q=&filter=tags%3DMcKinney+Gap "McKinney Gap (McKinney Gap, Place, None)")
- [Meadows of Dan](/catalog/items?q=&filter=tags%3DMeadows+of+Dan "Meadows of Dan (Meadows of Dan, Place, None)")
- [Moses H. Cone Memorial Park and Visitor Center](/catalog/items?q=&filter=tags%3DMoses+H.+Cone+Memorial+Park+and+Visitor+Center "Moses H. Cone Memorial Park and Visitor Center (Moses H. Cone Memorial Park and Visitor Center, Place, None)")
- [Mount Jefferson State Park](/catalog/items?q=&filter=tags%3DMount+Jefferson+State+Park "Mount Jefferson State Park (Mount Jefferson State Park, Place, None)")
- [Mount Mitchell](/catalog/items?q=&filter=tags%3DMount+Mitchell "Mount Mitchell (Mount Mitchell, Place, None)")
- [Mount Mitchell State Park](/catalog/items?q=&filter=tags%3DMount+Mitchell+State+Park "Mount Mitchell State Park (Mount Mitchell State Park, Place, None)")
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>U.S. Geological Survey</origin>\n <pubdate>2016</pubdate>\n <title>Detailed geologic mapping geodatabase for the Blue Ridge Parkway in Virginia</title>\n <geoform>geodatabase</geoform>\n <pubinfo>\n <pubplace>Online</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <othercit>Recommended Citation: Carter, M.W., Crider, E.A., Southworth, C.S., and Aleinikoff, J.N., 2016, Detailed geologic mapping geodatabase for the Blue Ridge Parkway in Virginia with station point photographs: U.S. Geological Survey data release, http://dx.doi.org/10.5066/F7DN434F.</othercit>\n <onlink>http://dx.doi.org/10.5066/F7DN434F</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The US Geological Survey, in cooperation with the National Park Service, mapped 35 7.5-minute quadrangles, within a 2-mile-wide+ corridor centered on the Parkway, from BLRI (Blue Ridge Parkway) Mile Post (MP) 0 near Afton, Virginia southward to MP 218 at Cumberland Knob, approximately 1.3 km south of the Virginia \xe2\x80\x93 North Carolina State Line.\n\nDetailed bedrock geologic mapping for this project was conducted at 1:24,000-scale by systematically traversing roads, trails, creeks, and ridges within and adjacent to the 2-mile-wide+ corridor along the 216.9-mile length of the BLRI in Virginia. Geologic data at more than 23,000 station points were collected during this project (September 2009 \xe2\x80\x93 February 2014), with approximately 19,500 included in the accompanying database. Station point geologic data collected included lithology, structural measurements (bedding, foliations, folds, lineations, etc), mineral resource information, and other important geologic observations. Station points at the start of this project (September 2009) were located in the field using topographic reckoning; after May 2012 stations were located using Topo Maps (latest version 1.12.1) for Apple IPad 2, model MC744LL/A. Since the start of the project, station point geologic data and locational metadata were recorded both in analog (field notebook and topographic field sheets) and digitally in ESRI ArcGIS (latest version ArcMAP 10.1).\n\nStation point geologic data were used to identify major map units, construct contact lines between map units, identify the nature of those contacts (igneous, stratigraphic or structural), determine contact convention control (exact \xe2\x80\x93 located in field to within 15 meters; approximate \xe2\x80\x93 located to within 60 meters; inferred \xe2\x80\x93 located greater than 60 meters), trace structural elements (faults, fold axes, etc) across the project area, and determine fault orientation and kinematics. Geologic line work was initially drafted in the field during the course of systematic detailed mapping; line editing occurred during office compilation in Adobe Illustrator (latest version CS 4). Final editing occurred during conversion and compilation of Illustrator line work into the ArcGIS database, where it was merged with station point geologic data.\n\nStation point geologic data, contacts and faults from previous work in the BLRI corridor were evaluated for compilation and synthesis in the BLRI mapping project. Station point geologic data compiled from previous work are referenced and marked with a \xe2\x80\x9cC\xe2\x80\x9d in the database. Compiled line work is also clearly tagged and referenced.\n\nThe BLRI cuts at an oblique angle nearly the entire width of the Blue Ridge Geologic Province in Virginia. Thus, the geology varies significantly along it\xe2\x80\x99s along its 216-mile traverse. North of Roanoke (BLRI MP 115), the Blue Ridge is defined as an orogen-scale, northwest-vergent, northeast-plunging reclined anticlinorium, and from its start at MP 0 near Afton, Virginia, southward to Roanoke, the BLRI traverses the western limb of this structure. Here, rocks range in age from Mesoproterozoic to Cambrian: Mesoproterozoic orthogneisses and metamorphosed granitoid rocks of the Shenandoah massif comprise \xe2\x80\x9cbasement\xe2\x80\x9d to Neoproterozoic to Cambrian mildy- to non-metamorphosed to sedimentary \xe2\x80\x9ccover\xe2\x80\x9d rocks; the BLRI crisscrosses in many places the contact between cover and basement. Mesoproterozoic basement rocks in the Shenandoah massif represent the original crust of the Laurentian (ancestral North American) continent; sedimentary cover rocks were deposited directly on this crust during extension and breakup of the Rodinian supercontinent in the Neoproterozoic to earliest Cambrian. Very locally, diabase dikes of earliest Jurassic age intrude older basement and cover sequences. These dikes were emplaced in the Blue Ridge during continental extension (rifting) and the opening of the Atlantic Ocean in the Mesozoic Era.\n\nFrom MP 103.3 to MP 110.3 near Roanoke, the BLRI crosses into and out of a part of the Valley and Ridge Geologic Province. Unmetamorphosed sedimentary rocks of Cambrian to Ordovician age \xe2\x80\x93 mostly shale, siltstone and carbonate \xe2\x80\x93 occur here. These rocks were deposited in a terrestrial to shallow marine environment on the Laurentian continental margin, after extensional breakup of Rodinian supercontinent in the Neoproterozoic and earliest Cambrian, but before mid- to late-Paleozoic orogenesis.\n\nSouth of Roanoke, the Blue Ridge Geologic Province quickly transitions from an anticlinorium to a stack of imbricated thrust sheets. After crossing the southern end of the Shenandoah Mesoproterozoic basement massif (MP 124.1 to MP 144.4), the BLRI enters the eastern Blue Ridge province, a fault-bounded geologic terrane comprised of high-metamorphic-grade sedimentary and volcanic rocks deposited east of the Laurentian continental margin from the Neoproterozoic to early Paleozoic. These rocks were significantly metamorphosed, deformed, and transported westward onto the Laurentian margin along major orogenic faults during Paleozoic orogenesis.\n\nSixty bedrock map units underlie the BLRI in Virginia. These units consist of one or more distinguishing lithologies (rock types), and are grouped into formal and informal hierarchal frameworks based on age, stratigraphy (formations-groups), and tectonogenesis. Many of these units exhibit characteristics and field relationships that are critical to our understanding of Appalachian orogenesis. Most of these units are named based on the dominant occurring lithology; other units follow formal nomenclature, some of which was developed and has been used for more than 100 years.\n\nOldest rocks occurring along the BLRI corridor are Mesoproterozoic orthopyroxene-bearing basement rocks of the Shenandoah massif, in the core of the Blue Ridge anticlinorium. Preliminary SHRIMP U-Pb zircon geochronology (J. N. Aleinikoff, this study) shows that these rocks can be grouped based on crystallization ages: Group I (~1.2 to 1.14 Ga) are strongly foliated orthogneisses and Group II (~1.06 to 1.0 Ga) are less deformed metagranitoids. Group I orthogneisses, which occur discontinuously from near Irish Gap (MP 37) to Cahas Overlook (MP 139), comprise 10 map units: leucogranitic gneiss (Yllg); megacrystic quartz-monzonitic gneiss (Yqg); granitic gneiss (Yg); lineated granitoid gneiss (Ylgg); garnetiferous leucogneiss (Yglg); Sandy Creek gneiss (Ysg); porphyroblastic garnet-biotite leucogranitic gneiss (Ygtg); dioritic gneiss (Ydg); Pilot gneiss (Ypg); and megacrystic granodioritic gneiss (Ygg). Group II metagranitoids, which are first encountered along the BLRI at Reeds Gap (MP 14) and occur discontinuously to Roanoke River Overlook (MP 115), comprise 8 map units: megacrystic meta-quartz monzonitoid (Yqm); massive metagranitoid (Ymgm); megacrystic metagranitoid (Ypgm); mesocratic porphyritic metagranitoid (Ygpm); metagranodioritoid (Ygdm); Vesuvius megaporphyritic metagranitoid (Yvm); quartz-feldspar leucogranitoid (Yqfm); and Peaks of Otter metagranitoid (Ypom). An additional relatively undeformed metagranitoid with a preliminary SHRIMP U-Pb zircon age of ~1.12 Ga is assigned to the Bottom Creek Suite (Ybcm), and well layered migmatitic gneiss (Ymg) near Irish Gap (MP 37) has a a preliminary SHRIMP U-Pb zircon age of ~1.05 Ga. Other rocks of Mesoproterozoic age include orthogneisses in the Fries thrust sheet between MP 139 and MP 144.5 that range in age from ~1.19 to\n~1.07 Ga: biotite-muscovite leucogneiss (Ymlg); biotite granitic augen gneiss (Ybgg); blue-quartz gneiss (Ybqg); and biotite leucogneiss (Yblg). Latest Mesoproterozoic rocks include paragneiss and pegmatite (Yprg) near Porters Mountain Overlook (MP 90), and a suite of igneous intrusive nelsonites and jotunites (Yjn).\n\nTwo units, foliated metagreenstone (Zdm) and foliated metagranitoid (Zgm), locally intrude older Mesoproterozoic rocks in the core of the Blue Ridge anticlinorium. Metagreenstone is fine-grained and mafic in composition, and occur as narrow dikes and sills; metagranitoid is medium-grained and generally felsic in composition, and intrude basement rocks as small plutons, stocks, and a few narrow dikes.\n\nOn the west limb of the Blue Ridge anticlinorium, metamorphosed sedimentary and volcanic rocks of Neoproterozoic to Cambrian age crop out discontinuously along the BLRI from near Afton (MP 0) to MP 103.3, in the vicinity Roanoke Mountain (MP 120 to MP 124), to near Adney Gap (MP 136). These rocks are assigned to a formal stratigraphic sequence: Swift Run Formation; Catoctin Formation; Chilhowee Group.\n\nMetasedimentary and meta-igneous rocks of lower Paleozoic (?) to Neoproterozoic age are assigned to the Alligator Back Formation, Lynchburg Group, and Ashe Formation. These units crop out southeast of the Red Valley fault from MP 144.5 southwestward to the North Carolina\xe2\x80\x93Virginia State Line at Mile Post 216.9. Rocks assigned to the Alligator Back crop out in the Blue Ridge Parkway corridor from Mile Post 174.5 southward to the North Carolina\xe2\x80\x93Virginia State Line: compositional-layered biotite-muscovite gneiss (abg); garnet-biotite-muscovite-quartz schist (abs); quartzite and quartz-rich metasandstone (abq); and marble (abm). The following lithologic map units along the BLRI corridor are correlated with Lynchburg Group formations: graphitic schist (lgs), muscovite-biotite metagraywacke (lmg), and graphite-muscovite-quartz metasandstone (lms). These rocks crop out between the Red Valley fault (Mile Post 144.5) and the Rock Castle Creek fault (Mile Post 174.5). Coarse-grained- to conglomeratic metagraywacke (acm), underlying Lynchburg Group rocks west of the Rock Castle Creek fault in the vicinity of Rakes Millpond (MP 162.3) and Rocky Knob Visitors Center (MP 169), are considered to be the lower metamorphic grade-equivalent of the higher metamorphic-grade Ashe Formation at its type section in northwestern North Carolina. Five meta-igneous lithologic map units occur as mappable bodies interlayered or intrusive into metasedimentary rocks of the Alligator Back Formation and Lynchburg Group. Altered ultramafic and ultrabasic rocks (um) occur mostly within the Lynchburg Group, but few thin bodies also occur within laminated amphibolite gneiss (aml) locally (laminated amphibolite gneiss is associated with rocks of the Alligator Back Formation). Amphibolites of the Lynchburg Group include biotite-bearing amphibolite (amb), clinozoisite-bearing amphibolite (amc) and quartz-layered amphibolite (amq).\n\nMap units that occur beneath the Blue Ridge fault are assigned to the Valley and Ridge Province. In the BLRI corridor, these rocks are first exposed near Bearwallow Gap (MP 91) and continue southward beyond Roanoke near MP 125. Oldest formations are Shady Dolomite (Cs) and Waynesboro Formation (Cw), which regionally can be mapped in stratigraphic continuity with cover and basement rocks of the Blue Ridge anticlinorium. Conversely, nowhere in the Appalachians can rocks of the Elbrook Formation (Ce) or Conococheague Formation (Cco) be mapped in direct stratigraphic continuity with Mesoproterozoic basement rocks in the core of the Blue Ridge anticlinorium; however, they do stratigraphically overlie older Waynesboro Formation and Shady Dolomite within imbricates of the Blue Ridge fault system. Ordovician Martinsburg Formation (Omb) occurs beneath the Pulaski fault north of Roanoke River, about 0.85 km northwest of MP 108.\n\nPaleozoic mylonite (Pzmy) is a tectonic rock unit that that occurs in high-strain fault zones in the core of the Blue Ridge anticlinorium from near Afton (MP 0) to Adney Gap (MP 136). Jurassic diabase (Jd) occurs in narrow dikes that intrude older map units, just south of Roanoke River near MP 118 and MP 125, north of James River near MP 56, and in the vicinity of Afton near MP 3 and north of MP 0.</abstract>\n <purpose>The geologic map database for the Blue Ridge Parkway can be utilized to address numerous county and state, land-use, and environmental issues. Possible applications of this database include the study of landslide hazards, groundwater resource issues, land-use planning for growing communities, and further studies related to earthquake hazards. These data can also be used to study the close association between bedrock geology, overlying soils and surface ecology. All of these applications require accurate, concise, and user-friendly geologic map data to produce viable derivative products and to enable sound land-use decisions.</purpose>\n <supplinf>This database is NCGMP09 compliant with some modifications. These modifications include additional fields in points feature classes, including MapDescription (used by the Author for the actual map description on a printed map); RockType (used by the author to describe the rock in the field). The DescriptionofMapUnits table contains modifications to the Description field, many descriptions for rock units exceeded the standard column width and therefore the width was modified. In addition, many of those descriptions contained multiple DataSourceIDs so the notes field includes the additional data sources in the DataSource table. The RepurposedSymbols table was not completed but more information about repurposed symbols can obtained on request.\nA list of the U.S. Geological Survey quadrangles used in preparation of this database is listed below with publication dates listed in parenthesis:\nArnold Valley, Virginia (1999)\nBent Mountain, Virginia (1996)\nBig Islands, Virginia (1999)\nBig Levels, Virginia (1999)\nBuena Vista, Virginia (1999)\nCallaway, Virginia (1963)\nCana, Virginia - North Carolina (1968)\nCheck, Virginia (1963)\nCornwall, Virginia (1967)\nCumberland Knob, North Carolina - Virginia (1965)\nElliston, Virginia (1963)\nEndicott, virginia (1967)\nFancy Gap, Virginia (1968)\nFloyd, Virginia (1968)\nGarden city, Virginia (1999)\nHardy, Virginia (1963)\nLambsburg, Virginia - North Carolina (1965)\nLaurel Fork, Virginia (1968)\nMassies Mill, Virginia (1999)\nMeadows of Dan, Virginia (1985)\nMontebello, Virginia (1999)\nMontvale, Virginia (1967)\nPeaks of Otter, Virginia (1967)\nRoanoke, Virginia (1963)\nSedalia, Virginia (1965)\nSherando, Virginia (unknown)\nSnowden, Virginia (1999)\nStewartsville, Virginia (1963)\nVesuvius, Virginia (1965)\nVillamont, Virginia (1999)\nWaynesboro East, Virginia (1997) \nWaynesboro West, Virginia (1973)\nWillis, Virginia (1968)\nWoodlawn, Virginia (1965)\nWoolwine, Virginia (1968)</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2009</begdate>\n <enddate>2014</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-80.944912058</westbc>\n <eastbc>-78.83821867</eastbc>\n <northbc>38.067616116</northbc>\n <southbc>36.523979729</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>Alligator Back Formation</themekey>\n <themekey>Ashe Formation</themekey>\n <themekey>Lynchburg Group</themekey>\n <themekey>Antietam Formation</themekey>\n <themekey>Ervin</themekey>\n <themekey>Formation</themekey>\n <themekey>Hampton Formation</themekey>\n <themekey>Harpers Formation</themekey>\n <themekey>Conococheague Formation</themekey>\n <themekey>Chilhowee Group</themekey>\n <themekey>Weverton Formation</themekey>\n <themekey>Elbrook Formation</themekey>\n <themekey>Shady Dolomite</themekey>\n <themekey>Wayneboro Formation</themekey>\n <themekey>Unicoi Formation</themekey>\n <themekey>Martinsburg Formation</themekey>\n <themekey>Bottom Creek Metagranitoid Suite</themekey>\n <themekey>Mesoproterozoic gneisses of the Fries Thrust Sheet</themekey>\n <themekey>Pilot Gneiss</themekey>\n <themekey>Sandy Creek Gneiss</themekey>\n <themekey>Crossnore Plutonic Suite</themekey>\n <themekey>Swift Run Formation</themekey>\n <themekey>Peaks of Otter Metagranitoid</themekey>\n <themekey>Geology</themekey>\n <themekey>Bedrock</themekey>\n <themekey>Thrust Fault</themekey>\n <themekey>Normal Fault</themekey>\n <themekey>Reverse Fault</themekey>\n <themekey>Folds</themekey>\n <themekey>Gneiss</themekey>\n <themekey>Granite</themekey>\n <themekey>Metagranitoid</themekey>\n <themekey>Carbonate</themekey>\n <themekey>Diabase</themekey>\n <themekey>Structure</themekey>\n <themekey>Metabasalt</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:56ce06f6e4b0b1892d9f0e89</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Blue Ridge Parkway</placekey>\n <placekey>Virginia</placekey>\n <placekey>North Carolina</placekey>\n <placekey>Waynesboro</placekey>\n <placekey>Humpback Rocks Visitor Center</placekey>\n <placekey>Greenstone Trail</placekey>\n <placekey>Ravens Roost</placekey>\n <placekey>Humpback Mountain</placekey>\n <placekey>Sherando Lake</placekey>\n <placekey>Bald Mountain</placekey>\n <placekey>Twenty Minute Cliff</placekey>\n <placekey>Crabtree Faults</placekey>\n <placekey>Tye River Gap</placekey>\n <placekey>Tye River</placekey>\n <placekey>Wigwarm Falls</placekey>\n <placekey>Yankee Horse Ridge</placekey>\n <placekey>Irish Gap</placekey>\n <placekey>George Washington National Forest</placekey>\n <placekey>Whites Gap Overlook</placekey>\n <placekey>Indian Gap</placekey>\n <placekey>Buena Vista</placekey>\n <placekey>Bluff Mountain</placekey>\n <placekey>Otter Creek</placekey>\n <placekey>James River</placekey>\n <placekey>Big Island</placekey>\n <placekey>James River Visitor Center and Canal</placekey>\n <placekey>Petites Gap</placekey>\n <placekey>Terrapin Mountain</placekey>\n <placekey>Onion Mountain Overlook</placekey>\n <placekey>Fallingwater Cascades</placekey>\n <placekey>Peaks of Otter Visitor Center</placekey>\n <placekey>Sharp Top</placekey>\n <placekey>Bearwallow Gap</placekey>\n <placekey>Purgatory Overlook</placekey>\n <placekey>Powell Gap</placekey>\n <placekey>Jefferson National Forest</placekey>\n <placekey>Blackhorse Gap</placekey>\n <placekey>Great Valley Overlook</placekey>\n <placekey>N&W Railroad Overlook</placekey>\n <placekey>Roanoke River Gorge</placekey>\n <placekey>Roanoke River</placekey>\n <placekey>Roanoke Mountain</placekey>\n <placekey>Virginia Explore Park and Visitor Center</placekey>\n <placekey>Staunton River</placekey>\n <placekey>Roanoke Valley Overlook</placekey>\n <placekey>Adney Gap</placekey>\n <placekey>Poor Mountain</placekey>\n <placekey>Devils Backbone Overlook</placekey>\n <placekey>Rakes Millpond</placekey>\n <placekey>Sugarloaf Mountain</placekey>\n <placekey>The Saddle</placekey>\n <placekey>Rocky Knob</placekey>\n <placekey>Rocky Knob Visitor Center</placekey>\n <placekey>Mabry Hill</placekey>\n <placekey>Meadows of Dan</placekey>\n <placekey>Groundhog Mountain</placekey>\n <placekey>Puckett Cabin</placekey>\n <placekey>Volunteer Gap</placekey>\n <placekey>Orchard Gap</placekey>\n <placekey>Fancy Gap</placekey>\n <placekey>Pipers Gap</placekey>\n <placekey>Blue Ridge Music Center Visitor Center</placekey>\n <placekey>Fox Hunters Paradise</placekey>\n <placekey>Cumberland Knob</placekey>\n <placekey>Stone Mountain State Park</placekey>\n <placekey>Doughton Park</placekey>\n <placekey>Air Bellows Gap</placekey>\n <placekey>Bluff Mountain</placekey>\n <placekey>Peach Bottom Mountain</placekey>\n <placekey>Laurel Springs</placekey>\n <placekey>Northwest Trading Post</placekey>\n <placekey>Jumpinoff Rock</placekey>\n <placekey>Glendale Springs</placekey>\n <placekey>Mount Jefferson State Park</placekey>\n <placekey>The Lump</placekey>\n <placekey>Benge Gap</placekey>\n <placekey>E.B. Jeffress Park</placekey>\n <placekey>Deep Gap</placekey>\n <placekey>Daniel Boone's Trace</placekey>\n <placekey>Blowing Rock</placekey>\n <placekey>Moses H. Cone Memorial Park and Visitor Center</placekey>\n <placekey>Price Lake</placekey>\n <placekey>Watauga River</placekey>\n <placekey>Julian Price Memorial Park</placekey>\n <placekey>Grandfather Mountain State Park</placekey>\n <placekey>Grandfather Mountain</placekey>\n <placekey>Beacon Heights</placekey>\n <placekey>Pisgah National Forest</placekey>\n <placekey>Flat Rock</placekey>\n <placekey>Linville</placekey>\n <placekey>Lineville River</placekey>\n <placekey>Pineola</placekey>\n <placekey>Linville Falls Visitor Center</placekey>\n <placekey>Crossnore</placekey>\n <placekey>Linville Falls</placekey>\n <placekey>Hawksbill Mountain</placekey>\n <placekey>Table Rock Mountain</placekey>\n <placekey>Chestoa View</placekey>\n <placekey>Bear Den</placekey>\n <placekey>McKinney Gap</placekey>\n <placekey>Gillespie Gap</placekey>\n <placekey>Overmountain Victory Nation Historic Trail</placekey>\n <placekey>Woodlaw</placekey>\n <placekey>Museum of North Carolina Minerals Visitor Center</placekey>\n <placekey>Little Switzerland</placekey>\n <placekey>Crabtree Falls</placekey>\n <placekey>Buck Creek Gap</placekey>\n <placekey>Mount Mitchell</placekey>\n <placekey>Mount Mitchell State Park</placekey>\n <placekey>Green Knob</placekey>\n <placekey>Bear Mountain Gap</placekey>\n <placekey>Graggy Dome</placekey>\n <placekey>Beetree Gap</placekey>\n <placekey>Swannanoa River</placekey>\n <placekey>Craggy Gardens Visitor Center</placekey>\n <placekey>Bull Gap</placekey>\n <placekey>Z.B. Vance Birthplace</placekey>\n <placekey>Craven Gap</placekey>\n <placekey>Ashville</placekey>\n <placekey>Oteen</placekey>\n <placekey>Blue Ridge Park Visitor Center and Park Headquarters</placekey>\n <placekey>Skyland</placekey>\n <placekey>Biltmore Estate</placekey>\n <placekey>North Carolina Arboretum</placekey>\n <placekey>Lake Powhaten</placekey>\n <placekey>Hominy Creek</placekey>\n <placekey>Mount Pisgah</placekey>\n <placekey>Elk Pasture Gap</placekey>\n <placekey>Wagon Road Gap</placekey>\n <placekey>Cold Mountain</placekey>\n <placekey>Tunnel Gap</placekey>\n <placekey>Looking Glass Rock Overlook</placekey>\n <placekey>Graveyard Fields</placekey>\n <placekey>Devils Courthouse</placekey>\n <placekey>Beech Gap</placekey>\n <placekey>Wayneville</placekey>\n <placekey>Richland Balsam</placekey>\n <placekey>Nantahala National Forest</placekey>\n <placekey>Balsam Gap</placekey>\n <placekey>Waterrock Knob Visitor Center</placekey>\n <placekey>Cherokee Indian Reservation</placekey>\n <placekey>Wrights Creek</placekey>\n <placekey>Southern End</placekey>\n <placekey>Oconalufte Visitor Center</placekey>\n <placekey>Big Witch Gap</placekey>\n <placekey>Cherokee</placekey>\n <placekey>Ervin</placekey>\n </place>\n <temporal>\n <tempkt>None</tempkt>\n <tempkey>Early Paleozoic</tempkey>\n <tempkey>Paleozoic</tempkey>\n <tempkey>Neoproterozoic</tempkey>\n <tempkey>Cambrian</tempkey>\n <tempkey>Jurassic</tempkey>\n <tempkey>Mesoproterozoic</tempkey>\n </temporal>\n </keywords>\n <accconst>None</accconst>\n <useconst>None. Acknowledgment of the U.S. Geological Survey would be appreciated in products derived from these data. Although software enables the user to display images at various scales, map data in this report should not be used at scales greater than 1:24,000</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Eastern Geology and Paleoclimate Science Center</cntorg>\n <cntper>Mark W Carter</cntper>\n </cntorgp>\n <cntpos>Research Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 926A, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States of America</country>\n </cntaddr>\n <cntvoice>703-648-6910</cntvoice>\n <cntfax>703-648-6953</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Field Work and Compilation: Mark W. Carter (2006-2015)\nGIS and Cartography: E. Allen Crider Jr (2011-2015)</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.1 (Build 3035) Service Pack N/A (Build N/A)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Geologic contacts and information were garnered from 1:24,000-scale mapping of geologic material based on observation from fieldwork, previously published geologic maps, and unpublished geologic data in the region. The geologic information might change if additional outcrops are discovered or exposed as the natural land changes, or as the result of development, or advances in scientific research are made. The features in the database \nare not based on legal parcels or definitions.</attraccr>\n </attracc>\n <logic>These data are believed to be logically consistent, though no tests were performed. Geometry is topologically clean.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>The data were created on a USGS 7.5-minute topographic map at 1:24,000 scale. Therefore, the horizontal accuracy is assumed to be within National Map Accuracy Standards, with a horizontal accuracy of 45.6 feet at the 95% confidence level.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>The data were delineated on a USGS 7.5-minute topographic map at 1:24,000 scale. Therefore, the vertical accuracy is assumed to be within National Map Accuracy Standards, with a vertical accuracy of 11.9 feet at the 95% confidence level.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Process description is provided individually for each dataset with this geodatabase.</procdesc>\n <procdate>Unknown</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>This dataset collectively consists of 7 GIS data files and a saved topology layer. The data consist of point, line, and polygonal feature classes in an ESRI geodatabase. For more detailed information, including explicit feature counts, etc. please see the metadata records for the individual files.</indspref>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>17</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-81.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.6096</absres>\n <ordres>0.6096</ordres>\n </coordrep>\n <plandu>Meter</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D_North_American_1927</horizdn>\n <ellips>Clarke_1866</ellips>\n <semiaxis>6378206.4</semiaxis>\n <denflat>294.9786982</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <overview>\n <eaover>Entity and attribute information is provided individually for each dataset within this geodatabase.</eaover>\n <eadetcit>The entity and attribute information was generated by the individual and/or agency identified as the originator of the data set. Please review the rest of the metadata record for additional details and information.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States of America</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n </cntinfo>\n </distrib>\n <distliab>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Although this information product, for the most part, is in the public domain, it also contains copyrighted materials as noted in the text. Permission to reproduce copyrighted items must be secured from the copyright owner whenever applicable. The data have been approved for release and publication by the U.S. Geological Survey (USGS). Although the data have been subjected to rigorous review and are substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the data are released on the condition that neither the USGS nor the U.S. Government may be held liable for any damages resulting from authorized or unauthorized use. Although the data have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the display or utility of the data on any other system, or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The U.S. Geological Survey shall not be held liable for improper or incorrect use of the data described and/or contained herein. Users of the data are advised to read all metadata and associated documentation thoroughly to understand appropriate use and data limitations.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Geodatabase (.gdb)</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F7DN434F</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200819</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Ernest A Crider</cntper>\n <cntorg>U.S. Geological Survey, Eastern Geology and Paleoclimate Science Center</cntorg>\n </cntperp>\n <cntpos>Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 926A, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States of America</country>\n </cntaddr>\n <cntvoice>703-648-6906</cntvoice>\n <cntfax>703-648-6953</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <mettc>local time</mettc>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Dakota Water Science Center](/catalog/item/56b8f2e6e4b08d617f63a66d)
3. [Borehole video and aquifer test data for the Burnpit well, Mount Rushmore National Memorial, South Dakota, 2020](/catalog/folder/606dc764d34e670a7d5f623a)
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## Dates
Publication Date2021-06-07Start Date2020-06-01End Date2020-08-01
## Citation
Eldridge, W.G., and Hoogestraat, G.K., 2021, Borehole video and aquifer test data for the Burnpit well, Mount Rushmore National Memorial, South Dakota, 2020: U.S. Geological Survey data release, https://doi.org/10.5066/P98OZQN9.
## Summary
This data release contains borehole video and aquifer-test data for the Burnpit well (U.S. Geological Survey \[USGS\] National Water Information System identification 435240103265301), Mount Rushmore National Memorial, collected in June and July 2020. The data accompany a USGS Scientific Investigations Report by Eldridge and others (2021).
## Summary
This data release contains borehole video and aquifer-test data for the Burnpit well (U.S. Geological Survey \[USGS\] National Water Information System identification 435240103265301), Mount Rushmore National Memorial, collected in June and July 2020. The data accompany a USGS Scientific Investigations Report by Eldridge and others (2021).
## Contacts
Point of Contact
:
[William G Eldridge](/catalog/catalogParty/show?partyId=62885)
Process Contact
:
[William G Eldridge](/catalog/catalogParty/show?partyId=62885),
[William G Eldridge](/catalog/catalogParty/show?partyId=William+G+Eldridge)
Originator
:
[William G Eldridge](/catalog/catalogParty/show?partyId=62885),
[Galen Hoogestraat](/catalog/catalogParty/show?partyId=4696)
Metadata Contact
:
[Galen Hoogestraat](/catalog/catalogParty/show?partyId=4696)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
SDC Data Owner
:
[Dakota Water Science Center](/catalog/catalogParty/show?partyId=17322)
USGS Mission Area
:
[Water Resources](/catalog/catalogParty/show?partyId=Water+Resources)
## Attached Files - sorting - [Metadata First](/catalog/item/get/606dc764d34e670a7d5f623a?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/606dc764d34e670a7d5f623a?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/606dc764d34e670a7d5f623a?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| Eldridge\_Hoogestraat\_BurnpitWell\_DataRelease\_SIR2021\_5059.xml<br>_Original FGDC Metadata_ | View | 18.28 KB | application/fgdc+xml |
| borehole\_camera\_video.zip | | 1.13 GB | application/zip |
| BurnpitWell\_NPS\_test\_20090825.csv | | 1.55 KB | text/csv |
| BurnpitWell\_USGS\_test\_20200624.csv | | 2.16 KB | text/csv |
| Eldridge\_Hoogestraat\_DataRelease\_SIR2021\_5059\_snapshot.png<br>“Image of study area and location of Burnpit well.” | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/606dc764d34e670a7d5f623a?f=__disk__7a%2F81%2F76%2F7a8176293284f02074c6c8cfff44bf4f7b757a1b&width=87&height=113) | 1.94 MB | image/png |
| readme.txt | | 7.7 KB | text/plain |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Eldridge, W.G., Hoogestraat, G.K., and Rice, S.E., 2021, Borehole analysis, single-well aquifer testing, and water quality for the Burnpit well, Mount Rushmore National Memorial, South Dakota: U.S. Geological Survey Scientific Investigations Report 2021–5059, 29 p., https://doi.org/10.3133/sir20215059. | [https://doi.org/10.3133/sir20215059](https://doi.org/10.3133/sir20215059 "https://doi.org/10.3133/sir20215059") |
## Purpose
The purpose of this study was to estimate the geological and hydraulic properties of the aquifer supplying the well and to determine the water quality of the groundwater from the well. The study provides National Park Service (NPS) staff and managers background information for assessing future uses for the well. Methods for data collection and analysis for the study included borehole and video camera analysis in 2020, aquifer testing by the NPS in 2009 and USGS in 2020, and water-quality sampling in 2020.
## Preview Image
![Image of study area and location of Burnpit well.](https://www.sciencebase.gov/catalog/file/get/606dc764d34e670a7d5f623a?f=__disk__7a%2F81%2F76%2F7a8176293284f02074c6c8cfff44bf4f7b757a1b&width=336&height=435)
Image of study area and location of Burnpit well.
## [Map](/catalog/item/imap/606dc764d34e670a7d5f623a)
[![](https://basemap.nationalmap.gov/ArcGIS/rest/services/USGSTopo/MapServer/export?size=360%2C220&bbox=-1.1519195881181253E7%2C5444858.244936155%2C-1.151257410621129E7%2C5448904.885195487&f=image&format=png24&transparent=true)![](https://www.sciencebase.gov/catalogMaps/mapping/ows/606dc764d34e670a7d5f623a?service=wms&layers=footprint&format=image/png&height=220&width=360&request=getmap&transparent=true&srs=EPSG:900913&styles=&version=1.1.1&bbox=-1.1519195881181253E7,5444858.244936155,-1.151257410621129E7,5448904.885195487)](/catalog/item/imap/606dc764d34e670a7d5f623a)
## Communities
- USGS Dakota Water Science Center
- USGS Data Release Products
## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
Theme
- [aquifer test](/catalog/items?q=&filter=tags%3Daquifer+test "aquifer test (aquifer test, Theme, USGS Thesaurus)")
- [borehole](/catalog/items?q=&filter=tags%3Dborehole "borehole (borehole, Theme, USGS Thesaurus)")
- [pump test](/catalog/items?q=&filter=tags%3Dpump+test "pump test (pump test, Theme, USGS Thesaurus)")
- [water level](/catalog/items?q=&filter=tags%3Dwater+level "water level (water level, Theme, USGS Thesaurus)")
Place
- [Mount Rushmore National Memorial](/catalog/items?q=&filter=tags%3DMount+Rushmore+National+Memorial "Mount Rushmore National Memorial (Mount Rushmore National Memorial, Place, GNIS)")
- [Pennington County](/catalog/items?q=&filter=tags%3DPennington+County "Pennington County (Pennington County, Place, GNIS)")
USGS Scientific Topic Keyword
- [Hydrology](/catalog/items?q=&filter=tags%3DHydrology "Hydrology (Hydrology, USGS Scientific Topic Keyword, )")
- [Water Resources](/catalog/items?q=&filter=tags%3DWater+Resources "Water Resources (Water Resources, USGS Scientific Topic Keyword, )")
## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P98OZQN9 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Eldridge, William G.</origin>\n <origin>Hoogestraat, Galen K.</origin>\n <pubdate>20210607</pubdate>\n <title>Borehole video and aquifer test data for the Burnpit well, Mount Rushmore National Memorial, South Dakota, 2020</title>\n <geoform>tables, video files</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P98OZQN9</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Eldridge, William G.</origin>\n <origin>Hoogestraat, Galen K.</origin>\n <origin>Rice, Steven E.</origin>\n <pubdate>2021</pubdate>\n <title>Borehole analysis, single-well aquifer testing, and water quality for the Burnpit well, Mount Rushmore National Memorial, South Dakota</title>\n <geoform>online</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/ 10.3133/ sir20215059</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release contains borehole video and aquifer-test data for the Burnpit well (U.S. Geological Survey [USGS] National Water Information System identification 435240103265301), Mount Rushmore National Memorial, collected in June and July 2020. The data accompany a USGS Scientific Investigations Report by Eldridge and others (2021).</abstract>\n <purpose>The purpose of this study was to estimate the geological and hydraulic properties of the aquifer supplying the well and to determine the water quality of the groundwater from the well. The study provides National Park Service (NPS) staff and managers background information for assessing future uses for the well. Methods for data collection and analysis for the study included borehole and video camera analysis in 2020, aquifer testing by the NPS in 2009 and USGS in 2020, and water-quality sampling in 2020.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20200601</begdate>\n <enddate>20200801</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-103.46858</westbc>\n <eastbc>-103.42933</eastbc>\n <northbc>43.89185</northbc>\n <southbc>43.86803</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>aquifer test</themekey>\n <themekey>pump test</themekey>\n <themekey>borehole</themekey>\n <themekey>water level</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:606dc764d34e670a7d5f623a</themekey>\n </theme>\n <place>\n <placekt>GNIS</placekt>\n <placekey>Mount Rushmore National Memorial</placekey>\n <placekey>Pennington County</placekey>\n </place>\n </keywords>\n <accconst>Although these data have been processed successfully on a computer system at the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. The USGS or the U.S. Government shall not be held liable for improper or incorrect use of the data described and (or) contained herein.</accconst>\n <useconst>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. This database has been approved for release by the U.S. Geological Survey (USGS). Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the database is released on condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from its authorized or unauthorized use.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>William G. Eldridge</cntper>\n <cntorg>MIDCONTINENT REGION: DAKOTA WATER SCI CTR</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1608 Mountain View Rd</address>\n <city>Rapid City</city>\n <state>SD</state>\n <postal>57702</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>605-394-3267</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <native>Video of the well casing and borehole of the Burnpit well was recorded using an Allegheny Instruments Heavy Duty GeoVision Nano Camera system and downloaded for viewing to a computer with Microsoft Windows 10 Enterprise version 10.0.18363 build 18363. File names with data sizes are readme.txt (8 KB), borehole_camera_video.zip (1.1 GB), BurnpitWell_NPS_test_20090825.csv (2 KB), BurnpitWell_USGS_test_20200624.csv (2KB), Eldridge_Hoogestraat_DataRelease_SIR2021_5059_snapshot.png (2MB), and this file (11 KB).</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Data verified by internal USGS quality assurance and quality control procedures.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were completed.</logic>\n <complete>Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were completed.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were completed.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Aquifer test data digitized from field notes or other reports. Water levels were measured with an electric tape at intervals ranging from 3 to 10 minutes with the pump on and 1 to 10 minutes with the pump off for the NPS test; water-level measurements were recorded until the water level declined to about 150 feet (ft) below the land surface. Water levels were measured manually by USGS personnel for the USGS test using a 1,000-ft calibrated electric tape with a measuring point of 2.70 ft above land surface established at the top of the monitoring tube. Video files are raw without additional processing. Video of the well casing and borehole of the Burnpit well (well 5) was recorded by NPS personnel using an Allegheny Instruments Heavy Duty GeoVision Nano Camera system.</procdesc>\n <procdate>2020</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>William G Eldridge</cntper>\n <cntorg>U.S. Geological Survey, MIDCONTINENT REGION</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>1608 Mountain View Rd</address>\n <city>Rapid City</city>\n <state>SD</state>\n <postal>57702</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>605-394-3267</cntvoice>\n <cntfax>605-355-4523</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n <procstep>\n <procdesc>Water-level displacement was calculated by subtracting the first water level measured below land surface from the remaining water levels recorded.</procdesc>\n <procdate>2020</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>William G Eldridge</cntper>\n <cntorg>U.S. Geological Survey, MIDCONTINENT REGION</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>1608 Mountain View Rd</address>\n <city>Rapid City</city>\n <state>SD</state>\n <postal>57702</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>605-394-3267</cntvoice>\n <cntfax>605-355-4523</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>NA</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.000001</latres>\n <longres>0.000001</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>North American Datum of 1983 (NAD 83)</horizdn>\n <ellips>WGS_1984</ellips>\n <semiaxis>6378137.000000</semiaxis>\n <denflat>298.257222</denflat>\n </geodetic>\n </horizsys>\n <vertdef>\n <altsys>\n <altdatum>North American Vertical Datum of 1988</altdatum>\n <altres>0.01</altres>\n <altunits>feet</altunits>\n <altenc>Attribute values</altenc>\n </altsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>BurnpitWell_NPS_test_20090825.csv</enttypl>\n <enttypd>Water-level measurements collected during 2009 aquifer pump test.</enttypd>\n <enttypds>Data measured by NPS staff in 2009.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>time_min</attrlabl>\n <attrdef>Elapsed time during aquifer pump test.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>344</rdommax>\n <attrunit>minutes</attrunit>\n <attrmres>1</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>waterlevel_displacement_ft</attrlabl>\n <attrdef>Groundwater level change from beginning of aquifer test. Calculated by subtracting the first water-level measurement from depth below land surface from all measurements.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>0</rdommin>\n <rdommax>123.91</rdommax>\n <attrunit>feet</attrunit>\n <attrmres>0.01</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>waterlevel_depth_below_land_surface_ft</attrlabl>\n <attrdef>Groundwater level, in feet below land surface.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>27.89</rdommin>\n <rdommax>151.80</rdommax>\n <attrunit>feet below land surface</attrunit>\n <attrmres>0.01</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pump_status</attrlabl>\n <attrdef>ON/OFF indicator for whether pump was turned on during measurement.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><udom>ON and OFF indicator for whether pump was turned on during measurement.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>BurnpitWell_USGS_test_20200624.csv</enttypl>\n <enttypd>Water-level measurements collected during 2020 aquifer pump test.</enttypd>\n <enttypds>Data measured by USGS staff (authors) in 2020.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>time_min</attrlabl>\n <attrdef>Elapsed time during aquifer pump test. Contains fractional minute data from 188 to 189 minutes.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>381</rdommax>\n <attrunit>minutes</attrunit>\n <attrmres>0.01</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>waterlevel_displacement_ft</attrlabl>\n <attrdef>Groundwater level change from beginning of aquifer test. Calculated by subtracting the first water-level measurement from depth below land surface from all measurements.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv><rdom>\n <rdommin>0</rdommin>\n <rdommax>196.25</rdommax>\n <attrunit>feet</attrunit>\n <attrmres>0.01</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>waterlevel_depth_below_land_surface_ft</attrlabl>\n <attrdef>Groundwater level, in feet below land surface.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>8.57</rdommin>\n <rdommax>204.82</rdommax>\n <attrunit>feet below land surface</attrunit>\n <attrmres>0.01</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pump_status</attrlabl>\n <attrdef>ON/OFF indicator for whether pump was turned on during measurement.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><udom>ON or OFF indicator for whether pump was turned on during measurement.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pump_rate_gallonsperminute</attrlabl>\n <attrdef>Pumping rate, measured in gallons per minute</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>blank or no data value</edomv>\n <edomvd>No pump rate measured at the corresponding time</edomvd>\n <edomvds>Producer defined</edomvds>\n</edom>\n </attrdomv>\n <attrdomv><rdom>\n <rdommin>0</rdommin>\n <rdommax>27</rdommax>\n <attrunit>gallons per minute</attrunit>\n <attrmres>1</attrmres>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>borehole_camera_video.zip</enttypl>\n <enttypd>Borehole camera video recorded at Burnpit well in June and July 2020.</enttypd>\n <enttypds>Video captured by NPS staff.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>20200623</attrlabl>\n <attrdef>Folder containing video files of borehole video captured on June 23, 2020.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Folder contains three video files (.avi format) of borehole camera investigation. Depth of camera location (in feet below land surface) indicated on video.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>20200729</attrlabl>\n <attrdef>Folder containing video file of borehole video captured on July 22, 2020.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv><udom>Folder contains single video file (.avi format) of borehole camera investigation. Depth of camera location (in feet below land surface) indicated on video.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>This data release contains borehole video and aquifer test data for the Burnpit well (U.S. Geological Survey National Water Information System identification 435240103265301), Mount Rushmore National Memorial, collected in June and July 2020. Other files include a text file (readme.txt) that describes the files and a portable network graphics (.png) file showing the location of the study area with an outline of the study area and land surface imagery. Some files are zipped and require extraction software, such as 7-zip, to unzip. The audio video interleave (.avi) files also require viewing software such as Windows Media Player. A text editor is required to view the text and comma-separated value (csv) files.</eaover>\n <eadetcit>Eldridge, W.G., and Hoogestraat, G.K., 2021, Borehole video and aquifer test data for the Burnpit well, Mount Rushmore National Memorial, South Dakota, 2020: U.S. Geological Survey data release, https://doi.org/10.5066/P98OZQN9.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>William G. Eldridge</cntper>\n <cntorg>MIDCONTINENT REGION: DAKOTA WATER SCI CTR</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1608 Mountain View Rd</address>\n <city>Rapid City</city>\n <state>SD</state>\n <postal>57702</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>605-394-3267</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata, and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey, no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform><digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt><onlinopt><computer><networka><networkr>https://doi.org/10.5066/P98OZQN9</networkr></networka></computer></onlinopt></digtopt></digform>\n <fees>None.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20210607</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Galen Hoogestraat</cntper>\n <cntorg>MIDCONTINENT REGION: DAKOTA WATER SCI CTR</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1608 Mountain View Rd</address>\n <city>Rapid City</city>\n <state>SD</state>\n <postal>57702</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>605-394-3264</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2020-10-27Start Date2016-08-01End Date2018-07-31
## Citation
Dundas, C.M., Keszthelyi, L., Hoskuldsson, A., Thordarson, T., Hamilton, C.W., Lev, E., and Rumpf, M.E., 2020, Sensor Data from Monitoring the Cooling of the 2014–2015 Lava Flow and Hydrothermal System at Holuhraun, Iceland: U.S. Geological Survey data release, https://doi.org/10.5066/P9RMLJ7X.
## Summary
This data release is a companion to Dundas et al., 2020. Additional description of the methods and rationale for data collection is provided there. The primary data are from several categories of data-logging sensors described in detail below. Sixteen images are also included as part of this data release. These document the sensor locations as described in Dundas et al. (2020).
## Summary
This data release is a companion to Dundas et al., 2020. Additional description of the methods and rationale for data collection is provided there. The primary data are from several categories of data-logging sensors described in detail below. Sixteen images are also included as part of this data release. These document the sensor locations as described in Dundas et al. (2020).
## Contacts
Point of Contact
:
[Colin M Dundas](/catalog/catalogParty/show?partyId=24149)
Originator
:
[Colin M Dundas](/catalog/catalogParty/show?partyId=24149),
[Laszlo Keszthelyi](/catalog/catalogParty/show?partyId=Laszlo+Keszthelyi),
[Armann Hoskuldsson](/catalog/catalogParty/show?partyId=Armann+Hoskuldsson),
[Thorvaldur Thordarson](/catalog/catalogParty/show?partyId=Thorvaldur+Thordarson),
[Christopher W Hamilton](/catalog/catalogParty/show?partyId=Christopher+W+Hamilton),
[Einat Lev](/catalog/catalogParty/show?partyId=Einat+Lev),
[M Elise Rumpf](/catalog/catalogParty/show?partyId=M+Elise+Rumpf)
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| Holuhraun\_Metadata\_201026.xml<br>_Original FGDC Metadata_ | View | 37.6 KB | application/fgdc+xml |
| Data\_Cold\_Stream\_20160804\_20170712.csv | | 701.22 KB | text/csv |
| Data\_Inner\_Pool\_20170713\_20180705.csv | | 517.09 KB | text/csv |
| Data\_Lake\_20170713\_20180706.csv | | 516.84 KB | text/csv |
| Data\_Side\_Pool\_20170713\_20180705.csv | | 514.37 KB | text/csv |
| Data\_South\_Stream\_20170713\_20180705.csv | | 514.16 KB | text/csv |
| Data\_Thermocouple.csv | | 393 Bytes | text/csv |
| Data\_Toe\_Spring\_20160804\_20170712.csv | | 565.47 KB | text/csv |
| Data\_Toe\_Spring\_20170713\_20180705.csv | | 514.27 KB | text/csv |
| Data\_Warm\_Spring\_20160804\_20170712.csv | | 721.09 KB | text/csv |
| Data\_Weather\_20160804\_20170712.csv | | 16.36 MB | text/csv |
| Data\_Weather\_20170713\_20180705.csv | | 20.09 MB | text/csv |
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| DSC\_9567.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5f6b72dd82ce38aaa2451506?f=__disk__98%2F4a%2F06%2F984a06afa9497b273be827f047f79b1b0c5848f9&width=150&height=100) | 7.05 MB | image/jpeg |
| IMG\_3047.HEIC | | 2.86 MB | video/quicktime |
| IMG\_3507.HEIC | | 3.28 MB | video/quicktime |
| IMG\_3568.HEIC | | 3.43 MB | video/quicktime |
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| IMG\_6171.JPG | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5f6b72dd82ce38aaa2451506?f=__disk__3c%2F64%2F07%2F3c6407d1a95b273afa235027c39e68e232ab2905&width=150&height=113) | 2.65 MB | image/jpeg |
| P8230200.JPG | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5f6b72dd82ce38aaa2451506?f=__disk__85%2F22%2F8d%2F85228da4bb5a6abb544f5084c5834be33e6ada33&width=150&height=113) | 2.7 MB | image/jpeg |
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| Dundas, C.M., Keszthelyi, L., Lev, E., Rumpf, M.E., Hamilton, C.W., Höskuldsson, Á., and Thordarson, T., 2020, Lava–water interaction and hydrothermal activity within the 2014–2015 Holuhraun Lava Flow Field, Iceland: Journal of Volcanology and Geothermal Research, v. 408, p. 107100, https://doi.org/10.1016/j.jvolgeores.2020.107100. | [https://doi.org/10.1016/j.jvolgeores.2020.107100](https://doi.org/10.1016/j.jvolgeores.2020.107100 "https://doi.org/10.1016/j.jvolgeores.2020.107100") |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Colin M. Dundas</origin>\n <origin>Laszlo Keszthelyi</origin>\n <origin>Armann Hoskuldsson</origin>\n <origin>Thorvaldur Thordarson</origin>\n <origin>Christopher W. Hamilton</origin>\n <origin>Einat Lev</origin>\n <origin>M. Elise Rumpf</origin>\n <pubdate>20201027</pubdate>\n <title>Sensor Data from Monitoring the Cooling of the 2014\xe2\x80\x932015 Lava Flow and Hydrothermal System at Holuhraun, Iceland</title>\n <geoform>spreadsheet</geoform>\n <onlink>https://doi.org/10.5066/P9RMLJ7X</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Colin M. Dundas</origin>\n <origin>Laszlo Keszthelyi</origin>\n <origin>Einat Lev</origin>\n <origin>M. Elise Rumpf</origin>\n <origin>Christopher W. Hamilton</origin>\n <origin>\xc3\x81rmann H\xc3\xb6skuldsson</origin>\n <origin>Thorvaldur Thordarson</origin>\n <pubdate>202012</pubdate>\n <title>Lava\xe2\x80\x93water interaction and hydrothermal activity within the 2014\xe2\x80\x932015 Holuhraun Lava Flow Field, Iceland</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Journal of Volcanology and Geothermal Research</sername>\n <issue>vol. 408</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Elsevier BV</publish>\n </pubinfo>\n <othercit>ppg. 107100</othercit>\n <onlink>https://doi.org/10.1016/j.jvolgeores.2020.107100</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release is a companion to Dundas et al., NNNN. Additional description of the methods and rationale for data collection is provided there. The primary data are from several categories of data-logging sensors described in detail below. Sixteen images are also included as part of this data release. These document the sensor locations as described in Dundas et al. (NNNN).</abstract>\n <purpose>Used in support of cited publication.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20160801</begdate>\n <enddate>20180731</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-16.521650</westbc>\n <eastbc>-16.513720</eastbc>\n <northbc>64.932100</northbc>\n <southbc>64.928200</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>geoscientificInformation</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>Terrestrial Analog</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>volcanology</themekey>\n <themekey>planetary sciences</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5f6b72dd82ce38aaa2451506</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Holuhraun</placekey>\n <placekey>Iceland</placekey>\n </place>\n </keywords>\n <accconst>None. Please see \'Distribution Info\' for details.</accconst>\n <useconst>None. Users are advised to read the data set\'s metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Colin M Dundas</cntper>\n <cntorg>U.S. Geological Survey, Southwest Region</cntorg>\n </cntperp>\n <cntpos>Research Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2255 North Gemini Drive</address>\n <city>Flagstaff</city>\n <state>AZ</state>\n <postal>86001</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>928-556-7143</cntvoice>\n <cntfax>928-556-7014</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>All pressures are absolute pressure, not corrected for variations in atmospheric pressure. There are pressure offsets associated with readout or replacement of the sensors, which remain in the data files here. Some small, rapid pressure changes of unknown cause also remain in the data set and could indicate real changes in water depth and/or changes due to shifts in the position of sensors.</attraccr>\n </attracc>\n <logic>Data were reviewed for consistency. Any exceptions are documented in the Entity and Attribute section.</logic>\n <complete>See the Entity and Attribute section for information about the completeness of each data set.</complete>\n <posacc>\n <horizpa>\n <horizpar>Locations are given in decimal degrees in the WGS84 system as measured by handheld\nGPS units in the field, and in the ISNET MTM coordinate system as measured on\ngeoregistered airphotos. The latter is regarded as more precise. Images P8230200.JPG and\nP8240353 show locations described in Dundas et al. (ISNET MTM 292650 m E, 1815407 m\nN).</horizpar>\n </horizpa>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>None</procdesc>\n <procdate>Unknown</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Data_Cold_Stream_20160804_20170712.csv</enttypl>\n <enttypd>\xe2\x80\x9cCold Stream\xe2\x80\x9d (ISNET MTM 294776 m E, 1817168 m N): a cold groundwater-fed stream\njust north of the flow, flowing towards the lava. Temperature data recorded August\n2016\xe2\x80\x93July 2017. An anomalous point taken while the sensor was out of position during data\nreadout on August 5, 2016 at 13:45 was removed. Data collection on September 11, 2016 was\nrapid enough that there was no associated data gap. Image IMG_6171.JPG shows the location\nwhere the sensor was installed and IMG_6172 shows the installed sensor, on August 4,\n2016.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.6</rdommin>\n <rdommax>10.5</rdommax>\n <attrunit>Degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Inner_Pool_20170713_20180705.csv</enttypl>\n <enttypd>\xe2\x80\x9cInner Pool\xe2\x80\x9d (WGS84 64.93163N, 16.52500W; ISNET MTM 294664 m E, 1817008 m N):\nP\xe2\x80\x93T sensor in the warm pool enclosed by lava. Sensors were in place between August\n2017\xe2\x80\x93July 2018. The data were primarily collected on one sensor but include one day\xe2\x80\x99s\nworth of data from a second sensor which was emplaced before it was decided to remove all\nsensors upon review of the collected data. There is an offset in the pressure data in this\nfile because the two sensors were not at precisely the same depth (between the 13:30 and\n14:00 points on July 4, 2018). Image DSC_8920.JPG shows the sensor on July 14, 2017. Image\nIMG_3047.HEIC shows the sensor on July 4, 2018.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.112</rdommin>\n <rdommax>19.758</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pressure</attrlabl>\n <attrdef>Pressure</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>89.79899999999999</rdommin>\n <rdommax>99.227</rdommax>\n <attrunit>kPa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Lake_20170713_20180706.csv</enttypl>\n <enttypd>\xe2\x80\x9cLake\xe2\x80\x9d (WGS84 64.91335N, 16.76735W; ISNET MTM 292220 m E, 1805629 m N): P\xe2\x80\x93T\nsensor in the shallow ephemeral lake located on the north side of the flow, collected from\nAugust 2017\xe2\x80\x93July 2018. This sensor was buried by sand partway through the logging period,\nand silty mud (distinct from the sand) also filled the interior of the housing. This\nresulted in unusual behavior of the pressure sensor, which therefore does not accurately\nreflect the water depth. When collected in 2018, there was more than 0.5 m of sand above\nthe top of the housing, and the sensor hung several decimeters below, so the total amount\nof sediment deposition was around one meter. Images DSC_0094.JPG, DSC_0173.JPG, and\nDSC_0175.JPG show the sensor on July 14, 2017.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-0.102</rdommin>\n <rdommax>22.429000000000002</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pressure</attrlabl>\n <attrdef>Pressure</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>81.00399999999999</rdommin>\n <rdommax>109.37700000000001</rdommax>\n <attrunit>kPa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Side_Pool_20160804_20160911.csv</enttypl>\n <enttypd>\xe2\x80\x9cSide Pool\xe2\x80\x9d: A pool along the northern edge of the lava, which was fed both by\n\xe2\x80\x9cWarm Spring\xe2\x80\x9d and cold groundwater streams including \xe2\x80\x9cCold Stream\xe2\x80\x9d. The sensor was located\nin a PVC housing to protect it from stream flow. P\xe2\x80\x93T data were recorded August\n2016\xe2\x80\x93September 2016 (ISNT MTM 294736 m E, 1817185 m N ) and July 2017\xe2\x80\x93July 2018 (ISNET MTM\n294732 m E, 1817175 m N). Data from the intervening ten months were lost because the\nsensor broke loose and could not be located on the streambed. The replacement sensor\nplaced in July 2017 was therefore in a slightly different part of the pool, a few meters\naway from the former location. These locations are collectively referred to as the \xe2\x80\x9cSide\nPool\xe2\x80\x9d. These data exist in two files, one covering the data from the first sensor (2016,\nprior to loss) and one covering 2017\xe2\x80\x932018. The 2016 data include a gap associated with\ndata readout on August 5, 2016 at 14:15. The pressure offset from this data collection was\nsmall because the sensor was returned to the same cable and housing. The 2017\xe2\x80\x932018 data\nwere primarily collected on one sensor but include one day\xe2\x80\x99s worth of data from a second\nsensor that was emplaced before it was decided to remove all sensors upon review of the\ncollected data. There is an offset in the pressure data in this file because the two\nsensors were not at precisely the same depth. Image IMG_6166.JPG and IMG_6167.JPG show the\nsensor on August 4, 2016. Image IMG_3507 shows the sensor on July 4, 2018. Image IMG_4064\nshows the sensor and housing in detail.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>20.996</rdommin>\n <rdommax>24.545</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pressure</attrlabl>\n <attrdef>Pressure</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>95.28299999999999</rdommin>\n <rdommax>99.943</rdommax>\n <attrunit>kPa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Side_Pool_20170713_20180705.csv</enttypl>\n <enttypd>\xe2\x80\x9cSide Pool\xe2\x80\x9d: A pool along the northern edge of the lava, which was fed both by\n\xe2\x80\x9cWarm Spring\xe2\x80\x9d and cold groundwater streams including \xe2\x80\x9cCold Stream\xe2\x80\x9d. The sensor was located\nin a PVC housing to protect it from stream flow. P\xe2\x80\x93T data were recorded August\n2016\xe2\x80\x93September 2016 (ISNT MTM 294736 m E, 1817185 m N ) and July 2017\xe2\x80\x93July 2018 (ISNET MTM\n294732 m E, 1817175 m N). Data from the intervening ten months were lost because the\nsensor broke loose and could not be located on the streambed. The replacement sensor\nplaced in July 2017 was therefore in a slightly different part of the pool, a few meters\naway from the former location. These locations are collectively referred to as the \xe2\x80\x9cSide\nPool\xe2\x80\x9d. These data exist in two files, one covering the data from the first sensor (2016,\nprior to loss) and one covering 2017\xe2\x80\x932018. The 2016 data include a gap associated with\ndata readout on August 5, 2016 at 14:15. The pressure offset from this data collection was\nsmall because the sensor was returned to the same cable and housing. The 2017\xe2\x80\x932018 data\nwere primarily collected on one sensor but include one day\xe2\x80\x99s worth of data from a second\nsensor that was emplaced before it was decided to remove all sensors upon review of the\ncollected data. There is an offset in the pressure data in this file because the two\nsensors were not at precisely the same depth. Image IMG_6166.JPG and IMG_6167.JPG show the\nsensor on August 4, 2016. Image IMG_3507 shows the sensor on July 4, 2018. Image IMG_4064\nshows the sensor and housing in detail.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.623</rdommin>\n <rdommax>8.581</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pressure</attrlabl>\n <attrdef>Pressure</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>90.314</rdommin>\n <rdommax>98.264</rdommax>\n <attrunit>kPa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_South_Stream_20170713_20180705.csv</enttypl>\n <enttypd>\xe2\x80\x9cSouth Stream\xe2\x80\x9d (WGS84 64.92820N, 16.51372W; ISNET MTM 294305 m E, 1817564 m N):\nThe glacier-fed stream along the southern edge of the lava flow. A P\xe2\x80\x93T sensor was in place\na short distance upstream from the toe of the lava from July 2017\xe2\x80\x93July 2018. The sensor\nwas within a PVC housing which enabled it to be better secured among the rocks at the\nstream edge. Images DSC_9558.JPG and DSC_9567.JPG show the sensor on July 13,\n2017.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>16.523</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pressure</attrlabl>\n <attrdef>Pressure</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>90.40899999999999</rdommin>\n <rdommax>106.715</rdommax>\n <attrunit>kPa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Toe_Spring_20160804_20170712.csv</enttypl>\n <enttypd>\xe2\x80\x9cToe Spring\xe2\x80\x9d (WGS84 64.93173N, 16.51422W; ISNET MTM 294695 m E, 1817509 m N):\nthe spring at the toe of the flow, location of outflow of water from beneath the lava. P\xe2\x80\x93T\ndata collected from August 2016 \xe2\x80\x93 July 2018. The sensors were attached to a rock dangling\ninto the water. These data exist in two files, one covering the data from the first sensor\n(2016\xe2\x80\x932017) and one covering 2017\xe2\x80\x932018; there is a brief temporal gap between the two. The\ncable holding the first sensor rusted and broke sometime between September 2016 and July\n2017. Data were read out from the sensor on September 11 and 12, 2016, resulting in a gap\nin measurements between 15:15 and 15:45 on September 11 and 7:30 and 9:00 on September 12.\nThese gaps are associated with small step offsets in the pressure data since the sensor\nwas not returned to precisely the same depth. The 2017\xe2\x80\x932018 data were primarily collected\non one sensor but include one day\xe2\x80\x99s data from a second sensor which was emplaced before it\nwas decided to remove all sensors upon review of the collected data. There is an offset in\nthe pressure data in this file (between 14:30 and 15:30 on July 4, 2018) because the two\nsensors were not at precisely the same depth. Image IMG_3568.HEIC shows the sensor on July\n4, 2018.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>empty cell</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <udom>Formatted as YYYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>empty cell</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>9.472</rdommin>\n <rdommax>23.388</rdommax>\n <attrunit>degrees celcius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pressure</attrlabl>\n <attrdef>Pressure</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>empty cell</edomv>\n <edomvd>No Data</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>89.899</rdommin>\n <rdommax>97.989</rdommax>\n <attrunit>kPa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Toe_Spring_20170713_20180705.csv</enttypl>\n <enttypd>\xe2\x80\x9cToe Spring\xe2\x80\x9d (WGS84 64.93173N, 16.51422W; ISNET MTM 294695 m E, 1817509 m N):\nthe spring at the toe of the flow, location of outflow of water from beneath the lava. P\xe2\x80\x93T\ndata collected from August 2016 \xe2\x80\x93 July 2018. The sensors were attached to a rock dangling\ninto the water. These data exist in two files, one covering the data from the first sensor\n(2016\xe2\x80\x932017) and one covering 2017\xe2\x80\x932018; there is a brief temporal gap between the two. The\ncable holding the first sensor rusted and broke sometime between September 2016 and July\n2017. Data were read out from the sensor on September 11 and 12, 2016, resulting in a gap\nin measurements between 15:15 and 15:45 on September 11 and 7:30 and 9:00 on September 12.\nThese gaps are associated with small step offsets in the pressure data since the sensor\nwas not returned to precisely the same depth. The 2017\xe2\x80\x932018 data were primarily collected\non one sensor but include one day\xe2\x80\x99s data from a second sensor which was emplaced before it\nwas decided to remove all sensors upon review of the collected data. There is an offset in\nthe pressure data in this file (between 14:30 and 15:30 on July 4, 2018) because the two\nsensors were not at precisely the same depth. Image IMG_3568.HEIC shows the sensor on July\n4, 2018.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5.655</rdommin>\n <rdommax>9.571</rdommax>\n <attrunit>degrees celcius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pressure</attrlabl>\n <attrdef>Pressure</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>89.45</rdommin>\n <rdommax>97.62</rdommax>\n <attrunit>kPa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Warm_Spring_20160804_20170712.csv</enttypl>\n <enttypd>\xe2\x80\x9cWarm Spring\xe2\x80\x9d (ISNET MTM 294725 m E, 1817187 m N): A warm outflow spring at the\nedge of the lava. Temperature data collected August 2016\xe2\x80\x93July 2017. Anomalous points while\nthe sensor was out of position during data readout on August 5, 2016 at 14:00 and\nSeptember 11, 2016 at 12:15 were removed. Image IMG_6166.JPG and IMG_6167.JPG show the\nlocation of the sensor on August 4, 2016. The sensor is not visible as it was placed in\nthe rocks at the edge of the water.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.5</rdommin>\n <rdommax>27.0</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Weather_20160804_20170712.csv</enttypl>\n <enttypd>\xe2\x80\x9cWeather\xe2\x80\x9d (ISNET MTM 294724 m E, 1817192 m N): P/T/RH sensors concealed in the lava\nrubble a few cm from the open air. Sensors were in place from August 2016\xe2\x80\x93July 2018. The\nsensor in place between August 2016\xe2\x80\x93July 2017 produced pressure data that were clearly\nerroneous (pressures exceeded sea level pressure) and could not be calibrated accurately;\nthat field has been set to zero in this file. These data exist in two files, one covering\nthe data from the first sensor (2016\xe2\x80\x932017) and one covering 2017\xe2\x80\x932018 (almost all one\nsensor apart from the last day, when a third was briefly used). In the 2016 data, the\nsensor was removed and read out at 14:00 on August 5, 2016. This is associated with a\nfive-minute data gap surrounded by a transient increase in temperature while the sensor\nwas not in its standard location. It was also read out on September 11, 2016, but this did\nnot result in a gap or significant transient in the data. Data from around the readout\ntimes are included in the data files. All of the sensor data from August 4, 2016\xe2\x80\x93September\n12, 2017 have been merged in one file. The sensor used from 2016\xe2\x80\x93-2017 appears to have\ndeveloped some clock inaccuracy in addition to inaccurate pressure readings. Time stamps\nfor data collection at ~14:00 on August 5, 2016 appear correct. However, the sensor was\ncollected at ~12:30 local time on September 11, 2016, and read out by 12:43, but the\ntimestamp of the last readout was at 13:07. The sensor was not back in place until 13:30.\nBy July 12, 2017, the clock inaccuracy was more significant: the sensor was collected at\n~16:45 and downloaded later in the evening but last datum in the file has a timestamp of\n11:13. This indicates a clock inaccuracy of hours. The last several hours thus reflect\nconditions after removal of the sensor from the field, but there is no obvious\ndiscontinuity in the data. We have no means of correcting the clock drift with confidence\nand thus the data file shows the times as reported by the sensor, and does not excise data\nfrom after the sensor was removed from the field location. There was no sign of\nsignificant clock drift in the 2017\xe2\x80\x932018 data. The last datum had a timestamp of 15:00,\nand the output file was created at 15:10. Since this clock was accurate, we only report\ndata from before the sensor was removed from the field. In the 2018 data, the seam between\nsensors is between 14:30 and 14:45 on July 4, 2018, and data from July 4\xe2\x80\x935 were collected\nat 15 minute rather than 1 minute intervals. The weather sensor is within the scene\ncovered by IMG_6166.JPG and IMG_6167.JPG, concealed within the rubble at upper\nleft.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-17.9512</rdommin>\n <rdommax>16.989</rdommax>\n <attrunit>degrees ceclcius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pressure</attrlabl>\n <attrdef>Pressure</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>0</rdommax>\n <attrunit>kPa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>relative_humidity</attrlabl>\n <attrdef>Relative humidity</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>33.1792</rdommin>\n <rdommax>100.0</rdommax>\n <attrunit>SI</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Weather_20170713_20180705.csv</enttypl>\n <enttypd>\xe2\x80\x9cWeather\xe2\x80\x9d (ISNET MTM 294724 m E, 1817192 m N): P/T/RH sensors concealed in the lava\nrubble a few cm from the open air. Sensors were in place from August 2016\xe2\x80\x93July 2018. The\nsensor in place between August 2016\xe2\x80\x93July 2017 produced pressure data that were clearly\nerroneous (pressures exceeded sea level pressure) and could not be calibrated accurately;\nthat field has been set to zero in this file. These data exist in two files, one covering\nthe data from the first sensor (2016\xe2\x80\x932017) and one covering 2017\xe2\x80\x932018 (almost all one\nsensor apart from the last day, when a third was briefly used). In the 2016 data, the\nsensor was removed and read out at 14:00 on August 5, 2016. This is associated with a\nfive-minute data gap surrounded by a transient increase in temperature while the sensor\nwas not in its standard location. It was also read out on September 11, 2016, but this did\nnot result in a gap or significant transient in the data. Data from around the readout\ntimes are included in the data files. All of the sensor data from August 4, 2016\xe2\x80\x93September\n12, 2017 have been merged in one file. The sensor used from 2016\xe2\x80\x93-2017 appears to have\ndeveloped some clock inaccuracy in addition to inaccurate pressure readings. Time stamps\nfor data collection at ~14:00 on August 5, 2016 appear correct. However, the sensor was\ncollected at ~12:30 local time on September 11, 2016, and read out by 12:43, but the\ntimestamp of the last readout was at 13:07. The sensor was not back in place until 13:30.\nBy July 12, 2017, the clock inaccuracy was more significant: the sensor was collected at\n~16:45 and downloaded later in the evening but last datum in the file has a timestamp of\n11:13. This indicates a clock inaccuracy of hours. The last several hours thus reflect\nconditions after removal of the sensor from the field, but there is no obvious\ndiscontinuity in the data. We have no means of correcting the clock drift with confidence\nand thus the data file shows the times as reported by the sensor, and does not excise data\nfrom after the sensor was removed from the field location. There was no sign of\nsignificant clock drift in the 2017\xe2\x80\x932018 data. The last datum had a timestamp of 15:00,\nand the output file was created at 15:10. Since this clock was accurate, we only report\ndata from before the sensor was removed from the field. In the 2018 data, the seam between\nsensors is between 14:30 and 14:45 on July 4, 2018, and data from July 4\xe2\x80\x935 was collected\nat 15 minute rather than 1 minute intervals. The weather sensor is within the scene\ncovered by IMG_6166.JPG and IMG_6167.JPG, concealed within the rubble at upper\nleft.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date_time</attrlabl>\n <attrdef>Date and time</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Formatted as YYYY.MM.DD.HH.MM</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temperature</attrlabl>\n <attrdef>Temperature</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.54945</rdommin>\n <rdommax>23.2088</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pressure</attrlabl>\n <attrdef>Pressure</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>91.3425</rdommin>\n <rdommax>94.456</rdommax>\n <attrunit>kPa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>relative_humidity</attrlabl>\n <attrdef>Relative humidity</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>13.3898</rdommin>\n <rdommax>100.0</rdommax>\n <attrunit>SI</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Data_Thermocouple.csv</enttypl>\n <enttypd>Selected temperature measurements carried out at the field sites in Dundas et al., NNNN using a K-type thermocouple.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>Formatted as YYYY.MM.DD</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Date</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Temperature</attrlabl>\n <attrdef>Temperature in degrees celsius.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7.0</rdommin>\n <rdommax>47.0</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Location</attrlabl>\n <attrdef>Site of measurements.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Inner Pool</edomv>\n <edomvd>Site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>South Stream</edomv>\n <edomvd>Site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>South Stream (upstream from sensor)</edomv>\n <edomvd>Site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Side Pool</edomv>\n <edomvd>Site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Cold Stream</edomv>\n <edomvd>Site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Toe Spring (nearby)</edomv>\n <edomvd>Site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Air</edomv>\n <edomvd>Site</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>All relevant sensor data are provided as comma-separated variable (CSV) files. Any data logged before or after a sensor was emplaced were excised except as noted herein. The ordering of columns is Date and time (YYYY.MM.DD.HH.MM), Temperature (C), Pressure (if collected) in kPa, Relative Humidity (if collected) in percent. The fields present depend on the type of sensor: Omega Engineering OM-CP-MICROTEMP submersible temperature sensors (referred to as \xe2\x80\x9cT sensors\xe2\x80\x9d), Onset HOBO U20 submersible temperature and pressure sensors (\xe2\x80\x9cP\xe2\x80\x93T sensors\xe2\x80\x9d), or Omega Engineering OMYL-RH23 loggers for atmospheric temperature, pressure and relative humidity (\xe2\x80\x9cWeather sensors\xe2\x80\x9d). Column order is "Date/time, temperature" for temperature sensors, "Date/time, temperature, pressure" for P-T sensors, and "Date/time, temperature, pressure, RH" for weather sensors. Note: the use of trade, product, or firm names is for identification purposes only and does not constitute an endorsement by the U.S. Government.</eaover>\n <eadetcit>See the source journal publication for these data.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9RMLJ7X</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20201027</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Marc A. Hunter</cntper>\n <cntorg>U.S. Geological Survey, SOUTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>IT Specialist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2255 North Gemini Drive</address>\n <city>Flagstaff</city>\n <state>AZ</state>\n <postal>86001</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>928-556-7133</cntvoice>\n <cntfax>928-556-7014</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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3. [Barrier island geomorphology and shorebird habitat metrics: Sixteen sites on the U.S. Atlantic Coast, 2013–2014](/catalog/item/5d5ece47e4b01d82ce961e36)
4. [Virginia: Fisherman Island NWR](/catalog/item/5daa37b1e4b09fd3b0c9ceb9)
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## Dates
Publication Date2019-12-20Start Date2013-11End Date2014-06
## Citation
Sturdivant, E.J., Zeigler, S.L., Gutierrez, B.T., and Weber, K.M., 2019, Barrier island geomorphology and shorebird habitat metrics–Sixteen sites on the U.S. Atlantic Coast, 2013–2014: U.S. Geological Survey data release, https://doi.org/10.5066/P9V7F6UX.
## Summary
Understanding how sea-level rise will affect coastal landforms and the species and habitats they support is critical for crafting approaches that balance the needs of humans and native species. Given this increasing need to forecast sea-level rise effects on barrier islands in the near and long terms, we are developing Bayesian networks to evaluate and to forecast the cascading effects of sea-level rise on shoreline change, barrier island state, and piping plover habitat availability. We use publicly available data products, such as lidar, orthophotography, and geomorphic feature sets derived from those, to extract metrics of barrier island characteristics at consistent sampling distances. The metrics are then incorporated into predictive \[...\]
## Summary
Understanding how sea-level rise will affect coastal landforms and the species and habitats they support is critical for crafting approaches that balance the needs of humans and native species. Given this increasing need to forecast sea-level rise effects on barrier islands in the near and long terms, we are developing Bayesian networks to evaluate and to forecast the cascading effects of sea-level rise on shoreline change, barrier island state, and piping plover habitat availability. We use publicly available data products, such as lidar, orthophotography, and geomorphic feature sets derived from those, to extract metrics of barrier island characteristics at consistent sampling distances. The metrics are then incorporated into predictive models and the training data used to parameterize those models. This data release contains the extracted metrics of barrier island geomorphology and spatial data layers of habitat characteristics that are input to Bayesian networks for piping plover habitat availability and barrier island geomorphology. These datasets and models are being developed for sites along the northeastern coast of the United States. This work is one component of a larger research and management program that seeks to understand and sustain the ecological value, ecosystem services, and habitat suitability of beaches in the face of storm impacts, climate change, and sea-level rise.
## Contacts
Contact
:
[Sara L Zeigler](/catalog/catalogParty/show?partyId=65879)
Originator
:
[Emily J Sturdivant](/catalog/catalogParty/show?partyId=70161),
[Ben Gutierrez](/catalog/catalogParty/show?partyId=4035),
[Kathryn M Weber](/catalog/catalogParty/show?partyId=11022),
[Sara L Zeigler](/catalog/catalogParty/show?partyId=65879)
Publisher
:
[Woods Hole Coastal and Marine Science Center](/catalog/catalogParty/show?partyId=17230)
Data Owner
:
[Woods Hole Coastal and Marine Science Center](/catalog/catalogParty/show?partyId=17230)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
SDC Data Owner
:
[Woods Hole Coastal and Marine Science Center](/catalog/catalogParty/show?partyId=17230)
USGS Mission Area
:
[Natural Hazards](/catalog/catalogParty/show?partyId=Natural+Hazards)
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| Fish14\_ElevMHW.tif.xml<br>_Original FGDC Metadata_ | View | 24.46 KB | application/fgdc+xml |
| Elev\_cei\_browse.png<br>“Example DEM. This example is for Cedar Island, VA and does not represent this...” | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5daa37b8e4b09fd3b0c9cec2?f=__disk__18%2F93%2F47%2F189347a0a174b4c2043bb057b3d0e85f6d660cf5&width=104&height=113) | 1.02 MB | image/png |
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| Fish14\_ElevMHW.tif | | 3 MB |
| Fish14\_ElevMHW.tif-ColorRamp.SLD | | 2.07 KB |
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## Related External Resources
Type: Related Primary Pubication
| | |
| --- | --- |
| Zeigler, S.L., Sturdivant, E.J., and Gutierrez, B.T., 2019, Evaluating barrier island characteristics and piping plover (Charadrius melodus) habitat availability along the U.S. Atlantic coast—Geospatial approaches and methodology: U.S. Geological Survey Open-File Report 2019–1071, https://doi.org/10.3133/ofr20191071. | [https://doi.org/10.3133/ofr20191071](https://doi.org/10.3133/ofr20191071 "https://doi.org/10.3133/ofr20191071") |
Type: Publication that references this resource
| | |
| --- | --- |
| Zeigler, S.L., Gutierrez, B.T., Sturdivant, E.J., Catlin, D.H., Fraser, J.D., Hecht, A., Karpanty, S.M., Plant, N.G., and Thieler, E.R., 2019, Using a Bayesian network to understand the importance of coastal storms and undeveloped landscapes for the creation and maintenance of early successional habitat: PLoS ONE, v. 14, no. 7, e0209986, https://doi.org/10.1371/journal.pone.0209986. | [https://doi.org/10.1371/journal.pone.0209986](https://doi.org/10.1371/journal.pone.0209986 "https://doi.org/10.1371/journal.pone.0209986") |
Type: Source Code
| | |
| --- | --- |
| Sturdivant, E.J., 2019, Bi-transect-extractor: U.S. Geological Survey software code, https://doi.org/10.5066/P915UYMY. | [https://doi.org/10.5066/P915UYMY](https://doi.org/10.5066/P915UYMY "https://doi.org/10.5066/P915UYMY") |
## Purpose
This dataset indicates the elevation (adjusted for mean high water tidal datum) for each 5x5 m cell within the boundaries of the Fisherman Island, Virginia study area according to lidar captured in 2014. See Zeigler and others (2019) for additional details. This dataset is part of a series of spatial datasets used to describe characteristics of barrier islands found along the North American Atlantic coast in order to identify habitat for the federally protected piping plover (Charadrius melodus). Information contained in these spatial datasets was used within a Bayesian network to model the probability that a specific set of landscape characteristics would be associated with piping plover habitat.
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## Provenance
## Additional Information
### Raster Extension
| boundingBox | | minY | 37.07900402318093 |
| minX | -75.98311582444896 |
| maxY | 37.11325680224749 |
| maxX | -75.9320577556783 | |
| files | | name | Fish14\_ElevMHW.tif |
| contentType | image/geotiff |
| pathOnDisk | \_\_disk\_\_09/55/3a/09553add9b5bb43f0e20a083cf6ca023bacfb323 |
| size | 3149410 |
| dateUploaded | Mon Oct 21 12:18:28 MDT 2019 |
| name | Fish14\_ElevMHW.tif-ColorRamp.SLD |
| contentType | application/sld+xml |
| pathOnDisk | \_\_disk\_\_c0/f0/29/c0f02900b642acfd48bd31b035577bfb40514a9e |
| imageWidth | 580 |
| imageHeight | 435 |
| size | 2124 |
| dateUploaded | Mon Oct 21 12:18:28 MDT 2019 | |
| name | Fish14\_ElevMHW |
| nativeCrs | EPSG:26918 |
| rasterType | GeoTIFF |
... show more ... (Additional Information)
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Sara L. Zeigler</origin>\n <origin>Emily J. Sturdivant</origin>\n <origin>Benjamin T. Gutierrez</origin>\n <pubdate>20191220</pubdate>\n <title>ElevMHW: Elevation adjusted to local mean high water: Fisherman Island, VA, 2014</title>\n <edition>1.0</edition>\n <geoform>raster digital dataset</geoform>\n <serinfo>\n <sername>data release</sername>\n <issue>DOI:10.5066/P9V7F6UX</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Woods Hole Coastal and Marine Science Center, Woods Hole, MA</pubplace>\n <publish>U.S. Geological Survey, Coastal and Marine Hazards and Resources Program</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9V7F6UX</onlink>\n <onlink>https://www.sciencebase.gov/catalog/item/5daa37b8e4b09fd3b0c9cec2</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Emily J. Sturdivant</origin>\n <origin>Sara L. Zeigler</origin>\n <origin>Benjamin T. Gutierrez</origin>\n <origin>Kathryn M. Weber</origin>\n <pubdate>2019</pubdate>\n <title>Barrier island geomorphology and shorebird habitat metrics: Sixteen sites on the U.S. Atlantic Coast, 2013\xe2\x80\x932014</title>\n <edition>1.0</edition>\n <serinfo>\n <sername>data release</sername>\n <issue>DOI:10.5066/P9V7F6UX</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <othercit>Suggested citation: Sturdivant, E.J., Zeigler, S.L., Gutierrez, B.T., and Weber, K.M., 2019, Barrier island geomorphology and shorebird habitat metrics\xe2\x80\x94Sixteen sites on the U.S. Atlantic Coast, 2013\xe2\x80\x932014: U.S. Geological Survey data release, https://doi.org/10.5066/P9V7F6UX.</othercit>\n <onlink>https://doi.org/10.5066/P9V7F6UX</onlink>\n <onlink>https://www.sciencebase.gov/catalog/item/5d5ece47e4b01d82ce961e36</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Understanding how sea-level rise will affect coastal landforms and the species and habitats they support is critical for crafting approaches that balance the needs of humans and native species. Given this increasing need to forecast sea-level rise effects on barrier islands in the near and long terms, we are developing Bayesian networks to evaluate and to forecast the cascading effects of sea-level rise on shoreline change, barrier island state, and piping plover habitat availability. We use publicly available data products, such as lidar, orthophotography, and geomorphic feature sets derived from those, to extract metrics of barrier island characteristics at consistent sampling distances. The metrics are then incorporated into predictive models and the training data used to parameterize those models. This data release contains the extracted metrics of barrier island geomorphology and spatial data layers of habitat characteristics that are input to Bayesian networks for piping plover habitat availability and barrier island geomorphology. These datasets and models are being developed for sites along the northeastern coast of the United States. This work is one component of a larger research and management program that seeks to understand and sustain the ecological value, ecosystem services, and habitat suitability of beaches in the face of storm impacts, climate change, and sea-level rise.</abstract>\n <purpose>This digital elevation model (DEM) represents the elevation (adjusted for mean high water tidal datum) for each 5x5 m cell within the boundaries of the Fisherman Island, Virginia study area as measured by lidar collected in 2014. See Zeigler and others (2019) for additional details.\n\nThe DEM is part of a series of spatial datasets used to describe characteristics of barrier islands found along the North American Atlantic coast in order to identify habitat for the federally protected piping plover (Charadrius melodus). Information contained in these spatial datasets was used within a Bayesian network to model the probability that a specific set of landscape characteristics would be associated with piping plover habitat.</purpose>\n <supplinf>For additional information on processing and use of this geospatial dataset, see the USGS Open-File report by Zeigler and others (2019).</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>201311</begdate>\n <enddate>201406</enddate>\n </rngdates>\n </timeinfo>\n <current>Collection period of the source lidar data.</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-75.98311582</westbc>\n <eastbc>-75.93205776</eastbc>\n <northbc>37.11284767</northbc>\n <southbc>37.07941266</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5daa37b8e4b09fd3b0c9cec2</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>Barrier Island</themekey>\n <themekey>USGS</themekey>\n <themekey>CMHRP</themekey>\n <themekey>Geographic Information Systems</themekey>\n <themekey>GIS</themekey>\n <themekey>U.S. Geological Survey</themekey>\n <themekey>Coastal and Marine Hazards and Resources Program</themekey>\n <themekey>Woods Hole Coastal and Marine Science Center</themekey>\n <themekey>St. Petersburg Coastal and Marine Science Center</themekey>\n <themekey>MHW</themekey>\n <themekey>Mean High Water</themekey>\n <themekey>Coastal Habitat</themekey>\n <themekey>Fisherman Island</themekey>\n <themekey>Fisherman Island National Wildlife Refuge</themekey>\n </theme>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>oceans</themekey>\n <themekey>elevation</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>geospatial datasets</themekey>\n <themekey>geospatial analysis</themekey>\n <themekey>geomorphology</themekey>\n <themekey>digital elevation models</themekey>\n <themekey>lidar</themekey>\n <themekey>topography</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Virginia</placekey>\n <placekey>VA</placekey>\n <placekey>Delmarva Peninsula</placekey>\n <placekey>Fisherman Island</placekey>\n <placekey>North America</placekey>\n <placekey>United States</placekey>\n <placekey>USA</placekey>\n <placekey>Atlantic Ocean</placekey>\n <placekey>Fisherman Island National Wildlife Refuge</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>Public domain data from the U.S. Government are freely redistributable with proper metadata and source attribution. Please recognize the U.S. Geological Survey (USGS) as the source of this information.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>Sara L. Zeigler</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>384 Woods Hole Road</address>\n <city>Woods Hole</city>\n <state>MA</state>\n <postal>02543</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>508-548-8700 x2290</cntvoice>\n <cntfax>508-457-2310</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://www.sciencebase.gov/catalog/file/get/5daa37b8e4b09fd3b0c9cec2/?name=Elev_cei_browse.png</browsen>\n <browsed>Example DEM. This example is for Cedar Island, VA and does not represent this dataset.</browsed>\n <browset>PNG</browset>\n </browse>\n <crossref>\n <citeinfo>\n <origin>Sara L. Zeigler</origin>\n <origin>Emily J. Sturdivant</origin>\n <origin>Benjamin T. Gutierrez</origin>\n <pubdate>2019</pubdate>\n <title>Evaluating barrier island characteristics and piping plover (Charadrius melodus) habitat availability along the U.S. Atlantic coast\xe2\x80\x94Geospatial approaches and methodology</title>\n <serinfo>\n <sername>Open-File Report</sername>\n <issue>2019\xe2\x80\x931071</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <othercit>Details the methods used to process these data for use in barrier island and piping plover habitat modeling.</othercit>\n <onlink>https://doi.org/10.3133/ofr20191071</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Kathryn M. Weber</origin>\n <origin>Jeffrey H. List</origin>\n <origin>Karen L.M. Morgan</origin>\n <pubdate>2005</pubdate>\n <title>An operational mean high water datum for determination of shoreline position from topographic lidar data.</title>\n <serinfo>\n <sername>Open-File Report</sername>\n <issue>2005-1027</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://pubs.usgs.gov/of/2005/1027/</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <logic>This file consists of raster data produced from elevation data and tidal datum values through a semi-automated process described below. No further logical accuracy tests were conducted on the present dataset.</logic>\n <complete>This dataset is clipped to a custom boundary and may not include the entire spatial extent of the original source datasets as they are published in original form. However, the custom boundary spans the entire coverage of the Fisherman Island site relevant to the broader research program (see Zeigler and others, 2019 for more details). This dataset is therefore considered complete for the information presented as described in the abstract section. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>The horizontal accuracy of the raster inherited the accuracy of the source digital elevation model (DEM), which was dependent on the accuracy of the source lidar. Refer to source contribution below for details. No projection transformations were required, because the source DEM was downloaded in NAD83 UTM Zone 18N. As such, horizontal accuracy was not affected by reprojection. The source DEM was resampled to 5-m resolution using bilinear interpolation. We estimate the accuracy of this elevation raster to be within 1 m horizontally.\n\nNo formal accuracy assessments were conducted on the final DEM.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>The vertical accuracy of the raster inherited the accuracy of the source digital elevation model (DEM), which was dependent on the accuracy of the source lidar. Refer to source contribution below for details. The source DEM was resampled to 5-m resolution using the \xe2\x80\x98Resample\xe2\x80\x99 tool with bilinear interpolation in ArcToolbox version 10.4.1. Elevation values were adjusted to the operational mean high water (MHW) value for the region as determined by Weber and others (2005) (refer to processing descriptions below). According to Weber and others (2005), tidal datums used to calculate location-specific offsets are accurate within 6 cm.\n\nWe estimate an overall conservative vertical accuracy of the final DEM within 1 m. However, areas with abrupt changes in elevation (e.g., a raster cell with a very low elevation adjacent to a cell with a very high elevation) may experience degraded vertical accuracy due to resampling.\n\nNo formal accuracy assessments were conducted on the final DEM.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Department of Commerce (DOC), National Oceanic and Atmospheric Administration (NOAA), National Ocean Service (NOS), National Geodetic Survey (NGS), Remote Sensing Division</origin>\n <origin>Department of Commerce (DOC), National Oceanic and Atmospheric Administration (NOAA), National Ocean Service (NOS), Office for Coastal Management (OCM)</origin>\n <pubdate>20151220</pubdate>\n <title>2014 NOAA Post-Sandy Topobathymetric LiDAR: Void DEMs South Carolina to New York</title>\n <geoform>map</geoform>\n <pubinfo>\n <pubplace>Silver Spring, MD</pubplace>\n <publish>NOAA's Ocean Service, National Geodetic Survey (NGS)</publish>\n </pubinfo>\n <onlink>https://coast.noaa.gov/dataviewer/#/lidar/search/where:ID=4967</onlink>\n <onlink>https://coast.noaa.gov/htdata/raster2/elevation/Post_Sandy_DEM_2014_4967</onlink>\n <onlink>https://coast.noaa.gov/dataviewer</onlink>\n <onlink>https://inport.nmfs.noaa.gov/inport/item/48367</onlink>\n </citeinfo>\n </srccite>\n <typesrc>digital data</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>201311</begdate>\n <enddate>201406</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>DEM</srccitea>\n <srccontr>Source elevation dataset used directly to produce this MHW elevation raster. Source data were downloaded from https://coast.noaa.gov/dataviewer in horizontal datum NAD 1983 (2011), UTM Zone 18N, vertical datum NAVD88. Downloaded on 4/8/2016.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Full methods and justification are provided in the associated Methods OFR (Zeigler and others, 2019).\n\n Starting with the lidar-based source digital elevation model (DEM) for the study area, we converted the GeoTIFF file to a raster grid in ArcGIS (version 10.4.1) in the study area\xe2\x80\x99s extent (as set in the geoprocessing Environment Settings). The study area boundaries were previously set using a polygon vector layer, a custom boundary that includes the entire Fisherman Island site relevant to the broader research program (see Zeigler and others, 2019 for more details). The study area extent has no further impacts on data contained in the final dataset presented here.\n\nWe then resampled the resolution of the DEM (in Esri raster grid format) from 1 m to 5 m using the Resample tool in ArcToolbox version 10.4.1. In the Resample tool, we employed the bilinear resampling technique, which calculates the value of each pixel by averaging (weighted for distance) the values of the surrounding four cells.\n\nIn Raster Calculator in ArcToolbox, we subtracted the mean high water (MHW) offset (0.34) for the Fisherman Island study area, as previously determined by Weber and others (2005). This process adjusts the source DEM\xe2\x80\x99s original NAVD88-referenced elevation values so that 0 m elevation is MHW based on regional tidal values. See Weber and others (2005) for additional information.\n\nFinally, we reclassified all NoData cells in the study area to a fill value of \xe2\x80\x989999\xe2\x80\x99. All cells outside the study area were given a NoData value of -9999, and these cells were excluded from all subsequent analyses. The distinction between fill values and NoData values allowed us to include cells with missing values\xe2\x80\x93denoted by fill values\xe2\x80\x93in subsequent analyses. Cells with NoData values were excluded (Zeigler and others, 2019).\n\nNo projection transformations were required, because the source DEM was downloaded in NAD83 UTM Zone 18N.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n <procstep>\n <procdesc>Added keywords section with USGS persistent identifier as theme keyword.</procdesc>\n <procdate>20200810</procdate>\n <proccont>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>VeeAnn A. Cross</cntper>\n </cntorgp>\n <cntpos>Marine Geologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>384 Woods Hole Road</address>\n <city>Woods Hole</city>\n <state>MA</state>\n <postal>02543-1598</postal>\n </cntaddr>\n <cntvoice>508-548-8700 x2251</cntvoice>\n <cntfax>508-457-2310</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Raster</direct>\n <rastinfo>\n <rasttype>Grid Cell</rasttype>\n <rowcount>751</rowcount>\n <colcount>900</colcount>\n <vrtcount>1</vrtcount>\n </rastinfo>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>18</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-75</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>row and column</plance>\n <coordrep>\n <absres>5.0</absres>\n <ordres>5.0</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North_American_Datum_1983</horizdn>\n <ellips>GRS 1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.2572221010042</denflat>\n </geodetic>\n </horizsys>\n <vertdef>\n <altsys>\n <altdatum>Mean High Water tidal datum from Weber and others (2005)</altdatum>\n <altres>0.01</altres>\n <altunits>meters</altunits>\n <altenc>Explicit elevation coordinate included with horizontal coordinates</altenc>\n </altsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Fish14_ElevMHW.tif</enttypl>\n <enttypd>Raster geospatial data file.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Value</attrlabl>\n <attrdef>Elevation in meters corrected to the MHW datum published by Weber and others (2005). See Weber and others (2005) for additional information on operational offsets for adjusting elevation values MHW tidal datum relative to NAVD88. Cells within the study area extent that were missing values were given a fill value of \xe2\x80\x989999\xe2\x80\x99. Cells outside the study area extent were given a NoData value of \xe2\x80\x98-9999\xe2\x80\x99.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-2.50824</rdommin>\n <rdommax>8.2617</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>The raster layer (5x5 m resolution) depicts a given location's elevation above sea-level, corrected for mean high water offset (Weber and others, 2005). This elevation layer is derived from aerial lidar. Please review Zeigler and others (2019) for detailed information. A fill value of \xe2\x80\x989999\xe2\x80\x99 indicates cells within the study area with missing values. A NoData value of '-9999' applies to all cells outside the study area extent. Cells with fill values (9999) were used in subsequent analyses and those with NoData values (-9999) were excluded from analysis (Zeigler and others, 2019).</eaover>\n <eadetcit>Methods Open-File Report by Zeigler and others (2019)</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>These data files comprise a GeoTIFF (Fish14_ElevMHW.tif) file with a continuous elevation value for each 5x5 m cell. Additionally, the CSDGM FGDC metadata (Fish14_ElevMHW.tif.xml) and the browse graphic (elev_cei_browse.png) are included. These data can be downloaded individually or packaged on-demand in a zip file (see the Digital Transfer Option section).</resdesc>\n <distliab>Neither the U.S. Government, the Department of the Interior, nor the USGS, nor any of their employees, contractors, or subcontractors, make any warranty, express or implied, nor assume any legal liability or responsibility for the accuracy, completeness, or usefulness of any information, apparatus, product, or process disclosed, nor represent that its use would not infringe on privately owned rights. The act of distribution shall not constitute any such warranty, and no responsibility is assumed by the USGS in the use of these data or related materials. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), and have been processed successfully on a computer system at the USGS, no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. The USGS or the U.S. Government shall not be held liable for improper or incorrect use of the data described and/or contained herein. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>GeoTIFF</formname>\n <formvern>ArcGIS 10.4</formvern>\n <formspec>32-bit GeoTIFF</formspec>\n <formcont>A 32-bit GeoTIFF, a browse PNG image, and FGDC CSDGM metadata in XML format.</formcont>\n <transize>4.2</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://www.sciencebase.gov/catalog/item/5daa37b8e4b09fd3b0c9cec2</networkr>\n <networkr>https://www.sciencebase.gov/catalog/file/get/5daa37b8e4b09fd3b0c9cec2</networkr>\n <networkr>https://doi.org/10.5066/P9V7F6UX</networkr>\n </networka>\n </computer>\n <accinstr>The first link is to the page containing the data. The second is a direct link to download all data available from the page as a zip file. The final link is to the publication landing page. The data page (first link) may have additional data access options, including web services.</accinstr>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n <techpreq>To utilize these data, the user must have software capable of reading a 32-bit GeoTIFF format.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20240319</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Sara L. Zeigler</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>384 Woods Hole Road</address>\n <city>Woods Hole</city>\n <state>MA</state>\n <postal>02543</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>508-548-8700 x2290</cntvoice>\n <cntemail>[email protected]</cntemail>\n <cntinst>The metadata contact email address is a generic address in the event the person is no longer with USGS. (updated on 20240319)</cntinst>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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## Dates
Revision2018-06-19Time Period2015Publication Date2017-09-28
## Citation
Dieter, C.A., Linsey, K.S., Caldwell, R.R., Harris, M.A., Ivahnenko, T.I., Lovelace, J.K., Maupin, M.A., and Barber, N.L., 2018, Estimated Use of Water in the United States County-Level Data for 2015 (ver. 2.0, June 2018): U.S. Geological Survey data release, https://doi.org/10.5066/F7TB15V5.
## Summary
This dataset contains water-use estimates for 2015 that are aggregated to the county level in the United States. The U.S. Geological Survey's (USGS's) National Water Use Science Project is responsible for compiling and disseminating the Nation's water-use data. Working in cooperation with local, State, and Federal agencies, the USGS has published an estimate of water use in the United States every 5 years, beginning in 1950. Water-use estimates aggregated to the State level are presented in USGS Circular 1441, "Estimated Use of Water in the United States in 2015" (Dieter and others, 2018). This dataset contains the county-level water-use data that support the state-level estimates in Dieter and others 2018. This dataset contains data \[...\]
## Summary
This dataset contains water-use estimates for 2015 that are aggregated to the county level in the United States. The U.S. Geological Survey's (USGS's) National Water Use Science Project is responsible for compiling and disseminating the Nation's water-use data. Working in cooperation with local, State, and Federal agencies, the USGS has published an estimate of water use in the United States every 5 years, beginning in 1950. Water-use estimates aggregated to the State level are presented in USGS Circular 1441, "Estimated Use of Water in the United States in 2015" (Dieter and others, 2018). This dataset contains the county-level water-use data that support the state-level estimates in Dieter and others 2018. This dataset contains data for public supply, domestic, irrigation, thermoelectric power, industrial, mining, livestock, and aquaculture water-use categories.
First posted September 28, 2017, ver. 1.0
Revised June 19, 2018, ver. 2.0
Version 2.0: This version of the dataset contains Total Population data and water-use estimates for 2015 for the following categories: Public supply, domestic, irrigation, thermoelectric power, industrial, mining, livestock, and aquaculture. Data are aggregated to the county level. A value of "--" denotes that values were not estimated for an optional attribute. Some values in the public supply and domestic categories have been updated from those found in version 1.0 of this dataset.
Version 1.0: This version of the dataset contains total population data and water-use estimates for the public supply and domestic categories for 2015 that are aggregated to the county level in the United States. A "--" in the attributes "PS-GWPop" or "PS-SWPop" denotes that values were not estimated for an optional attribute. All other occurrences of "--" denote data for an attribute in a water-use category that has not yet been released. Version 1.0 data are available upon request.
## Contacts
Point of Contact
:
[Cheryl A Dieter](/catalog/catalogParty/show?partyId=2548)
Originator
:
[Cheryl A Dieter](/catalog/catalogParty/show?partyId=2548),
[Kristin S Linsey](/catalog/catalogParty/show?partyId=6153),
[Rodney R Caldwell](/catalog/catalogParty/show?partyId=1488),
[Melissa A Harris](/catalog/catalogParty/show?partyId=9641),
[Tamara I Ivahnenko](/catalog/catalogParty/show?partyId=4940),
[John K Lovelace](/catalog/catalogParty/show?partyId=6268),
[Molly A Maupin](/catalog/catalogParty/show?partyId=6619),
[Nancy L Barber](/catalog/catalogParty/show?partyId=490)
Metadata Contact
:
[Kristin S Linsey](/catalog/catalogParty/show?partyId=6153),
[USGS New York Water Science Center](/catalog/catalogParty/show?partyId=USGS+New+York+Water+Science+Center)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Water Resources](/catalog/catalogParty/show?partyId=Water+Resources)
SDC Data Owner
:
[Maryland-Delaware-D.C. Water Science Center](/catalog/catalogParty/show?partyId=17203)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5af3311be4b0da30c1b245d8?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5af3311be4b0da30c1b245d8?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5af3311be4b0da30c1b245d8?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| Estimated\_Use\_of\_Water\_in\_the\_United\_States\_County-Level\_Data\_for\_2015.xml<br>“Metadata XML”<br>_Original FGDC Metadata_ | View | 75.25 KB | application/fgdc+xml |
| 2015counties.png<br>“Counties in the United States, 2015” | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5af3311be4b0da30c1b245d8?f=__disk__e0%2Fe9%2F8d%2Fe0e98d098a85bf117356d9c7f7471dae1dc765cd&width=150&height=116) | 78.38 KB | image/png |
| usco2015v2.0.xlsx<br>“All Data XLSX” | | 2.08 MB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| usco2015v2.0.csv<br>“All Data CSV” | | 2.15 MB | text/csv |
| Version\_History\_Estimated\_Use\_of\_Water\_in\_the\_United\_States\_County-Level\_Data\_for\_2015.txt<br>“Version History TXT” | | 977 Bytes | text/plain |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Dieter, C.A., Maupin, M.A., Caldwell, R.R., Harris, M.A., Ivahnenko, T.I., Lovelace, J.K., Barber, N.L., and Linsey, K.S., 2018, Estimated use of water in the United States in 2015: U.S. Geological Survey Circular 1441, 65 p., https://doi.org/10.3133/cir1441. \[Supersedes USGS Open-File Report 2017–1131.\] | [https://doi.org/10.3133/cir1441](https://doi.org/10.3133/cir1441 "https://doi.org/10.3133/cir1441") |
Type: Citation
| | |
| --- | --- |
| Bradley, M.W., comp., 2017, Guidelines for preparation of State water-use estimates for 2015: U.S. Geological Survey Open-File Report 2017–1029, 54 p., https://doi.org/10.3133/ofr20171029. | [https://doi.org/10.3133/ofr20171029](https://doi.org/10.3133/ofr20171029 "https://doi.org/10.3133/ofr20171029") |
Type: Publication that references this resource
| | |
| --- | --- |
| Maupin, M.A., 2018, Summary of estimated water use in the United States in 2015: U.S. Geological Survey Fact Sheet 2018-3035, 2 p., https://doi.org/10.3133/fs20183035. | [https://doi.org/10.3133/fs20183035](https://doi.org/10.3133/fs20183035 "https://doi.org/10.3133/fs20183035") |
## Purpose
The data were compiled as part of the "Estimated Use of Water in the United States" series of U.S. Geological Survey (USGS) Circular reports that have been published every 5 years since 1950. Estimates of withdrawals enable the depiction of trends in total water use for the Nation among different geographic areas, categories of use, and sources over time.
## Preview Image
![Counties in the United States, 2015](https://www.sciencebase.gov/catalog/file/get/5af3311be4b0da30c1b245d8?f=__disk__e0%2Fe9%2F8d%2Fe0e98d098a85bf117356d9c7f7471dae1dc765cd&width=580&height=448)
Counties in the United States, 2015
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## Communities
- USGS Data Release Products
- USGS Maryland, Delaware, and the District of Columbia Water Science Center
## Associated Items
- _product of_ [National Water Use Program](/catalog/item/5e7cb20ee4b01d5092751675 "National Water Use Program")
- _product of_ [National Water Census](/catalog/item/5151f07ee4b0f0b3d011a817 "National Water Census")
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## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
- [Data Release - Revised](/catalog/items?q=&filter=browseCategory%3DData+Release+-+Revised "Data Release - Revised")
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- [aquaculture](/catalog/items?q=&filter=tags%3Daquaculture "aquaculture (aquaculture, Theme, USGS Thesaurus)")
- [aquaculture water use](/catalog/items?q=&filter=tags%3Daquaculture+water+use "aquaculture water use (aquaculture water use, Theme, USGS Thesaurus)")
- [consumptive use](/catalog/items?q=&filter=tags%3Dconsumptive+use "consumptive use (consumptive use, Theme, USGS Thesaurus)")
- [domestic](/catalog/items?q=&filter=tags%3Ddomestic "domestic (domestic, Theme, USGS Thesaurus)")
- [domestic water use](/catalog/items?q=&filter=tags%3Ddomestic+water+use "domestic water use (domestic water use, Theme, USGS Thesaurus)")
- [industrial](/catalog/items?q=&filter=tags%3Dindustrial "industrial (industrial, Theme, USGS Thesaurus)")
- [industrial water use](/catalog/items?q=&filter=tags%3Dindustrial+water+use "industrial water use (industrial water use, Theme, USGS Thesaurus)")
- [irrigation](/catalog/items?q=&filter=tags%3Dirrigation "irrigation (irrigation, Theme, USGS Thesaurus)")
- [irrigation water use](/catalog/items?q=&filter=tags%3Dirrigation+water+use "irrigation water use (irrigation water use, Theme, USGS Thesaurus)")
- [livestock](/catalog/items?q=&filter=tags%3Dlivestock "livestock (livestock, Theme, USGS Thesaurus)")
- [livestock water use](/catalog/items?q=&filter=tags%3Dlivestock+water+use "livestock water use (livestock water use, Theme, USGS Thesaurus)")
- [mining](/catalog/items?q=&filter=tags%3Dmining "mining (mining, Theme, USGS Thesaurus)")
- [mining water use](/catalog/items?q=&filter=tags%3Dmining+water+use "mining water use (mining water use, Theme, USGS Thesaurus)")
- [public supply](/catalog/items?q=&filter=tags%3Dpublic+supply "public supply (public supply, Theme, USGS Thesaurus)")
- [public supply water use](/catalog/items?q=&filter=tags%3Dpublic+supply+water+use "public supply water use (public supply water use, Theme, USGS Thesaurus)")
- [reclaimed wastewater](/catalog/items?q=&filter=tags%3Dreclaimed+wastewater "reclaimed wastewater (reclaimed wastewater, Theme, USGS Thesaurus)")
- [self-supplied water use](/catalog/items?q=&filter=tags%3Dself-supplied+water+use "self-supplied water use (self-supplied water use, Theme, USGS Thesaurus)")
- [thermoelectric power generation](/catalog/items?q=&filter=tags%3Dthermoelectric+power+generation "thermoelectric power generation (thermoelectric power generation, Theme, USGS Thesaurus)")
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- [water use](/catalog/items?q=&filter=tags%3Dwater+use "water use (water use, Theme, USGS Thesaurus)")
Place
- [United States](/catalog/items?q=&filter=tags%3DUnited+States "United States (United States, Place, Geographic Names Information System)")
Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
USGS Scientific Topic Keyword
- [Water Resources](/catalog/items?q=&filter=tags%3DWater+Resources "Water Resources (Water Resources, USGS Scientific Topic Keyword, )")
## Provenance
## Additional Information
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| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F7TB15V5 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Dieter, C.A.</origin>\n <origin>Linsey, K.S.</origin>\n <origin>Caldwell, R.R.</origin>\n <origin>Harris, M.A.</origin>\n <origin>Ivahnenko, T.I.</origin>\n <origin>Lovelace, J.K.</origin>\n <origin>Maupin, M.A.</origin>\n <origin>Barber, N.L.</origin>\n <pubdate>2018</pubdate>\n <title>Estimated Use of Water in the United States County-Level Data for 2015</title>\n <geoform>comma-separated values (.csv) file and Microsoft Excel 2013 (.xlsx) file</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7TB15V5</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Cheryl A. Dieter</origin>\n <origin>Molly A. Maupin</origin>\n <origin>Rodney R. Caldwell</origin>\n <origin>Melissa A. Harris</origin>\n <origin>Tamara I. Ivahnenko</origin>\n <origin>John K. Lovelace</origin>\n <origin>Nancy L. Barber</origin>\n <origin>Kristin S. Linsey</origin>\n <pubdate>2018</pubdate>\n <title>Estimated Use of Water in the United States in 2015</title>\n <geoform>USGS Circular 1441</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>USGS</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/cir1441</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset contains water-use estimates for 2015 that are aggregated to the county level in the United States. The U.S. Geological Survey\'s (USGS\'s) National Water Use Science Project is responsible for compiling and disseminating the Nation\'s water-use data. Working in cooperation with local, State, and Federal agencies, the USGS has published an estimate of water use in the United States every 5 years, beginning in 1950. Water-use estimates aggregated to the State level are presented in USGS Circular 1441, "Estimated Use of Water in the United States in 2015" (Dieter and others, 2018). This dataset contains the county-level water-use data that support the state-level estimates in Dieter and others 2018. This dataset contains data for public supply, domestic, irrigation, thermoelectric power, industrial, mining, livestock, and aquaculture water-use categories.\n\nFirst posted September 28, 2017, ver. 1.0\nRevised June 19, 2018, ver. 2.0\n\nVersion 2.0: This version of the dataset contains total population data and water-use estimates for 2015 for the following categories: Public supply, domestic, irrigation, thermoelectric power, industrial, mining, livestock, and aquaculture. Data are aggregated to the county level. A value of "--" denotes that values were not estimated for an optional attribute. Some values in the public supply and domestic categories have been updated from those found in version 1.0 of this dataset.\n\nVersion 1.0: This version of the dataset contains total population data and water-use estimates for the public supply and domestic categories for 2015 that are aggregated to the county level in the United States. A "--" in the attributes "PS-GWPop" or "PS-SWPop" denotes that values were not estimated for an optional attribute. All other occurrences of "--" denote data for an attribute in a water-use category that has not yet been released. Version 1.0 data are available upon request.</abstract>\n <purpose>The data were compiled as part of the "Estimated Use of Water in the United States" series of U.S. Geological Survey (USGS) Circular reports that have been published every 5 years since 1950. Estimates of withdrawals enable the depiction of trends in total water use for the Nation among different geographic areas, categories of use, and sources over time.</purpose>\n <supplinf>Version 2.0: This version of the dataset contains total population data and water-use estimates for 2015 for the following categories: Public supply, domestic, irrigation, thermoelectric power, industrial, mining, livestock, and aquaculture. Data are aggregated to the county level. A value of "--" denotes that values were not estimated for an optional attribute. Some values in the public supply and domestic categories have been updated from those found in version 1.0 of this dataset. \n\nVersion 1.0: This version of the dataset contains Total Population data and water-use estimates for the Public Supply and Domestic categories for 2015 that are aggregated to the county level in the United States. A "--" in the attributes "PS-GWPop" or "PS-SWPop" denotes that values were not estimated for an optional attribute. All other occurrences of "--" denote data for an attribute in a water-use category that has not yet been released.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2015</caldate>\n </sngdate>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-178.21655273438</westbc>\n <eastbc>-64.270019532291</eastbc>\n <northbc>72.0974322465</northbc>\n <southbc>16.709443878174</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>water use</themekey>\n <themekey>self-supplied water use</themekey>\n <themekey>reclaimed wastewater</themekey>\n <themekey>consumptive use</themekey>\n <themekey>public supply</themekey>\n <themekey>public supply water use</themekey>\n <themekey>domestic</themekey>\n <themekey>domestic water use</themekey>\n <themekey>irrigation</themekey>\n <themekey>irrigation water use</themekey>\n <themekey>livestock</themekey>\n <themekey>livestock water use</themekey>\n <themekey>aquaculture</themekey>\n <themekey>aquaculture water use</themekey>\n <themekey>industrial</themekey>\n <themekey>industrial water use</themekey>\n <themekey>mining</themekey>\n <themekey>mining water use</themekey>\n <themekey>thermoelectric power generation</themekey>\n <themekey>thermoelectric power generation water use</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5af3311be4b0da30c1b245d8</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>United States</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Cheryl A Dieter</cntper>\n <cntorg>Northeast Region</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>5522 Research Park Drive</address>\n <city>Baltimore</city>\n <state>MD</state>\n <postal>21228</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>443-498-5537</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://www.sciencebase.gov/catalog/file/get/5af3311be4b0da30c1b245d8?f=__disk__e0%2Fe9%2F8d%2Fe0e98d098a85bf117356d9c7f7471dae1dc765cd</browsen>\n <browsed>Thumbnail image of state and county boundaries in the United States for 2015.</browsed>\n <browset>PNG</browset>\n </browse>\n <crossref>\n <citeinfo>\n <origin>Bradley, M.W., comp.</origin>\n <pubdate>2017</pubdate>\n <title>Guidelines for preparation of State water-use estimates for 2015</title>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/ofr20171029</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Dieter and others</origin>\n <pubdate>2018</pubdate>\n <title>Estimated use of water in the United States in 2015</title>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/cir1441</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Version 2.0: Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details. \n\nVersion 1.0: The data provided in version 1.0 of this dataset include Total Population and water-use information for the Public Supply and Domestic categories only. A "--" in the attributes "PS-GWPop" or "PS-SWPop" denotes that values were not estimated for an optional attribute. All other occurrences of "--" denote data for an attribute in a water-use category which has not yet been released. This dataset is preliminary in that subsequent versions of this data release will include data values for water-use categories that are not currently available for release (Industrial, Mining, Livestock, Aquaculture, Irrigation and Thermoelectric). Each version of this data release will contain metadata about attributes for all water-use categories.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>USGS personnel compiled county-level water-use data for each State according to the guidelines established in Bradley, 2017 (USGS Open-File Report 2017-1029, "Guidelines for Preparation of State Water-Use Estimates for 2015"). The data were reviewed, revised as needed, and approved by USGS Regional Water-Use Specialists. The county-level data are stored in the USGS National Water Information System (NWIS) Aggregate Water-Use Data System (AWUDS) database. Please refer to Bradley, 2017, for additional information about water-use terminology.</procdesc>\n <procdate>20180326</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>County and county-equivalent names from the Geographic Names Index System (GNIS).</indspref>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>usco2015v2.0.csv and usco2015v2.0.xlsx</enttypl>\n <enttypd>2015 water use information compiled for the United States at the county or county-equivalent level</enttypd>\n <enttypds>U.S. Geological Survey water-use project personnel in the United States</enttypds>\n </enttyp>\n <attr>\n <attrlabl>STATE</attrlabl>\n <attrdef>United States postal abbreviation for one of the 50 States, the District of Columbia, Puerto Rico, or the U.S. Virgin Islands.</attrdef>\n <attrdefs>United States Postal Service</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>United States Postal Service two-letter state and possession abbreviations</codesetn>\n <codesets>https://pe.usps.com/text/pub28/28apb.htm</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>STATEFIPS</attrlabl>\n <attrdef>Federal Information Processing Standard (FIPS) code for one of the 50 States, the District of Columbia, Puerto Rico, or the U.S. Virgin Islands.</attrdef>\n <attrdefs>Federal Information Processing Standards</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>Federal Information Processing Standard State and State Equivalent Codes</codesetn>\n <codesets>https://www.census.gov/geo/reference/ansi_statetables.html</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>COUNTY</attrlabl>\n <attrdef>Name of county or county equivalent</attrdef>\n <attrdefs>Federal Information Processing Standards</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>Federal Information Processing Standard County and County Equivalent Codes</codesetn>\n <codesets>https://www.census.gov/geo/reference/codes/cou.html and https://www.census.gov/geo/reference/county-changes.html</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>COUNTYFIPS</attrlabl>\n <attrdef>Federal Information Processing Standard (FIPS) county or county equivalent code</attrdef>\n <attrdefs>Federal Information Processing Standards</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>Federal Information Processing Standard County and County Equivalent Codes</codesetn>\n <codesets>https://www.census.gov/geo/reference/codes/cou.html and https://www.census.gov/geo/reference/county-changes.html</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>FIPS</attrlabl>\n <attrdef>Concatenation of STATEFIPS and COUNTYFIPS attributes</attrdef>\n <attrdefs>Federal Information Processing Standards</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>Federal Information Processing Standard County and County Equivalent Codes</codesetn>\n <codesets>https://www.census.gov/geo/reference/ansi_statetables.html, https://www.census.gov/geo/reference/codes/cou.html, and https://www.census.gov/geo/reference/county-changes.html</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>YEAR</attrlabl>\n <attrdef>The year which the data represent.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <edom>\n <edomv>2015</edomv>\n <edomvd>The data represent values for the year 2015.</edomvd>\n <edomvds>U.S. Geological Survey</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TP-TotPop</attrlabl>\n <attrdef>Total population of area, in thousands</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.089</rdommin>\n <rdommax>10170.292</rdommax>\n <attrunit>count of people, in thousands</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-GWPop</attrlabl>\n <attrdef>Public Supply, population served by groundwater, in thousands</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>2628.745</rdommax>\n <attrunit>count of people, in thousands</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-SWPop</attrlabl>\n <attrdef>Public Supply, population served by surface water, in thousands</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>5128.317</rdommax>\n <attrunit>count of people, in thousands</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-TOPop</attrlabl>\n <attrdef>Public Supply, total population served, in thousands</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>10139.981</rdommax>\n <attrunit>count of people, in thousands</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-WGWFr</attrlabl>\n <attrdef>Public Supply, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>494.79</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-WGWSa</attrlabl>\n <attrdef>Public Supply, groundwater withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>27.62</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-WGWTo</attrlabl>\n <attrdef>Public Supply, groundwater withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>495.49</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-WSWFr</attrlabl>\n <attrdef>Public Supply, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>824.87</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-WSWSa</attrlabl>\n <attrdef>Public Supply, surface-water withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1.94</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-WSWTo</attrlabl>\n <attrdef>Public Supply, surface-water withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>824.87</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-WFrTo</attrlabl>\n <attrdef>Public Supply, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1255.74</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-WSaTo</attrlabl>\n <attrdef>Public Supply, total withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>27.62</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PS-Wtotl</attrlabl>\n <attrdef>Public Supply, total withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1256.44</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DO-SSPop</attrlabl>\n <attrdef>Domestic, self-supplied population, in thousands</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>277.375</rdommax>\n <attrunit>count of people, in thousands</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DO-WGWFr</attrlabl>\n <attrdef>Domestic, self-supplied groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>22.19</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DO-WSWFr</attrlabl>\n <attrdef>Domestic, self-supplied surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>7.44</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DO-WFrTo</attrlabl>\n <attrdef>Domestic, total self-supplied withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>22.19</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DO-SSPCp</attrlabl>\n <attrdef>Domestic, self-supplied per capita use, in gal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>911</rdommax>\n <attrunit>gallons per day (gal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"N/A" denotes Not Applicable.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DO-PSDel</attrlabl>\n <attrdef>Domestic, deliveries from Public Supply, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>817.88</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DO-PSPCp</attrlabl>\n <attrdef>Domestic, publicly supplied per capita use, in gal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>1429</rdommax>\n <attrunit>gallons per day (gal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"N/A" denotes Not Applicable.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DO-WDelv</attrlabl>\n <attrdef>Domestic, total use (withdrawals + deliveries), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.01</rdommin>\n <rdommax>820.29</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IN-WGWFr</attrlabl>\n <attrdef>Industrial, self-supplied groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>103.27</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IN-WGWSa</attrlabl>\n <attrdef>Industrial, self-supplied groundwater withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>18.35</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IN-WGWTo</attrlabl>\n <attrdef>Industrial, self-supplied groundwater withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>103.27</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IN-WSWFr</attrlabl>\n <attrdef>Industrial, self-supplied surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1176.44</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IN-WSWSa</attrlabl>\n <attrdef>Industrial, self-supplied surface-water withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>575.85</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IN-WSWTo</attrlabl>\n <attrdef>Industrial, self-supplied surface-water withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1176.44</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IN-WFrTo</attrlabl>\n <attrdef>Industrial, self-supplied total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1178.74</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IN-WSaTo</attrlabl>\n <attrdef>Industrial, self-supplied total withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>576.02</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IN-Wtotl</attrlabl>\n <attrdef>Industrial, self-supplied total withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1178.74</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IR-WGWFr</attrlabl>\n <attrdef>Irrigation, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1485.87</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IR-WSWFr</attrlabl>\n <attrdef>Irrigation, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>988.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IR-WFrTo</attrlabl>\n <attrdef>Irrigation, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1850.34</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IR-RecWW</attrlabl>\n <attrdef>Irrigation, reclaimed wastewater, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>83.78</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IR-CUsFr</attrlabl>\n <attrdef>Irrigation, consumptive use, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1349.93</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IR-IrSpr</attrlabl>\n <attrdef>Irrigation, acres irrigated, sprinkler, in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>348.05</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IR-IrMic</attrlabl>\n <attrdef>Irrigation, acres irrigated, microirrigation, in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>526.08</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IR-IrSur</attrlabl>\n <attrdef>Irrigation, acres irrigated, surface (flood), in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>528.34</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IR-IrTot</attrlabl>\n <attrdef>Irrigation, acres irrigated, total, in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1116.48</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IC-WGWFr</attrlabl>\n <attrdef>Irrigation-Crop, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1483.97</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IC-WSWFr</attrlabl>\n <attrdef>Irrigation-Crop, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>988.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IC-WFrTo</attrlabl>\n <attrdef>Irrigation-Crop, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1849.88</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IC-RecWW</attrlabl>\n <attrdef>Irrigation, reclaimed wastewater, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>58.77</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IC-CUsFr</attrlabl>\n <attrdef>Irrigation-Crop, consumptive use, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1349.58</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IC-IrSpr</attrlabl>\n <attrdef>Irrigation-Crop, acres irrigated, sprinkler, in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>309.30</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IC-IrMic</attrlabl>\n <attrdef>Irrigation-Crop, acres irrigated, microirrigation, in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>526.08</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IC-IrSur</attrlabl>\n <attrdef>Irrigation-Crop, acres irrigated, surface (flood), in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>528.34</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IC-IrTot</attrlabl>\n <attrdef>Irrigation-Crop, acres irrigated, total, in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1115.32</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IG-WGWFr</attrlabl>\n <attrdef>Irrigation-Golf, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>48.93</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IG-WSWFr</attrlabl>\n <attrdef>Irrigation-Golf, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>34.80</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IG-WFrTo</attrlabl>\n <attrdef>Irrigation-Golf, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>83.78</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IG-RecWW</attrlabl>\n <attrdef>Irrigation-Golf, reclaimed wastewater, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>25.01</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IG-CUsFr</attrlabl>\n <attrdef>Irrigation-Golf, consumptive use, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>86.99</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IG-IrSpr</attrlabl>\n <attrdef>Irrigation-Golf, acres irrigated, sprinkler, in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>18.23</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IG-IrMic</attrlabl>\n <attrdef>Irrigation-Golf, acres irrigated, microirrigation, in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>0.21</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IG-IrSur</attrlabl>\n <attrdef>Irrigation-Golf, acres irrigated, surface (flood), in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>0.30</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IG-IrTot</attrlabl>\n <attrdef>Irrigation-Golf, acres irrigated, total, in thousand acres</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>18.23</rdommax>\n <attrunit>thousand acres</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>LI-WGWFr</attrlabl>\n <attrdef>Livestock, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>18.24</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>LI-WSWFr</attrlabl>\n <attrdef>Livestock, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>23.23</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>LI-WFrTo</attrlabl>\n <attrdef>Livestock, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>41.47</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AQ-WGWFr</attrlabl>\n <attrdef>Aquaculture, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>137.09</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AQ-WGWSa</attrlabl>\n <attrdef>Aquaculture, groundwater withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>0.00</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AQ-WGWTo</attrlabl>\n <attrdef>Aquaculture, groundwater withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>137.09</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AQ-WSWFr</attrlabl>\n <attrdef>Aquaculture, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>675.13</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AQ-WSWSa</attrlabl>\n <attrdef>Aquaculture, surface-water withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3.02</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AQ-WSWTo</attrlabl>\n <attrdef>Aquaculture, surface-water withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>675.13</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AQ-WFrTo</attrlabl>\n <attrdef>Aquaculture, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>675.13</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AQ-WSaTo</attrlabl>\n <attrdef>Aquaculture, total withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3.02</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AQ-Wtotl</attrlabl>\n <attrdef>Aquaculture, total withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>675.13</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MI-WGWFr</attrlabl>\n <attrdef>Mining, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>77.37</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MI-WGWSa</attrlabl>\n <attrdef>Mining, groundwater withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>107.30</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MI-WGWTo</attrlabl>\n <attrdef>Mining, groundwater withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>108.51</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MI-WSWFr</attrlabl>\n <attrdef>Mining, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>36.08</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MI-WSWSa</attrlabl>\n <attrdef>Mining, surface-water withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>107.35</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MI-WSWTo</attrlabl>\n <attrdef>Mining, surface-water withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>107.35</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MI-WFrTo</attrlabl>\n <attrdef>Mining, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>77.40</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MI-WSaTo</attrlabl>\n <attrdef>Mining, total withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>131.37</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MI-Wtotl</attrlabl>\n <attrdef>Mining, total withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>131.37</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-WGWFr</attrlabl>\n <attrdef>Thermoelectric, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>24.49</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-WGWSa</attrlabl>\n <attrdef>Thermoelectric, groundwater withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>46.84</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-WGWTo</attrlabl>\n <attrdef>Thermoelectric, groundwater withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>46.84</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-WSWFr</attrlabl>\n <attrdef>Thermoelectric, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>2850.13</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-WSWSa</attrlabl>\n <attrdef>Thermoelectric, surface-water withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3323.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-WSWTo</attrlabl>\n <attrdef>Thermoelectric, surface-water withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3323.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-WFrTo</attrlabl>\n <attrdef>Thermoelectric, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>2850.13</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-WSaTo</attrlabl>\n <attrdef>Thermoelectric, total withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3323.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-Wtotl</attrlabl>\n <attrdef>Thermoelectric, total withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3324.17</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-RecWW</attrlabl>\n <attrdef>Thermoelectric, reclaimed wastewater, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>67.30</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-PSDel</attrlabl>\n <attrdef>Thermoelectric, deliveries from Public Supply, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>46.65</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-CUsFr</attrlabl>\n <attrdef>Thermoelectric, total consumptive use, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>275.35</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-CUsSa</attrlabl>\n <attrdef>Thermoelectric, total consumptive use, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>70.14</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-CUTot</attrlabl>\n <attrdef>Thermoelectric, total consumptive use, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>275.35</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PT-Power</attrlabl>\n <attrdef>Thermoelectric, power generated, in gigawatt-hours</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>58946.71</rdommax>\n <attrunit>gigawatt-hours</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-WGWFr</attrlabl>\n <attrdef>Thermoelectric once-through, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>11.12</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-WGWSa</attrlabl>\n <attrdef>Thermoelectric once-through, groundwater withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>27.46</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-WGWTo</attrlabl>\n <attrdef>Thermoelectric once-through, groundwater withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>27.46</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-WSWFr</attrlabl>\n <attrdef>Thermoelectric once-through, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>2850.13</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-WSWSa</attrlabl>\n <attrdef>Thermoelectric once-through, surface-water withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3323.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-WSWTo</attrlabl>\n <attrdef>Thermoelectric once-through, surface-water withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3323.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-WFrTo</attrlabl>\n <attrdef>Thermoelectric once-through, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>2850.13</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-WSaTo</attrlabl>\n <attrdef>Thermoelectric once-through, total withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3323.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-Wtotl</attrlabl>\n <attrdef>Thermoelectric once-through, total withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3324.17</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-RecWW</attrlabl>\n <attrdef>Thermoelectric once-through, reclaimed wastewater, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>4.11</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-PSDel</attrlabl>\n <attrdef>Thermoelectric once-through, deliveries from Public Supply, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>45.68</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-CUsFr</attrlabl>\n <attrdef>Thermoelectric once-through, total consumptive use, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>74.90</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-CUsSa</attrlabl>\n <attrdef>Thermoelectric once-through, total consumptive use, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>33.24</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-CUTot</attrlabl>\n <attrdef>Thermoelectric once-through, total consumptive use, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>74.90</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PO-Power</attrlabl>\n <attrdef>Thermoelectric once-through, power generated, in gigawatt-hours</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>27669.69</rdommax>\n <attrunit>gigawatt-hours</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-WGWFr</attrlabl>\n <attrdef>Thermoelectric recirculating, groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>24.49</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-WGWSa</attrlabl>\n <attrdef>Thermoelectric recirculating, groundwater withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>46.84</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-WGWTo</attrlabl>\n <attrdef>Thermoelectric recirculating, groundwater withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>46.84</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-WSWFr</attrlabl>\n <attrdef>Thermoelectric recirculating, surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>609.61</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-WSWSa</attrlabl>\n <attrdef>Thermoelectric recirculating, surface-water withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>375.23</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-WSWTo</attrlabl>\n <attrdef>Thermoelectric recirculating, surface-water withdrawals, total, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>609.61</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-WFrTo</attrlabl>\n <attrdef>Thermoelectric recirculating, total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>609.61</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-WSaTo</attrlabl>\n <attrdef>Thermoelectric recirculating, total withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>375.23</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-Wtotl</attrlabl>\n <attrdef>Thermoelectric recirculating, total withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>609.61</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-RecWW</attrlabl>\n <attrdef>Thermoelectric recirculating, reclaimed wastewater, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>67.30</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-PSDel</attrlabl>\n <attrdef>Thermoelectric recirculating, deliveries from Public Supply, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>26.57</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>"--" denotes that values were not estimated for this optional attribute.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-CUsFr</attrlabl>\n <attrdef>Thermoelectric recirculating, total consumptive use, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>275.35</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-CUsSa</attrlabl>\n <attrdef>Thermoelectric recirculating, total consumptive use, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>41.79</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-CUTot</attrlabl>\n <attrdef>Thermoelectric recirculating, total consumptive use, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>275.35</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PC-Power</attrlabl>\n <attrdef>Thermoelectric recirculating, power generated, in gigawatt-hours</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>58946.71</rdommax>\n <attrunit>gigawatt-hours</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-WGWFr</attrlabl>\n <attrdef>Total groundwater withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1620.33</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-WGWSa</attrlabl>\n <attrdef>Total groundwater withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>108.00</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-WGWTo</attrlabl>\n <attrdef>Total groundwater withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1722.57</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-WSWFr</attrlabl>\n <attrdef>Total surface-water withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>2865.51</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-WSWSa</attrlabl>\n <attrdef>Total surface-water withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3323.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-WSWTo</attrlabl>\n <attrdef>Total surface-water withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3323.79</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-WFrTo</attrlabl>\n <attrdef>Total withdrawals, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>2873.04</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-WSaTo</attrlabl>\n <attrdef>Total withdrawals, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3323.75</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-Wtotl</attrlabl>\n <attrdef>Total withdrawals, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>3331.36</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-CUsFrPartial</attrlabl>\n <attrdef>Irrigation and Thermoelectric, total consumptive use, fresh, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1362.70</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-CUsSaPartial</attrlabl>\n <attrdef>Irrigation and Thermoelectric, total consumptive use, saline, in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>70.14</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TO-CUTotPartial</attrlabl>\n <attrdef>Irrigation and Thermoelectric, total consumptive use, total (fresh+saline), in Mgal/d</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.00</rdommin>\n <rdommax>1362.70</rdommax>\n <attrunit>million gallons per day (Mgal/d)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, MS 302</address>\n <city>Lakewood</city>\n <state>CO</state>\n <postal>80228</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n <techpreq>These data are available in both a comma-separated values (.csv) text file format and as a Microsoft Excel 2013 (.xlsx) file. The user must have software capable of reading the Microsoft Excel 2013 file format to use the .xlsx file.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Kristin S. Linsey</cntper>\n <cntorg>USGS New York Water Science Center</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>425 Jordan Road</address>\n <city>Troy</city>\n <state>NY</state>\n <postal>12180</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-518-285-5636</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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3. [Data collected in 2008-2014 to assess nearshore subtidal community responses to increased sediment load during removal of the Elwha River dams, Washington State, USA](/catalog/folder/5a0a2f04e4b09af898c9f83c)
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## Dates
Publication Date2017-11-28Start Date2008End Date2014
## Citation
Rubin, S.P., Berry, H.D., Elder, N.E., Miller, I.M., and Duda, J.J., 2017, Data collected in 2008-2014 to assess nearshore subtidal community responses to increased sediment load during removal of the Elwha River dams, Washington State, USA: U.S. Geological Survey data release, https://doi.org/10.5066/F7JS9PDK.
## Summary
Data are time series of substrate grain size, remotely sensed water column turbidity, and measures of abundance (e.g., density, percent cover) of the nearshore subtidal (3-17 m depth) benthic community (vegetation, invertebrates, and fish) collected before (2008-2011) and during dam removal (2012-2014).
## Summary
Data are time series of substrate grain size, remotely sensed water column turbidity, and measures of abundance (e.g., density, percent cover) of the nearshore subtidal (3-17 m depth) benthic community (vegetation, invertebrates, and fish) collected before (2008-2011) and during dam removal (2012-2014).
## Contacts
Point of Contact
:
[Stephen P. Rubin](/catalog/catalogParty/show?partyId=Stephen+P.+Rubin)
Originator
:
[Stephen P. Rubin](/catalog/catalogParty/show?partyId=Stephen+P.+Rubin),
[Helen D. Berry](/catalog/catalogParty/show?partyId=Helen+D.+Berry),
[Nancy E. Elder](/catalog/catalogParty/show?partyId=Nancy+E.+Elder),
[Ian M. Miller](/catalog/catalogParty/show?partyId=Ian+M.+Miller),
[Jeffrey J. Duda](/catalog/catalogParty/show?partyId=Jeffrey+J.+Duda)
Metadata Contact
:
[Stephen P. Rubin](/catalog/catalogParty/show?partyId=Stephen+P.+Rubin)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Ecosystems](/catalog/catalogParty/show?partyId=Ecosystems)
SDC Data Owner
:
[Western Fisheries Research Center](/catalog/catalogParty/show?partyId=17481)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5a0a2f04e4b09af898c9f83c?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5a0a2f04e4b09af898c9f83c?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5a0a2f04e4b09af898c9f83c?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
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| | | | |
| --- | --- | --- | --- |
| Elwha metadata V2\_12\_8\_2017.xml<br>_Original FGDC Metadata_ | View | 167.96 KB | application/fgdc+xml |
| Elwha dive site data.csv | | 48.41 KB | text/csv |
| Elwha temperature data.csv | | 49.84 KB | text/csv |
| Elwha towed video data.csv | | 69.26 KB | text/csv |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Rubin, S.P., Miller, I.M., Foley, M.M., Berry, H.D., Duda, J.J., Hudson, Benjamin, Elder, N.E., Beime, M.M., Warrick, J.A., McHenry, M.L., Stevens, A.W., Eidam, E.F., Ogston, A.S., Gelfenbaum, Guy, and Pedersen, Rob, 2017, Increased sediment load during a large-scale dam removal changes nearshore subtidal communities: PLoS ONE, v. 12, no. 12, https://doi.org/10.1371/journal.pone.0187742. | [https://doi.org/10.1371/journal.pone.0187742](https://doi.org/10.1371/journal.pone.0187742 "https://doi.org/10.1371/journal.pone.0187742") |
## Purpose
Data were collected to assess nearshore subtidal community responses to increased sediment load during removal of two dams from the Elwha River.
## [Map](/catalog/item/imap/5a0a2f04e4b09af898c9f83c)
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## Communities
- USGS Data Release Products
## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Theme
- [Benthos](/catalog/items?q=&filter=tags%3DBenthos "Benthos (Benthos, Theme, USGS Thesaurus; CMECS)")
- [Habitat alteration](/catalog/items?q=&filter=tags%3DHabitat+alteration "Habitat alteration (Habitat alteration, Theme, USGS Thesaurus; CMECS)")
- [Marine nearshore subtidal](/catalog/items?q=&filter=tags%3DMarine+nearshore+subtidal "Marine nearshore subtidal (Marine nearshore subtidal, Theme, USGS Thesaurus; CMECS)")
- [Species diversity](/catalog/items?q=&filter=tags%3DSpecies+diversity "Species diversity (Species diversity, Theme, USGS Thesaurus; CMECS)")
Place
- [Clallam County](/catalog/items?q=&filter=tags%3DClallam+County "Clallam County (Clallam County, Place, GNIS)")
- [Elwha River](/catalog/items?q=&filter=tags%3DElwha+River "Elwha River (Elwha River, Place, GNIS)")
- [Strait of Juan de Fuca](/catalog/items?q=&filter=tags%3DStrait+of+Juan+de+Fuca "Strait of Juan de Fuca (Strait of Juan de Fuca, Place, GNIS)")
Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
USGS Scientific Topic Keyword
- [Aquatic Biology](/catalog/items?q=&filter=tags%3DAquatic+Biology "Aquatic Biology (Aquatic Biology, USGS Scientific Topic Keyword, )")
- [Botany](/catalog/items?q=&filter=tags%3DBotany "Botany (Botany, USGS Scientific Topic Keyword, )")
- [Ecology](/catalog/items?q=&filter=tags%3DEcology "Ecology (Ecology, USGS Scientific Topic Keyword, )")
- [Geomorphology](/catalog/items?q=&filter=tags%3DGeomorphology "Geomorphology (Geomorphology, USGS Scientific Topic Keyword, )")
- [Land Use Change](/catalog/items?q=&filter=tags%3DLand+Use+Change "Land Use Change (Land Use Change, USGS Scientific Topic Keyword, )")
- [Marine Geology](/catalog/items?q=&filter=tags%3DMarine+Geology "Marine Geology (Marine Geology, USGS Scientific Topic Keyword, )")
- [Remote Sensing](/catalog/items?q=&filter=tags%3DRemote+Sensing "Remote Sensing (Remote Sensing, USGS Scientific Topic Keyword, )")
- [Water Quality](/catalog/items?q=&filter=tags%3DWater+Quality "Water Quality (Water Quality, USGS Scientific Topic Keyword, )")
## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F7JS9PDK |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Stephen P. Rubin</origin>\n <origin>Helen D. Berry</origin>\n <origin>Nancy E. Elder</origin>\n <origin>Ian M. Miller</origin>\n <origin>Jeffrey J. Duda</origin>\n <pubdate>20171128</pubdate>\n <title>Data collected in 2008-2014 to assess nearshore subtidal community responses to increased sediment load during removal of the Elwha River dams, Washington State, USA</title>\n <geoform>CSV files</geoform>\n <pubinfo>\n <pubplace>U.S. Geological Survey, Western Fisheries Research Center, Seattle, Washington</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7JS9PDK</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Stephen P. Rubin</origin>\n <origin>Ian M. Miller</origin>\n <origin>Melissa M. Foley</origin>\n <origin>Helen D. Berry</origin>\n <origin>Jeffrey J. Duda</origin>\n <origin>Benjamin Hudson</origin>\n <origin>Nancy E. Elder</origin>\n <origin>Matthew M. Beirne</origin>\n <origin>Jonathan A. Warrick</origin>\n <origin>Michael L. McHenry</origin>\n <origin>Andrew W. Stevens</origin>\n <origin>Emily F. Eidam</origin>\n <origin>Andrea S. Ogston</origin>\n <origin>Guy Gelfenbaum</origin>\n <origin>Rob Pedersen</origin>\n <pubdate>20171208</pubdate>\n <title>Increased sediment load during a large-scale dam removal changes nearshore subtidal communities</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>PloS ONE 12(12):e0187742</pubplace>\n <publish>Public Library of Science (PLoS)</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.1371/journal.pone.0187742</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Data are time series of substrate grain size, remotely sensed water column turbidity, and measures of abundance (e.g., density, percent cover) of the nearshore subtidal (3-17 m depth) benthic community (vegetation, invertebrates, and fish) collected before (2008-2011) and during dam removal (2012-2014).</abstract>\n <purpose>Data were collected to assess nearshore subtidal community responses to increased sediment load during removal of two dams from the Elwha River.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2008</begdate>\n <enddate>2014</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-123.74725341662</westbc>\n <eastbc>-123.19244384633</eastbc>\n <northbc>48.204249241184</northbc>\n <southbc>48.079621636801</southbc>\n </bounding>\n <descgeog>Nearshore subtidal (3-17 m depth) portions of the Washington State shoreline of the Strait of Juan de Fuca between Crescent Bay to the west and Green Point (Siebert Creek) to the east.</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus; CMECS</themekt>\n <themekey>Species diversity</themekey>\n <themekey>Habitat alteration</themekey>\n <themekey>Benthos</themekey>\n <themekey>Marine nearshore subtidal</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5a0a2f04e4b09af898c9f83c</themekey>\n </theme>\n <place>\n <placekt>GNIS</placekt>\n <placekey>Clallam County</placekey>\n <placekey>Elwha River</placekey>\n <placekey>Strait of Juan de Fuca</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Stephen P. Rubin</cntper>\n <cntorg>U. S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Western Fisheries Research Center, 6505 NE 65th Street</address>\n <city>Seattle</city>\n <state>Washington</state>\n <postal>98115</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>206-526-2533</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Algae</taxonkey>\n <taxonkey>Annelids</taxonkey>\n <taxonkey>Crustaceans</taxonkey>\n <taxonkey>Fishes</taxonkey>\n <taxonkey>Bivalves</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2017</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <idref>\n <citeinfo>\n <origin>Andy Lamb, Bernard Hanby</origin>\n <pubdate>2005</pubdate>\n <title>Marine Life of the Pacific Northwest: A Photographic Encyclopedia of Invertebrates, Seaweeds And Selected Fishes</title>\n <geoform>CSV files</geoform>\n <pubinfo>\n <pubplace>Madeira Park, BC</pubplace>\n <publish>Harbour Pub</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <idref>\n <citeinfo>\n <origin>Andy Lamb; Phil Edgell</origin>\n <pubdate>2010</pubdate>\n <title>Coastal Fishes of the Pacific Northwest</title>\n <geoform>CSV files</geoform>\n <pubinfo>\n <pubplace>Madeira Park, BC</pubplace>\n <publish>Harbour Publishing</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <idref>\n <citeinfo>\n <origin>Gregory C Jensen</origin>\n <pubdate>2014</pubdate>\n <title>Crabs and shrimps of the Pacific Coast : a guide to shallow-water decapods from southeastern Alaska to the Mexican border</title>\n <geoform>CSV files</geoform>\n <pubinfo>\n <pubplace>Bremerton (3808 Sundown Dr.), Washington</pubplace>\n <publish>MolaMarine</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <idref>\n <citeinfo>\n <origin>Paul W Gabrielson; Sandra C Lindstrom; Charles J O\'Kelly</origin>\n <pubdate>2012</pubdate>\n <title>Keys to the seaweeds and seagrasses of southeast Alaska, British Columbia, Washington, and Oregon</title>\n <geoform>CSV files</geoform>\n <pubinfo>\n <pubplace>Vancouver, BC</pubplace>\n <publish>University of British Columbia</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Nancy E. Elder</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Marrowstone Marine Field Station, 616 Marrowstone Point Road</address>\n <city>Nordland</city>\n <state>Washington</state>\n <postal>98358</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>360-385-1007</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Stephen P. Rubin</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Western Fisheries Research Center, 6505 NE 65th Street</address>\n <city>Seattle</city>\n <state>Washington</state>\n <postal>98115</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>206-526-2533</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Helen D. Berry</cntper>\n <cntorg>Washington Department of Natural Resources</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Aquatic Resources Division, 1111 Washington Street SE</address>\n <city>Olympia</city>\n <state>Washington</state>\n <postal>98504</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>360-902-1100</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Ian M. Miller</cntper>\n <cntorg>Washington Sea Grant</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Olympic Peninsula Field Office, 1502 E. Lauridsen Boulevard #82</address>\n <city>Port Angeles</city>\n <state>Washington</state>\n <postal>98362</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>360-417-6460</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>comparison and museum materials;;expert advice;;identification keys;;specimen processing</taxonpro>\n <taxoncom>When divers were unable to identify taxa in situ, we used underwater photography, taxonomic keys on the surface, and sending photographs to experts to resolve identifications. Voucher specimens were collected to verify macroalgae identifications.</taxoncom>\n <vouchers>\n <specimen>herbarium specimens</specimen>\n <reposit>\n <cntinfo>\n <cntperp>\n <cntper>Helen D. Berry</cntper>\n <cntorg>Washington Department of Natural Resouces</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Aquatic Resources Division, 1111 Washington Street SE</address>\n <city>Olympia</city>\n <state>Washington</state>\n <postal>98504</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>360-902-1100</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </reposit>\n </vouchers>\n </taxonsys>\n <taxongen>Organisms were identified to the lowest practicable taxonomic level (usually species).</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Chromista</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Chromista</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Phaeophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Phaeophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Laminariales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Laminariaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Agarum</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Agarum fimbriatum</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>NASA</origin>\n <pubdate>2016</pubdate>\n <title>NASA MODIS</title>\n <geoform>Imagery</geoform>\n <pubinfo>\n <pubplace>http://modis.gsfc.nasa.gov/data/dataprod/index.php2016</pubplace>\n <publish>NASA</publish>\n </pubinfo>\n <onlink>http://modis.gsfc.nasa.gov/data/dataprod/index.php2016</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Satellite</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20071001</begdate>\n <enddate>20140930</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>http://modis.gsfc.nasa.gov/data/dataprod/index.php2016</srccurr>\n </srctime>\n <srccitea>MODIS</srccitea>\n <srccontr>Reflectance</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>For our analysis we included the MODIS Aqua MYD02QKM Level 1B Calibrated, Geolocated Radiance/Reflectance Data Set (MYD02, 250 m nominal resolution), the MYD03 Geolocation Data Set (MYD03) and the MYD35_L2 Cloud Mask Data Set (MOD35, 1000 m nominal resolution) [NASA. Moderate Resolution Imaging Spectroradiometer data products http://modis.gsfc.nasa.gov/data/dataprod/index.php2016]. \nMYD02 and MYD03 data were processed to produce remote sensing reflectance as described by Hudson et al. [Hudson B, Overeem I, McGrath D, Syvitski J, Mikkelsen A, Hasholt B. MODIS observed increase in duration and spatial extent of sediment plumes in Greenland fjords. The Cryosphere. 2014;8(4):1161-76]. Remote sensing reflectance was then corrected for variations in the solar zenith angle using MYD03 data and was corrected for atmospheric effects via dark object subtraction [Kirk JTO. Light and Photosynthesis in Aquatic Ecosystems, 3rd edition. Cambridge, UK: Cambridge University Press; 2011]. Only pixels classified as \xe2\x80\x9cconfident clear\xe2\x80\x9d by MYD03 were included and all images were screened manually for clouds. Individual data sets for the period from 2008 to 2014 were stacked, and time-series extracted for dive site and video transect segment locations. \nWe summarized reflectance each year as the 90th percentile of measurements recorded at various time points during the water year (October-September). Reflectance data for water years 2008-2011 were pooled to characterize 90th percentile reflectance before dam removal. Reflectance sample size (i.e., number of clear days) was 129 before dam removal and 24-33 in years after the start of dam removal. For analyses, 90th percentile reflectance for a water year was matched with the biological survey near the end of that water year.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n <method>\n <methtype>Field</methtype>\n <methdesc>Ecological data were collected along gradients of expected impact associated with turbidity and sediment deposition east and west of the river mouth, at 3-17 m depths referenced to mean lower low water (MLLW). We also collected data in two control areas where effects of dam removal were expected to be minimal: Green Point, 21 km east of the Elwha River (\xe2\x80\x9cControl\xe2\x80\x9d and \xe2\x80\x9cDungeness Bluffs\xe2\x80\x9d); and Crescent Bay, 15 km west of the Elwha River. \n\nWe evaluated biological and physical habitat changes before and after dam removal at 15 impact and two control sites using SCUBA (hereafter referred to as \xe2\x80\x9cdive sites\xe2\x80\x9d). Twelve dive sites in the impact area (A1-H2), along with the two control sites at Green Point (GP1 and GP2), were established and surveyed prior to dam removal between 2009 and 2011 and surveyed annually through 2014. During surveys in 2012, one year after dam removal began, it became clear that dam removal effects on macroalgae extended farther from the river mouth than the previously established impact sites. To better capture the spatial extent of dam removal effects, in 2012 we established three additional impact sites (J, K and L) at locations where macroalgae had been abundant during reconnaissance surveys made in 2008 and were still at least moderately abundant when resurveyed in 2012. All surveys were conducted during summer between 21 July and 12 September. \n\nDive sites were marked with a stainless-steel post at the center and concrete pier blocks 50 m to the east and west. Transects were established between the center post and end markers at each site in approximately shore-parallel directions. Surveys were conducted between the 10 m and 40 m points on a measuring tape arrayed between the center post and endpoint marker, with the distal 0-10 m and 40-50 m sections providing buffers to minimize marker-related disturbance. \n\nWe collected benthic community data at each dive site using methods adapted from the Partnership for Interdisciplinary Studies of Coastal Oceans (PISCO) kelp forest monitoring program [60, 66]. Individual organisms present in a 1-m wide swath along the 30-m transect and exceeding a size threshold (> 2.5 cm in any dimension for invertebrates, and > 24 cm long from holdfast to blade tip for kelp [Laminariales] and acid kelp [Desmarestia]) were identified to the lowest practicable taxonomic level and tallied. When divers were unable to identify taxa in situ, we used underwater photography and taxonomic keys on the surface to resolve unidentified taxa. Species were tallied in 10-m segments within each transect. Abundant species were subsampled by noting the segment length at which 30 individuals were present within a 10-m transect segment. In addition to enumerating taxa as described above, red algae > 24 cm long were classified into four growth forms: branched (flat branching blades), leaf (leafy blade), bushy (cylindrical branches), and lacey (filamentous/dense). Each growth was recorded as present or absent in six 5-m transect segments. We calculated a fleshy red algae presence/absence index for each growth form as the number of segments where the growth form was present divided by six. \n\nWe define primary cover as the surface area of substrate occupied by the attachment structures of vegetation or sessile invertebrates. Percent primary cover was estimated using a uniform point contact (UPC) methodology [60]. At points spaced every 0.5 m along each transect (N=60 points per transect), we recorded the type of organism attached to the substrate or the substrate type (bare rock or bare sand) if it was unoccupied. The UPC methodology was also used to estimate percent secondary cover of brown, red, green, or drift algae. We define secondary cover of macroalgae as the surface area of substrate having macroalgal foliage laying over the substrate but not attached to it. We assessed the presence or absence of foliage of each type of algae at each UPC point. \n\nFish were tallied in a 2 m x 2 m moving window as the transect tape was deployed. Additionally, any fish taxa observed during the invertebrate or kelp surveys that were undetected during the fish survey (typically small, cryptic taxa) were included in fish density estimates. \n\nFinally, each transect was videoed by a diver swimming 1-2 m above the substrate. These videos served as an additional record to corroborate uncertain quantitative estimates, confirm presence/absence data, or otherwise verify in situ data. \n\nWe used a towed underwater video system (Splashcam Deep Blue Pro recorded to Digital8 tape) to assess subtidal changes to marine algae and seagrasses over a broader area of the Elwha River delta. We identified five geographic areas based on geomorphic features and hypothesized effects of reduced sediment input before dam removal. Within each area, five to ten randomly selected transects were run perpendicular to shore to estimate macrovegetation parameters using a line intercept sampling approach. An 11-m shallow-draft vessel traveling at approximately 1 m\xc2\xb7s-1 collected imagery of a 1-m wide swath of seafloor along each transect. Spatial positions were logged simultaneously with a differential GPS (Trimble AgGPS 132) and water depth was measured with an echosounder (Biosonics DE 4000). Echosounder depth was adjusted to local MLLW based on observed water levels at NOAA tide station 9444090 in Port Angeles. Each transect was surveyed to a maximum depth of approximately 15 m (MLLW), the deep extent of abundant macrovegetation beds determined from reconnaissance surveys. The minimum depth of transects extended to either the shallowest navigable water depth (about 2 m) or the edge of floating kelp beds (which preclude towed imagery collection due to entanglement). Surveys were conducted in 2010 and annually during 2012-2014 between 8 July and 31 August on days when water clarity was sufficient for high quality video. \n\nDuring post processing, a frame from every fifth second of video imagery was classified using a modified Braun-Blanquet scale into five categories of percent cover: < 15%, 15-33%, 34-66%, 67-84%,and > 85%. Vegetation > 10 cm in size was visually identified using a distance-calibrated set of lasers for scale. Over 27,000 images were classified during the four survey years. \n\nFive categories of vegetation were visually identified: all macrovegetation, kelp in the taxonomic order Laminariales, seagrass species in the family Zosteraceae, green algae, and other red/brown algae. Vegetation categories were generally easy to distinguish based on color and morphology, except the diminutive kelp Laminaria ephemera and ligulate species in the non-kelp genus Desmarestia. These taxa were classified according to the species composition of voucher samples collected with a Van Veen grab in areas where they co-occurred. \n\nIn analyses of biological response at dive sites we treated substrate change as a categorical variable (changed or unchanged). We defined substrate change as bed elevation increase > 10 cm and (or) UPC percent sand increase > 30% (e.g., from 20% to 50%) relative to measurements made before dam removal. \n\nWe evaluated bed elevation change at each dive site using one of two methods. First, at each dive site we pounded a 1 m piece of rebar into the substrate until refusal (typically about 60 cm). We measured (\xc2\xb1 2 cm) the distance from the top of the pin to the bed during every site visit. We also estimated bed elevation (\xc2\xb1 13 cm) from digital elevation models (DEM) created during bi-annual topography and bathymetry surveys of the Elwha delta. Measurements from DEM were used to assess bed elevation change only at sites where the sediment pin was buried, lost, or dislodged from the substrate. \n\nWater depth at each dive site before dam removal was used as a covariate in some of our biological analyses. We used water depth estimated from dive computer pressure sensors (rather than from DEM because some sites were beyond the DEM spatial extent) adjusted to MLLW using tide height logged at NOAA Station 9444090. \n\nWe evaluated substrate grain size change at dive sites using two methods. First, we collected a large (typically 1-2 kg) sediment sample at each site using a 15-cm diameter tube pushed 15 cm into the substrate or to refusal. Each sample was allowed to settle for > 12 hours, decanted to remove as much water as possible, transferred to a sample bag and frozen. All samples were analyzed for grain size distributions at the USGS Pacific Coastal and Marine Geology Science Center (PCMSC) Sediment Laboratory (Santa Cruz, California). Samples were homogenized, split, and run through a Coulter counter and sieves, providing grain size distributions from 0.0001 to 16 mm. \n\nWe also evaluated substrate grain size at each dive site using the UPC method [60]. At 60 points spaced every 0.5 m along each 30-m transect we classified substrate as bedrock, boulder (> 25 cm), cobble (6-25 cm), gravel (0.2-6 cm), or sand (< 0.2 cm). \n\nWe used MODIS satellite imagery and supporting data from the NASA MODIS Adaptive Processing System (MODAPS) as a proxy for water column turbidity at dive sites and along towed video transects. Using this proxy was the only way for us to have comparable turbidity data across our study area for the duration of the study. For our analysis we included the MODIS Aqua MYD02QKM Level 1B Calibrated, Geolocated Radiance/Reflectance Data Set (MYD02, 250 m nominal resolution), the MYD03 Geolocation Data Set (MYD03) and the MYD35_L2 Cloud Mask Data Set (MOD35, 1000 m nominal resolution). \n\nMYD02 and MYD03 data were processed to produce remote sensing reflectance as described by Hudson et al. 2014. Remote sensing reflectance was then corrected for variations in the solar zenith angle using MYD03 data and was corrected for atmospheric effects via dark object subtraction. Only pixels classified as \xe2\x80\x9cconfident clear\xe2\x80\x9d by MYD03 were included and all images were screened manually for clouds. Individual data sets for the period from 2008 to 2014 were stacked, and time-series extracted for dive site and video transect segment locations. \n\nWe summarized reflectance each year as the 90th percentile of measurements recorded at various time points during the water year (October-September). Reflectance data for water years 2008-2011 were pooled to characterize 90th percentile reflectance before dam removal. Reflectance sample size (i.e., number of clear days) was 129 before dam removal and 24-33 in years after the start of dam removal. For analyses, 90th percentile reflectance for a water year was matched with the biological survey near the end of that water year. \n\nWe measured temperature during the study period at Site E1 on the bottom (Fig 1b; depth = 6 m). A Seabird 26+ bursting pressure sensor with a thermistor was deployed on 29 January 2009, recovered and re-deployed at roughly 6 month intervals, and recovered for the final time on 13 March 2011. Temperature observations were logged hourly. Temperature observations were extended beyond September 2011 using an Onset HOBO temperature and light sensor that was recovered and swapped with a new one at 6-12 month intervals; temperatures were logged every 20 minutes. \n\nWe averaged dive survey data from the two transects at each site to obtain a single data point for each site per year. We then averaged over years before dam removal for sites where data were collected for more than one year to obtain a single data point representing initial conditions at each site (hereafter referred to as \xe2\x80\x9cBefore\xe2\x80\x9d). Two data points were missing (site K-Before because K was not surveyed before dam removal and site D1-2014 because D1 became intertidal between the 2013 and 2014 surveys due to sediment deposition); therefore, we used 66 data points for all analyses. \n\nTo assess spatial patterns of vegetation within habitat and depth zones from towed-video surveys, we divided each towed-video transect into contiguous 200-m segments with approximately 30 samples per segment. Transect length varied according to the seabed slope because transects were surveyed to a maximum depth of about 15 m MLLW. At the tip of Ediz Hook, steep bathymetry limited some transects to a single segment of 40 m. For each segment, mean percent cover was calculated based on the midpoint of the cover category for each classified frame. Mean depth per segment was calculated from echosounder depth. The resulting data set comprised one data point for mean cover and mean depth per segment per year (N = 608).</methdesc>\n <methcite>\n <citeinfo>\n <origin>Stephen P. Rubin</origin>\n <origin>Ian M. Miller</origin>\n <origin>Nancy E. Elder</origin>\n <origin>Reginald R. Reisenbichler</origin>\n <origin>Jeffrey J. Duda</origin>\n <pubdate>2011</pubdate>\n <title>Nearshore biological communities prior to removal of the Elwha River dams</title>\n <geoform>Report chapter</geoform>\n <onlink>https://pubs.usgs.gov/sir/2011/5120/pdf/sir20115120_ch6.pdf</onlink>\n </citeinfo>\n </methcite>\n </method>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Elwha dive site data</enttypl>\n <enttypd>Physical and biological data collected by scuba divers</enttypd>\n <enttypds>Stephen P. Rubin</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Site</attrlabl>\n <attrdef>Site sampled</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>A1</edomv>\n <edomvd>Site A1</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>A2</edomv>\n <edomvd>Site A2</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C1</edomv>\n <edomvd>Site C1</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C2</edomv>\n <edomvd>Site C2</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D1</edomv>\n <edomvd>Site D1</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D2</edomv>\n <edomvd>Site D2</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>E1</edomv>\n <edomvd>Site E1</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>E2</edomv>\n <edomvd>Site E2</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>F1</edomv>\n <edomvd>Site F1</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>F2</edomv>\n <edomvd>Site F2</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>GP1</edomv>\n <edomvd>Site GP1</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>GP2</edomv>\n <edomvd>Site GP2</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>H1</edomv>\n <edomvd>Site H1</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>H2</edomv>\n <edomvd>Site H2</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>J</edomv>\n <edomvd>Site J</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>K</edomv>\n <edomvd>Site K</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>L</edomv>\n <edomvd>Site L</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year sampled. Within a year, all physical and biological data except reflectance were collected between 21 July and 12 September.</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Before</edomv>\n <edomvd>Before dam removal. Data were collected in at least one year during 2008-2011. For further details see the primary publication this data release is linked to (Rubin et al. 2017)</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2012</edomv>\n <edomvd>Year 2012</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2013</edomv>\n <edomvd>Year 2013</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2014</edomv>\n <edomvd>Year 2014</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Site_group</attrlabl>\n <attrdef>Groups of sites where group membership was determined by proximity to the Elwha River mouth</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>West</edomv>\n <edomvd>Sites west of the river mouth; includes sites A1, A2, and L</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Mouth</edomv>\n <edomvd>Sites offshore from the river mouth; includes sites C1, C2, D1, D2, E1, E2, F1, and F2</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>East</edomv>\n <edomvd>Sites east of the river mouth; includes sites H1, H2, J, and K</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Control</edomv>\n <edomvd>Sites farther east of the river mouth where dam removal effects were expected to be minimal; includes sites GP1 and GP2</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>Latitude of the site</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>48.1</rdommin>\n <rdommax>48.2</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>Longitude of the site</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-123.6</rdommin>\n <rdommax>-123.3</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Initial_depth</attrlabl>\n <attrdef>Depth before dam removal referenced to mean lower low water</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>17</rdommax>\n <attrunit>Meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent_bedrock</attrlabl>\n <attrdef>Percent cover of bedrock estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent_boulder</attrlabl>\n <attrdef>Percent cover of boulders (>25 cm) estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent_cobble</attrlabl>\n <attrdef>Percent cover of cobble (6-25 cm) estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent_gravel</attrlabl>\n <attrdef>Percent cover of gravel (0.2-6 cm) estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent_sand</attrlabl>\n <attrdef>Percent cover of sand (< 0.2 cm) estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Initial_percent_sand</attrlabl>\n <attrdef>Percent sand before dam removal</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Substrate_change</attrlabl>\n <attrdef>Whether or not substrate had changed relative to its state before dam removal. We defined change as a bed elevation increase > 10 cm and (or) an increase in percent sand > 30% (e.g., from 20% to 50%). For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Yes</edomv>\n <edomvd>Substrate had changed</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>No</edomv>\n <edomvd>Substrate had not changed</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reflectance</attrlabl>\n <attrdef>Remotely-sensed light reflectance. Values are the 90th percentile of reflectances recorded on clear days during the water year (October-September). Attribute "Year" corresponds to the January-September part of the water year; for example, Year 2012 corresponds to water year October 2011-September 2012. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Initial_reflectance</attrlabl>\n <attrdef>Light reflectance before dam removal</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reflectance_change</attrlabl>\n <attrdef>The difference between reflectance in 2012, 2013, or 2014 and initial reflectance</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-100</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Algal_cover</attrlabl>\n <attrdef>Total secondary cover of algae; equals "Secondary_cover_Algae_total"</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Initial_algal_cover</attrlabl>\n <attrdef>Total secondary cover of algae before dam removal</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Algal_cover_change</attrlabl>\n <attrdef>The difference between algal cover in 2012, 2013, or 2014 and initial algal cover</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-100</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Agarum_fimbriatum</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Alaria_marginata</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Costaria_costata</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Cymathere_triplicata</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Desmarestia_bushy</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Desmarestia_flat</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Laminaria_ephemera</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Laminaria_setchelli</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Nereocystis_luetkeana</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Pleurophycus_gardneri</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Pterygophora_californica</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>Individuals per 30 square meters</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Saccharina_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Brown_algae</attrlabl>\n <attrdef>Total brown algae density, which is density summed over the preceding 12 algal taxa (i.e., the preceding 12 columns). Number of individuals per 30 square meters.</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Richness_Brown_algae</attrlabl>\n <attrdef>Number of brown algal taxa present (i.e., of the 12 possible brown algae taxa, the number that were present).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>12</rdommax>\n <attrunit>Number of taxa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P/A_index_Red_algae_branch</attrlabl>\n <attrdef>Presence/absence index for fleshy red algae with a \xe2\x80\x9cbranch\xe2\x80\x9d growth form. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>Proportion</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P/A_index_Red_algae_bushy</attrlabl>\n <attrdef>Presence/absence index for fleshy red algae with a \xe2\x80\x9cbushy\xe2\x80\x9d growth form. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>Proportion</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P/A_index_Red_algae_lacy</attrlabl>\n <attrdef>Presence/absence index for fleshy red algae with a \xe2\x80\x9clacy\xe2\x80\x9d growth form. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>Proportion</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P/A_index_Red_algae_leaf</attrlabl>\n <attrdef>Presence/absence index for fleshy red algae with a \xe2\x80\x9cleaf\xe2\x80\x9d growth form. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>Proportion</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>P/A_index_Red_algae_mean</attrlabl>\n <attrdef>Fleshy red algae presence/absence index, mean across growth forms. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n <attrunit>Proportion</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Articulated_coralline_algae</attrlabl>\n <attrdef>Primary cover of this taxon. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Crustose_coraline_algae</attrlabl>\n <attrdef>Primary cover of this taxon. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Encrusing_red_algae</attrlabl>\n <attrdef>Primary cover of this taxon. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Fleshy_red_algae</attrlabl>\n <attrdef>Primary cover of this taxon. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Live_Kelp_Holdfast</attrlabl>\n <attrdef>Primary cover of this taxon. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Red_algal_turf</attrlabl>\n <attrdef>Primary cover of this taxon. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Algae_total</attrlabl>\n <attrdef>Total primary cover of algae, which is percent cover summed over the preceding 6 algal taxa (i.e., the preceding 6 columns).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Secondary_cover_Drift_algae</attrlabl>\n <attrdef>Secondary cover of this taxon. Secondary cover is the surface area of substrate having macroalgal foliage laying over the substrate but not attached to it and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Secondary_cover_Brown_algae</attrlabl>\n <attrdef>Secondary cover of this taxon. Secondary cover is the surface area of substrate having macroalgal foliage laying over the substrate but not attached to it and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Secondary_cover_Green_algae</attrlabl>\n <attrdef>Secondary cover of this taxon. Secondary cover is the surface area of substrate having macroalgal foliage laying over the substrate but not attached to it and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Secondary_cover_Red_algae</attrlabl>\n <attrdef>Secondary cover of this taxon. Secondary cover is the surface area of substrate having macroalgal foliage laying over the substrate but not attached to it and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Secondary_cover_Algal_combination</attrlabl>\n <attrdef>Secondary cover provided by a combination of > 1 type of algae; for example, brown and red algae. Secondary cover is the surface area of substrate having macroalgal foliage laying over the substrate but not attached to it and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Secondary_cover_Algae_total</attrlabl>\n <attrdef>Total secondary cover of algae, which is percent cover summed over the preceding 5 algal taxa (i.e., the preceding 5 columns).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Anemone_Epiactis_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Anemone_Halcampa_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Anemone_other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Anemone_Stomphia_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Anemone_Urticina_columbiana</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Anemone_Urticina_coriacea</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Anemone_Urticina_lofotensis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Anemone_Urticina_piscivora</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Barnacle_Balanus_nubilus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Chlamys_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Clinocardium_nuttallii</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Crassedoma_giganteum</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Humilaria_kennerleyi</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Mya_truncata</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Panomya_ampla</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Panopea_generosa</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Saxidomus_gigantea</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Tresus_capax</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Bivalve_Zirphaea_pilsbryi</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Brachiopoda_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Chiton_Cryptochiton_stelleri</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Chiton_Lepidozona_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Chiton_Mopalia_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Chiton_Tonicella_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Cancer_gracilis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Metacarcinus_magister</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Metacarcinus_magister_juvenile</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Cancer_oregonensis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Cancer_productus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Hermit_Elassochirus_tenuimanus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Hermit_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Hermit_Pagurus_armatus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Hermit_Pagurus_beringanus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Hermit_Pagurus_kennerlyi</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Hermit_Sponge</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Lithodidae_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Oregonia_gracilis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Pugettia_gracilis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Pugettia_producta</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Spider_Crab_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Crab_Telmessus_cheiragonus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Jelly_Stalked_Haliclystus_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Limpet_Acmaea_mitra</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Limpet_Diadora_aspera</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Limpet_Lottia_instabilis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Limpet_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Nudibranch_Aeolidida_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Nudibranch_Dendronotus_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Nudibranch_Dirona_albolineata</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Nudibranch_Doridacea_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Nudibranch_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Nudibranch_Triopha_catalinae</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Octopus_Enteroctopus_dofleini</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Octopus_Octopus_rubescens</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Ribbon_worm_Tubulanus_polymorphus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sea_Cucumber_Cucumaria_miniata</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sea_Cucumber_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sea_Cucumber_Parastichopus_californicus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sea_Pen_Ptilosarcus_gurneyi</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Shrimp_Crangon_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Shrimp_Heptacarpus_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Shrimp_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Shrimp_Pandalus_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Snail_Amphissa_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Snail_Calliostoma_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Snail_Ceratostoma_foliatum</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Snail_Euspira_lewisii</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Snail_Euspira_lewisii_Egg_Casing</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Snail_Fusitriton_oregonensis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Snail_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sponge_Solitary_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Dermasterias_imbricata</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Evasterias_troschelii</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Henricia_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Luida_foliolata</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Mediaster_aequalis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Orthasterias_koehleri</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Pisaster_brevispinus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Pteraster_tesselatus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Pycnopodia_helianthoides</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Star_Solaster_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_Bispira_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_Chone_aurantiaca</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_Diopatra_ornata</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_Eudystylia_polymorpha</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_Eudystylia_vancouveri</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_Myxicola_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_orange_unknown</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_Pista_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_Schizobranchia_sp</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tube_worm_spagetti_worm</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tunicate_Solitary_Other</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Tunicate_Solitary_Styela_montereyensis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Urchin_Strongylocentrotus_droebachiensis</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Urchin_Strongylocentrotus_franciscanus</attrlabl>\n <attrdef>Number of individuals of this taxon per 30 square meters. For a list of species included in this taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Density was estimated by counting individuals in a 30 m long-by-1 m wide swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Invertebrates</attrlabl>\n <attrdef>Total invertebrate density, which is density summed over the preceding 99 invertebrate taxa (i.e., the preceding 99 columns). Number of individuals per 30 square meters.</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Richness_Invertebrates</attrlabl>\n <attrdef>Number of invertebrate taxa present (i.e., of the 99 possible invertebrate taxa, the number that were present).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>99</rdommax>\n <attrunit>Number of taxa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Barnacles</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Bivalves</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Byrozoans</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Chitons/limpets</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Cnidarians</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Echinoderm</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Hydroids</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Sponges</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Tubeworms</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Tunicates</attrlabl>\n <attrdef>The column heading is the taxonomic group name. Entries in the column are primary cover. Primary cover is the surface area of substrate occupied by the attachment structures of organisms and was estimated from UPC surveys. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Primary_cover_Invertebrates_total</attrlabl>\n <attrdef>Total primary cover of invertebrates, which is percent cover summed over the preceding 10 invertebrate taxonomic groups (i.e., the preceding 10 columns).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Blackeye_goby</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Fish_other</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Flatfish_other</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Flatfish_starry_flounder</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Greenling_sp</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Gunnel_sp</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Herring</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Lingcod</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Pacific_cod</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Perch_sp</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Poacher_sp</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Prickleback_mosshead_warbonnet</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Prickleback_other</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Ratfish</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Rockfish_black</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Rockfish_copper</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Rockfish_juvenile</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Rockfish_other</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sandlance</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sculpin_buffalo</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sculpin_great</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sculpin_longfin</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sculpin_manacled</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sculpin_other</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sculpin_red_Irish_lord</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sculpin_scalyhead</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Sculpin_silverspot</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_Spiny_dogfish</attrlabl>\n <attrdef>The column heading is the taxon name. For a list of species included in the taxon see S6 Table in the primary publication this data release is linked to (Rubin et al. 2017). Entries in the column are number of individuals of the taxon per 30 square meters. Density was estimated by counting individuals in a 30 m long-by-2 m wide-by-2 m high swath (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Density_fish</attrlabl>\n <attrdef>Total fish density, which is density summed over the preceding 28 fish taxa (i.e., the preceding 28 columns). Number of individuals per 30 square meters.</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>~</rdommax>\n <attrunit>Individuals per 30 square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Richness_fish</attrlabl>\n <attrdef>Number of fish taxa present (i.e., of the 28 possible fish taxa, the number that were present).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>12</rdommax>\n <attrunit>Number of taxa</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Elwha towed video data</enttypl>\n <enttypd>Data collected to estimate cover of macrovegetation</enttypd>\n <enttypds>Helen D. Berry</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Transect</attrlabl>\n <attrdef>Transect identification number; transects are numbered from west to east. Transects were oriented perpendicular to shore and extended from roughly 15 m depth to the shallowest navigable depth (about 2 m) or the edge of floating kelp beds.</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>35</rdommax>\n <attrunit>Transect identification number</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Segment</attrlabl>\n <attrdef>Transect segment. Each towed-video transect was divided into contiguous 200-m segments. Segments were labelled alphabetically from shallow to deep.</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>a</edomv>\n <edomvd>Segment a</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>b</edomv>\n <edomvd>Segment b</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>c</edomv>\n <edomvd>Segment c</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>d</edomv>\n <edomvd>Segment d</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>e</edomv>\n <edomvd>Segment e</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>f</edomv>\n <edomvd>Segment f</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>g</edomv>\n <edomvd>Segment g</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>h</edomv>\n <edomvd>Segment h</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>i</edomv>\n <edomvd>Segment i</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>j</edomv>\n <edomvd>Segment j</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>k</edomv>\n <edomvd>Segment k</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Year</attrlabl>\n <attrdef>Year sampled. Within a year, video and depth data were collected between 8 July and 31 August.</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Before</edomv>\n <edomvd>Before dam removal. Data were collected in at least one year during 2008-2011. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2012</edomv>\n <edomvd>Year 2012</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2013</edomv>\n <edomvd>Year 2013</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2014</edomv>\n <edomvd>Year 2014</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Area</attrlabl>\n <attrdef>Groups of transects where group membership was determined by proximity to the Elwha River mouth</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>cb</edomv>\n <edomvd>Crescent Bay which was the western control area; includes transects 1-10</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>db</edomv>\n <edomvd>Dungeness Bluffs which was the eastern control area; includes transects 31-35</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>eb</edomv>\n <edomvd>Elwha Bluffs which was the area immediately east of the river mouth; includes transects 16-20</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>eh</edomv>\n <edomvd>Ediz Hook which was between Elwha Bluffs and Dungeness Bluffs, includes transects 21-30</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>fb</edomv>\n <edomvd>Freshwater Bay which was immediately west of the river mouth; includes transects 11-15</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Use_for_regression</attrlabl>\n <attrdef>Whether or not the observation was used in regression analyses relating vegetation cover to reflectance and depth. See the primary publication this data release is linked to (Rubin et al. 2017) for an explanation of why observations were excluded.</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Yes</edomv>\n <edomvd>The observation was used in regression analyses</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>No</edomv>\n <edomvd>The observation was not used in regression analyses</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>Latitude of the transect segment</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>48.1</rdommin>\n <rdommax>48.2</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>Longitude of the transect segment</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-123.8</rdommin>\n <rdommax>-123.2</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reflectance</attrlabl>\n <attrdef>Remotely-sensed light reflectance. Values are the 90th percentile of reflectances recorded on clear days during the water year (October-September). Attribute "Year" corresponds to the January-September part of the water year; for example, Year 2012 corresponds to water year October 2011-September 2012. For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Initial_reflectance</attrlabl>\n <attrdef>Light reflectance before dam removal</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reflectance_change</attrlabl>\n <attrdef>The difference between reflectance in 2012, 2013, or 2014 and initial reflectance</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-100</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Initial_depth</attrlabl>\n <attrdef>Depth in 2010 referenced to mean lower low water</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.6</rdommin>\n <rdommax>18.1</rdommax>\n <attrunit>Meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>All_vegetation_cover</attrlabl>\n <attrdef>Cover of all macrovegetation combined. See the primary publication this data release is linked to (Rubin et al. 2017) for how cover was estimated from video imagery.</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Seagrass_cover</attrlabl>\n <attrdef>Cover of seagrass</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Green_algae_cover</attrlabl>\n <attrdef>Cover of green algae</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Kelp_cover</attrlabl>\n <attrdef>Cover of kelp (order Laminariales)</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Red/brown_algae_cover</attrlabl>\n <attrdef>Combined cover of brown algae other than kelp (i.e., genus Desmarestia) and red algae</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Elwha temperature data</enttypl>\n <enttypd>Time series of water temperature measured near the seafloor (6-10 m depth) at or within 600 m of dive site E1 (latitude 48.15257; longitude -123.55704)</enttypd>\n <enttypds>Producer-defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>Date when temperature was measured</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1/29/2009</rdommin>\n <rdommax>7/23/2015</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Temperature</attrlabl>\n <attrdef>Daily mean temperature; For further details see the primary publication this data release is linked to (Rubin et al. 2017).</attrdef>\n <attrdefs>Producer-defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6.9</rdommin>\n <rdommax>14.7</rdommax>\n <attrunit>Degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing</addrtype>\n <address>Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice />\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/F7JS9PDK</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees />\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200830</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Stephen P. Rubin</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Supervisory Fishery Biologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Western Fisheries Research Center, 6505 NE 65th Street</address>\n <city>Seattle</city>\n <state>Washington</state>\n <postal>98115</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>206-526-2533</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the CDGSM</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n <metuc>Record created using USGS Metadata Wizard tool. (https://github.com/usgs/fort-pymdwizard)</metuc>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2015Time Period2015-03-01
## Citation
Hardiman, J.M., Holmberg, G.S., and Elder, N.E., 2015, Boat ramp locations within the Columbia River Basin with associated recreational use, water quality measurements, and risk assessment data for zebra and quagga mussels- shapefile: U.S. Geological Survey data release, http://dx.doi.org/10.5066/F71N7Z6D.
## Summary
Aquatic invasive species are often transported between water bodies on boats or boat trailers, thus they are considered one of the primary vectors for new introductions of invasive species to a water body. This data set contains geographic positioning system locational data for boater access points, use data (i.e. recreational, fishing), water quality measurements (e.g. calcium concentrations, pH), risk assessment data, and other physical attributes (i.e. size, elevation) where available within the Columbia and Snake Rivers and throughout the Columbia River Basin. This work builds on an earlier body of work by Wells et al. 2011, Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin (PDF link below), which provided \[...\]
## Summary
Aquatic invasive species are often transported between water bodies on boats or boat trailers, thus they are considered one of the primary vectors for new introductions of invasive species to a water body. This data set contains geographic positioning system locational data for boater access points, use data (i.e. recreational, fishing), water quality measurements (e.g. calcium concentrations, pH), risk assessment data, and other physical attributes (i.e. size, elevation) where available within the Columbia and Snake Rivers and throughout the Columbia River Basin. This work builds on an earlier body of work by Wells et al. 2011, Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin (PDF link below), which provided much of the initial water quality, use information, and risk assessment data (categorical values for the risk of introduction and the risk of establishment). Updated information has been added by collecting additional data on use of water bodies, as well as combined categorical ranking methodology for identifying water bodies that may be high risk for both introduction and establishment of zebra and quagga mussels. This data is also related to a regional effort to contribute to the coordination of monitoring efforts for early detection of zebra and quagga mussels in the context of risk assessment data (CRBAIS weblink below). A GIS shapefile is provided here for download. Please read the metadata file for data definitions, sources, and data limitations. For a quick view of the data set and some basic query options use the ArcGIS online map link (
[http://arcg.is/1LrNmBj](http://arcg.is/1LrNmBj)), to view all the data layers click the show contents of map and click again on the Boat ramps within the Columbia River Basin and click on each of the individual layers for more options.
## Contacts
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[U.S. Geological Survey, NORTHWEST REGION](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+NORTHWEST+REGION)
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[U. S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=U.+S.+Geological+Survey+-+ScienceBase)
Metadata Contact
:
[Jill M Hardiman](/catalog/catalogParty/show?partyId=4232)
Originator
:
[Jill M Hardiman](/catalog/catalogParty/show?partyId=4232),
[Glen S Holmberg](/catalog/catalogParty/show?partyId=4660),
[Nancy E Elder](/catalog/catalogParty/show?partyId=2885)
publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Principal Investigator
:
[Timothy D Counihan](/catalog/catalogParty/show?partyId=2109)
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| --- | --- | --- |
| Boatramps\_091815.shp.xml<br>_Original FGDC Metadata_ | View | 62.22 KB |
| Boatramps\_091815.shp | | 43.93 KB |
| Boatramps\_091815.dbf | | 23.76 MB |
| Boatramps\_091815.shx | | 12.62 KB |
| Boatramps\_091815.prj | | 145 Bytes |
| Boatramps\_091815.sbn | | 15.54 KB |
| Boatramps\_091815.sbx | | 1.04 KB |
Shapefile:
Boatramps\_091815.zip
## Related External Resources
Type: PDF Download
| | |
| --- | --- |
| Wells, Steve W.; Counihan, Timothy D.; Puls, Amy; Sytsma, Mark; and Adair, Brian, "Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin" (2011). Center for Lakes and Reservoirs Publications and Presentations.Paper 10. | [http://pdxscholar.library.pdx.edu/centerforlakes\_pub/10](http://pdxscholar.library.pdx.edu/centerforlakes_pub/10 "http://pdxscholar.library.pdx.edu/centerforlakes_pub/10") |
Type: Web Link
| | |
| --- | --- |
| ArcGIS online map | [http://arcg.is/1LrNmBj](http://arcg.is/1LrNmBj "http://arcg.is/1LrNmBj") |
| Columbia River Basin Aquatic Invasive Species Database (CRBAIS) | [http://crbais.psmfc.org/](http://crbais.psmfc.org/ "http://crbais.psmfc.org/") |
## Purpose
This data set was compiled in response to a funding grant from the Bonneville Power Administration Technology Innovation group (Cooperative agreement #59650, Technology Innovation Project #276) to provide a GIS layer of river access points (boat ramps) within the Columbia and Snake Rivers and water bodies throughout the Columbia River Basin. The threat of aquatic invasive species (AIS), in particular zebra and quagga mussels being introduced, established, and spreading throughout the Columbia River Basin is a major concern to management and potential impacts to the Federal Columbia River Power System (FCRPS). The presence and colonization of AIS could potentially reduce efficiency and require significant and costly mitigation efforts to the FCRPS. Thus, the development of programs and tools to prevent new introductions and control the spread of AIS are needed. This information was intended to contribute to an initial prioritization of the placement of boat cleaning stations and also to identify additional information that may be needed for a more comprehensive prioritization process. The data set is for planning purposes and to aid in the prevention of the spread of aquatic invasive species, in particular invasive zebra and quagga mussels (Dreissenids) throughout the Columbia River Basin.
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## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Theme
- [Boat ramps](/catalog/items?q=&filter=tags%3DBoat+ramps "Boat ramps (Boat ramps, Theme, None)")
- [Columbia River](/catalog/items?q=&filter=tags%3DColumbia+River "Columbia River (Columbia River, Theme, None)")
- [Dreissenids](/catalog/items?q=&filter=tags%3DDreissenids "Dreissenids (Dreissenids, Theme, None)")
- [access points](/catalog/items?q=&filter=tags%3Daccess+points "access points (access points, Theme, None)")
- [invasive mussels](/catalog/items?q=&filter=tags%3Dinvasive+mussels "invasive mussels (invasive mussels, Theme, None)")
- [invasive species prevention](/catalog/items?q=&filter=tags%3Dinvasive+species+prevention "invasive species prevention (invasive species prevention, Theme, None)")
- [quagga mussels](/catalog/items?q=&filter=tags%3Dquagga+mussels "quagga mussels (quagga mussels, Theme, None)")
- [recreational use](/catalog/items?q=&filter=tags%3Drecreational+use "recreational use (recreational use, Theme, None)")
- [zebra mussels](/catalog/items?q=&filter=tags%3Dzebra+mussels "zebra mussels (zebra mussels, Theme, None)")
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- [Columbia River Basin](/catalog/items?q=&filter=tags%3DColumbia+River+Basin "Columbia River Basin (Columbia River Basin, Place, None)")
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## Provenance
Data sourceInput directly
## Additional Information
### Shapefile Extension
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| dateUploaded | Tue Dec 22 15:45:48 MST 2015 |
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| dateUploaded | Tue Dec 22 15:45:51 MST 2015 |
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| dateUploaded | Sun Aug 30 18:42:04 MDT 2020 |
| originalMetadata | true |
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| dateUploaded | Tue Dec 22 15:45:47 MST 2015 |
| name | Boatramps\_091815.sbx |
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| size | 1068 |
| dateUploaded | Tue Dec 22 15:45:47 MST 2015 | |
| geometryType | Point |
| name | Boatramps\_091815 |
| nativeCrs | EPSG:4326 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Jill Hardiman</origin>\n <origin>Glen Holmberg</origin>\n <origin>Nancy Elder</origin>\n <pubdate>2015</pubdate>\n <title>Boat ramp locations within the Columbia River Basin with associated recreational use, water quality measurements, and risk assessment data for zebra and quagga mussels- shapefile</title>\n <edition>version 1.0</edition>\n <geoform>vector digital data (Point)</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.5066/F71N7Z6D</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Aquatic invasive species are often transported between water bodies on boats or boat trailers. Thus, contaminated boats and boat trailers are considered one of the primary vectors for introduction of invasive species into a new water body. This data set was compiled in response to a funding grant from the Bonneville Power Administration Technology Innovation group (Cooperative agreement #59650, Technology Innovation Project #276) to provide a GIS layer of river access points (boat ramps) within the Columbia and Snake Rivers and water bodies throughout the Columbia River Basin. This work builds on an earlier body of work by Wells et al. 2011, Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin, also funded by the Bonneville Power Administration Technology Innovation group (contract # 00003373), which provided much of the past water quality, use information, and categorical values for the risk of introduction and the risk of establishment (referred to as risk assessment data) of zebra and quagga mussels for a water body. Updated information has been added by collecting additional data on use of water bodies, as well as combined categorical ranking methodology for identifying water bodies that may be high risk for both introduction and establishment of zebra and quagga mussels. This data set contains geographic positioning system (GPS) locational data for boater access points, use data (i.e. recreational, fishing), water quality measurements (e.g. calcium concentrations, pH), risk assessment data, and other physical attributes (i.e. size, elevation) from their associated water bodies where available. Although, some of the recreational use data has been updated since the previous work no new ranking of this data has been done. The intent of this data set is to provide an online, spatial database for states and regional managers to reference. The GPS locational data was compiled from various resources (including state, federal, tribal, local governing bodies, etc.) to identify boater access points along the mainstem Columbia and Snake Rivers and throughout the Columbia River Basin. Water body data attributes were also compiled from a variety of resources including state, federal, provincial and local governing agencies, as well as Tribes, universities, and public utilities, from which direct data calls were sent for information on monitoring activities, water quality data, and recreational use information. In addition to these agencies a variety of websites were used to download reports and individual data items for water bodies across many different states. A list of websites accessed throughout the data compilation process is included in the data source inputs section. This is the tabular data used to create the boatramps shapefile.</abstract>\n <purpose>The threat of aquatic invasive species (AIS), in particular zebra and quagga mussels being introduced, established, and spreading throughout the Columbia River Basin is a major concern to management and potential impacts to the Federal Columbia River Power System (FCRPS). The presence and colonization of AIS could potentially reduce efficiency and require significant and costly mitigation efforts to the FCRPS. Thus, the development of programs and tools to prevent new introductions and control the spread of AIS are needed. This information was intended to contribute to an initial prioritization of the placement of boat cleaning stations and also to identify additional information that may be needed for a more comprehensive prioritization process. The data set is for planning purposes and to aid in the prevention of the spread of aquatic invasive species, in particular invasive zebra and quagga mussels (Dreissenids) throughout the Columbia River Basin.</purpose>\n <supplinf>Data was compiled from a variety of sources for this project. Not all data items were able to be cross-checked or validated for accuracy. They are presented in good faith that proper quality assurance and quality control procedures were performed prior to data being released by the collecting agency, reporting agency, or published on an organization\'s website. This data set may not represent all the available data pertinent to each boat ramp, but instead represents the data that was provided by the various agencies. As a result, there are many missing values across column attributes where data was reported by only one state or agency, and is not reported by others. Furthermore some attributes were collected opportunistically based on agency resources for particular water bodies and were not explored for all. Some boat ramp locations may not have any additional attribute data discovered for this data set. Another important distinction is that most of the attribute data was collected at the scale of the water body and not at the scale of the boat ramp. An individual water body often has numerous boat ramps and thus each access point within that water body will have the same attribute data. In the case of larger water bodies such as the mainstem Columbia and Snake Rivers, attribute information is typically provided at the reservoir scale or at the closest geographic location in which risk assessment data was collected to the boat ramp. Data updates were last referenced March 2013 and have not been updated since then and there is no current plan to update this data set.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>20150301</caldate>\n </sngdate>\n </timeinfo>\n <current>Data was gathered over multiple years (2006 - 2013) and from multiple sources and is considered up to date to March, 2015. Data is not scheduled to be updated after this date.</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-124.052669</westbc>\n <eastbc>-110.522618</eastbc>\n <northbc>52.679208</northbc>\n <southbc>41.6669</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>invasive mussels</themekey>\n <themekey>recreational use</themekey>\n <themekey>invasive species prevention</themekey>\n <themekey>access points</themekey>\n <themekey>Boat ramps</themekey>\n <themekey>zebra mussels</themekey>\n <themekey>Columbia River</themekey>\n <themekey>quagga mussels</themekey>\n <themekey>Dreissenids</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5616fe34e4b0ea5c4f694753</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Columbia River Basin</placekey>\n </place>\n </keywords>\n <accconst>None</accconst>\n <useconst>Although these data and information have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the accuracy or utility of the data and information on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. This disclaimer applies both to individual use of the data and information, and aggregate use with other data and information. The USGS shall not be held liable for improper or incorrect use of the data and information described and/or contained herein.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, NORTHWEST REGION</cntorg>\n <cntper>Jill M Hardiman</cntper>\n </cntorgp>\n <cntpos>Fisheries Biologist</cntpos>\n <cntaddr>\n <addrtype>Mailing</addrtype>\n <address>5501 Cook Underwood Road</address>\n <city>Cook</city>\n <state>WA</state>\n <postal>98605</postal>\n </cntaddr>\n <cntvoice>509-538-2299</cntvoice>\n <cntfax>509-538-2843</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>This project was funded by the Bonneville Power Administration Technology Innovation group (contract number 59650) and in collaboration with Washington State University - Vancouver campus partners: Stephen Bollens and Gretchen Rollwagen-Bollens. This work also builds on an earlier effort by Portland State University Center for Lakes and Reservoirs, corresponding author Steve Wells. Glen Holmberg and Nancy Elder of the U.S. Geological Survey, Western Fisheries Research Center compiled a large portion of the data presented here. Tim Counihan also with the U.S. Geological Survey, Western Fisheries Research Center, was the project manager for this effort.</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.1 (Build 3143) Service Pack 1 (Build 10.1.1.3143)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>Data checks were performed to ensure that boat ramp locations were merged with the correct water body and water name associated with it\'s gps location. GPS locational information were checked for correct format and expected ranges. Data quality checks were performed throughout the process of merging new data to existing boat ramp data to ensure proper alignment with water bodies and data integrity.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details about the data set and individual attribute data. Data is limited to boat access points within the Columbia River Basin, in particular emphasis is placed on boater access points, primarily being the presence of a boat ramp. Thus, this data set does not include all water body access points. Missing data values are common throughout this data set as a result of no data being available for a particular attribute (i.e. information is not collected by any particular agency), data was not discovered or reported, or data simply does not exist. Data was collected as time and resources allowed for this project.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <title>Website reference</title>\n <geoform>Other</geoform>\n <onlink>http://www.parks.wa.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srccitea>Source Input 14</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <title>Website reference</title>\n <onlink>http://www.washingtonlakes.com/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srccitea>Source Input 12</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Beth Bear</origin>\n <pubdate>20130125</pubdate>\n <title>Wyoming Game and Fish Department boat access</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>Wyoming</pubplace>\n <publish>Wyoming Game and Fish Department</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130125</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 10</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Thomas Woolf</origin>\n <pubdate>20130124</pubdate>\n <title>Idaho Dept. of Parks and Recration boater access points</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Idaho</pubplace>\n <publish>Idaho Dept. of Parks and Recration</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130124</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>20130124</srccurr>\n </srctime>\n <srccitea>Source Input 8</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <pubdate>20130101</pubdate>\n <title>Website reference</title>\n <geoform>Vector Digital Data Set</geoform>\n <onlink>http://www.lat-long.com</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130101</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source Input 18</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <pubdate>20130101</pubdate>\n <title>Website reference</title>\n <onlink>http://geonames.usgs.gov</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130101</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source Input 17</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Washington Dept. of Fish and Wildlife</origin>\n <pubdate>20130101</pubdate>\n <title>Fishing Reports for Washington State</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>Washington</pubplace>\n <publish>Washington Dept. of Fish and Wildlife</publish>\n </pubinfo>\n <onlink>http://wdfw.wa.gov/fishing/washington/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20130101</begdate>\n <enddate>20130301</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source Input 15</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>LeClair, L., J. Schultz, A. Pleus, C. Klein, and B. Balcom</origin>\n <pubdate>20120201</pubdate>\n <title>Washington State Aquatic Invasive Species Prevention and Enforcement Program: Report to the Legislature</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>Olympia, WA</pubplace>\n <publish>Washington Department of Fish and Wildlife and Washington State Patrol</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20120201</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>201202</srccurr>\n </srctime>\n <srccitea>Source Input 6</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Randy Henry</origin>\n <pubdate>20090709</pubdate>\n <title>Oregon Triennial Survey Results 2008</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>Oregon</pubplace>\n <publish>Oregon State Marine Board</publish>\n </pubinfo>\n <onlink>http://www.oregon.gov/OSMB/library/docs/trisuv2008.pdf</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20090709</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 4</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Montana Fish and Wildlife and Parks</origin>\n <pubdate>20120101</pubdate>\n <title>Montana Statewide Angling Pressure 2011 Summary Report and Appendix A</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>Montana</pubplace>\n <publish>Montana Fish and Wildlife and Parks</publish>\n </pubinfo>\n <onlink>http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20120101</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 2</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Bob Euliss</origin>\n <pubdate>20130116</pubdate>\n <title>Washington State Boat access points</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Olympia, WA</pubplace>\n <publish>Washington Recreation and Conservation Office</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130116</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 7</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <title>Website reference</title>\n <geoform>Other</geoform>\n <onlink>http://wdfw.wa.gov/lands/water_access/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srccitea>Source Input 13</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Montana Fish, Wildlife and Parks</origin>\n <pubdate>20130124</pubdate>\n <title>Montana Fish, Wildlife and Parks, GIS data</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Montana</pubplace>\n <publish>Montana Fish, Wildlife and Parks</publish>\n </pubinfo>\n <onlink>http://fwp.mt.gov/doingBusiness/reference/gisData/dataDownload.html#Fisheries/Hydrography</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130124</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 9</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <pubdate>20130101</pubdate>\n <title>Website reference</title>\n <geoform>Other</geoform>\n <onlink>https://www.google.com/maps</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130101</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source Input 19</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Oregon State Marine Board</origin>\n <pubdate>20130101</pubdate>\n <title>Oregon State Marine Board - Access points</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>website</pubplace>\n <publish>Oregon State Marine Board</publish>\n </pubinfo>\n <onlink>http://www.oregon.gov/OSMB/Pages/access/access.aspx</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130101</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 5</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Idaho Dept. of Agriculture</origin>\n <pubdate>20120201</pubdate>\n <title>A Review of the State of Idaho Dreissenid Mussel Prevention and Contingency Plans</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>Idaho</pubplace>\n <publish>Idaho Department of Agriculture, Aquatic Ecosystem Restoration Foundation, Pacific States Marine Fisheries Commission</publish>\n </pubinfo>\n <onlink>http://www.aquatics.org/musselreport.pdf</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20120201</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 3</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Wells, S., T. D. Counihan, A. Puls, M. Sytsma, and B. Adair</origin>\n <pubdate>2011</pubdate>\n <title>Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>Portland, OR</pubplace>\n <publish>Center for Lakes and Reservoirs Publications</publish>\n </pubinfo>\n <onlink>http://pdxscholar.library.pdx.edu/centerforlakes_pub/10/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20100401</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 1</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <title>Website referenced</title>\n <geoform>Other</geoform>\n <onlink>http://www.latlong.net/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srccitea>Source Input 11</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <pubdate>20130101</pubdate>\n <title>Website reference</title>\n <geoform>Other</geoform>\n <onlink>https://data.oregon.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130101</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source Input 20</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Washington Dept. of Ecology</origin>\n <pubdate>20130101</pubdate>\n <title>Website reference</title>\n <geoform>Other</geoform>\n <pubinfo>\n <publish>Washington Dept. of Ecology</publish>\n </pubinfo>\n <onlink>http://www.ecy.wa.gov/programs/sea/sma/download/pdf/other_waterbodies.pdf</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20130101</begdate>\n <enddate>20130301</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>observed</srccurr>\n </srctime>\n <srccitea>Source Input 16</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Boater access points (gps locational data for boat ramps) were compiled through direct data calls to various agencies throughout the Columbia River Basin and through web searches and from past efforts by Wells et al. 2011. This data set consisted of a gps point, boat ramp location description, and water body name. Each boat ramp access point was assigned a standardized water body name and unique ID in order to merge associated risk assessment information with that water body from the various disparate sources. A standardization of water body names was developed by USGS personnel in order to maintain consistency of water body names as reported by different agencies. Also a unique ID had to be established due to the fact that many water bodies have the same name within and across states. Data associated with potential risk assessment for aquatic invasive species were also assigned a water body name and unique ID. The data sets were merged using SAS (SAS 9.3, \xc2\xa9 2002-2010 SAS Institute Inc.) by the unique ID and water body name. Data checks were perfomed each time a merge process was performed to ensure water body and risk assessment data were being properly matched. We did not obtain use or water quality information at the scale of the boat ramp, thus information associated with a boat ramp is at the water body scale, other than the location description. If a boat ramp location does not have any associated risk assessment attribute information these will have a \xe2\x80\x9c.\xe2\x80\x9d indicating missing values. The merged risk assessment data includes a reference locational gps point (Lat_ra and Long_ra) for the associated risk assessment attribute information. These are not necessarily the point of actual data collection (i.e. water quality measurements), but provide a reference for the water body location for mapping purposes. Attribute data associated with each water body was acquired from many different sources (see data source list), including direct from agencies (published and nonpublished data), publications, and web searches. These typically varied by state as to what recreation and use information was collected and reported, and results in many missing data values across the individual attributes for the entire data set (i.e. states that do not collect the same information). Additional water quality data (calcium concentration measurements and pH) and risk of introduction and risk of establishment categories were obtained from the Wells et al. 2011 publication as well as some past recreational use data for the individual states. Since many different data sources were used to compile the risk assessment attribute data, at times individual attribute data may have multiple values from different sources. In these cases the values that would indicate the highest potential for risk of establishment or introduction were reported, as in a \xe2\x80\x9cworst case scenario\xe2\x80\x9d. Data originators have documented to the best of their ability all of the disparate data sources used to compile the attribute information in the data sources list.</procdesc>\n <procdate>20150918</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>Entity point</sdtstype>\n <ptvctcnt>1603</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Boatramps_091815</enttypl>\n <enttypd>GPS points for boat access locations, imported as an x, y data set using the lat and long fields for boat ramp locations</enttypd>\n <enttypds>GPS coordinates (latitude and longitude) were compiled from a variety of sources, including state agencies and British Columbia provincial agencies</enttypds>\n </enttyp>\n <attr>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>Esri</attrdefs>\n </attr>\n <attr>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>Esri</attrdefs>\n </attr>\n <attr>\n <attrlabl>Water_Name</attrlabl>\n <attrdef>A naming convention for the larger water body containing or connected (as a source) to the water body for which the data is for.</attrdef>\n <attrdefs>The data source includes agencies in which data was collected, as well as USGS personnel, and a variety websites sources (geonames.usgs.gov, google maps) as listed in the overall data set description.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Water_Body</attrlabl>\n <attrdef>Standardized naming convention for the water body in which the data is associated with to be used to merge to other data using the common water body name and a unique ID incorporating the name.</attrdef>\n <attrdefs>Water body names came from agencies collecting information and USGS personnel standardizing across the agencies.</attrdefs>\n </attr>\n <attr>\n <attrlabl>County</attrlabl>\n <attrdef>Name of the county in which the water body is within. An individual water body can cross more than one county, so multiple counties may be listed. Additionally, in order to adhere to a unique ID a county name may be different than the associated GPS location if a water body crosses multiple counties and/or states.</attrdef>\n <attrdefs>County names were supplied by agencies collecting the data, or added to water body locations using a spatial merge process within ArcGIS using census data from 2010 for the county spatial layer (http://www.census.gov/geo/www/tiger).</attrdefs>\n </attr>\n <attr>\n <attrlabl>Countycode</attrlabl>\n <attrdef>A four letter code derived from the first four letters from the county associated with the water body. Some county codes may differ than the county which the GPS point may fall within if the water body crosses more than one county.</attrdef>\n <attrdefs>Naming convention of the first four letters from the county column or the standardized county code applied to that water body.</attrdefs>\n </attr>\n <attr>\n <attrlabl>ST_Provinc</attrlabl>\n <attrdef>A two letter abbreviation for the state or province (BC=British Columbia) in which the water body falls within. At times a waterbody will cross more than one state and will have two listed or just one for naming convention purposes.</attrdef>\n <attrdefs>Data source was from collecting agencies or USGS personnel.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Location</attrlabl>\n <attrdef>Description of boat ramp location where available.</attrdef>\n <attrdefs>Various sources from state, federal, provincial and local governing agencies.</attrdefs>\n </attr>\n <attr>\n <attrlabl>ID</attrlabl>\n <attrdef>A unique identifier code created for the water body. Unique ID was typically made up of the Water body_First four letters of the county name_state abbreviation. This was modified for water bodies that covered multiple states and counties to a simpler format, which may not include the county code and state abbreviation.</attrdef>\n <attrdefs>USGS personnel, data originators.</attrdefs>\n </attr>\n <attr>\n <attrlabl>lat</attrlabl>\n <attrdef>Latitude in decimal degrees WGS84 for the boat ramp location.</attrdef>\n <attrdefs>Obtained from various state, federal, provincial and local agencies and website listed in the data sources.</attrdefs>\n </attr>\n <attr>\n <attrlabl>lon</attrlabl>\n <attrdef>Longitude in decimal degrees WGS84 for the boat ramp location.</attrdef>\n <attrdefs>Obtained from various state, federal, provincial and local agencies and website listed in the data sources.</attrdefs>\n </attr>\n <attr>\n <attrlabl>CRB</attrlabl>\n <attrdef>Indicates whether the water body was inside the Columbia River Basin (CRB) by assigning a 1 to the record. For this data set only boat ramp locations within the CRB were included.</attrdef>\n <attrdefs>USGS personnel through a spatial merge with a Columbia River Basin shapefile.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Lat_ra</attrlabl>\n <attrdef>The latitude in decimal degrees WGS84 for a reference GPS point for the risk assessment data associated with the water body. This GPS point reference may or may not be the location where data was collected or the nearest location where data was collected or a reference location point assigned to the data collected.</attrdef>\n <attrdefs>Obtained from various state, federal, provincial and local agencies and website listed in the data source section.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Long_ra</attrlabl>\n <attrdef>The longitude in decimal degrees WGS84 for a reference GPS point for the risk assessment data associated with the water body. This GPS point reference may or may not be the location where data was collected or the nearest location where data was collected or a reference location point assigned to the data collected.</attrdef>\n <attrdefs>Obtained from various state, federal, provincial and local agencies and website listed in the data source section.</attrdefs>\n </attr>\n <attr>\n <attrlabl>mean_ca_mg</attrlabl>\n <attrdef>Mean calcium reported for the water body measured in mg/L.</attrdef>\n <attrdefs>Various sources, primarily Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52. http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>mean_pH_20</attrlabl>\n <attrdef>Mean pH value for water body as reported in Wells et al. 2011</attrdef>\n <attrdefs>Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>roe_2009</attrlabl>\n <attrdef>Risk of establishment categorical value assigned by Wells et al. 2011 based on Calcium levels. High > 25 mg/L, Medium > 15 - 25 mg/L, Low 12-15 mg/L, and Very Low < 12 mg/L</attrdef>\n <attrdefs>Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>roe_f_2009</attrlabl>\n <attrdef>flagged ("flag") data indicates only 1 Calcium value was used for the ranking category and not a mean value as reported by Wells et al. 2011.</attrdef>\n <attrdefs>Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>ramcharan0</attrlabl>\n <attrdef>Value assigned using mean values for dissolved CA and pH to predict presence/absence of Dreissenids mussels - Ramcharan et al. 1992 for methodology, reported in Wells et al. 2011.</attrdef>\n <attrdefs>Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>state_ass0</attrlabl>\n <attrdef>Value from States assigning a risk value to the water body obtained from the Wells et al. 2011.</attrdef>\n <attrdefs>Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>roi_1_2009</attrlabl>\n <attrdef>Rank (categorical) of introduction from Wells et al. 2011. Categories were assigned to different state metrics as follows: Oregon metric was day use days from triennial survey where Day use days represent any portion of a 24 hr period in which participants engaged in boating activity. Idaho metric was the number of tournaments from 2007 to 2009 on the water body. Montana was the total pressure (includes resident and non-resident pressure for angling from boat, shore, both (boat and shore) and ice fishing) on a water body. For Washington based on the 2007 Report on Washington State Parks and Recreation Commission survey question #43, on which bodies of water did you boat on in the past two years (multiple responses allowed). Ranking was performed on these indivdual metrics using quartiles as follows High > Q3, Medium > median - Q3, Low > Q1-Q3, Very Low 0-Q1.</attrdef>\n <attrdefs>Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>roi_2_2009</attrlabl>\n <attrdef>Rank (categorical) of introduction from Wells et al 2011. Categories were assigned to different state metrics as follows: Oregon metric was number of tournaments on a water body. Idaho was the total number of boats in tournaments on the water body. Montana was the non-resident pressure (includes non-resident pressure for angling from boat, shore, both (boat and shore) and ice fishing combined). Washington based on the 2007 Report on Washington State Parks and Recreation Commission survey question #68 On which body of water did you boat the most days in Washington in the past two years. Ranking was performed on these indivdual metrics using quartiles as follows High > Q3, Medium > median - Q3, Low > Q1-Q3, Very Low 0-Q1.</attrdef>\n <attrdefs>Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Roe_rank_2</attrlabl>\n <attrdef>Numerical ranking assigned to the Roe categorical ranking, Very low = 1, Low = 3, Medium=5, High=10</attrdef>\n <attrdefs>USGS Personnel using Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>roi_3_2009</attrlabl>\n <attrdef>Categorical ranking of risk of introduction-it is the highest value reported from either roi_1 and roi_2 as reported.</attrdef>\n <attrdefs>USGS Personnel using Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Roi_rank_2</attrlabl>\n <attrdef>Numerical ranking assigned from the categorical ranking of risk of introduction from Wells et al. 2011. Numerical ranking assigned as follows:Very low = 1, Low = 3, Medium=5, High=10.</attrdef>\n <attrdefs>USGS Personnel using Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Rank_sumAl</attrlabl>\n <attrdef>Sum of Roi_rank and Roe_Rank numerical values, missing values may be possible for either of the Roi or Roe rank values.</attrdef>\n <attrdefs>USGS Personnel using Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Rank_sum_2</attrlabl>\n <attrdef>Sum of the addition of Roi_rank and Roe_rank for water bodies where both values are present, otherwise "." if only one value was reported.</attrdef>\n <attrdefs>USGS Personnel using Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Trips2008</attrlabl>\n <attrdef>Trips represent the number of days leaving a residence to go boating during 2008, Oregon metric.</attrdef>\n <attrdefs>Oregon State Marine Board Triennial Survey Results 2008</attrdefs>\n </attr>\n <attr>\n <attrlabl>Trips2010</attrlabl>\n <attrdef>Trips represent number of days leaving a residence to go boating during 2010, Oregon metric</attrdef>\n <attrdefs>Oregon State Marine Board Triennial Survey Results 2010</attrdefs>\n </attr>\n <attr>\n <attrlabl>Mn_trips_0</attrlabl>\n <attrdef>The average number of days leaving a residence to go boating for 2008 and 2010 metrics combined, Oregon</attrdef>\n <attrdefs>USGS personnel and data sources obtained from Wells et al. 2011,Prioritizing Zebra and Quagga Mussel Monitoring in the Columbia River Basin. Prepared for Bonneville Power Administration and Pacific States Marine Fisheries Commission. BPA Contract Number: 00003373, TI Project Number: 52.http://pdxscholar.library.pdx.edu/centerforlakes_pub/10.</attrdefs>\n </attr>\n <attr>\n <attrlabl>DayUsedays</attrlabl>\n <attrdef>Represents the number of days in which any portion of a 24 hr period in which a participant engaged in boating activity in 2008, Oregon metric.</attrdef>\n <attrdefs>Oregon State Marine Board Triennial Survey Results 2008</attrdefs>\n </attr>\n <attr>\n <attrlabl>DayUseda_1</attrlabl>\n <attrdef>Represents the number of days in which any portion of a 24 hr period in which participant engaged in boating activity in 2010, Oregon metric.</attrdef>\n <attrdefs>Oregon State Marine Board Triennial Survey Results 2010</attrdefs>\n </attr>\n <attr>\n <attrlabl>Mn_dayuse_</attrlabl>\n <attrdef>The average day use days of 2008 and 2010 combined metrics, Oregon metric.</attrdef>\n <attrdefs>USGS personnel</attrdefs>\n </attr>\n <attr>\n <attrlabl>Size_Acres</attrlabl>\n <attrdef>Size data (surface value in acres) collected by USGS personnel from many internet references and state metric reports.</attrdef>\n <attrdefs>Obtained from various state, federal, provincial and local agencies and website listed in the data source section.</attrdefs>\n </attr>\n <attr>\n <attrlabl>No_boats_2</attrlabl>\n <attrdef>The number of participants divide by 2 for tournaments in 2012, this is a surrogate for the number of boats participating. Idaho metric.</attrdef>\n <attrdefs>Idaho Department of Fish and Game</attrdefs>\n </attr>\n <attr>\n <attrlabl>No_Tourns_</attrlabl>\n <attrdef>The number of tournaments during 2012, summarized from reported tournament results. Idaho metric.</attrdef>\n <attrdefs>Idaho Department of Fish and Game</attrdefs>\n </attr>\n <attr>\n <attrlabl>No_Tourns1</attrlabl>\n <attrdef>Number of registered angling tournaments for 2006, 2007 and 2008 for the water body. Ranged from 0 to 101. Idaho metric.</attrdef>\n <attrdefs>Idaho Department of Fish and Wildlife</attrdefs>\n </attr>\n <attr>\n <attrlabl>No_boats_3</attrlabl>\n <attrdef>Number of boats participating in all tournaments during 2006, 2007 and 2008. Idaho metric.</attrdef>\n <attrdefs>Idaho Department of Fish and Wildlife</attrdefs>\n </attr>\n <attr>\n <attrlabl>Dayuse_100</attrlabl>\n <attrdef>100th meridian count of day use days, 1-29. 100th Meridian Initiative Boater surveys. Tallies collected from questions that asked last three places you boated, and name the next three places you plan on boating. Idaho metric.</attrdef>\n <attrdefs>100th Meridian Initiative Boater surveys</attrdefs>\n </attr>\n <attr>\n <attrlabl>No_ramps</attrlabl>\n <attrdef>Number of boat ramps per water body determined using shapefile generated from Idaho Boating Facilities Guide 1998 and from WA state metrics.</attrdef>\n <attrdefs>Washington Dept. of Fish and Wildlife and Idaho Boating Facilities Guide 1998 and Google earth satellite imagery.</attrdefs>\n </attr>\n <attr>\n <attrlabl>CaMax_ISDA</attrlabl>\n <attrdef>Calcium data (mg/L) from ISDA 2011 for the water body. Idaho metric.</attrdef>\n <attrdefs>Idaho State Department of Agriculture 2011</attrdefs>\n </attr>\n <attr>\n <attrlabl>ISDA2011_R</attrlabl>\n <attrdef>Priority ranking supplied by ISDA for 2014 early detection and monitoring efforts, data from 2011 report and ranking methodology. Idaho metric.</attrdef>\n <attrdefs>Idaho State Department of Agriculture 2011</attrdefs>\n </attr>\n <attr>\n <attrlabl>Elevation_</attrlabl>\n <attrdef>Elevation of water body in feet. From many of the states (WA, MT, and other resources).</attrdef>\n <attrdefs>Obtained from various state, federal, provincial and local agencies and website listed in the item description.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Motors</attrlabl>\n <attrdef>1= motors allowed. 0 = no motors allowed. WA metric.</attrdef>\n <attrdefs>Obtained from various Washington websites listed in the data sources description.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Fishing</attrlabl>\n <attrdef>1= fishing allowed. 0 = means no fishing allowed. WA metric.</attrdef>\n <attrdefs>Obtained from various Washington websites listed in the data sources description.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Marinas</attrlabl>\n <attrdef>Number of marinas on water body. WA metric.</attrdef>\n <attrdefs>Obtained from various Washington websites listed in the data sources description.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Cold</attrlabl>\n <attrdef>1 = cold water fish species present. 0 = no cold water fish species present. WA metric.</attrdef>\n <attrdefs>Obtained from various Washington websites listed in the data sources description.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Warm</attrlabl>\n <attrdef>1 = warm water species present. 0 = no warm water species present. WA metric.</attrdef>\n <attrdefs>Obtained from various Washington websites listed in the data sources description.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Reports</attrlabl>\n <attrdef>Number of fishing reports submitted on a waterbody on http://www.washingtonlakes.com/ . For this report individual fishing reports were collected for the period of 1/1/2010 to 12/31/2013 for lakes and rivers where boats were used. A fishing report was counted if the angler reported the methods \xe2\x80\x98Bottom Fishing From Boat\xe2\x80\x99 or \xe2\x80\x98Top Fishing From Boat\xe2\x80\x99. If the angler reported the methods \xe2\x80\x98Trolling\xe2\x80\x99, \xe2\x80\x98Other\xe2\x80\x99 or failed to report any fishing method, the narrative of the report was read to see if a boat was used. For each lake and river in Washington State the number of boater fishing reports were tallied. WA metric.</attrdef>\n <attrdefs>http://www.washingtonlakes.com accessed February 2014.</attrdefs>\n </attr>\n <attr>\n <attrlabl>USERS</attrlabl>\n <attrdef>Number of individual anglers submitting fishing report on on a waterbody at http://www.washingtonlakes.com/ . For this report individual fishing reports were collected for the period of 1/1/2010 to 12/31/2013 for lakes and rivers where boats were used. A fishing report was counted if the angler reported the methods \xe2\x80\x98Bottom Fishing From Boat\xe2\x80\x99 or \xe2\x80\x98Top Fishing From Boat\xe2\x80\x99. If the angler reported the methods \xe2\x80\x98Trolling\xe2\x80\x99, \xe2\x80\x98Other\xe2\x80\x99 or failed to report any fishing method, the narrative of the report was read to see if a boat was used. In those cases where it was clear that a boat was used these reports were also entered. For each lake and river in Washington State the number of boater fishing reports were tallied as well as the individual fishermen (USER) who wrote the reports. In many cases one USER would report on the same waterbody about fishing trips that occurred on different dates. WA metric.</attrdef>\n <attrdefs>http://www.washingtonlakes.com accessed February 2014.</attrdefs>\n </attr>\n <attr>\n <attrlabl>MT_Stream_</attrlabl>\n <attrdef>Alternate stream names for MT, as supplied by MFWP personnel. MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Length_Mil</attrlabl>\n <attrdef>Length of stream or section of stream in miles. MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Drainage</attrlabl>\n <attrdef>Major river drainage in which the water body is located. MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Region</attrlabl>\n <attrdef>Montana Fish, Wildlife and Park region (7 regions). MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Boat</attrlabl>\n <attrdef>Indicates angling pressure was either by boat or by both boat and shore, by a value = 1. MT metric. Entered by USGS personnel.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Total_Pres</attrlabl>\n <attrdef>Angling pressure for an individual water by the number of residency types (both resident and nonresident). Angling can be by boat, shore, both or ice fishing. MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>TotPressur</attrlabl>\n <attrdef>Error statistic calculated by MFWP. There is a formula on page 9 of their summary report. Montana Statewide Angling Pressure 2011 Report Summary.pdf. MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Total_Trip</attrlabl>\n <attrdef>Number of trips to a waterbody, 1 trip = 1 visit.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Resident_P</attrlabl>\n <attrdef>Angling pressure for an individual water body by the number of Montana resident anglers</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Res_Pressu</attrlabl>\n <attrdef>Error statistic calculated by MFWP. There is a formula on page 9 of their summary report. Montana Statewide Angling Pressure 2011 Report Summary.pdf</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Res_Trips</attrlabl>\n <attrdef>Number of trips to a water body by MT resident anglers. 1 trip = 1 visit.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Nonresiden</attrlabl>\n <attrdef>Angling pressure for an individual water body by the number of non-resident anglers. MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Nonres_Pre</attrlabl>\n <attrdef>Error statistic calculated by MFWP. There is a formula on page 9 of their summary report. Montana Statewide Angling Pressure 2011 Report Summary.pdf</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>NonRes_Tri</attrlabl>\n <attrdef>Number of trips to a water body by non-resident anglers. 1 trip = 1 visit to the waterbody. MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>State_Rank</attrlabl>\n <attrdef>State Rank from Montana Report. No explanation was found in the Montana Statewide Angling Pressure 2011 Report Summary.pdf to indicate how these were done. MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n <attr>\n <attrlabl>Regional_R</attrlabl>\n <attrdef>Regional Rank from MT Report. No explanation was found in the Montana Statewide Angling Pressure 2011 Report Summary.pdf to indicate how these were done. MT metric.</attrdef>\n <attrdefs>Montana State Fish, Wildlife and Parks 2011 Angling Pressure Report,http://fwp.mt.gov/fishing/anglingData/anglingPressureSurveys/2011.html.</attrdefs>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Although this information product, for the most part, is in the public domain, it also contains copyrighted materials as noted in the text. Permission to reproduce copyrighted items must be secured from the copyright owner whenever applicable. The data have been approved for release and publication by the U.S. Geological Survey (USGS). Although the data have been subjected to rigorous review and are substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the data are released on the condition that neither the USGS nor the U.S. Government may be held liable for any damages resulting from authorized or unauthorized use. Although the data have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the display or utility of the data on any other system, or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The U.S. Geological Survey shall not be held liable for improper or incorrect use of the data described and/or contained herein.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Vector Digital Data Set (Point)</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F71N7Z6D</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200830</metd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>USGS</cntorg>\n <cntper>Jill Hardiman</cntper>\n </cntorgp>\n <cntpos>Fishery Biologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>5501a Cook Underwood Rd</address>\n <city>Cook</city>\n <state>WA</state>\n <postal>98605</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>509-538-2299 x201</cntvoice>\n <cntfax>509-538-2843</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <mettc>local time</mettc>\n <metuc>Although these data and information have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the accuracy or utility of the data and information on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. This disclaimer applies both to individual use of the data and information, and aggregate use with other data and information. The USGS shall not be held liable for improper or incorrect use of the data and information described and/or contained herein.</metuc>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2016-12-13Start Date1999-01-01End Date2014-06-02
## Citation
Work, T.M., Moeller, P.D.R., Beauchesne. K.R., Dagenais, J., Breeden, R., Rameyer, R., Walsh, W.J., Abecassis, M., Kobayashi, D.R., Conway, C., and Winton, J., 2016, Puffer mortality data: U.S. Geological Survey, https://doi.org/10.5066/F7SQ8XM8.
## Summary
In 2010, a mass mortality of pufferfish in Hawaii was dominated by Arothron hispidus showing aberrant neurological behaviors. Using pathology, toxinology, and field surveys, we implicated a series of novel, polar, marine toxins as a likely cause of this mass mortality. Our findings are striking in that 1) a marine toxin was associated with a kill of a fish species that is, itself, toxic; 2) we provide a plausible mechanism to explain clinical signs of affected fish, and 3) this epizootic likely depleted puffer populations. Whilst our data are compelling, we did not synthesize the toxin de-novo, we were unable to categorically prove that the polar toxins caused mortality or that they were metabolites of an undefined parent compound. \[...\]
## Summary
In 2010, a mass mortality of pufferfish in Hawaii was dominated by Arothron hispidus showing aberrant neurological behaviors. Using pathology, toxinology, and field surveys, we implicated a series of novel, polar, marine toxins as a likely cause of this mass mortality. Our findings are striking in that 1) a marine toxin was associated with a kill of a fish species that is, itself, toxic; 2) we provide a plausible mechanism to explain clinical signs of affected fish, and 3) this epizootic likely depleted puffer populations. Whilst our data are compelling, we did not synthesize the toxin de-novo, we were unable to categorically prove that the polar toxins caused mortality or that they were metabolites of an undefined parent compound. However, our approach does provides a template for marine fish kill investigations associated with marine toxins and inherent limitations of existing methods. Our study also highlights the need for more rapid and cost-effective tools to identify new marine toxins, particularly small, highly polar molecules.
## Contacts
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:
[Thierry M Work](/catalog/catalogParty/show?partyId=11462)
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:
[Thierry M Work](/catalog/catalogParty/show?partyId=11462),
[Peter D. R. Moeller](/catalog/catalogParty/show?partyId=Peter+D.+R.+Moeller),
[Kevin R. Beauchesne](/catalog/catalogParty/show?partyId=Kevin+R.+Beauchesne),
[Julie Dagenais](/catalog/catalogParty/show?partyId=2272),
[Renee L Breeden](/catalog/catalogParty/show?partyId=2882),
[Robert A Rameyer](/catalog/catalogParty/show?partyId=8395),
[William J. Walsh](/catalog/catalogParty/show?partyId=William+J.+Walsh),
[Melanie Abecassis](/catalog/catalogParty/show?partyId=Melanie+Abecassis),
[Donald R Kobayashi](/catalog/catalogParty/show?partyId=Donald+R+Kobayashi),
[Carla M Conway](/catalog/catalogParty/show?partyId=2031),
[James R Winton](/catalog/catalogParty/show?partyId=11365)
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| Puffer\_Mortality\_Data.xml<br>_Original FGDC Metadata_ | View | 41.01 KB | application/fgdc+xml |
| BodyCondition.csv | | 2.58 KB | text/csv |
| EpidemicCurve.csv | | 5.46 KB | text/csv |
| MapData.csv | | 2.91 KB | text/csv |
| Pufferdata.csv | | 6.84 KB | text/csv |
| TableS2.csv | | 4.07 KB | text/csv |
| TableS3.csv | | 4.73 KB | text/csv |
| TableS4.csv | | 34.37 KB | text/csv |
## Related External Resources
Type: Related Primary Publication
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| --- | --- |
| Work, T., Moeller, P., Beauchesne, K., Dagenais, J., Breeden, R., Rameyer, R., Walsh, W., Abecassis, M., Kobayashi, D., Conway, C., and Winton, J., 2017, Pufferfish mortality associated with novel polar marine toxins in Hawaii: Diseases of Aquatic Organisms, v. 123, no. 2, p. 87–99, https://doi.org/10.3354/dao03096. | [https://doi.org/10.3354/dao03096](https://doi.org/10.3354/dao03096 "https://doi.org/10.3354/dao03096") |
## Purpose
Description of systematic approach to investigate puffer fish die off attributed to natural marine toxin. Pursuant to latest USGS requirements for metadata release for all data on published MS. These are data to replicate figures and tables in manuscript published in Diseases of Aquatic Organisms."
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Thierry M. Work</origin>\n <origin>Peter D. R. Moeller</origin>\n <origin>Kevin R. Beauchesne</origin>\n <origin>Julie Dagenais</origin>\n <origin>Renee Breeden</origin>\n <origin>Robert Rameyer</origin>\n <origin>William J. Walsh</origin>\n <origin>Melanie Abecassis</origin>\n <origin>Donald R Kobayashi</origin>\n <origin>Carla Conway</origin>\n <origin>James Winton</origin>\n <pubdate>20161213</pubdate>\n <title>Puffer Mortality Data</title>\n <geoform>Tabular Digital Data</geoform>\n <pubinfo>\n <pubplace>Online</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7SQ8XM8</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Thierry M. Work</origin>\n <origin>Peter D. R. Moeller</origin>\n <origin>Kevin R. Beauchesne</origin>\n <origin>Julie Dagenais</origin>\n <origin>Renee Breeden</origin>\n <origin>Robert Rameyer</origin>\n <origin>William J. Walsh</origin>\n <origin>Melanie Abecassis</origin>\n <origin>Donald R Kobayashi</origin>\n <origin>Carla Conway</origin>\n <origin>James Winton</origin>\n <pubdate>20161213</pubdate>\n <title>Pufferfish mortality associated with novel polar marine toxins in Hawaii</title>\n <edition>123</edition>\n <geoform>Publication (Journal)</geoform>\n <serinfo>\n <sername>Diseases of Aquatic Organisms</sername>\n <issue>vol 123 Number 2</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>Inter-Research</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3354/dao03096</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>In 2010, a mass mortality of pufferfish in Hawaii was dominated by Arothron hispidus showing aberrant neurological behaviors. Using pathology, toxinology, and field surveys, we implicated a series of novel, polar, marine toxins as a likely cause of this mass mortality. Our findings are striking in that 1) a marine toxin was associated with a kill of a fish species that is, itself, toxic; 2) we provide a plausible mechanism to explain clinical signs of affected fish, and 3) this epizootic likely depleted puffer populations. Whilst our data are compelling, we did not synthesize the toxin de-novo, we were unable to categorically prove that the polar toxins caused mortality or that they were metabolites of an undefined parent compound. However, our approach does provides a template for marine fish kill investigations associated with marine toxins and inherent limitations of existing methods. Our study also highlights the need for more rapid and cost-effective tools to identify new marine toxins, particularly small, highly polar molecules.</abstract>\n <purpose>Description of systematic approach to investigate puffer fish die off attributed to natural marine toxin. Pursuant to latest USGS requirements for metadata release for all data on published MS. These are data to replicate figures and tables in manuscript published in Diseases of Aquatic Organisms."</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>19990101</begdate>\n <enddate>20140602</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-176.57226562163</westbc>\n <eastbc>-150.20507812268</eastbc>\n <northbc>28.805790119802</northbc>\n <southbc>17.098374046212</southbc>\n </bounding>\n <descgeog>Hawaiian Islands</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>mortality data</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>Dereplication</themekey>\n <themekey>tetraodontidae</themekey>\n <themekey>toxinology</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>pathology</themekey>\n <themekey>virology</themekey>\n </theme>\n <theme>\n <themekt>Marine Realms Information Bank (MRIB) keywords</themekt>\n <themekey>pathology</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:58b44cdbe4b01ccd54fca839</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Hawaii</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Thierry M. Work</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>300 Ala Moana Blvd</address>\n <city>Honolulu</city>\n <state>HI</state>\n <postal>96850</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>808-792-9520</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Peter D. R. Moeller, Kevin R. Beauchesne, Melanie Abecassis, Donald R Kobayashi (NOAA); William J. Walsh (Hawaii Department of Land & Natural Resources) ; Carla Conway, James Winton (USGS).</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.4.1 (Build 5686) Service Pack N/A (Build N/A)</native>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Fishes</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2017</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <idref>\n <citeinfo>\n <origin>Randall, J.E.</origin>\n <pubdate>2010</pubdate>\n <title>Shore Fishes of Hawaii: Revised Edition</title>\n <geoform>Tabular Digital Data</geoform>\n <pubinfo>\n <pubplace>Honolulu, Hawaii</pubplace>\n <publish>Latitude 20 Books</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Thierry Work</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>PO Box 50187</address>\n <city>Honolulu</city>\n <state>HI</state>\n <postal>96850</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>808 792-9520</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>expert advice</taxonpro>\n <taxoncom>Visual identification by experts</taxoncom>\n <vouchers>\n <specimen>tissue samples</specimen>\n <reposit>\n <cntinfo>\n <cntperp>\n <cntper>Thierry Work</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>PO Box 50187</address>\n <city>Honolulu</city>\n <state>HI</state>\n <postal>96850</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>808 792-9520</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </reposit>\n </vouchers>\n </taxonsys>\n <taxongen>Pufferfish were sampled</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Osteichthyes</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Actinopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Neopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Infraclass</taxonrn>\n <taxonrv>Teleostei</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Acanthopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Tetraodontiformes</taxonrv>\n <taxoncl>\n <taxonrn>Suborder</taxonrn>\n <taxonrv>Tetraodontoidei</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Tetraodontidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Tetraodontinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Arothron</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Arothron hispidus</taxonrv>\n <common>poison puffer</common>\n <common>botete panza rayada</common>\n <common>stripebelly puffer</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Osteichthyes</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Actinopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Neopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Infraclass</taxonrn>\n <taxonrv>Teleostei</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Acanthopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Tetraodontiformes</taxonrv>\n <taxoncl>\n <taxonrn>Suborder</taxonrn>\n <taxonrv>Tetraodontoidei</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Tetraodontidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Tetraodontinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Arothron</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Arothron meleagris</taxonrv>\n <common>botete aletas punteadas</common>\n <common>guineafowl puffer</common>\n <common>\'opu hue</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Osteichthyes</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Actinopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Neopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Infraclass</taxonrn>\n <taxonrv>Teleostei</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Acanthopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Tetraodontiformes</taxonrv>\n <taxoncl>\n <taxonrn>Suborder</taxonrn>\n <taxonrv>Tetraodontoidei</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Diodontidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Diodon</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Diodon hystrix</taxonrv>\n <common>porcupinefish</common>\n <common>puerco esp\xc3\xadn</common>\n <common>pez erizo pecoso</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n <tool>\n <tooldesc>All statistical analysis was completed using the R software.</tooldesc>\n <toolacc>\n <onlink>http://www.R-project.org</onlink>\n <toolinst>download from URL</toolinst>\n </toolacc>\n <toolcont>\n <cntinfo>\n <cntperp>\n <cntper>Thierry M. Work</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>PO Box 50187</address>\n <city>Honolulu</city>\n <state>HI</state>\n <postal>96850</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>808 792-9520</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </toolcont>\n <toolcite>\n <citeinfo>\n <origin>R Development Core Team</origin>\n <pubdate>2008</pubdate>\n <title>A language and environment for statistical computing. R Foundation for Statistical Computing</title>\n <geoform>software</geoform>\n </citeinfo>\n </toolcite>\n </tool>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Spot checking, plotting for outliers</attraccr>\n </attracc>\n <logic>Used excel macros to check for duplicates/deletions.</logic>\n <complete>Complete but only included A. hispidus for detailed analyses.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>To document the geographic and temporal extent of the mortality, we called out to the public to report sick or moribund fish and kept a log of phone or email reports. Moribund fish from neighbor islands (Maui, Kauai, Maui, Molokai, and the island of Hawaii) were shipped on ice by air freight to Honolulu, Hawaii, for examination the following day.</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>To assess potential demographic effects of the mortality, count data for puffer fish were obtained from long-term survey data collected for the West Hawaii Aquarium Project (Williams et al. 2009). Since 1999, this project has systematically surveyed the same 23 sites on the west coast of the island of Hawaii four to six times per year and thus has the most complete long term demographic data for reef fish in the Hawaiian Islands.</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>Necropsies were done on 125 moribund puffers including 120 A. hispidus, two D. hystrix, two A. meleagris, and one Canthigaster jactator to determine cause of death and were limited to moribund fish to minimize post-mortem artifacts on histopathology secondary to decomposition (Wolf et al. 2015). Moribund fish from Oahu were humanely euthanized with an overdose of tricaine methanesulfonate (MS222). Fish were weighed (nearest 0.1g), measured (fork length to nearest 0.1 cm) and given a complete external and internal exam. A subset of fish was bled, and blood smears made and stained with Wright\xe2\x80\x99s stain for microscopic examination. Terminology for the description of red cell morphology followed that described elsewhere (Jain 1986). Representative tissues including skin, skeletal muscle, brain, eye, gas bladder, liver, gonad, spleen, cranial and caudal kidney, and gastrointestinal tract were collected and 1-2 random slices from each organ were fixed in 10% neutral buffered formalin, embedded in paraffin, sectioned at 5 \xc2\xb5m, and stained with hematoxylin & eosin. All tissue sections collected in formalin were examined on light microscopy. Separately, the same set of organs were frozen (-20\xc2\xb0C). Gender was determined by examination of gonads grossly or on histology. When available, stomach contents were grossly classified as coral, crustacea, coralline algae, or unknown.</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>For virus isolation attempts, kidney from A. hispidus collected on four sampling dates were frozen and shipped on dry ice to the USGS Western Fisheries Research Center, Seattle, WA. Tissues were thawed, homogenized, clarified and 100 \xc2\xb5L aliquots inoculated onto 25 cm2 flasks containing monolayer cultures of the following fish cell lines: Chinook Salmon embryo (CHSE-214; ATCC CRL-1681), Rainbow Trout gonad (RTG-2; ATCC CCL-65), Bluegill fry (BF-2; ATCC CCL-91), Brown Bullhead (BB; ATCC CCL-59), Fathead Minnow (FHM; ATCC CCL-42), and Epithelioma papulosum cyprini \xe2\x80\x93 (EPC;ATCC CRL-2872). Additionally, gill, swim bladder, and kidney homogenates were inoculated on Green Turtle embryo fibroblasts (Moore et al. 1997) and Terrapin heart cells (ATCC CCL-50) at the USGS National Wildlife Health Center, Honolulu Field Station, Honolulu, HI. Cells were incubated at 30\xc2\xbaC, observed for cytopathic effect (CPE) for 21 days, passed, and observed for an additional 14 days. Liver, kidney, gill and optic nerve tissues from two additional puffers were placed in RNAlater\xc2\xae and shipped to the Western Fisheries Research Center. Total RNA was extracted, pooled, and used as template in a RT-PCR assay for nervous necrosis virus (World Health Organization 2006).</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>For electron microscopy to detect viruses, samples of liver and gills from two normal and three diseased A. hispidus were fixed in Trumps fixative (McDowell & Trump 1976), rinsed in 0.1 M Sorenson\xe2\x80\x99s phosphate buffer (pH 7.40), post-fixed in 1% osmium tetroxide then stained en bloc with 1% aqueous uranyl acetate. Ultrathin (80-90 nm) epoxy resin-embedded tissues were transferred to copper grids, stained with 2% aqueous uranyl acetate followed by 0.4% lead citrate, then sent to the University of Montana on-line electron microscopy facility where they were examined using a Hitachi H-7100 transmission electron microscope via the PCI Collaboration Microscopy System.</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>To identify potential marine toxins associated with this mortality, livers from freshly dead puffers were frozen (-20C) and shipped on dry ice (-70C) to the Emerging Toxins program located in the Hollings Marine Laboratory, Charleston SC. Livers from three A. hispidus collected from Palmyra Atoll, a region in the equatorial North Pacific where no unusual mortalities of fish were observed served as controls. Livers were pulverized in a cryomill (-80\xc2\xbaC) prior to lyophilization. The residual powder generated for each individual liver was taken through an eluotropic extraction process with solvents of increasing polarity in the following order: hexanes, ethyl acetate (EtOAc), methanol (MeOH), and water (H2O). Cell lines reporting ion channel blocking activity were used to test extracts (Pierce & Kirkpatrick 2001). Four uL extract were inoculated on a Neuro 2A (mouse neuronal) cell line, a GH4C1 (rat pituitary) cell line and a MCF7 (human breast cancer cell line) to assess activity. As the bioactive components shared the same mass spectral fingerprinting, all active aqueous and methanolic extracts were combined, reduced in volume under dry nitrogen using a turbo-evaporator.</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>High pressure liquid chromatography (HPLC) purifications were carried out on an Agilent 1100 model HPLC equipped with photo-diode array and fraction collector. The deeply colored dark brown/orange residual material from the bioactive extracts was readily soluble in 2 ml water. This solution was syringe filtered through a Millipore high performance filter (HPF) Milex-HV glass fiber 0.45um filter prior to injection (25 \xc2\xb5L) into the HPLC mounted with two end-to-end coupled 250 X 4.6 mm columns packed with Luna C18 reverse phase media (3\xc2\xb5m) used in efforts to maximize resolution. Chromatography was carried out at 35\xc2\xbaC at a flow rate of 0.4 ml/min with real time PDA monitoring at 190-400 nm and fractions collected each minute for a total of 60 min with a 20 minute recondition time. H2O + 0.1 % Formic acid (A) was used as the loading solvent, followed by an elution scheme using acetonitrile (ACN)+ 0.1% Formic acid (B)with the following protocol: Hold A (99%) + B (1%) for 5 min followed by a linear gradient over the remaining 55 min to 99% B . Fractions were collected at one minute intervals.</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>Fractions were assayed against Neuro 2A cells, with active fractions again combined, filtered as above, and dried. The sample was re-solubilized in 2 ml H2O, and 50 \xc2\xb5L was loaded onto two coupled Atlantis T3 columns designed for use with highly polar analytes. Purifications were operated at 45C at 1 ml/min with real time monitoring at 210 and 254 nm and 1 min fractions collected; stop time: 65 min with 20 minute recondition time. Loading solvent was H2O (A) and elution solvent was ACN (B) with the following protocol: Hold B (100%) 6 min followed by a linear gradient to the endpoint A (65%) B(35%) over 54 minutes, and this final concentration held for 5 minutes to ensure complete elution of chemical analytes. Active fractions were combined, taken to dryness under a stream of dry N2 gas and then lyophilized for 24 hours prior to structural analysis.</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>Nuclear magnetic resonance (NMR) was done on a Bruker DMX 500 and a Bruker 800 MHz instrument equipped with a cryoprobe optimized for 1H and 13C. Mass spectrometry was carried out using the following: Agilent 1100 Purification Series LC/MSD, WATERS HPLC system (WATERS 2767 Sample Manager), 1525 Binary Pump, 510 pump, WATERS 2996 PDA, and a WATERS ZQ Single Quadrupole Mass Detector</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>To explore potential environmental drivers of this epizootic, we analyzed satellite-derived weekly sea surface temperature (SST) data from NOAA\xe2\x80\x99s Geo-Polar blended 5-km product, and chlorophyll a (Chl a) data from NASA\xe2\x80\x99s MODIS Aqua between 2002 and 2015. Both data sets were regridded to a 0.05\xc2\xba resolution and are available from NOAA Ocean Watch http://oceanwatch.pifsc.noaa.gov/thredds/ncss/. We used MODIS Aqua data from the latest NASA reprocessing (June 2015). High resolution (3.7 km) base bathymetry (Smith Sandwell) was interpolated to lower resolution SST or Chl a grids. Pixels deeper than 1000 m were masked to examine nearshore oceanographic conditions for the main Hawaiian Islands. The 1000 m is obviously excessive with respect to delineating puffer habitat, but was a necessary compromise given the spatial resolution of the data products and the steep bathymetry near many shorelines in the main Hawaiian Islands. Mean annual SST and Chl a were plotted as was mean SST and Chl a by month for each year and plots were examined for patterns particular to the outbreak period (June-October 2010).</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <procstep>\n <procdesc>Length of males versus females was compared using t-test after checking for equal variance. Body condition index (BCI) was calculated as weight/fork length3 (Le Cren 1951) and used as an index of nutritional condition. To compare BCI of fish from this epizootic to apparently normal puffers, we plugged in the length of Hawaii puffers to a linear equation relating length and weight of apparently normal A. hispidus in New Caledonia (Letourneur et al. 1998). Mean BCI calculated from the two formulas was then compared with a t-test. To identify the compounds identified on toxinology, we searched available literature along with the following online databases: ChemSpider, PubChem, and CAS/SciFinder (Gaudencio & Pereira 2015). We also looked at back issues of Natural Product Reports, a journal dedicated to compiling annual lists of newly discovered marine toxins from 2000 to 2015. Oceanographic analyses and statistical analyses were done with R (R Development Core Team 2011)</procdesc>\n <procdate>20151212</procdate>\n </procstep>\n <method>\n <methtype>both</methtype>\n <methdesc>We evaluated clinical signs, spatial and temporal distribution, pathology, toxinology, and potential demographic effects associated with an unusual mortality event limited to mainly stripebelly puffers Arothron hispidus with a minority of spotted puffers A. meleagris and porcupine fish Diodon hystrix occurred throughout the Hawaiian Islands, to show that a suite of heretofore un-described polar marine toxins were the likely cause.</methdesc>\n </method>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Body Condition Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Hawaii</attrlabl>\n <attrdef>Body condition index (Fork length/weight^3) for Hawaii puffers</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.009496586</rdommin>\n <rdommax>0.044647147</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>New_Caledonia</attrlabl>\n <attrdef>Body condition index (Fork length/weight^3) New Caledonia puffers</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.019151</rdommin>\n <rdommax>0.027122</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Epidemic Curve Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>observation date</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2/7/2010</rdommin>\n <rdommax>12/28/2011</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Observation</attrlabl>\n <attrdef>Data for animal necropsied or observed stranded</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Necropsied</edomv>\n <edomvd>animals necropsied</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Observed</edomv>\n <edomvd>animals observed stranded</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Location Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>Latitude of pufferfish sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>19.42535</rdommin>\n <rdommax>22.22321</rdommax>\n <attrunit>degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>Longitude of pufferfish sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-159.591361</rdommin>\n <rdommax>-154.798737</rdommax>\n <attrunit>degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Status</attrlabl>\n <attrdef>whether observation is necropsy or observed stranded whether observation is necropsy or observed stranded</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Necropsy</edomv>\n <edomvd>observation is necropsy</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Observe</edomv>\n <edomvd>observed stranded</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pufferfish data Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>DateCollected</attrlabl>\n <attrdef>Date pufferfish Collected</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6/18/2010</rdommin>\n <rdommax>6/2/2014</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CaseNumber</attrlabl>\n <attrdef>Case Number of pufferfish sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Internal Case Number of pufferfish sample</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sex</attrlabl>\n <attrdef>Sex of pufferfish</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Female</edomv>\n <edomvd>Female pufferfish</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Male</edomv>\n <edomvd>Male pufferfish</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Unknown</edomv>\n <edomvd>Unknown sex of pufferfish</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Location</attrlabl>\n <attrdef>place where pufferfish was collected</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>place where fish collected</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Island</attrlabl>\n <attrdef>Island where pufferfish was collected</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Island where pufferfish was collected</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ForkLength__cm_</attrlabl>\n <attrdef>Snout to tail fork length</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6.3</rdommin>\n <rdommax>64.8</rdommax>\n <attrunit>cm</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Weight_g_</attrlabl>\n <attrdef>Carcass weight</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>6.93</rdommin>\n <rdommax>6800</rdommax>\n <attrunit>g</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Lesion Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Organ_Lesion</attrlabl>\n <attrdef>Organ/Lesion</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>organ examined histologically</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Number_of_Tissues</attrlabl>\n <attrdef>Number of Tissue samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>291</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Organ system Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Organ_system</attrlabl>\n <attrdef>Organ System sampled</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Organ System</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Number</attrlabl>\n <attrdef>Number of fish examined with lesion in organ system</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>112</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Percent</attrlabl>\n <attrdef>Percent of fish examined with lesions in organ system</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2</rdommin>\n <rdommax>93</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20201020</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Thierry M Work</cntper>\n <cntorg>U.S. Geological Survey, Midwest Region</cntorg>\n </cntperp>\n <cntpos>Veterinary Medical Officer</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>300 Ala Moana Blvd</address>\n <city>Honolulu</city>\n <state>HI</state>\n <postal>96850</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>808-792-9520</cntvoice>\n <cntfax>808-792-9596</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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3. [Monthly Water Balance Model Futures](/catalog/item/55fc3f98e4b05d6c4e5029a1)
4. [Do downscaled general circulation models reliably simulate historical climatic conditions?](/catalog/folder/5b049666e4b0d8682b96368b)
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## Dates
Publication Date2018-05-30Start Date1950-01-01End Date2005-12-31
## Citation
Bock, A.R., Hay, L.E., Markstrom, S.L., and Atkinson, R.D., 2016, Monthly Water Balance Model Futures (ver. 4.0, January 2024): U.S. Geological Survey data release, https://doi.org/10.5066/F7VD6WJQ.
## Summary
This dataset includes nine files (in comma-separated value format \[.csv\]) which contain metrics that are described in the Bock and others 2018 Earth Interactions article “Do downscaled general circulation models reliably simulate historical climatic conditions?” Three files contain p-values from the two-sided Kolmogorov-Smirnov Test that compared distributions of three variables (precipitation \[CONUS\_KS\_PPT.csv\], temperature \[CONUS\_KS\_TAVE.csv\], and runoff \[CONUS\_KS\_RUN.csv\]) derived from statistically-downscaled general circulation models (SD GCM) with distributions of the three variables derived from gridded station data (GSD) for historical conditions (1950 through 2005). Three files contain the x-axis value (Dx) at which the largest \[...\]
## Summary
This dataset includes nine files (in comma-separated value format \[.csv\]) which contain metrics that are described in the Bock and others 2018 Earth Interactions article “Do downscaled general circulation models reliably simulate historical climatic conditions?” Three files contain p-values from the two-sided Kolmogorov-Smirnov Test that compared distributions of three variables (precipitation \[CONUS\_KS\_PPT.csv\], temperature \[CONUS\_KS\_TAVE.csv\], and runoff \[CONUS\_KS\_RUN.csv\]) derived from statistically-downscaled general circulation models (SD GCM) with distributions of the three variables derived from gridded station data (GSD) for historical conditions (1950 through 2005). Three files contain the x-axis value (Dx) at which the largest vertical difference occurs between the distributions of SD GCMs and GSD for the three variables (DX\_PPT/TAVE/RUN.csv). Three files describe if the relative value of the SD GCM variable is greater or less than the GSD at the Dx value. See Bock and others (2018) for full description of the three metrics (DB\_PPT/TAVE/RUN.csv). The metrics are calculated from variables previously summarized across the conterminous United States for hydrologic response units of the Geospatial Fabric for National Hydrologic Modeling (Viger and Bock, 2014). Runoff was previously derived using a monthly water balance model (Bock and others, 2016; 2017). Names, sources, and references of the climate inputs (SD GCMS and GSD) are described in Bock and others (2017).
Bock, A.R., Hay, L.E., Markstrom, S.L., Emmerich, C., and Talbert, M., 2017, The U.S. Geological Survey Monthly Water Balance Model Futures Portal: U.S. Geological Survey Open-File Report 2016–1212, 21 p., [https://doi.org/10.3133/ofr20161212](https://doi.org/10.3133/ofr20161212).
Bock, A.R., Hay, L.E., McCabe, G.J., Markstrom, S.L., and Atkinson, R.D., 2016, Parameter regionalization of a monthly water balance model for the conterminous United States: Hydrology and Earth System Sciences, v. 20, p. 2861–2876, [https://doi.org/10.5194/hess-20-2861-2016](https://doi.org/10.5194/hess-20-2861-2016).
Bock, A. R., Hay, L.E., McCabe, G.J., Markstrom, S.L., and Atkinson, R.D., 2018, Do Downscaled General Circulation Models Reliably Simulate Historical Climatic Conditions: Earth Interactions, v. 22, [https://doi.org/10.1175/EI-D-17-0018.1.](https://doi.org/10.1175/EI-D-17-0018.1)
Viger, R.J. and Bock, A., 2014, GIS Features of the Geospatial Fabric for National Hydrologic Modeling, US Geological Survey, [http://dx.doi.org/doi:10.5066/F7542KMD](http://dx.doi.org/doi:10.5066/F7542KMD).
## Contacts
Point of Contact
:
[Andrew R Bock](/catalog/catalogParty/show?partyId=929)
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:
[Andrew R Bock](/catalog/catalogParty/show?partyId=929)
Metadata Contact
:
[Andrew R Bock](/catalog/catalogParty/show?partyId=929)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey+-+ScienceBase)
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| | | | |
| --- | --- | --- | --- |
| Do\_downscaled\_general\_circulation\_models\_reliably\_simulate\_historical\_climatic\_conditions\_.xml<br>_Original FGDC Metadata_ | View | 13.06 KB | application/fgdc+xml |
| CONUS\_KS\_PPT.csv | | 174.22 MB | text/csv |
| CONUS\_KS\_RUN.csv | | 112.72 MB | text/csv |
| CONUS\_KS\_TAVE.csv | | 178.63 MB | text/csv |
| DB\_PPT.csv | | 20.63 MB | text/csv |
| DB\_RUN.csv | | 23.16 MB | text/csv |
| DB\_TAVE.csv | | 22.77 MB | text/csv |
| DX\_PPT.csv | | 177.81 MB | text/csv |
| DX\_RUN.csv | | 155.54 MB | text/csv |
| DX\_TAVE.csv | | 176.21 MB | text/csv |
## Related External Resources
Type: Online Link
| | |
| --- | --- |
| Earth Interactions paper "Do downscaled general circulation models reliability simulate historical climatic conditions?" | [https://doi.org/10.1175/EI-D-17-0018.1](https://doi.org/10.1175/EI-D-17-0018.1 "https://doi.org/10.1175/EI-D-17-0018.1") |
## Purpose
This dataset is an archive of the results presented in the Bock and others (2018) Earth Interactions article “Do downscaled general circulation models reliably simulate historical climatic conditions?”.
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## Communities
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## Tags
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## Provenance
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Andy Bock</origin>\n <pubdate>2018</pubdate>\n <title>Do downscaled general circulation models reliably simulate historical climatic conditions?</title>\n <geoform>comma-separated value</geoform>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7VD6WJQ</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Bock, Andrew R.</origin>\n <origin>Hay, Lauren E.</origin>\n <origin>McCabe, Gregory J.</origin>\n <origin>Markstrom, Steve L.</origin>\n <origin>Atkinson, R.Dwight</origin>\n <pubdate>2018</pubdate>\n <title>Do downscaled general circulation models reliably simulate historical climatic conditions?</title>\n <geoform>Journal Article</geoform>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>American Meteorological Society</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1175/EI-D-17-0018.1</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset includes nine files (in comma-separated value format [.csv]) which contain metrics that are described in the Bock and others 2018 Earth Interactions article \xe2\x80\x9cDo downscaled general circulation models reliably simulate historical climatic conditions?\xe2\x80\x9d Three files contain p-values from the two-sided Kolmogorov-Smirnov Test (that compared distributions of three variables (precipitation [CONUS_KS_PPT.csv], temperature [CONUS_KS_TAVE.csv], and runoff [CONUS_KS_RUN.csv]) derived from statistically-downscaled general circulation models (SD GCM) with distributions of the three variables derived from gridded station data (GSD) for historical conditions (1950 through 2005). Three files contain the x-axis value (Dx) at which the largest vertical difference occurs between the distributions of SD GCMs and GSD for the three variables (DX_PPT/TAVE/RUN.csv). Three files describe if the relative value of the SD GCM variable is greater or less than the GSD at the Dx value. See Bock and others (2018) for full description of the three metrics (DB_PPT/TAVE/RUN.csv). The metrics are calculated from variables previously summarized across the conterminous United States for hydrologic response units of the Geospatial Fabric for National Hydrologic Modeling (Viger and Bock, 2014). Runoff was previously derived using a monthly water balance model (Bock and others, 2016; 2017). Names, sources, and references of the climate inputs (SD GCMS and GSD) are described in Bock and others (2017).</abstract>\n <purpose>This dataset is an archive of the results presented in the Bock and others (2018) Earth Interactions article \xe2\x80\x9cDo downscaled general circulation models reliably simulate historical climatic conditions?\xe2\x80\x9d.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>19500101</begdate>\n <enddate>20051231</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-127.904201</westbc>\n <eastbc>-65.348336</eastbc>\n <northbc>51.651713</northbc>\n <southbc>22.946853</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>precipitation (atmospheric)</themekey>\n <themekey>air temperature</themekey>\n <themekey>runoff</themekey>\n <themekey>inlandWaters</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5b049666e4b0d8682b96368b</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>United States</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Andy Bock</cntper>\n <cntorg>Southwest Region</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 415, W 6th Ave Kipling St</address>\n <city>Lakewood</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>303-236-6875</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>U.S. Environmental Protection Agency Office of Water; Department of Interior South Central Climate Science Center; U.S. Geological Survey Community for Data Integration; U.S. Geological Survey Water Availability and Use Science Program</datacred>\n <crossref>\n <citeinfo>\n <origin>Bock, Andrew R.</origin>\n <origin>Hay, Lauren E.</origin>\n <origin>McCabe, Gregory J.</origin>\n <origin>Markstrom, Steven L.</origin>\n <origin>Atkinson, R.Dwight</origin>\n <pubdate>2016</pubdate>\n <title>Parameter regionalization of a monthly water balance model for the conterminous United States</title>\n <pubinfo>\n <pubplace>Munich, Germany</pubplace>\n <publish>Hydrology and Earth System Sciences</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5194/hess-20-2861-2016</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Bock, Andrew R.</origin>\n <origin>Hay, Lauren E.</origin>\n <origin>Markstrom, Steven L.</origin>\n <origin>Emmerich, Christopher E.</origin>\n <origin>Talbert, Marian</origin>\n <pubdate>2017</pubdate>\n <title>The U.S. Geological Survey Monthly Water Balance Model Futures Portal</title>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/ofr20161212</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Viger, Roland</origin>\n <origin>Bock, Andy R.</origin>\n <pubdate>2014</pubdate>\n <title>GIS features of the Geospatial Fabric for National Hydrologic Modeling</title>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/doi:10.5066/F7542KMD</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Processes described in detail in Bock and others (2018)</procdesc>\n <procdate>2017</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>The data are indexed to hydrologic response units of the Spatial Features of the Geospatial Fabric for National Hydrologic Modeling (Viger and Bock, 2014). The row index number (1 through 109,951) of each of the 9 .csv files corresponds to the identical national hydrologic response unit identifier ("hru_id") in the national hydrologic response unit feature class.</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>CONUS_KS_variable.csv</enttypl>\n <enttypd>Table of p-values generated for hydrologic response units across the conterminous United States from the two-sample Kolmogorov-Smirnov Test for a given statistically-downscaled general circulation model. Table header represents general circulation model names. See Bock and others (2017) for model sources. The hydrologic response units are from the GIS features of the Geospatial Fabric for National Hydrologic Modelling (Viger and Bock, 2014).</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>general circulation model name</attrlabl>\n <attrdef>p-value</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>DX_variable.csv</enttypl>\n <enttypd>Table of Dx values generated for hydrologic response units across the conterminous United States for a given statistically-downscaled general circulation model. Table header represents general circulation model names. See Bock and others (2017) for model sources. The hydrologic response units are from the GIS features of the Geospatial Fabric for National Hydrologic Modelling (Viger and Bock, 2014).</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>general circulation model name</attrlabl>\n <attrdef>DX value</attrdef>\n <attrdefs>producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>DB_variable.csv</enttypl>\n <enttypd>Table of DB values generated for hydrologic response units across the conterminous United States for a given statistically-downscaled general circulation model. Table header represents general circulation model names. See Bock and others (2017) for model sources. The hydrologic response units are from the GIS features of the Geospatial Fabric for National Hydrologic Modelling (Viger and Bock, 2014).</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>general circulation model name</attrlabl>\n <attrdef>DB value</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>-1</edomv>\n <edomvd>Value of variable (PPT, RUN, TAVE) from gridded station data (GSD) is less than value of variable from statistically-downscaled general circulation model at DX</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Value of variable (PPT, RUN, TAVE) from gridded station data (GSD) is greater than value of variable from statistically-downscaled general circulation model at DX</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - Science Base</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States of America</country>\n </cntaddr>\n <cntvoice>1-888-175-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Although this dataset has been used by the U.S. Geological Survey, U.S. Department of the Interior, no warranty expressed or implied is made by the U.S. Geological Survey as to the accuracy of the data and related materials. The act of distribution shall not constitute any such warranty, and no responsibility is assumed by the U.S. Geological Survey in the use of this data, software, or related materials. Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200814</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Andy Bock</cntper>\n <cntorg>Southwest Region</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 415, W 6th Ave Kipling St</address>\n <city>Lakewood</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>303-236-6875</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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4. [Slab2 - A Comprehensive Subduction Zone Geometry Model, Kamchatka-Kuril Islands-Japan Region](/catalog/folder/5aa4060de4b0b1c392eaaee2)
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## Dates
Publication Date2018-08-08Start Date1900
## Citation
Hayes, G., 2018, Slab2 - A Comprehensive Subduction Zone Geometry Model: U.S. Geological Survey data release, https://doi.org/10.5066/F7PV6JNV.
## Summary
Subduction zones are home to the most seismically active faults on the planet. The shallow megathrust interface of subduction zones host our largest earthquakes, and are the only faults capable of M9+ ruptures. Despite these facts, our knowledge of subduction zone geometry - which likely plays a key role in determining the spatial extent and ultimately the size of subduction zone earthquakes - is incomplete. Here we calculate the three- dimensional geometries of all active global subduction zones. The resulting model - Slab2 - provides for the first time a comprehensive geometrical analysis of all known slabs in unprecedented detail.
## Summary
Subduction zones are home to the most seismically active faults on the planet. The shallow megathrust interface of subduction zones host our largest earthquakes, and are the only faults capable of M9+ ruptures. Despite these facts, our knowledge of subduction zone geometry - which likely plays a key role in determining the spatial extent and ultimately the size of subduction zone earthquakes - is incomplete. Here we calculate the three- dimensional geometries of all active global subduction zones. The resulting model - Slab2 - provides for the first time a comprehensive geometrical analysis of all known slabs in unprecedented detail.
## Contacts
Point of Contact
:
[Gavin Hayes](/catalog/catalogParty/show?partyId=4354),
[U.S. Geological Survey, Earthquake Hazards Program](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Earthquake+Hazards+Program)
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:
[Gavin Hayes](/catalog/catalogParty/show?partyId=4354)
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[GHSC Data Steward](/catalog/catalogParty/show?partyId=GHSC+Data+Steward),
[U.S. Geological Survey, Geologic Hazards Science Center](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Geologic+Hazards+Science+Center)
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| | | | |
| --- | --- | --- | --- |
| Slab2\_kur.xml<br>_Original FGDC Metadata_ | View | 6.45 KB | application/fgdc+xml |
| kur\_slab2\_dep\_02.24.18\_contours.in<br>“Kuril-Japan slab depth contours (text)” | | 638.62 KB | text/plain |
| kur\_slab2\_dep\_02.24.18.grd<br>“Kuril-Japan slab depth grid” | | 326.86 KB | application/x-hdf |
| kur\_slab2\_dep\_02.24.18.xyz<br>“Kuril-Japan slab depth text file” | | 8.94 MB | chemical/x-xyz |
| kur\_slab2\_dip\_02.24.18.grd<br>“Kuril-Japan slab dip grid” | | 332.5 KB | application/x-hdf |
| kur\_slab2\_dip\_02.24.18.xyz<br>“Kuril-Japan slab dip text file” | | 8.83 MB | chemical/x-xyz |
| kur\_slab2\_str\_02.24.18.grd<br>“Kuril-Japan slab strike grid” | | 306.59 KB | application/x-hdf |
| kur\_slab2\_str\_02.24.18.xyz<br>“Kuril-Japan slab strike text file” | | 8.83 MB | chemical/x-xyz |
| kur\_slab2\_thk\_02.24.18.grd<br>“Kuril-Japan slab thickness grid” | | 227.63 KB | application/x-hdf |
| kur\_slab2\_thk\_02.24.18.xyz<br>“Kuril-Japan slab thickness text file” | | 8.83 MB | chemical/x-xyz |
| kur\_slab2\_unc\_02.24.18.grd<br>“Kuril-Japan slab depth uncertainty grid” | | 334.32 KB | application/x-hdf |
| kur\_slab2\_unc\_02.24.18.xyz<br>“Kuril-Japan slab depth uncertainty text file” | | 8.83 MB | chemical/x-xyz |
| kur\_slab2\_clp\_02.24.18.csv<br>“Kuril-Japan slab model clipping mask” | | 6.45 KB | text/csv |
| kur\_shapefiles.zip<br>“Kuril-Japan slab model ArcGIS ShapeFiles” | | 226.95 KB | application/zip |
## Purpose
Description of the three dimensional geometries of global subducted slabs, Kamchatka-Kuril Islands-Japan Region.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Hayes, Gavin</origin>\n <pubdate>2018</pubdate>\n <title>Slab2 - A Comprehensive Subduction Zone Geometry Model, Kamchatka-Kuril Islands-Japan Region</title>\n <geoform>electronic</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7PV6JNV</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Subduction zones are home to the most seismically active faults on the planet. The shallow megathrust interface of subduction zones host our largest earthquakes, and are the only faults capable of M9+ ruptures. Despite these facts, our knowledge of subduction zone geometry - which likely plays a key role in determining the spatial extent and ultimately the size of subduction zone earthquakes - is incomplete. Here we calculate the three- dimensional geometries of all active global subduction zones. The resulting model - Slab2 - provides for the first time a comprehensive geometrical analysis of all known slabs in unprecedented detail.</abstract>\n <purpose>Description of the three dimensional geometries of global subducted slabs.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>1900</begdate>\n <enddate>present</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>115.0</westbc>\n <eastbc>175.0</eastbc>\n <northbc>65.0</northbc>\n <southbc>30.0</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>USGS</themekey>\n <themekey>Geologic Hazards Science Center</themekey>\n <themekey>GHSC</themekey>\n <themekey>Earthquake Hazards Program</themekey>\n <themekey>EHP</themekey>\n <themekey>earth science</themekey>\n <themekey>earthquake hazard</themekey>\n <themekey>shallow megathrust interface</themekey>\n <themekey>subduction zone</themekey>\n <themekey>large earthquake ruptures</themekey>\n <themekey>subduction zone geometry model</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5aa4060de4b0b1c392eaaee2</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Earth</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Gavin Hayes</cntper>\n <cntorg>U.S. Geological Survey, Earthquake Hazards Program</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1711 Illinois St MS 966</address>\n <city>Golden</city>\n <state>CO</state>\n <postal>80401</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-273-8421</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Refer to the associated publication (\xe2\x80\x9cSystematic Observations of the Slip-pulse Properties of Large Earthquake Ruptures\xe2\x80\x9d) at http://onlinelibrary.wiley.com/doi/10.1002/2017GL074916/full</procdesc>\n <procdate>2017</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <overview>\n <eaover>Refer to the associated publication</eaover>\n <eadetcit>http://onlinelibrary.wiley.com/doi/</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>Staff</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <techpreq>Data are provided as NetCDF formatted grid files.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200818</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>GHSC Data Steward</cntper>\n <cntorg>U.S. Geological Survey, Geologic Hazards Science Center</cntorg>\n </cntperp>\n <cntpos>Open Data Policy coordinator</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1711 Illinois Street</address>\n <city>Golden</city>\n <state>Colorado</state>\n <postal>80401</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-273-8500</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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5. [Flow direction from the Hydrologic Derivatives for Modeling and Analysis (HDMA) database -- Africa](/catalog/folder/591f6d0fe4b0ac16dbdde1cb)
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## Dates
Publication Date2017Time Period2017
## Citation
Verdin, K.L., 2017, Hydrologic Derivatives for Modeling and Applications (HDMA) database: U.S. Geological Survey data release, https://doi.org/10.5066/F7S180ZP.
## Summary
This dataset contains the Flow Direction (FD) for Africa from the Hydrologic Derivatives for Modeling and Analysis (HDMA) database. The FD data were developed and distributed by processing units. There are 19 processing units for Africa. The distribution files have the number of the processing unit appended to the end of the zip file name (e.g. af\_fd\_3\_2.zip contains the FD data for unit 3-2).The HDMA database provides comprehensive and consistent global coverage of raster and vector topographically derived layers, including raster layers of digital elevation model (DEM) data, flow direction, flow accumulation, slope, and compound topographic index (CTI); and vector layers of streams and catchment boundaries. The coverage of the data \[...\]
## Summary
This dataset contains the Flow Direction (FD) for Africa from the Hydrologic Derivatives for Modeling and Analysis (HDMA) database. The FD data were developed and distributed by processing units. There are 19 processing units for Africa. The distribution files have the number of the processing unit appended to the end of the zip file name (e.g. af\_fd\_3\_2.zip contains the FD data for unit 3-2).The HDMA database provides comprehensive and consistent global coverage of raster and vector topographically derived layers, including raster layers of digital elevation model (DEM) data, flow direction, flow accumulation, slope, and compound topographic index (CTI); and vector layers of streams and catchment boundaries. The coverage of the data is global (-180º, 180º, -90º, 90º) with the underlying DEM being a hybrid of three datasets: HydroSHEDS (Hydrological data and maps based on SHuttle Elevation Derivatives at multiple Scales), Global Multi-resolution Terrain Elevation Data 2010 (GMTED2010) and the Shuttle Radar Topography Mission (SRTM). For most of the globe south of 60º North, the raster resolution of the data is 3-arc-seconds, corresponding to the resolution of the SRTM. For the areas North of 60º, the resolution is 7.5-arc-seconds (the smallest resolution of the GMTED2010 dataset) except for Greenland, where the resolution is 30-arc-seconds. The streams and catchments are attributed with Pfafstetter codes, based on a hierarchical numbering system, that carry important topological information.
## Contacts
Point of Contact
:
[U.S. Geological Survey, Southwest Region](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey%2C+Southwest+Region)
Originator
:
[Kristine L. Verdin](/catalog/catalogParty/show?partyId=Kristine+L.+Verdin)
Metadata Contact
:
[Kristine L Verdin](/catalog/catalogParty/show?partyId=Kristine+L+Verdin)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
Distributor
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[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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| | | | |
| --- | --- | --- | --- |
| af\_fd\_FGDC.xml<br>_Original FGDC Metadata_ | View | 13.35 KB | application/fgdc+xml |
| africa\_fd.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/591f6d0fe4b0ac16dbdde1cb?f=__disk__3a%2F8d%2Fd5%2F3a8dd57f0a38f89d937059e02a2eb3dcfbd6f782&width=150&height=131) | 306.35 KB | image/jpeg |
| af\_fd\_0.zip | | 144.9 MB | application/zip |
| af\_fd\_1\_1.zip | | 117.6 MB | application/zip |
| af\_fd\_1\_2.zip | | 143.56 MB | application/zip |
| af\_fd\_1\_3.zip | | 123.71 MB | application/zip |
| af\_fd\_2.zip | | 157.11 MB | application/zip |
| af\_fd\_3\_1.zip | | 50.56 MB | application/zip |
| af\_fd\_3\_2.zip | | 63.76 MB | application/zip |
| af\_fd\_3\_3.zip | | 52.17 MB | application/zip |
| af\_fd\_3\_4.zip | | 32.76 MB | application/zip |
| af\_fd\_4.zip | | 70.84 MB | application/zip |
| af\_fd\_5\_1.zip | | 38.18 MB | application/zip |
| af\_fd\_5\_2.zip | | 54.29 MB | application/zip |
| af\_fd\_5\_3.zip | | 39.43 MB | application/zip |
| af\_fd\_5\_4.zip | | 45.92 MB | application/zip |
| af\_fd\_5\_5.zip | | 27.01 MB | application/zip |
| af\_fd\_6.zip | | 190.21 MB | application/zip |
| af\_fd\_7.zip | | 38.93 MB | application/zip |
| af\_fd\_8.zip | | 114.54 MB | application/zip |
| af\_fd\_9.zip | | 114.65 MB | application/zip |
## Related External Resources
Type: Online Link
| | |
| --- | --- |
| Web Link | [https://doi.org/10.3133/ds1053](https://doi.org/10.3133/ds1053 "https://doi.org/10.3133/ds1053") |
## Purpose
This dataset contains the flow direction for Africa from the Hydrologic Derivatives for Modeling and Analysis (HDMA) database. This dataset is appropriate for use in continental-scale modeling effort.
## Preview Image
![Preview Image](https://www.sciencebase.gov/catalog/file/get/591f6d0fe4b0ac16dbdde1cb?f=__disk__3a%2F8d%2Fd5%2F3a8dd57f0a38f89d937059e02a2eb3dcfbd6f782&width=580&height=508)
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## Communities
- USGS Colorado Water Science Center
## Tags
Theme
- [Pfafstetter](/catalog/items?q=&filter=tags%3DPfafstetter "Pfafstetter (Pfafstetter, Theme, None)")
- [dem stream hydrologic derivatives pfafstetter](/catalog/items?q=&filter=tags%3Ddem+stream+hydrologic+derivatives+pfafstetter "dem stream hydrologic derivatives pfafstetter (dem stream hydrologic derivatives pfafstetter, Theme, None)")
- [digital elevation models](/catalog/items?q=&filter=tags%3Ddigital+elevation+models "digital elevation models (digital elevation models, Theme, None)")
- [elevation](/catalog/items?q=&filter=tags%3Delevation "elevation (elevation, Theme, ISO 19115 Topic Category)")
- [inlandWaters](/catalog/items?q=&filter=tags%3DinlandWaters "inlandWaters (inlandWaters, Theme, ISO 19115 Topic Category)")
- [streams](/catalog/items?q=&filter=tags%3Dstreams "streams (streams, Theme, None)")
Place
- [Africa](/catalog/items?q=&filter=tags%3DAfrica "Africa (Africa, Place, Common geographic areas)")
Types
- [Citation](/catalog/items?q=&filter=browseType%3DCitation "Citation")
## Provenance
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Kristine L. Verdin</origin>\n <pubdate>2017</pubdate>\n <title>Flow direction from the Hydrologic Derivatives for Modeling and Analysis (HDMA) database -- Africa</title>\n <geoform>Raster Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Online (Digital Release)</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7S180ZP</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Kristine L. Verdin</origin>\n <pubdate>2017</pubdate>\n <title>Hydrologic Derivatives for Modeling and Analysis: A New Global High-Resolution Database</title>\n <geoform>Publication (Other)</geoform>\n <serinfo>\n <sername>USGS Data Series</sername>\n <issue>1053</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Lakewood, CO</pubplace>\n <publish>U.S. Geological Survey, Colorado Water Science Center</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/ds1053</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset contains the Flow Direction (FD) for Africa from the Hydrologic Derivatives for Modeling and Analysis (HDMA) database. The FD data were developed and distributed by processing units. There are 19 processing units for Africa. The distribution files have the number of the processing unit appended to the end of the zip file name (e.g. af_fd_3_2.zip contains the FD data for unit 3-2).The HDMA database provides comprehensive and consistent global coverage of raster and vector topographically derived layers, including raster layers of digital elevation model (DEM) data, flow direction, flow accumulation, slope, and compound topographic index (CTI); and vector layers of streams and catchment boundaries. The coverage of the data is global (-180\xc2\xba, 180\xc2\xba, -90\xc2\xba, 90\xc2\xba) with the underlying DEM being a hybrid of three datasets: HydroSHEDS (Hydrological data and maps based on SHuttle Elevation Derivatives at multiple Scales), Global Multi-resolution Terrain Elevation Data 2010 (GMTED2010) and the Shuttle Radar Topography Mission (SRTM). For most of the globe south of 60\xc2\xba North, the raster resolution of the data is 3-arc-seconds, corresponding to the resolution of the SRTM. For the areas North of 60\xc2\xba, the resolution is 7.5-arc-seconds (the smallest resolution of the GMTED2010 dataset) except for Greenland, where the resolution is 30-arc-seconds. The streams and catchments are attributed with Pfafstetter codes, based on a hierarchical numbering system, that carry important topological information.</abstract>\n <purpose>This dataset contains the flow direction for Africa from the Hydrologic Derivatives for Modeling and Analysis (HDMA) database. This dataset is appropriate for use in continental-scale modeling effort.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2017</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-25.3624999996</westbc>\n <eastbc>77.6024999999</eastbc>\n <northbc>37.5608333338</northbc>\n <southbc>-54.465</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>dem stream hydrologic derivatives pfafstetter</themekey>\n <themekey>Pfafstetter</themekey>\n <themekey>streams</themekey>\n <themekey>digital elevation models</themekey>\n </theme>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>elevation</themekey>\n <themekey>inlandWaters</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:591f6d0fe4b0ac16dbdde1cb</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Africa</placekey>\n </place>\n </keywords>\n <accconst>None</accconst>\n <useconst>None. Users are advised to read the data set\'s metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Southwest Region</cntorg>\n <cntper>Kristine L Verdin</cntper>\n </cntorgp>\n <cntpos>Hydrologist (GIS)</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 415, W 6th Ave Kipling St</address>\n <city>Lakewood</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>303-236-6929</cntvoice>\n <cntfax>303-236-4912</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>The HDMA database was developed by the U. S. Geological Survey in cooperation with NASA Goddard Space Flight Center.</datacred>\n <secinfo>\n <secsys>http://project-open-data.github.io/schema/#accessLevel</secsys>\n <secclass>public</secclass>\n <sechandl>Standard Technical Controls</sechandl>\n </secinfo>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.4.1 (Build 5686) Service Pack N/A (Build N/A)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Lehner, B., K. Verdin and A. Jarvis, 2008</origin>\n <pubdate>20080101</pubdate>\n <title>HydroSHEDS</title>\n <geoform>Raster Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Eos, Transactions</pubplace>\n <publish>American Geophysical Union</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20080101</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>HydroSHEDS</srccitea>\n <srccontr>Lehner, B., K. Verdin and A. Jarvis, 2008, New Global Hydrological Data based on SRTM Elevation Derivatives, Eos, Transactions, American Geophysical Union, Vol 89, No. 10, pp. 93-94.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Danielson, J.J., and Gesch, D.B.</origin>\n <pubdate>20110101</pubdate>\n <title>Global multi-resolution terrain elevation data 2010</title>\n <geoform>Raster Digital Data Set</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>USGS</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20110101</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>GMTED2010</srccitea>\n <srccontr>Danielson, J.J., and Gesch, D.B., 2011, Global multi-resolution terrain elevation data 2010 (GMTED2010): U.S. Geological Survey Open-File Report 2011\xe2\x80\x931073, 26 p.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>International Centre for Tropical Agriculture</origin>\n <pubdate>20040101</pubdate>\n <title>Void-filled seamless SRTM data</title>\n <geoform>Raster Digital Data Set</geoform>\n <pubinfo>\n <pubplace>http://srtm.csi.cgiar.org</pubplace>\n <publish>CGIAR</publish>\n </pubinfo>\n <onlink>http://srtm.csi.cgiar.org</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20040101</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>SRTM</srccitea>\n <srccontr>International Centre for Tropical Agriculture (2004), Void-filled seamless SRTM data, Cali, Colombia. (Available at http://srtm.csi.cgiar.org)</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>see detailed description of processes in USGS Data Series report "Hydrologic Derivatives for Modeling and Analysis: A New Global High-Resolution Database"</procdesc>\n <procdate>2017</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Raster</direct>\n <rastinfo>\n <rasttype>Grid Cell</rasttype>\n <rowcount>25860</rowcount>\n <colcount>24617</colcount>\n <vrtcount>1</vrtcount>\n </rastinfo>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.000833333333333</latres>\n <longres>0.000833333333333</longres>\n <geogunit>Decimal seconds</geogunit>\n </geograph>\n <geodetic>\n <horizdn>D_WGS_1984</horizdn>\n <ellips>WGS_1984</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Value</attrlabl>\n <attrdef>Flow direction -- Africa -- Unit 0</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>128</rdommax>\n <attrunit>unitless</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>The entity and attribute information provided here describes the tabular data associated with the data set. Please review the detailed descriptions that are provided (the individual attribute descriptions) for information on the values that appear as fields/table entries of the data set.</eaover>\n <eadetcit>The entity and attribute information was generated by the individual and/or agency identified as the originator of the data set. Please review the rest of the metadata record for additional details and information.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>Downloadable Data</resdesc>\n <distliab>This database, identified as "Hydrologic Derivatives for Modeling and Analysis (HDMA)", has been approved for release by the U.S. Geological Survey (USGS). Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the database is released on condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from its authorized or unauthorized use.</distliab>\n <custom>https://doi.org/10.5066/F7S180ZP</custom>\n </distinfo>\n <metainfo>\n <metd>20200814</metd>\n <metfrd>20210227</metfrd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Kristine L Verdin</cntper>\n <cntorg>U.S. Geological Survey, Southwest Region</cntorg>\n </cntperp>\n <cntpos>Hydrologist (GIS)</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 415, W 6th Ave Kipling St</address>\n <city>Lakewood</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>303-236-6929</cntvoice>\n <cntfax>303-236-4912</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <mettc>local time</mettc>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2020-05-21Start Date2019-01-01End Date2019-09-30
## Citation
Rice, K.C., and Chambers, D.B., 2020, Fort Belvoir, Virginia, stream-water, streambed-sediment, and soil data collected in 2019: U.S. Geological Survey data release, https://doi.org/10.5066/P91P7OZJ.
## Summary
Field parameters and chemical-analysis results of stream water, streambed sediment, and soil data collected during 2019 at Fort Belvoir, Virginia are presented.
## Summary
Field parameters and chemical-analysis results of stream water, streambed sediment, and soil data collected during 2019 at Fort Belvoir, Virginia are presented.
## Contacts
Point of Contact
:
[Karen C Rice](/catalog/catalogParty/show?partyId=8581),
[Virginia and West Virginia Water Science Center](/catalog/catalogParty/show?partyId=17219)
Originator
:
[Karen C Rice](/catalog/catalogParty/show?partyId=8581),
[Douglas B Chambers](/catalog/catalogParty/show?partyId=1692)
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[Karen C Rice](/catalog/catalogParty/show?partyId=8581)
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:
[Virginia and West Virginia Water Science Center](/catalog/catalogParty/show?partyId=17219)
USGS Mission Area
:
[Water Resources](/catalog/catalogParty/show?partyId=Water+Resources)
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| FTBL data.csv<br>“Stream-water, streambed-sediment, and soil data” | | 60.57 KB | text/csv |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Rice, K.C., and Chambers, D.B., 2020, Chemical constituent concentrations in stream water, streambed sediment, and soils of Fort Belvoir, Virginia—A characterization of ambient conditions in 2019: U.S. Geological Survey Open-File Report, https://doi.org/10.3133/ofr20201059. | [https://doi.org/10.3133/ofr20201059](https://doi.org/10.3133/ofr20201059 "https://doi.org/10.3133/ofr20201059") |
## Purpose
The purpose of this dataset is to communicate the results of field parameters and water quality, streambed-sediment quality, and soil quality collected during 2019 at Fort Belvoir, Virginia.
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## Provenance
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| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P91P7OZJ |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Karen C. Rice</origin>\n <origin>Douglas B. Chambers</origin>\n <pubdate>20200521</pubdate>\n <title>Fort Belvoir, Virginia, stream-water, streambed-sediment, and soil data collected in 2019</title>\n <geoform>Data tables</geoform>\n <pubinfo>\n <pubplace>Richmond, Va</pubplace>\n <publish>U.S. Geological Survey - ScienceBase</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P91P7OZJ</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Field parameters and chemical-analysis results of stream water, streambed sediment, and soil data collected during 2019 at Fort Belvoir, Virginia are presented.</abstract>\n <purpose>The purpose of this dataset is to communicate the results of field parameters and water quality, streambed-sediment quality, and soil quality collected during 2019 at Fort Belvoir, Virginia.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20190101</begdate>\n <enddate>20190930</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-77.216</westbc>\n <eastbc>-77.122</eastbc>\n <northbc>38.758</northbc>\n <southbc>38.674</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>none</themekt>\n <themekey>stream-water quality</themekey>\n <themekey>streambed-sediment quality</themekey>\n <themekey>soil quality</themekey>\n <themekey>trace elements</themekey>\n <themekey>major ions</themekey>\n <themekey>field parameters</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5e4435b7e4b0edb47be9c9fe</themekey>\n </theme>\n <place>\n <placekt>none</placekt>\n <placekey>Fort Belvoir</placekey>\n <placekey>United States</placekey>\n <placekey>Virginia</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Karen C. Rice</cntper>\n <cntorg>USGS Virginia and West Virginia Water Science Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1730 E. Parham Road</address>\n <city>Richmond</city>\n <state>Virginia</state>\n <postal>23228</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>434-243-3429</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>This data release of trace-elements and major-ion concentrations and field-parameter measurements is performed in cooperation with the U.S Army, Fort Belvoir, Virginia.</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Data were collected according to methods reported in the U.S.G.S National Field Manual</procdesc>\n <procdate>20200115</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>FTBL data release.csv</enttypl>\n <enttypd>Trace element and major-ion results for stream water, streambed sediment, and soils in Fort Belvoir, Virginia, 2019</enttypd>\n <enttypds>Karen C. Rice, USGS Virginia Water Science Center</enttypds>\n </enttyp>\n <attr>\n <attrlabl>STAID</attrlabl>\n <attrdef>USGS Station ID - where: \n"0165545630 - Tributary to Accotink Creek near Morrow Road at Accotink, Va"\n"0165545746 - Tributary to Accotink Creek near Totten Road at Accotink, Va"\n"0165517802 - Tributry to Pohick Creek near Warren Road at Accotink, Va"\n"0165545242 - Tribuatry to Pohick Creek at Pohick Neck near Lofton, Va"\n"0165387125 - Tributary to Potomac River near Jadwin Road at Accotink, Va"\n"0165516905 - Tributary to Accotink Creek above Poe Rd at Accotink, Va"\n"0165517575 - Tributary to Accotink Creek above Gunston Road at Accotink, Va"\n"0165379148 - Tributary to Dogue Creek at Kingman Road at Accotink, Va"\n"0165501562 - Tributary to Accotink Creek above Barta Road near Newington, Va"\n"01654929 - Tributary to Accotink Creek near Beechwood Drive near Newington, Va"\n"0165516637 - Tributary to Accotink Creek near Kingman Road at Ft Belvoir, Va"\n"01654852 - Accotink Creek above Barta Road near Newington, Va"\n"0165505816 - Field Lark Branch above Barta Road near Newington, Va"\n"01655170 - Accotink Creek at Highway 1 at Accotink, Va"</attrdef>\n <attrdefs>USGS Standard Gaging Station Number</attrdefs>\n <attrdomv>\n <udom>USGS Standard Gaging Station Number</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>STNAM</attrlabl>\n <attrdef>USGS Station Name - where: \n"0165545630 - Tributary to Accotink Creek near Morrow Road at Accotink, Va"\n"0165545746 - Tributary to Accotink Creek near Totten Road at Accotink, Va"\n"0165517802 - Tributry to Pohick Creek near Warren Road at Accotink, Va"\n"0165545242 - Tribuatry to Pohick Creek at Pohick Neck near Lofton, Va"\n"0165387125 - Tributary to Potomac River near Jadwin Road at Accotink, Va"\n"0165516905 - Tributary to Accotink Creek above Poe Rd at Accotink, Va"\n"0165517575 - Tributary to Accotink Creek above Gunston Road at Accotink, Va"\n"0165379148 - Tributary to Dogue Creek at Kingman Road at Accotink, Va"\n"0165501562 - Tributary to Accotink Creek above Barta Road near Newington, Va"\n"01654929 - Tributary to Accotink Creek near Beechwood Drive near Newington, Va"\n"0165516637 - Tributary to Accotink Creek near Kingman Road at Ft Belvoir, Va"\n"01654852 - Accotink Creek above Barta Road near Newington, Va"\n"0165505816 - Field Lark Branch above Barta Road near Newington, Va"\n"01655170 - Accotink Creek at Highway 1 at Accotink, Va"</attrdef>\n <attrdefs>USGS Station Name</attrdefs>\n <attrdomv>\n <udom>USGS Station Name</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>Date on which the sample was collected</attrdef>\n <attrdefs>Sample start time</attrdefs>\n <attrdomv>\n <udom>Time at which the sample was collected according to current watch time</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Medium Name</attrlabl>\n <attrdef>Substrate Type</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Surface water</edomv>\n <edomvd>a surface-water sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Bottom material</edomv>\n <edomvd>a streambed sediment sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Soil</edomv>\n <edomvd>a soil sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample Type</attrlabl>\n <attrdef>type of sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Regular</edomv>\n <edomvd>a surface-water sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Dry</edomv>\n <edomvd>no surface water to sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>QC sample, blank</edomv>\n <edomvd>a sample for QA purposes, artificial water submitted for laboratory analysis</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>QC sample, replicate</edomv>\n <edomvd>a sample for QA purposes, a sample collected concurrently with a regular sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Air Pressure</attrlabl>\n <attrdef>air pressure at the time of sampling, in millimeters of mercury</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Air Temperature</attrlabl>\n <attrdef>air temperature at the time of sampling, in degrees Celsius</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Discharge</attrlabl>\n <attrdef>stream discharge at the time of sampling, in cubic feet per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dissolved oxygen</attrlabl>\n <attrdef>dissolved oxygen at the time of sampling, in milligrams per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pH</attrlabl>\n <attrdef>pH at the time of sampling, in units</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Specific conductance</attrlabl>\n <attrdef>specific conductance at the time of sampling, in microsiemens per centimeter at 25 degrees Celsius</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Water temperature</attrlabl>\n <attrdef>water temperature at the time of sampling, in degrees Celsius</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Turbidity</attrlabl>\n <attrdef>turbidity at the time of sampling, in Formazin Nephelometric Units</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hardness</attrlabl>\n <attrdef>laboratory-measured hardness in whole water, parameter code 00909, in milligrams per liter as calcium carbonate</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calcium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved calcium, parameter code 91051, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calcium, total</attrlabl>\n <attrdef>laboratory-measured whole-water calcium, parameter code 82032, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnesium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved magnesium, parameter code 91052, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnesium, total</attrlabl>\n <attrdef>laboratory-measured whole-water magnesium, parameter code 52502, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Potassium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved potassium, parameter code 91054, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Potassium, total</attrlabl>\n <attrdef>laboratory-measured whole-water potassium, parameter code 52503, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sodium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved sodium, parameter code 91053, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sodium, total</attrlabl>\n <attrdef>laboratory-measured whole-water sodium, parameter code 82035, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Aluminum, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved aluminum, parameter code 01106, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Aluminum, total</attrlabl>\n <attrdef>laboratory-measured whole-water aluminum, parameter code 01105, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Barium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved barium, parameter code 01005, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Barium, total</attrlabl>\n <attrdef>laboratory-measured whole-water barium, parameter code 01007, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Beryllium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved beryllium, parameter code 01010, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Beryllium, total</attrlabl>\n <attrdef>laboratory-measured whole-water beryllium, parameter code 01012, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cadmium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved cadmium, parameter code 01025, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cadmium, total</attrlabl>\n <attrdef>laboratory-measured whole-water cadmium, parameter code 01027, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chromium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved chromium, parameter code 01030, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chromium, total</attrlabl>\n <attrdef>laboratory-measured whole-water chromium, parameter code 01034, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cobalt, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved cobalt, parameter code 01035, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cobalt, total</attrlabl>\n <attrdef>laboratory-measured whole-water cobalt, parameter code 01037, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Copper, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved copper, parameter code 01040, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Copper, total</attrlabl>\n <attrdef>laboratory-measured whole-water copper, parameter code 01042, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Iron, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved iron, parameter code 01046, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Iron, total</attrlabl>\n <attrdef>laboratory-measured whole-water iron, parameter code 01045, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lead, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved lead, parameter code 01049, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lead, total</attrlabl>\n <attrdef>laboratory-measured whole-water lead, parameter code 01051, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Manganese, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved manganese, parameter code 01056, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Manganese, total</attrlabl>\n <attrdef>laboratory-measured whole-water manganese, parameter code 01055, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mercury, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved mercury, parameter code 71890, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mercury, total</attrlabl>\n <attrdef>laboratory-measured whole-water mercury, parameter code 71900, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Molybdenum, total</attrlabl>\n <attrdef>laboratory-measured whole-water molybdenum, parameter code 01060, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Molybdenum, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved molybdenum, parameter code 01062, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nickel, total</attrlabl>\n <attrdef>laboratory-measured whole-water nickel, parameter code 01065, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nickel, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved nickel, parameter code 01067, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Silver, total</attrlabl>\n <attrdef>laboratory-measured whole-water silver, parameter code 01075, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Silver, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved silver, parameter code 01077, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Thallium, total</attrlabl>\n <attrdef>laboratory-measured whole-water thallium, parameter code 01057, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Thallium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved thallium, parameter code 01059, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Vanadium, total</attrlabl>\n <attrdef>laboratory-measured whole-water vanadium, parameter code 01085, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Vanadium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved vanadium, parameter code 01087, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Zinc, total</attrlabl>\n <attrdef>laboratory-measured whole-water zinc, parameter code 01090, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Zinc, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved zinc, parameter code 01092, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Antimony, total</attrlabl>\n <attrdef>laboratory-measured whole-water antimony, parameter code 01095, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Antimony, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved antimony, parameter code 01097, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenic, total</attrlabl>\n <attrdef>laboratory-measured whole-water arsenic, parameter code 01000, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenic, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved arsenic, parameter code 01002, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cyanide, total</attrlabl>\n <attrdef>laboratory-measured whole-water cyanide, parameter code 00720, in milligrams per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Selenium, total</attrlabl>\n <attrdef>laboratory-measured whole-water selenium, parameter code 01145, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Selenium, dissolved</attrlabl>\n <attrdef>laboratory-measured dissolved selenium, parameter code 011147, in micrograms per liter</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calcium, bed sediment</attrlabl>\n <attrdef>recoverable calcium, paramter code 29828, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnesium, bed sediment</attrlabl>\n <attrdef>recoverable magnesium, parameter code 29838, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Potassium, bed sediment</attrlabl>\n <attrdef>recoverable potassium, parameter code 52143, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sodium, bed sediment</attrlabl>\n <attrdef>recoverable sodium, parameter code 29851, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Aluminum, bed sediment</attrlabl>\n <attrdef>recoverable aluminum, parameter code 29815, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Barium, bed sediment</attrlabl>\n <attrdef>recoverable barium, parameter code 29821, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Beryllium, bed sediment</attrlabl>\n <attrdef>recoverable beryllium, parameter code 29823, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cadmium, bed sediment</attrlabl>\n <attrdef>recoverable cadmium, parameter code 29827, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chromium, bed sediment</attrlabl>\n <attrdef>recoverable chromium, parameter code 29830, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cobalt, bed sediment</attrlabl>\n <attrdef>recoverable cobalt, parameter code 29831, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Copper, bed sediment</attrlabl>\n <attrdef>recoverable copper, parameter code 29833, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Iron, bed sediment</attrlabl>\n <attrdef>recoverable iron, parameter code 29835, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lead, bed sediment</attrlabl>\n <attrdef>recoverable lead, parameter 29837, code in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Manganese, bed sediment</attrlabl>\n <attrdef>recoverable manganese, parameter code 29840, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mercury, bed sediment</attrlabl>\n <attrdef>recoverable mercury, parameter code 29842, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Molybdenum, bed sediment</attrlabl>\n <attrdef>recoverable molybdenum, parameter code 29844, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nickel, bed sediment</attrlabl>\n <attrdef>recoverable nickel, parameter code 29846, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Silver, bed sediment</attrlabl>\n <attrdef>recoverable silver, parameter code 52144, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Thallium, bed sediment</attrlabl>\n <attrdef>recoverable thallium, parameter code 29852, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Vanadium, bed sediment</attrlabl>\n <attrdef>recoverable vanadium, parameter code 29854, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Zinc, bed sediment</attrlabl>\n <attrdef>recoverable zinc, parameter code 29856, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cyanide, bed sediment</attrlabl>\n <attrdef>bed sediment total cyanide, parameter code 00721, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Antimony, bed sediment</attrlabl>\n <attrdef>recoverable antimony, parameter code 29817, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenic, bed sediment</attrlabl>\n <attrdef>recoverable arsenic, parameter code 29819, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Selenium, bed sediment</attrlabl>\n <attrdef>recoverable selenium, parameter code 29848, in milligrams per kilograms</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Soil Field Site Number</attrlabl>\n <attrdef>field site number for soil sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>latitude of surface-water, streambed-sediment, or soil sample, in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>longitude of surface-water, streambed-sediment, or soil sample, in decimal degrees</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Depth, bottom</attrlabl>\n <attrdef>depth to bottom of soil-sample interval, in feet</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Depth, top</attrlabl>\n <attrdef>depth to top of soil-sample interval, in feet</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Moisture</attrlabl>\n <attrdef>moisture content of soil sample, parameter code 46311, in per cent</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calcium, soil</attrlabl>\n <attrdef>recoverable calcium in soil sample, parameter code 29828, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnesium, soil</attrlabl>\n <attrdef>recoverable magnesium in soil sample, parameter code 29838, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Potassium, soil</attrlabl>\n <attrdef>recoverable potassium in soil sample, parameter code 52143, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sodium, soil</attrlabl>\n <attrdef>recoverable sodium in soil sample, parameter code 29851, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Aluminum, soil</attrlabl>\n <attrdef>recoverable aluminum in soil sample, parameter code 29815, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Barium, soil</attrlabl>\n <attrdef>recoverable barium in soil sample, parameter code 29821, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Beryllium, soil</attrlabl>\n <attrdef>recoverable beryllium in soil sample, parameter code 29823, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cadmium, soil</attrlabl>\n <attrdef>recoverable cadmium in soil sample, parameter code 29827, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chromium, soil</attrlabl>\n <attrdef>recoverable chromium in soil sample, parameter code 29830, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cobalt, soil</attrlabl>\n <attrdef>recoverable cobalt in soil sample, parameter code 29831, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Copper, soil</attrlabl>\n <attrdef>recoverable copper in soil sample, parameter code 29833, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Iron, soil</attrlabl>\n <attrdef>recoverable iron in soil sample, parameter code 29835, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lead, soil</attrlabl>\n <attrdef>recoverable lead in soil sample, parameter code 29837, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Manganese, soil</attrlabl>\n <attrdef>recoverable manganese in soil sample, parameter code 29840, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Mercury, soil</attrlabl>\n <attrdef>recoverable mercury in soil sample, parameter code 29842, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Molybdenum, soil</attrlabl>\n <attrdef>recoverable molybdenum in soil sample, parameter code 29844, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nickel, soil</attrlabl>\n <attrdef>recoverable nickel in soil sample, parameter code 29846, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Silver, soil</attrlabl>\n <attrdef>recoverable silver in soil sample, parameter code 52144, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Thallium, soil</attrlabl>\n <attrdef>recoverable thallium in soil sample, parameter code 29852, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Vanadium, soil</attrlabl>\n <attrdef>recoverable vanadium in soil sample, parameter code 29854, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Zinc, soil</attrlabl>\n <attrdef>recoverable zinc in soil sample, parameter code 29856, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cyanide, soil</attrlabl>\n <attrdef>bedsediment total cyanide, parameter code 00721, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Antimony, soil</attrlabl>\n <attrdef>recoverable antimony in soil sample, parameter code 29817, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arsenic, soil</attrlabl>\n <attrdef>recoverable arsenic in soil sample, parameter code 29819, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Selenium, soil</attrlabl>\n <attrdef>recoverable selenium in soil sample, parameter code 29848, in milligrams per kilogram</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Values vary by dataset</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Although these data have been processed successfully on a computer system at the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The USGS or the U.S. Government shall not be held liable for improper or incorrect use of the data described and/or contained herein. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Karen C. Rice</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1730 East Parham Road</address>\n <city>Richmond</city>\n <state>VA</state>\n <postal>23228</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>434-243-3429</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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3. [Horizontal-to-Vertical Spectral Ratio Soundings and Depth-to-Bedrock Data for Geohydrology and Water Quality Investigation of the Unconsolidated Aquifers in the Enfield Creek Valley, Town of Enfield, Tompkins County, New York, April 2013 - August 2015](/catalog/folder/5d49c872e4b01d82ce8de82a)
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## Dates
Publication Date2019-12-11Start Date2013-04-17End Date2015-08-28
## Citation
Fisher, B.N., Heisig, P.M., and Kappel, W.M., 2019, Horizontal-to-Vertical Spectral Ratio Soundings and Depth-to-Bedrock Data for Geohydrology and Water Quality Investigation of the Unconsolidated Aquifers in the Enfield Creek Valley, Town of Enfield, Tompkins County, New York, April 2013 - August 2015: U.S. Geological Survey data release, https://doi.org/10.5066/P9ZFTDFY.
## Summary
From April 2013 to August 2015, the U.S. Geological Survey, in cooperation with the Town of Enfield and the Tompkins County Planning Department, collected horizontal-to-vertical seismic soundings at 69 locations in the Enfield Creek valley to help determine thickness of the unconsolidated deposits and depth to bedrock. The HVSR technique, commonly referred to as the passive-seismic method, is used to estimate the thickness of unconsolidated sediments and the depth to bedrock (Lane and others, 2008). The passive-seismic method uses a single, broad-band three-component (two horizontal and one vertical) seismometer to record ambient seismic noise. In areas that have a strong acoustic contrast between the bedrock and overlying sediments, \[...\]
## Summary
From April 2013 to August 2015, the U.S. Geological Survey, in cooperation with the Town of Enfield and the Tompkins County Planning Department, collected horizontal-to-vertical seismic soundings at 69 locations in the Enfield Creek valley to help determine thickness of the unconsolidated deposits and depth to bedrock.
The HVSR technique, commonly referred to as the passive-seismic method, is used to estimate the thickness of unconsolidated sediments and the depth to bedrock (Lane and others, 2008). The passive-seismic method uses a single, broad-band three-component (two horizontal and one vertical) seismometer to record ambient seismic noise. In areas that have a strong acoustic contrast between the bedrock and overlying sediments, the seismic noise induces resonance at frequencies that range from about 0.3 to 40 Hz. The ratio of the average horizontal-to-vertical spectrums produces a spectral-ratio curve with peaks at fundamental and higher-order resonance frequencies. The spectral ratio curve (the ratio of the averaged horizontal-to-vertical component spectrums) is used to determine the fundamental resonance frequency that can be used along with an average shear-wave velocity or a power-law regression equation to estimate sediment thickness and depth to bedrock (Lane and others, 2008; Brown and others, 2013; Fairchild and others, 2013; Chandler and others, 2014; and Johnson and Lane, 2016).
The HVSR data presented in this data release were collected at each site for 30 minutes using a Tromino Model TEP-3C1 three-component seismometer. The data were processed with Grilla 2012 version 6.21 software to 1) remove anthropogenic noise, 2) convert the time-domain data to frequency domain, 3) compute and plot the spectral ratio curve, and 4) determine the resonance frequency.
This data release presents the resonance frequency peaks identified from the HVSR measurements. Also presented are reported depth-to-bedrock data for wells located at or near HVSR data-collection sites in the Town of Enfield for use in comparison of HVSR forward model depths to reported well depths. Raw and processed HVSR data for each HVSR measurement are presented in the attached. The HVSR data-collection sites are designated by a county sequential numbering system (TMHVSR79, TMHVSR80, etc. where TM indicates Tompkins County).
References
Brown, C.J., Voytek, E.B., Lane, J.W., Jr., and Stone, J.R., 2013, Mapping bedrock surface contours using the horizontal-to-vertical spectral ratio (HVSR) method near the middle quarter area, Woodbury, Connecticut: U.S. Geological Survey Open-File Report 2013–1028, 4 p., available at http://pubs.usgs.gov/of/2013/1028.
Chandler, V. W., and Lively, R. S., 2014, Evaluation of the horizontal-to-vertical spectral ratio (HVSR) passive seismic method for estimating the thickness of Quaternary deposits in Minnesota and adjacent parts of Wisconsin: Minnesota Geological Survey Open File Report 14-01, 52 p.
Fairchild, G.M., Lane, J.W., Jr., Voytek, E.B., and LeBlanc, D.R., 2013, Bedrock topography of western Cape Cod, Massachusetts, based on bedrock altitudes from geologic borings and analysis of ambient seismic noise by the horizontal-to-vertical spectral-ratio method: U.S. Geological Survey Scientific Investigations Map 3233, 1 sheet, maps variously scaled, 17-p. pamphlet, on one CD–ROM. (Also available at http://pubs.usgs.gov/sim/3233.)
Johnson, C. D. and Lane, J. W., 2016, Statistical comparison of methods for estimating sediment thickness from horizontal-to-vertical spectral ratio (HVSR) seismic methods: An example from Tylerville, Connecticut, USA, in Symposium on the Application of Geophysics to Engineering and Environmental Problems Proceedings: Denver, Colorado, Environmental and Engineering Geophysical Society, pp. 317-323. https://doi.org/10.4133/SAGEEP.29-057.
Lane, J.W., Jr., White, E.A., Steele, G.V., and Cannia, J.C., 2008, Estimation of bedrock depth using the horizontal-to-vertical (H/V) ambient-noise seismic method, in Symposium on the Application of Geophysics to Engineering and Environmental Problems Proceedings: Denver, Colorado, Environmental and Engineering Geophysical Society, pp. 490-502. https://doi.org/10.4133/1.2963289.
1Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.
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## Contacts
Point of Contact
:
[Benjamin N Fisher](/catalog/catalogParty/show?partyId=62776)
Originator
:
[Benjamin N Fisher](/catalog/catalogParty/show?partyId=62776),
[Paul M Heisig](/catalog/catalogParty/show?partyId=4425),
[William M Kappel](/catalog/catalogParty/show?partyId=5301)
Metadata Contact
:
[Benjamin N Fisher](/catalog/catalogParty/show?partyId=62776),
[New York Water Science Center](/catalog/catalogParty/show?partyId=17211)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
SDC Data Owner
:
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USGS Mission Area
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[Water Resources](/catalog/catalogParty/show?partyId=Water+Resources)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5d49c872e4b01d82ce8de82a?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5d49c872e4b01d82ce8de82a?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5d49c872e4b01d82ce8de82a?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| HVSR\_EnfieldAquifer.xml<br>“Metadata XML”<br>_Original FGDC Metadata_ | View | 22 KB | application/fgdc+xml |
| TMHVSR79.zip | | 1.81 MB | application/zip |
| TMHVSR80.zip | | 3.9 MB | application/zip |
| TMHVSR81.zip | | 3.79 MB | application/zip |
| TMHVSR82.zip | | 1.78 MB | application/zip |
| TMHVSR83.zip | | 4.3 MB | application/zip |
| TMHVSR84.zip | | 1.91 MB | application/zip |
| TMHVSR85.zip | | 4.12 MB | application/zip |
| TMHVSR86.zip | | 4.04 MB | application/zip |
| TMHVSR87.zip | | 1.76 MB | application/zip |
| TMHVSR88.zip | | 4.27 MB | application/zip |
| TMHVSR89.zip | | 1.86 MB | application/zip |
| TMHVSR90.zip | | 4.28 MB | application/zip |
| TMHVSR91.zip | | 4.06 MB | application/zip |
| TMHVSR93.zip | | 1.14 MB | application/zip |
| TMHVSR94.zip | | 4.04 MB | application/zip |
| TMHVSR95.zip | | 1.61 MB | application/zip |
| TMHVSR96.zip | | 4.21 MB | application/zip |
| TMHVSR97.zip | | 4.17 MB | application/zip |
| TMHVSR98.zip | | 1.45 MB | application/zip |
| TMHVSR99.zip | | 1.54 MB | application/zip |
| TMHVSR100.zip | | 1.24 MB | application/zip |
| TMHVSR101.zip | | 1.16 MB | application/zip |
| TMHVSR102.zip | | 1.22 MB | application/zip |
| TMHVSR103.zip | | 1.38 MB | application/zip |
| TMHVSR104.zip | | 948.9 KB | application/zip |
| TMHVSR105.zip | | 1.33 MB | application/zip |
| TMHVSR106.zip | | 948.15 KB | application/zip |
| TMHVSR107.zip | | 4.31 MB | application/zip |
| TMHVSR108.zip | | 2.09 MB | application/zip |
| TMHVSR109.zip | | 1.73 MB | application/zip |
| TMHVSR110.zip | | 1.9 MB | application/zip |
| TMHVSR111.zip | | 1.71 MB | application/zip |
| TMHVSR112.zip | | 3.73 MB | application/zip |
| TMHVSR113.zip | | 1.41 MB | application/zip |
| TMHVSR114.zip | | 3.96 MB | application/zip |
| TMHVSR115.zip | | 2.08 MB | application/zip |
| TMHVSR116.zip | | 3.3 MB | application/zip |
| TMHVSR117.zip | | 973.79 KB | application/zip |
| TMHVSR118.zip | | 3.35 MB | application/zip |
| TMHVSR119.zip | | 1.07 MB | application/zip |
| TMHVSR120.zip | | 3.22 MB | application/zip |
| TMHVSR121.zip | | 3.59 MB | application/zip |
| TMHVSR122.zip | | 1.59 MB | application/zip |
| TMHVSR123.zip | | 4.12 MB | application/zip |
| TMHVSR124.zip | | 1.72 MB | application/zip |
| TMHVSR125.zip | | 3.81 MB | application/zip |
| TMHVSR126.zip | | 1.76 MB | application/zip |
| TMHVSR127.zip | | 3.74 MB | application/zip |
| TMHVSR128.zip | | 3.63 MB | application/zip |
| TMHVSR129.zip | | 1.09 MB | application/zip |
| TMHVSR130.zip | | 4.26 MB | application/zip |
| TMHVSR131.zip | | 1.53 MB | application/zip |
| TMHVSR132.zip | | 4.07 MB | application/zip |
| TMHVSR133.zip | | 1.72 MB | application/zip |
| TMHVSR134.zip | | 1.75 MB | application/zip |
| TMHVSR135.zip | | 1.69 MB | application/zip |
| TMHVSR136.zip | | 1.68 MB | application/zip |
| TMHVSR147.zip | | 3.53 MB | application/zip |
| TMHVSR148.zip | | 1.62 MB | application/zip |
| TMHVSR149.zip | | 3.02 MB | application/zip |
| TMHVSR150.zip | | 897.28 KB | application/zip |
| TMHVSR151.zip | | 3.22 MB | application/zip |
| TMHVSR152.zip | | 3.39 MB | application/zip |
| TMHVSR153.zip | | 3.62 MB | application/zip |
| TMHVSR154.zip | | 1.08 MB | application/zip |
| TMHVSR155.zip | | 3.83 MB | application/zip |
| TMHVSR156.zip | | 1.48 MB | application/zip |
| TMHVSR157.zip | | 3.44 MB | application/zip |
| TMHVSR92.zip | | 3.75 MB | application/zip |
| HVSR\_EnfieldAquifer\_LIST.csv | | 10.36 KB | text/csv |
... show more ... (Attached Files)
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Fisher, B.N., Heisig, P.M., and Kappel, W.M., 2019, Geohydrology and water quality of the unconsolidated aquifers in the Enfield Creek Valley, town of Enfield, Tompkins County, New York: U.S. Geological Survey Scientific Investigations Report 2019–5136, 52 p., https://doi.org/10.3133/sir20195136. | [https://doi.org/10.3133/sir20195136](https://doi.org/10.3133/sir20195136 "https://doi.org/10.3133/sir20195136") |
Type: Web Link
| | |
| --- | --- |
| Brown, C.J., Voytek, E.B., Lane, J.W., Jr., and Stone, J.R., 2013, Mapping bedrock surface contours using the horizontal-to-vertical spectral ratio (HVSR) method near the middle quarter area, Woodbury, Connecticut: U.S. Geological Survey Open-File Report 2013–1028, 4 p., available at http://pubs.usgs.gov/of/2013/1028 | [http://pubs.usgs.gov/of/2013/1028](http://pubs.usgs.gov/of/2013/1028 "http://pubs.usgs.gov/of/2013/1028") |
| Chandler, V. W., and Lively, R. S., 2014, Evaluation of the horizontal-to-vertical spectral ratio (HVSR) passive seismic method for estimating the thickness of Quaternary deposits in Minnesota and adjacent parts of Wisconsin: Minnesota Geological Survey Open File Report 14-01, 52 p. | [https://conservancy.umn.edu/handle/11299/162792](https://conservancy.umn.edu/handle/11299/162792 "https://conservancy.umn.edu/handle/11299/162792") |
| Fairchild, G.M., Lane, J.W., Jr., Voytek, E.B., and LeBlanc, D.R., 2013, Bedrock topography of western Cape Cod, Massachusetts, based on bedrock altitudes from geologic borings and analysis of ambient seismic noise by the horizontal-to-vertical spectral-ratio method: U.S. Geological Survey Scientific Investigations Map 3233, 1 sheet, maps variously scaled, 17-p. pamphlet, on one CD–ROM. (Also available at http://pubs.usgs.gov/sim/3233.) | [http://pubs.usgs.gov/sim/3233](http://pubs.usgs.gov/sim/3233 "http://pubs.usgs.gov/sim/3233") |
| Johnson, C. D. and Lane, J. W., 2016, Statistical comparison of methods for estimating sediment thickness from horizontal-to-vertical spectral ratio (HVSR) seismic methods: An example from Tylerville, Connecticut, USA, in Symposium on the Application of Geophysics to Engineering and Environmental Problems Proceedings: Denver, Colorado, Environmental and Engineering Geophysical Society, pp. 317-323. https://doi.org/10.4133/SAGEEP.29-057. | [https://doi.org/10.4133/SAGEEP.29-057](https://doi.org/10.4133/SAGEEP.29-057 "https://doi.org/10.4133/SAGEEP.29-057") |
| Lane, J.W., Jr., White, E.A., Steele, G.V., and Cannia, J.C., 2008, Estimation of bedrock depth using the horizontal-to-vertical (H/V) ambient-noise seismic method, in Symposium on the Application of Geophysics to Engineering and Environmental Problems Proceedings: Denver, Colorado, Environmental and Engineering Geophysical Society, pp. 490-502. https://doi.org/10.4133/1.2963289. | [https://doi.org/10.4133/1.2963289](https://doi.org/10.4133/1.2963289 "https://doi.org/10.4133/1.2963289") |
## Purpose
Data were obtained to help determine thickness of surficial geologic units and depth to bedrock in order to characterize aquifer geometry.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Fisher, Benjamin N.</origin>\n <origin>Heisig, Paul M.</origin>\n <origin>Kappel, William M.</origin>\n <pubdate>20191211</pubdate>\n <title>Horizontal-to-Vertical Spectral Ratio Soundings and Depth-to-Bedrock Data for Geohydrology and Water Quality Investigation of the Unconsolidated Aquifers in the Enfield Creek Valley, Town of Enfield, Tompkins County, New York, April 2013 - August 2015</title>\n <geoform>ASCII CSV (comma delimited, one .csv file); .dat (ASCII output files, one .dat file per measurement); PDF (Adobe Portable Document Format, one .pdf file per measurement); and .trc (Moho Grilla output files, one .trc file per measurement)</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9ZFTDFY</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Fisher, Benjamin N.</origin>\n <origin>Heisig, Paul M.</origin>\n <origin>Kappel, William M.</origin>\n <pubdate>2019</pubdate>\n <title>Geohydrology and Water Quality of the Unconsolidated Aquifers in the Enfield Creek Valley, Town of Enfield, Tompkins County, New York</title>\n <geoform>Online Publication</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/sir20195136</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>From April 2013 to August 2015, the U.S. Geological Survey, in cooperation with the Town of Enfield and the Tompkins County Planning Department, collected horizontal-to-vertical seismic soundings at 69 locations in the Enfield Creek valley to help determine thickness of the unconsolidated deposits and depth to bedrock.\n\nThe HVSR technique, commonly referred to as the passive-seismic method, is used to estimate the thickness of unconsolidated sediments and the depth to bedrock (Lane and others, 2008). The passive-seismic method uses a single, broad-band three-component (two horizontal and one vertical) seismometer to record ambient seismic noise. In areas that have a strong acoustic contrast between the bedrock and overlying sediments, the seismic noise induces resonance at frequencies that range from about 0.3 to 40 Hz. The ratio of the average horizontal-to-vertical spectrums produces a spectral-ratio curve with peaks at fundamental and higher-order resonance frequencies. The spectral ratio curve (the ratio of the averaged horizontal-to-vertical component spectrums) is used to determine the fundamental resonance frequency that can be used along with an average shear-wave velocity or a power-law regression equation to estimate sediment thickness and depth to bedrock (Lane and others, 2008; Brown and others, 2013; Fairchild and others, 2013; Chandler and others, 2014; and Johnson and Lane, 2016).\n\nThe HVSR data presented in this data release were collected at each site for 30 minutes using a Tromino Model TEP-3C three-component seismometer. The data were processed with Grilla 2012 version. 6.2 software to 1) remove anthropogenic noise, 2) convert the time-domain data to frequency domain, 3) compute and plot the spectral ratio curve, and 4) determine the resonance frequency.\n\nThis data release presents the resonance frequency peaks identified from the HVSR measurements. Also presented are reported depth-to-bedrock data for wells located at or near HVSR data-collection sites in the Town of Enfield for use in comparison of HVSR forward model depths to reported well depths. Raw and processed HVSR data for each HVSR measurement are presented in the attached. The HVSR data-collection sites are designated by a county sequential numbering system (TMHVSR79, TMHVSR80, etc. where TM indicates Tompkins County).\n\nReferences\n\nBrown, C.J., Voytek, E.B., Lane, J.W., Jr., and Stone, J.R., 2013, Mapping bedrock surface contours using the horizontal-to-vertical spectral ratio (HVSR) method near the middle quarter area, Woodbury, Connecticut: U.S. Geological Survey Open-File Report 2013\xe2\x80\x931028, 4 p., available at http://pubs.usgs.gov/of/2013/1028.\n\nChandler, V. W., and Lively, R. S., 2014, Evaluation of the horizontal-to-vertical spectral ratio (HVSR) passive seismic method for estimating the thickness of Quaternary deposits in Minnesota and adjacent parts of Wisconsin: Minnesota Geological Survey Open File Report 14-01, 52 p.\n\nFairchild, G.M., Lane, J.W., Jr., Voytek, E.B., and LeBlanc, D.R., 2013, Bedrock topography of western Cape Cod, Massachusetts, based on bedrock altitudes from geologic borings and analysis of ambient seismic noise by the horizontal-to-vertical spectral-ratio method: U.S. Geological Survey Scientific Investigations Map 3233, 1 sheet, maps variously scaled, 17-p. pamphlet, on one CD\xe2\x80\x93ROM. (Also available at http://pubs.usgs.gov/sim/3233.)\n\nJohnson, C. D. and Lane, J. W., 2016, Statistical comparison of methods for estimating sediment thickness from horizontal-to-vertical spectral ratio (HVSR) seismic methods: An example from Tylerville, Connecticut, USA, in Symposium on the Application of Geophysics to Engineering and Environmental Problems Proceedings: Denver, Colorado, Environmental and Engineering Geophysical Society, pp. 317-323. https://doi.org/10.4133/SAGEEP.29-057.\n\nLane, J.W., Jr., White, E.A., Steele, G.V., and Cannia, J.C., 2008, Estimation of bedrock depth using the horizontal-to-vertical (H/V) ambient-noise seismic method, in Symposium on the Application of Geophysics to Engineering and Environmental Problems Proceedings: Denver, Colorado, Environmental and Engineering Geophysical Society, pp. 490-502. https://doi.org/10.4133/1.2963289.</abstract>\n <purpose>Data were obtained to help determine thickness of surficial geologic units and depth to bedrock in order to characterize aquifer geometry.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20130417</begdate>\n <enddate>20150828</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-76.687731</westbc>\n <eastbc>-76.600972</eastbc>\n <northbc>42.472056</northbc>\n <southbc>42.4045</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Seismology</themekey>\n <themekey>Groundwater</themekey>\n <themekey>Aquifer</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5d49c872e4b01d82ce8de82a</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>United States</placekey>\n <placekey>New York</placekey>\n <placekey>Tompkins County</placekey>\n <placekey>Enfield</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Benjamin N Fisher</cntper>\n <cntorg>U.S. Geological Survey, New York Water Science Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>425 Jordan Road</address>\n <city>Troy</city>\n <state>NY</state>\n <postal>12180</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>518-285-5672</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <crossref>\n <citeinfo>\n <origin>Brown, C.J.</origin>\n <origin>Voytek, E.B.</origin>\n <origin>Lane, J.W., Jr.</origin>\n <origin>Stone, J.R.</origin>\n <pubdate>2013</pubdate>\n <title>Mapping bedrock surface contours using the horizontal-to-vertical spectral ratio (HVSR) method near the middle quarter area, Woodbury, Connecticut</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>USGS</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/of/2013/1028.</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Fairchild, G.M.</origin>\n <origin>Lane, J.W., Jr.</origin>\n <origin>Voytek, E.B.</origin>\n <origin>LeBlanc, D.R.</origin>\n <pubdate>2013</pubdate>\n <title>Bedrock topography of western Cape Cod, Massachusetts, based on bedrock altitudes from geologic borings and analysis of ambient seismic noise by the horizontal-to-vertical spectral-ratio method</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>USGS</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/sim/3233</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Chandler, V.W.</origin>\n <origin>Lively, R.S.</origin>\n <pubdate>2014</pubdate>\n <title>Evaluation of the horizontal-to-vertical spectral ratio (HVSR) passive seismic method for estimating the thickness of Quaternary deposits in Minnesota and adjacent parts of Wisconsin</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Saint Paul, MN</pubplace>\n <publish>Minnesota Geological Survey</publish>\n </pubinfo>\n <onlink>https://conservancy.umn.edu/handle/11299/162792</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Johnson, C.D.</origin>\n <origin>Lane, J.W.</origin>\n <pubdate>2016</pubdate>\n <title>Statistical comparison of methods for estimating sediment thickness from horizontal-to-vertical spectral ratio (HVSR) seismic methods: An example from Tylerville, Connecticut, USA, in Symposium on the Application of Geophysics to Engineering and Environmental Problems Proceedings</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>Environmental and Engineering Geophysical Society</publish>\n </pubinfo>\n <onlink>https://doi.org/10.4133/SAGEEP.29-057</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Lane, J.W., Jr.</origin>\n <origin>White, E.A.</origin>\n <origin>Steele, G.V.</origin>\n <origin>Cannia, J.C.</origin>\n <pubdate>2008</pubdate>\n <title>Estimation of bedrock depth using the horizontal-to-vertical (H/V) ambient-noise seismic method, in Symposium on the Application of Geophysics to Engineering and Environmental Problems Proceedings</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>Environmental and Engineering Geophysical Society</publish>\n </pubinfo>\n <onlink>https://doi.org/10.4133/1.2963289</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Measurements were taken at 69 locations throughout the Enfield unconsolidated aquifer and Town of Enfield to refine aquifer geometry as determined from the data collected using the horizontal-to-vertical spectral ratio (HVSR) seismic method. The HVSR method is a way of measuring ambient seismic noise in order to determine sediment thickness overlying bedrock (Lane and others, 2008). A database and graphical representation were created using the data collected from the field and are available via the larger work cited above.</procdesc>\n <procdate>2015</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>1.0E-5</latres>\n <longres>1.0E-5</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>GCS_WGS_1984</horizdn>\n <ellips>WGS_1984</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>HVSR_EnfieldAquifer_LIST.csv</enttypl>\n <enttypd>CSV file containing information about each seismic survey performed.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>HVSR site number</attrlabl>\n <attrdef>A numeric 15 digit identifier for each site based on the degrees/minutes/seconds latitude and longitude location of each survey.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>USGS defined site identification number associated with each survey.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>HVSR site name</attrlabl>\n <attrdef>An alphanumeric site name for each location containing a county code as the first two letters.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>USGS defined site name associated with each survey.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Local name</attrlabl>\n <attrdef>An alphanumeric site name for each location containing used during the study.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>USGS assigned site name associated with each survey.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>Latitude location of each survey in degrees minutes seconds.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Latitude in degrees minutes seconds.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>Longitude location of each survey in degrees minutes seconds.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Longitude in degrees minutes seconds.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date surveyed</attrlabl>\n <attrdef>Date the survey was performed on.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Date the survey was performed on.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Horizontal to vertical ratio (peak height)</attrlabl>\n <attrdef>H/V peak height. Well defined peaks generally have a H/V ratio of greater than or equal to 4.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>minimum varies by site</rdommin>\n <rdommax>maximum varies by site</rdommax>\n <attrunit>peak height</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>H/V peak form</attrlabl>\n <attrdef>General peak form as displayed on the measurement processed data report.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Description of general peak form.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Resonant frequency (f) of H/V peak (Hz)</attrlabl>\n <attrdef>Resonant frequency of H/V peak for each survey determined after processing in proprietary software, Grilla.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>minimum varies by site</rdommin>\n <rdommax>maximum varies by site</rdommax>\n <attrunit>Hz</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Estimated depth to bedrock (ft)</attrlabl>\n <attrdef>Values determined by entering into a regression equation used to forward model resonant frequency to HVSR depth. Regression equation used to forward model resonant frequency to HVSR depth developed by Fairchild and others (2013), Z = 297f^1 where Z is the depth to bedrock in ft and f is the fundamental resonance frequency in Hertz.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>minimum varies by site</rdommin>\n <rdommax>maximum varies by site</rdommax>\n <attrunit>ft</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nearby well</attrlabl>\n <attrdef>An alphanumeric site name for each location containing a county code as the first two letters.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>USGS defined site name associated with each survey.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reported depth to bedrock (ft)</attrlabl>\n <attrdef>Depth to bedrock value as reported for the nearby well.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>minimum varies by site</rdommin>\n <rdommax>maximum varies by site</rdommax>\n <attrunit>ft</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>TMHVSRxx.zip</enttypl>\n <enttypd>Folder containing HVSR measurement raw data in ASCII format, HVSR measurement processed data report in Portable Document Format (PDF) and HVSR measurement raw data in their original format.</enttypd>\n <enttypds>Producer defined.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>.dat</attrlabl>\n <attrdef>The \'.dat\' file is an ASCII file exported from the proprietary Grilla software that shows all of the instrument and raw data collection from the measurement.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Raw data collection from each survey in ASCII format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>.pdf</attrlabl>\n <attrdef>This is a report of the final analysis that is automatically created using the "Create Report" function within the Grilla software. Included in this report are the name given to the individual seismic record, basic information about the seismic reading, basic parameters for the final analysis, an image representing each component of the analysis (horizontal to vertical spectral ratio, H/V time history, Directional H/V, and single component spectra), maximum H/V reading (Hz), the criteria for a reliable H/V curve, and the criteria for a clear H/V peak.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>HVSR measurement processed data report in Portable Document Format (PDF).</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>.trc</attrlabl>\n <attrdef>The \'.trc\' file is a file exported from the proprietary Grilla software that shows all of the instrument and raw data collection from the measurement and can only be opened using said proprietary Grilla software.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Raw data collection for each survey in their original format.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n <techpreq>The "TMHVSRxx.zip" files contain data available in Moho Grilla software. The user must have software capable of uncompressing the compressed .zip file and reading the .trc files.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200825</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Benjamin N. Fisher</cntper>\n <cntorg>U.S. Geological Survey, New York Water Science Center</cntorg>\n </cntperp>\n <cntpos>Hydrologic Technician</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>425 Jordan Road</address>\n <city>Troy</city>\n <state>NY</state>\n <postal>12180</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>518-285-5672</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [Chesapeake Bay Endocrine Disrupting Chemicals](/catalog/item/59e8ae3de4b05fe04cd50b2c)
3. [Assessment of Endocrine Disruption in the Shenandoah River Watershed – Chemical and Biological Data from Mobile Laboratory Fish Exposures and Other Experiments Conducted during 2014, 2015, and 2016](/catalog/folder/5a29937ee4b03852baff8bed)
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## Dates
Publication Date2019-03-12Time Period2014Time Period2015Time Period2016
## Citation
Barber, L.B., Bertolatus, D.W., Dietze, J.E., Hladik, M.L., Jasmann, J.R., Jastrow, A., Keefe, S.H., Kolpin, D.W., Kraus, J.M., Iwanowicz, L.R., Melberg, A.K., Meyer, M.T., Rapp, J.L., Roth, D.A., Sperry, A., Tokranov, A.K., and Vajda, A.M., 2019, Assessment of Endocrine Disruption in the Shenandoah River Watershed – Chemical and Biological Data from Mobile Laboratory Fish Exposures and Other Experiments Conducted during 2014, 2015, and 2016. U.S. Geological Survey data release, https://doi.org/10.5066/F7QF8S22.
## Summary
This data release presents chemical and biological results from investigations of water quality, fish endocrine disruption, and emergent insects in the Shenandoah River Watershed (Virginia and West Virginia, USA) conducted during 2014, 2015, and 2016. Multiple sampling campaigns were conducted at sites located throughout the Shenandoah River Watershed (Table 1). The complex inorganic and organic chemical characteristics of river waters and wastewater treatment plant effluents were characterized using 21 separate analytical methods at 7 laboratories (Tables 2, 3, and 4). To assess the relations between water composition and fish endocrine disruption, 21-day mobile laboratory adult fathead minnow exposure experiments with water quality \[...\]
## Summary
This data release presents chemical and biological results from investigations of water quality, fish endocrine disruption, and emergent insects in the Shenandoah River Watershed (Virginia and West Virginia, USA) conducted during 2014, 2015, and 2016. Multiple sampling campaigns were conducted at sites located throughout the Shenandoah River Watershed (Table 1). The complex inorganic and organic chemical characteristics of river waters and wastewater treatment plant effluents were characterized using 21 separate analytical methods at 7 laboratories (Tables 2, 3, and 4). To assess the relations between water composition and fish endocrine disruption, 21-day mobile laboratory adult fathead minnow exposure experiments with water quality and biological characterization (water collected on day 0, 7, 14, and 21; fish collected on day 0, 7, and 21) were conducted at 4 locations from August 12 to September 1, 2014, 3 locations from May 26 to June 16, 2015, and 5 locations from July 27 to August 17, 2016 (Tables 1 and 5). To assess changes in water chemistry resulting from point and non-point sources along the flow path, targeted stream-reach sampling for water quality characterization was conducted at 14 locations from August 25 to August 27, 2015 (Tables 1 and 6). Temporal variability was assessed by time-series sampling for water quality characterization at 2 locations associated with wild fish collection from April 4 to June 14, 2016 (Tables 1 and 7). Spatial variability across the watershed was assessed by landscape-directed sampling for water-quality characterization with biological assessment at 18 locations from August 9 to August 16, 2016, and 17 locations from October 17 to October 18, 2016 (Tables 1 and 8). Biological results for the 21-day mobile-laboratory adult fathead minnow exposure experiments are presented in Table 9. Biological results for the wild smallmouth bass and white sucker sampling on April 12, 2016 are presented in Table 10. Biological results for the 96-hour larval fathead minnow exposures from July, August, and October 2016 are presented in Table 11. Results for tissue analysis of pesticides and disinfection byproducts in adult fathead minnows collected at day 21 of the August to September 2014 exposure experiments are presented in Table 12. Emergent aquatic insects, terrestrial insects, and spider sampling was conducted at 4 locations from May 21 to May 25, 2015 (Tables 13, 14, and 15) and tissue samples analyzed for pesticides (Tables 16 and 17).
## Contacts
Point of Contact
:
[Larry B Barber](/catalog/catalogParty/show?partyId=488)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
Originator
:
[Larry B Barber](/catalog/catalogParty/show?partyId=488),
[David W. Bertolatus](/catalog/catalogParty/show?partyId=David+W.+Bertolatus),
[Julie E Dietze](/catalog/catalogParty/show?partyId=2556),
[Michelle L Hladik](/catalog/catalogParty/show?partyId=4600),
[Jeramy R Jasmann](/catalog/catalogParty/show?partyId=70645),
[Aaron Jastrow](/catalog/catalogParty/show?partyId=Aaron+Jastrow),
[Steffanie H Keefe](/catalog/catalogParty/show?partyId=5343),
[Dana W Kolpin](/catalog/catalogParty/show?partyId=5631),
[Johanna M Kraus](/catalog/catalogParty/show?partyId=24350),
[Luke R. Iwanowicz](/catalog/catalogParty/show?partyId=Luke+R.+Iwanowicz),
[Alyssa K Melberg](/catalog/catalogParty/show?partyId=28031),
[Michael T. Meyer](/catalog/catalogParty/show?partyId=Michael+T.+Meyer),
[Jennifer L Rapp](/catalog/catalogParty/show?partyId=5718),
[David A. Roth](/catalog/catalogParty/show?partyId=David+A.+Roth),
[Adam Sperry](/catalog/catalogParty/show?partyId=Adam+Sperry),
[Andrea K Tokranov](/catalog/catalogParty/show?partyId=73534),
[Alan M Vajda](/catalog/catalogParty/show?partyId=66704)
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[Larry B Barber](/catalog/catalogParty/show?partyId=488)
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| --- | --- | --- | --- |
| Metadata.xml<br>_Original FGDC Metadata_ | View | 64.42 KB | application/fgdc+xml |
| Passage Creek Moble Lab.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5a29937ee4b03852baff8bed?f=__disk__6f%2Fc4%2Fff%2F6fc4ff1d3b868fc15aba1adb665518e132d6e601&width=150&height=100) | 70.46 KB | image/jpeg |
| Table 1 Site Locations.xlsx | | 22.87 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 2 Constituents.xlsx | | 68.51 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 3 Quality Assurance.xlsx | | 152.94 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 4 Surrogate Standards.xlsx | | 62.29 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 5 Mobile Laboratories.xlsx | | 199.64 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 6 Stream Reach.xlsx | | 43.06 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 7 Time Series.xlsx | | 45.01 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 8 Landscape.xlsx | | 66.38 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 9 ML Biomarkers.xlsx | | 146.52 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 10 Wild Fish.xlsx | | 21.99 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 11 Larval Biomarkers.xlsx | | 22.53 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 12 Fish Tissue.xlsx | | 10.12 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 13 Insect Sampling.xlsx | | 18.03 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 14 Emergent Mass.xlsx | | 35.84 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 15 Terrestrial Mass.xlsx | | 10.68 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 16 ET Chemistry Samples.xlsx | | 10.94 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| Table 17 ET Chemistry Results.xlsx | | 9.5 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Barber, L.B., Rapp, J.L., Kandel, C., Keefe, S.H., Rice, J., Westerhoff, P., Bertolatus, D.W., and Vajda, A.M., 2019, Integrated assessment of wastewater reuse, exposure risk, and fish endocrine disruption in the Shenandoah River Watershed. Environmental Science and Technology, v. 53, no. 7, 3429-3440. https://doi.org/10.1021/acs.est.8b05655 | [https://doi.org/10.1021/acs.est.8b05655](https://doi.org/10.1021/acs.est.8b05655 "https://doi.org/10.1021/acs.est.8b05655") |
## Purpose
These data were collected to assess the relations between the complex inorganic and organic water chemistry in the Shenandoah River Watershed, endocrine disruption in a model organism (fathead minnow) and wild fish (smallmouth bass and white sucker), and contaminant flux from the aquatic to the terrestrial environment by emergent insects.
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## Additional Information
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| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F7QF8S22 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Larry B. Barber</origin>\n <origin>David W. Bertolatus</origin>\n <origin>Julie E. Dietze</origin>\n <origin>Michelle L. Hladik</origin>\n <origin>Jeramy R. Jasmann</origin>\n <origin>Aaron Jastrow</origin>\n <origin>Steffanie H. Keefe</origin>\n <origin>Dana W. Kolpin</origin>\n <origin>Johanna M. Kraus</origin>\n <origin>Luke R. Iwanowicz</origin>\n <origin>Alyssa K. Melberg</origin>\n <origin>Michael T. Meyer</origin>\n <origin>Jennifer L. Rapp</origin>\n <origin>David A. Roth</origin>\n <origin>Adam Sperry</origin>\n <origin>Andrea K. Tokranov</origin>\n <origin>Alan M. Vajda</origin>\n <pubdate>2019</pubdate>\n <title>Assessment of Endocrine Disruption in the Shenandoah River Watershed \xe2\x80\x93 Chemical and Biological Data from Mobile Laboratory Fish Exposures and Other Experiments Conducted during 2014, 2015, and 2016</title>\n <geoform>The data are presented as .xlsx files.</geoform>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7QF8S22</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Larry B. Barber</origin>\n <origin>Jennifer L. Rapp</origin>\n <origin>Chintamani Kandel</origin>\n <origin>Steffanie H. Keefe</origin>\n <origin>Jacelyn Rice</origin>\n <origin>Paul Westerhoff</origin>\n <origin>David W. Bertolatus</origin>\n <origin>Alan M. Vajda</origin>\n <pubdate>20190319</pubdate>\n <title>Integrated Assessment of Wastewater Reuse, Exposure Risk, and Fish Endocrine Disruption in the Shenandoah River Watershed</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Environmental Science & Technology</sername>\n <issue>vol. 53, issue 7</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>American Chemical Society (ACS)</publish>\n </pubinfo>\n <othercit>ppg. 3429-3440</othercit>\n <onlink>https://doi.org/10.1021/acs.est.8b05655</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release presents chemical and biological results from investigations of water quality, fish endocrine disruption, and emergent insects in the Shenandoah River Watershed (Virginia and West Virginia, USA) conducted during 2014, 2015, and 2016. Multiple sampling campaigns were conducted at sites located throughout the Shenandoah River Watershed (Table 1). The complex inorganic and organic chemical characteristics of river waters and wastewater treatment plant effluents were characterized using 21 separate analytical methods at 7 laboratories (Tables 2, 3, and 4). To assess the relations between water composition and fish endocrine disruption, 21-day mobile laboratory adult fathead minnow exposure experiments with water quality and biological characterization (water collected on day 0, 7, 14, and 21; fish collected on day 0, 7, and 21) were conducted at 4 locations from August 12 to September 1, 2014, 3 locations from May 26 to June 16, 2015, and 5 locations from July 27 to August 17, 2016 (Tables 1 and 5). To assess changes in water chemistry resulting from point and non-point sources along the flow path, targeted stream-reach sampling for water quality characterization was conducted at 14 locations from August 25 to August 27, 2015 (Tables 1 and 6). Temporal variability was assessed by time-series sampling for water quality characterization at 2 locations associated with wild fish collection from April 4 to June 14, 2016 (Tables 1 and 7). Spatial variability across the watershed was assessed by landscape-directed sampling for water-quality characterization with biological assessment at 18 locations from August 9 to August 16, 2016, and 17 locations from October 17 to October 18, 2016 (Tables 1 and 8). Biological results for the 21-day mobile-laboratory adult fathead minnow exposure experiments are presented in Table 9. Biological results for the wild smallmouth bass and white sucker sampling on April 12, 2016 are presented in Table 10. Biological results for the 96-hour larval fathead minnow exposures from July, August, and October 2016 are presented in Table 11. Results for tissue analysis of pesticides and disinfection byproducts in adult fathead minnows collected at day 21 of the August to September 2014 exposure experiments are presented in Table 12. Emergent aquatic insects, terrestrial insects, and spider sampling was conducted at 4 locations from May 21 to May 25, 2015 (Tables 13, 14, and 15) and tissue samples analyzed for pesticides (Tables 16 and 17).</abstract>\n <purpose>These data were collected to assess the relations between the complex inorganic and organic water chemistry in the Shenandoah River Watershed, endocrine disruption in a model organism (fathead minnow) and wild fish (smallmouth bass and white sucker), and contaminant flux from the aquatic to the terrestrial environment by emergent insects.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>2014</caldate>\n </sngdate>\n <sngdate>\n <caldate>2015</caldate>\n </sngdate>\n <sngdate>\n <caldate>2016</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-79.109802246557</westbc>\n <eastbc>-77.64862060599</eastbc>\n <northbc>39.427369423159</northbc>\n <southbc>38.151493338048</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Endocrine disruption</themekey>\n <themekey>Endocrine disrupting chemicals</themekey>\n <themekey>Complex chemical mixtures</themekey>\n <themekey>Fathead minnow</themekey>\n <themekey>Mobile laboratory fish exposure experiments</themekey>\n <themekey>Water quality</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5a29937ee4b03852baff8bed</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>United States</placekey>\n <placekey>Virginia</placekey>\n <placekey>West Virginia</placekey>\n <placekey>Shenandoah River Watershed</placekey>\n <placekey>North Fork Shenandoah River</placekey>\n <placekey>South Fork Shenandoah River</placekey>\n <placekey>Shenandoah River</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Larry B. Barber</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Geochemist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3215 Marine Street, E-127</address>\n <city>Boulder</city>\n <state>Colorado</state>\n <postal>80303</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>303-541-3039</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>This work was supported by the U.S. Geological Survey Toxic Substances Hydrology and Contaminant Biology Programs.</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Water Quality Sample Collection: \n\nThis report compiles chemical data collected during multiple sampling campaigns at sites located throughout the Shenandoah River Watershed (Table 1): (1) at 4 sites (mobile laboratory) from August 12 to September 1, 2014, (2) at 5 sites (mobile laboratory) from May 26 to June 16, 2015, (3) at 5 sites (mobile laboratory) from July 27 to August 17, 2016, (4) at 14 sites (stream reach) from August 25 to August 27, 2015, (5) at 2 sites (time series) from April 4 to June 14, 2016, (6) at 18 sites (landscape) from August 9 to August 16, 2016, and (7) at 17 sites (landscape) from October 17 to October 18, 2016. \n\nWater-quality sampling followed standard field procedures (U.S. Geological Survey, variously dated, National field manual for the collection of water-quality data. U.S. Geological Survey Techniques in Water Resources Investigations, Book 9, Chapters A1-A7; U.S. Geological Survey, Washington, DC. Accessed August 2012 at [http://pubs.water.usgs.gov/twri9A]). \n\nQuality assurance samples were collected including field blanks, environmental sample replicates, and environmental sample matrix spikes. \n\nMobile laboratory water samples were collected from continuously running stainless steel pumps equipped with Teflon tubing. \n\nThe stream-reach, landscape, and time-series water samples were collected using depth and width integrated proportional sampling or grab sampling techniques.</procdesc>\n <procdate>2016</procdate>\n </procstep>\n <procstep>\n <procdesc>Water Quality Sample Processing: \n\nSamples for dissolved organic carbon analysis and ultraviolet light absorbance at 254 nanometers were filtered through 0.45 micrometer membranes, collected in pre-cleaned 40-milliliter amber-glass vials, and stored at 4 degrees Celsius. \n\nSamples for dissolved nutrients were filtered through 0.45 micrometer membranes, collected in pre-cleaned 125-milliliter high-density polyethylene bottles, and stored at 4 degrees Celsius. \n\nSamples for ammonia analysis were collected in pre-cleaned 125-milliliter high-density polyethylene bottles, acidified with concentrated sulfuric acid, and stored at 4 degrees Celsius. \n\nSamples for total nutrients were processed as above but without filtration and stored at 4 degrees Celsius. \n\nSamples for ion chromatography were filtered through 0.45 micrometer membranes, collected in pre-cleaned 40-milliliter amber-glass vials, and stored at 4 degrees Celsius. \n\nSamples for major element and trace element analysis were filtered through 0.45 micrometer membranes, collected in pre-cleaned 125-milliliter high-density polyethylene bottles, acidified with concentrated ultra-high purity nitric acid, and stored at 25 degrees Celsius. \n\nSamples for enzyme-linked immunosorbent assay were filtered through 0.45 micrometer membranes, collected in pre-cleaned 40-milliliter amber-glass vials, and stored at 4 degrees Celsius. \n\nSamples for pesticide analysis by gas chromatography and liquid chromatography were filtered through 0.7 micrometer glass fiber filters, collected in pre-cleaned 1-liter amber-glass bottles, and stored at 4 degrees Celsius. \n\nSamples for glyphosate and degradates by liquid chromatography were filtered through 1.0 micrometer glass fiber filters, collected in pre-cleaned 125-milliliter amber glass bottles, and stored at 4 degrees Celsius. \n\nSamples for pharmaceutical compound analysis by liquid chromatography were filtered through 1.0 micrometer glass fiber filters, collected in pre-cleaned 20-milliliter amber-glass vials, and stored at 4 degrees Celsius. \n\nSamples for antibiotic compound analysis by liquid chromatography were filtered through 1.0 micrometer glass fiber filters, collected in pre-cleaned 125-milliliter amber-glass bottles, and stored at 4 degrees Celsius. \n\nSamples for acidic organic compound analysis were unfiltered, collected in pre-cleaned 500-milliliter amber-glass bottles, preserved with 1 percent (volume/volume) formalin, and stored at 4 degrees Celsius. \n\nSamples for neutral organic compound analysis by gas chromatography were unfiltered, collected in pre-cleaned 1-liter amber-glass bottles, and stored at 4 degrees Celsius. \n\nSamples for wastewater compound analysis by gas chromatography were unfiltered, collected in pre-cleaned 1-liter amber-glass bottles, and stored at 4 degrees Celsius. \n\nSamples for hormone compound analysis by gas chromatography were unfiltered, collected in pre-cleaned 1-liter amber-glass bottles, and stored at 4 degrees Celsius. \n\nSamples for hormone compound analysis by liquid chromatography were filtered through 1.0 micrometer glass fiber filters, collected in pre-cleaned 125-milliliter amber-glass bottles, and stored at 4 degrees Celsius. \n\nSamples for halogenated disinfection byproduct analysis were filtered through 0.7 micrometer glass fiber filters, collected in pre-cleaned 1-liter amber glass bottles, and stored at 4 degrees Celsius. \n\nSamples for poly- and perfluroalkyl substances were collected directly from the source waters to avoid contact with Teflon tubing. Unfiltered samples were collected in 125-milliliter high-density polyethylene bottles and stored at 4 degrees Celsius. \n\nSamples for antimicrobial compounds were filtered through 1.0 micrometer glass fiber filters, collected in pre-cleaned 1-liter amber-glass bottles, and stored at 4 degrees Celsius \n\nSamples for water estrogenic activity were filtered through 1.0 micrometer glass fiber filters, collected in pre-cleaned 1-liter amber-glass bottles, and stored at 4 degrees Celsius.</procdesc>\n <procdate>2016</procdate>\n </procstep>\n <procstep>\n <procdesc>Chemical Analysis Methods: \n\n(1) Field measurements were made at the time of sample collection following U.S. Geological Survey standard protocols (U.S. Geological Survey, variously dated, National field manual for the collection of water-quality data: U.S. Geological Survey Techniques of Water-Resources Investigations, book 9, chaps. A1-A9, available online at http://pubs.water.usgs.gov/twri9A.). \n\n(2) Samples were analyzed for organic carbon by platinum catalyzed persulfate/ultraviolet light oxidation with infrared detection, and ultraviolet light absorbance at 254 nanometers was measured in a 1-centimeter quartz cell at the U.S. Geological Survey National Research Program Laboratory in Boulder, Colorado (Weirshaar, J.L., Aiken, G.R., Bergamaschi, B.A., Fram, M.S., Fujii, R., and Mopper, K., 2003, Evaluation of specific ultraviolet absorbance as an indicator of the chemical composition and reactivity of dissolved organic carbon. Environmental Science and Technology, v. 37, p. 4702\xe2\x80\x934708.). \n\n(3) Nutrients were analyzed by alkaline persulfate digestion and colorimetric methods at the U.S. Geological Survey National Water Quality Laboratory in Denver, Colorado using laboratory schedule 2702 (Patton, C.J. and Kryskalla. J.R., 2003, Methods of analysis by the U.S. Geological Survey National Water Quality Laboratory: Evaluation of alkaline persulfate digestion as an alternative to Kjeldahl digestion for determination of total and dissolved nitrogen and phosphorus in water. U.S. Geological Survey Water-Resources Investigations Report 03-4174, 33 p.; Patton, C.J. and Kryskalla, J.R., 2011, Colorimetric determination of nitrate plus nitrite in water by enzymatic reduction, automated discrete analyzer methods. U.S. Geological Survey Techniques and Methods, book 5, chap. B8, 34 p.; U.S. Environmental Protection Agency, 1993, Determination of phosphorous by semi-automated colorimetry Revision 2.0, Methods for the determination of inorganic substances in environmental samples, Method ID: 365.1: U.S. Environmental Protection Agency, Washington, DC, 15 p.). \n\n(4) Major anions were measured by ion chromatography with conductivity detection at the U.S. Geological Survey National Research Program Laboratory in Boulder, Colorado using method IC. Samples were analyzed using a Dionex\xe2\x84\xa2 Model ICS3000 ion chromatograph with suppressed conductivity detection, an IonPac AS18 analytical column with an IonPac AG18 guard column, and a 28 millimolar potassium hydroxide mobile phase (Pfaff, J.D., 1993, Method 300.0, Determination of inorganic anions by ion chromatography. Office of research and development, U.S. Environmental Protection Agency, August, 30 p.). \n\n(5) Major elements were measured by inductively coupled plasma-optical emission spectrometry at the U.S. Geological Survey National Research Program Laboratory in Boulder, Colorado, using method ICPOES (Garbarino, J.R. and Taylor, H.E., 1979, An inductively coupled plasma-atomic emission spectrometric method for routine water quality testing. Applied Spectroscopy, v. 33, p. 220\xe2\x80\x93226.). Individual samples were analyzed in triplicate. \n\n(6) Trace elements were measured by inductively coupled plasma-mass spectrometry at the U.S. Geological Survey National Research Program Laboratory in Boulder, Colorado using method ICPMS (Garbarino, J.R. and Taylor, H.E., 1996, Inductively coupled plasma-mass spectrometric method for the determination of dissolved trace elements in natural water. U.S. Geological Survey Open-File Report 94-358, 49 p.). Individual samples were analyzed in triplicate. \n\n(7) Enzyme-linked immunosorbent assays for atrazine, carbamazepine, glyphosate, and sulfamethoxazole were conducted at the U.S. Geological Survey National Research Program Laboratory in Boulder, Colorado using method ELISA. Samples were analyzed using the 96-well format according to manufacturer instructions (Abraxis, 2016, http://www.abraxiskits.com.). \n\n(8) Pesticide compounds were measured by solid-phase extraction followed by gas chromatography-mass spectrometry at the U.S. Geological Survey Sacramento Organic Chemistry Laboratory in Sacramento, California, using method GCPEST (Hladik, M.L., Smalling, K.L., and Kuivila, K.M., 2008, A multi-residue method for the analysis of pesticides and pesticide degradates in water using HLB solid-phase extraction and gas chromatography-ion trap mass spectrometry. Bulletin of Environmental Contamination and Toxicology, v. 80, p. 139-144.). Surrogate standards were added to samples prior to analysis. \n\n(9) Pesticide compounds were measured by solid-phase extraction followed by liquid chromatography-mass spectrometry at the U.S. Geological Survey Sacramento Organic Chemistry Laboratory in Sacramento, California using method LCPEST (Hladik, M.L. and Calhoun, D.L., 2012, Analysis of the herbicide diuron, three diuron degradates, and six neonicotinoid insecticides in water \xe2\x80\x93 method and application. U.S. Geological Survey Scientific Investigations Report 2012-5206, 10 p.). Surrogate standards were added to samples prior to analysis. \n\n(10) Glyphosate and glyphosate degradates were measured by solid-phase extraction followed by liquid chromatography-tandem mass spectrometry at the U.S. Geological Survey Organic Geochemistry Laboratory in Lawrence, Kansas using method LCGY (Meyer, M.T., Loftin, K.A., Lee, E.A., Hinshaw, G.H., Dietze, J.E., and Scribner, E.A., 2009, Determination of glyphosate, its degradation product aminomethylphosphonic acid, and glufosinate, in water by isotope dilution and online solid phase extraction and liquid chromatography/tandem mass spectrometry. U.S. Geological Survey Techniques and Methods, book 5, chap. A10, 32 p.). \n\n(11) Pharmaceutical compounds were measured by direct aqueous injection followed by liquid chromatography-tandem mass spectrometry at the U.S. Geological Survey National Water Quality Laboratory in Denver, Colorado using Schedule 4440 (Furlong, E.T., Noriega, M.C., Kanagy, C.J., Kanagy, L.K., Coffey, L.J., and Burkhardt, M.R., 2014, Determination of human-use pharmaceuticals in filtered water by direct aqueous injection\xe2\x80\x93high-performance liquid chromatography/tandem mass spectrometry. U.S. Geological Survey Techniques and Methods, Book 5, sec. B, chap. 10, 49 p.). Surrogate standards were added to samples prior to analysis. \n\n(12) Antibiotic compounds were measured by solid-phase extraction followed by liquid chromatography-tandem mass spectrometry at the U.S. Geological Survey Organic Geochemistry Laboratory in Lawrence, Kansas using method LCAB (Meyer, M.T., Lee, E.A., Ferrell, G.F., Bumgarner, J.E., and Varns, J., 2007, Evaluation of offline tandem and online solid-phase extraction with liquid chromatography/electrospray ionization-mass spectrometry for analysis of antibiotics in ambient water and comparison to an independent method. U.S. Geological Survey Scientific Investigations Report 2007-5021, 28 p.; Gibs, J., Heckathorn, H.A., Meyer, M.T., Klapinski, F.R., Alebus, M., and Lippincott,R.L., 2013, Occurrence and partitioning of antibiotic compounds found in the water column and bottom sediments from a stream receiving two wastewater treatment plant effluents in Northern New Jersey, 2008. Science of the Total Environment, v. 458-460, p. 107-116.). \n\n(13) Acidic organic compounds were measured by evaporation, derivatization, and gas chromatography-tandem mass spectrometry at the U.S. Geological Survey National Research Program Laboratory in Boulder, Colorado using method ACP (Barber, L.B., Brown, G.K., and Zaugg, S.D., 2000, Potential endocrine disrupting organic chemicals in treated municipal wastewater and river water. In Analysis of Environmental Endocrine Disruptors, Keith, L.H., Jones-Lepp, T.L., and Needham, L.L., editors: Washington, DC, American Chemical Society Symposium Series 747, p. 97\xe2\x80\x93123.). Surrogate standards were added to samples prior to analysis. \n\n(14) Neutral organic compounds were measured by continuous liquid-liquid extraction and gas chromatography-tandem mass spectrometry at the U.S. Geological Survey National Research Program Laboratory in Boulder, Colorado using method POL (Barber, L.B., Brown, G.K., and Zaugg, S.D., 2000, Potential endocrine disrupting organic chemicals in treated municipal wastewater and river water, in Analysis of Environmental Endocrine Disruptors. Keith, L.H., Jones-Lepp, T.L., and Needham, L.L., eds.: Washington, DC, American Chemical Society Symposium Series 747, p. 97\xe2\x80\x93123.). Surrogate standards were added to samples prior to analysis. \n\n(15) Organic wastewater compounds were measured by continuous liquid-liquid extraction followed by gas chromatography-mass spectrometry at the U.S. Geological Survey National Water Quality Laboratory in Denver, Colorado using Schedule 4433 (Zaugg, S.D., Smith, S.G., and Schroeder, M.P., 2006, Methods of analysis by the U.S. Geological Survey National Water Quality Laboratory - Determination of wastewater compounds in whole water by continuous liquid-liquid extraction and capillary-column gas chromatography/mass spectrometry. U.S. Geological Survey Techniques and Methods, book 5, chap. B4, 30 p.). Surrogate standards were added to samples prior to analysis. \n\n(16) Steroid, steroid-hormone, and phytoestrogen compounds were measured by solid-phase extraction, derivatization, and gas chromatography-tandem mass spectrometry at the U.S. Geological Survey National Research Program Laboratory in Boulder, Colorado using method GCHOR (Foreman W.T., Gray, J.L., ReVello, R.C., Lindley, C.E., Losche, S.A., and Barber, L.B., 2012, Determination of steroid hormones and related compounds in filtered and unfiltered water by solid-phase extraction, derivatization, and gas chromatography with tandem mass spectrometry. U.S. Geological Survey Techniques and Methods, Book 5, sec. B, chap. 9, 131 p.). Surrogate standards were added to samples prior to analysis. \n\n(17) Hormone, hormone conjugates, phytoestrogens, and mycotoxins were measured by solid-phase extraction followed by liquid chromatography-tandem mass spectrometry at the U.S. Geological Survey Organic Geochemistry Laboratory in Lawrence, Kansas using method LCHM (Yost, E.E., Meyer, M.T., Dietze, J.E., Meissner, B.M., Worley-Davis, L., Williams, M., Lee, B., and Kullman, S.W., 2013, Comprehensive assessment of hormones, phytoestrogens, and estrogenic activity in an anaerobic swine waste lagoon. Environmental Science and Technology, v. 47, p. 13781-13790.). \n\n(18) Halogenated disinfection by-product compounds were measured by solid-phase extraction followed by gas chromatography-mass spectrometry at the U.S. Geological Survey Sacramento Organic Chemistry Laboratory in Sacramento, California using method DBP (Hladik, M.L., Focazio, M.J., and Engle, M., 2014, Discharges of produced waters from oil and gas extraction via wastewater treatment plants are sources of disinfection by-products to receiving streams. Science of the Total Environment, v. 466-467, p. 1085-1093.). Surrogate standards were added to samples prior to analysis. \n\n(19) Poly- and perfluoroalkyl substances (PFAS) were measured by direct aqueous injection liquid chromatography-tandem mass spectrometry at Harvard University in Cambridge, Massachusetts using a previously described PFAS analytical method (Weber, A.K., Barber, L.B., LeBlanc, D.R., Sunderland, E.M., and Vecitis, C.D., 2017, Geochemical and hydrologic factors controlling subsurface transport of poly- and perfluoroalkyl substance, Cape Cod, Massachusetts. Environmental Science and Technology, v. 51, p. 4269-4279.). \n\n(20) Antimicrobial compounds were analyzed by solid-phase extraction with liquid chromatography-tandem mass spectrometry at Arizona State University, Tempe, Arizona using method AMB (Halden, R.U. and Paull, D.H., 2005, Co-occurrence of triclocarban and triclosan in US water resources. Environmental Science and Technology, v. 39, p. 1420-1426.). \n\n(21) Water estrogenic activity was analyzed by a bioluminescent yeast estrogen screen at the U.S. Geological Survey National Fish Health Laboratory, Leetown, West Virginia using method BLYES (Ciparis, S., Iwanowicz, L.R., and Voshell, J.R., 2012, Effects of watershed densities of animal feeding operations on nutrient concentrations and estrogenic activity in agricultural streams. Science of the Total Environment, v. 414, p. 268-276.).</procdesc>\n <procdate>2017</procdate>\n </procstep>\n <procstep>\n <procdesc>Mobile Laboratory Fish Exposure Experiments, Wild Fish Sampling, and Landscape Sampling Fish Exposure Experiments: \n\nThis report compiles biological data collected during multiple sampling campaigns at sites located throughout the Shenandoah River Watershed (Table 1): (1) at 4 sites (mobile laboratory) from August 12 to September 1, 2014, (2) at 3 sites (mobile laboratory) from May 26 to June 16, 2015, (3) at 5 sites (mobile laboratory) from July 27 to August 17, 2016, (4) at 2 sites (wild fish) during April 12, 2016, (5) at 18 sites (landscape) from August 9 to August 16, 2016, and (6) at 17 sites (landscape) from October 17 to October 18, 2016. \n\nOn-site mobile laboratory fish exposure experiments were conducted at multiple locations in the Shenandoah River Watershed. The mobile laboratory experiments expose adult male and female fathead minnows to differing waters under continuous-flow conditions (Barber, L.B., Lee, K.E., Swackhamer, D.L., and Schoenfuss, H.L., 2007, Reproductive responses of male fathead minnows exposed to wastewater treatment plant effluent, effluent treated with XAD8 resin, and an environmentally relevant mixture of alkylphenol compounds. Aquatic Toxicology, v. 82, p. 36-46.; Vajda, A.M., Barber, L.B., Gray, J.L., Lopez, E.M., Bolden, A.M., Schoenfuss, H.L., and Norris, D.O., 2011, Demasculinization of male fish by wastewater treatment plant effluent. Aquatic Toxicology, v. 103, p. 213-221.). \n\nThe mobile laboratories were deployed on the river banks (within about 100 meters of the water edge) of the selected sites. Flowing river water was continuously pumped to the mobile laboratories using stainless steel pumps (Grundfos 3) equipped with Teflon tubing. Source water samples for chemical characterization were collected at the inflows to the mobile laboratories. \n\nThe mobile laboratories were specifically designed to assess endocrine disruption and all surfaces in contact with the river water were stainless steel, Teflon, or glass. Exposures were conducted under controlled conditions of flow, temperature, lighting, diet, and aeration. Stream water was continuously pumped into stainless steel holding tanks (positioned above the laboratories to maintain a 1.5-meter hydraulic head) and the experiments capture the variability in water quality that occurs over a 3-week time scale. Water flowed under gravity from the holding tanks to stainless steel splitter tanks within the mobile laboratory where the water was heated to maintain a constant temperature (25 \xc2\xb1 1 degree Celsius) and then distributed to individual glass aquaria housing the fish. Flow rates to individual aquaria were maintained at about 200-milliliter per minute to provide replacement of the water volume approximately every 4 hours. The photoperiod was maintained at 14-hour light:10-hour dark. \n\nWild-fish sampling was conducted at 1 site on the North Fork Shenandoah River and 1 site on South Fork Shenandoah River. Fish were collected by the Virginia Department of Game and Inland Fisheries by boat electroshocking. At both sites, 20 adult white suckers and 20 adult smallmouth bass were collected. \n\nIn conjunction with the mobile laboratory and landscape sampling, larval fathead minnows were exposed to water samples for 72 hours. In July and August 2016, 1-liter water samples were transferred to 2 aerated 4-liter glass jars for each treatment. Seven, 14-day old fathead minnows (Pimephales promelas) were randomly placed in each jar. In October 2016, 30 milliliters of water from each sample was pipetted into each of 5 petri dishes, and 7 14-day old fathead minnows were randomly placed in each petri dish and exposed under static renewal (50 percent water replacement every 24 hours) conditions. An initial control cohort was collected and frozen at -80 degrees Celsius. Exposure was maintained at 25 plus or minus 1 degrees Celsius with a 14 hour light/10 hour dark cycle. Mortality was measured at 48 and 72 hours of exposure. The pH was monitored every 24 hours. After 72 hours of exposure, whole body samples were collected for molecular analysis and immediately frozen at -80 degrees Celsius. In August 2016, 10 individual samples (5 from each jar) were collected along with 2 pooled samples of approximately 5 individuals each. In October 2016, 10 individual samples (2 from each dish) were collected along with 5 pooled samples of approximately 5 individuals each.</procdesc>\n <procdate>2016</procdate>\n </procstep>\n <procstep>\n <procdesc>Mobile Laboratory Fish Exposure Experiment, Wild-Fish Sampling, and Landscape Sampling Fish Exposure Experiment Biological Assays: \n\nReproductively recrudescent (12-month old) male and female fathead minnows (Pimephales promelas) were provided by the U.S. Geological Survey Columbia Environmental Research Laboratory (Columbia, Missouri) or Aquatic Biosystems (Fort Collins, Colorado). Larval fathead minnows were provided by Aquatic Biosystems. Animal care and handling was in accordance with the Institutional Animal Care and Use Committee of the University of Colorado Denver. Fish were fed laboratory fish chow or freeze-dried brine shrimp. The basic set-up for mobile laboratory exposure experiments consisted of 10-liter glass aquaria, each containing 5 male fish, and 20-liter glass aquaria, each containing 10 female fish. Initial controls for specific biomarker analysis consisted of 10 male and 10 female fish. Initial controls for whole body tissue analysis consisted of 20 male and 20 female fish. The remaining fish were randomly distributed to the multiple aquaria where they were maintained under constant conditions for the duration of the 21-day exposures. \n\nDuring the mobile laboratory exposure experiments, 10 male and 10 female fish were sampled from each treatment at 7 and 21 days, and multiple biomarkers were measured to assess endocrine disruption. The fish were anesthetized using MS-222. Each individual organism was characterized using morphological, physiological, and molecular techniques. The various bioassays used are described below. \n\n(1) Wet weight and total length were measured to determine condition factor. \n\n(2) Male secondary sex characteristics, including nuptial tubercle number and fat pad intensity, were determined (Smith, R.J.F., 1974, Effects of 17alpha-methyltestosterone on the dorsal pad and tubercles of fathead minnows (Pimephales promelas). Canadian Journal of Zoology, v. 52, p. 1031-1038.; Smith, R.J.F., 1978, Seasonal changes in the histology of the gonads and dorsal skin of the fathead minnow, Pimephales promelas. Canadian Journal of Zoology, v. 56, p. 2103-2109.). \n\n(3) Blood was collected from the caudal vein of each fish into heparinized capillary tubes, centrifuged, and hematocrit recorded. Aliquots of plasma were frozen and stored at -80 degree Celsius until analyzed for plasma vitellogenin by homologous enzyme-linked immunosorbent assay using an anti-fathead minnow kit in accordance with the manufacturer\xe2\x80\x99s protocol (Biosense, Bergen, Norway). \n\n(4) Gonads, liver, and spleen were dissected and weighed, and the gonadosomatic index, hepatosomatic index, and splenosomatic index was calculated (Vajda, A.M., Barber, L.B., Gray, J.L., Lopez, E.M., Bolden, A.M., Schoenfuss, H.L., and Norris, D.O., 2011, Demasculinization of male fish by wastewater treatment plant effluent. Aquatic Toxicology, v. 103, p. 213-221.). \n\n(5) The dissected gonad from each fish was preserved in 10 percent neutral-buffered formalin until processed for histology (Presnell, J.K. and Schreibman, M.P., 1997, Humason\xe2\x80\x99s Animal Tissue Techniques, Johns Hopkins University Press; Baltimore, MD.). \n\n(6) At least ten cross-sections from each gonad were evaluated for gametogenetic stage, sperm abundance, and histopathological abnormalities (Blazer, V.S., 2002, Histopathological assessment of gonadal tissue in wild fishes. Fish Physiology and Biochemistry, v. 26, p. 85-101.; Pawlowski, S., van Aerle, R., Tyler, C.R., and Braunbeck, T., 2004, Effects of 17alpha-ethinylestradiol in a fathead minnow (Pimephales promelas) gonadal recrudescence assay. Ecotoxicology and Environmental Safety, v. 57, p. 215-223.). \n\n(7) Livers were dissected and stored at -80 degree Celsius or in RNAlater for quantitative real-time polymerase chain reaction assay, vitellogenin messenger RNA analysis, and meta-transcriptomic analysis (Biales, A.D., Bencic, D.C., Flick, R.W., Lazorchak, J., and Lattier, D.L., 2007, Quantification and associated variability of induced vitellogenin gene transcripts in fathead minnow (Pimphales promelas) by quantitative real-time polymerase chain reaction assay. Environmental Toxicology and Chemistry, v. 26, p. 287\xe2\x80\x93296.). \n\n(8) Total RNA was extracted from livers of adult fish from the mobile laboratory exposures and whole bodies of larval fish from the 96-hour exposures using the RNeasy Plus Mini Kit (QIAGEN\xc2\xae, Hilden, Germany) following the manufacturer\xe2\x80\x99s protocol. Extracted RNA was assessed for integrity using an Agilent 2100 BioAnalyzer and Agilent RNA 6000 Nano Kits (Agilent Technologies, Wilmington, DE). All samples used in analysis had RNA integrity [RIN] numbers above 6. The concentration of RNA was determined using the NanoDrop-1000 (Thermo Scientific, Waltham, MA) and the 260/280 and 260/230 absorbance ratios were examined to confirm sample purity. \n\n(9) The StepOnePlus\xe2\x84\xa2 System for quantitative real-time polymerase chain reaction and the Power SYBR Green RNA-to-Ct\xe2\x84\xa2 1-Step Kit (Applied Biosystems/Life Technologies, Grand Island, NY) were used to assess vitellogenin mRNA expression in livers of adult fish and whole-body isolates of larval fish. QuantumRNA\xe2\x84\xa2 18S universal primers (18S rRNA; Ambion/Life Technologies, Grand Island, NY) were used to normalize vitellogenin mRNA expression. The vitellogenin mRNA primer sequences are described elsewhere (Biales, A.D., Bencic, D.C., Flick, R.W., Lazorchak, J.M., and Lattier, D.L., 2007, Quantification and associated variability of induced vitellogenin gene transcripts in fathead minnow (Pimephales promelas) by quantitative real-time polymerase chain reaction assay. Environmental Toxicology and Chemistry, v. 26, p. 287-296.). Melting curve analysis confirmed amplification of a single product at the correct melting temperature. Vitellogenin mRNA expression (unitless), relative to 18S mRNA, was calculated from the cycle threshold (Ct) values using the StepOnePlus\xe2\x84\xa2 expression analysis software. \n\n(10) Transcriptome profiles were measured from a subset of adult male fathead minnow following 7-day exposures to various source waters in the mobile laboratory experiments. Custom fathead minnow Agilent 60K microarrays (GPL15775) were used. In 2014, samples sizes for microarray analyses were 8 at Passage Creek, South Fork Shenandoah River, and North River upstream from the WWTP, and 7 at North River downstream from the WWTP. In 2015, samples sizes for microarray analyses was 8 at North Fork Shenandoah River downstream from the WWTP, and 7 at Passage Creek and South Fork Shenandoah River. In 2016, sample sizes for microarray analyses were 8 at Spring Hollow Run and South Fork Shenandoah River, 7 at North Fork Shenandoah River downstream from the WWTP and North Fork Shenandoah River WWTP, and 5 at North Fork Shenandoah River upstream from the WWTP. RNA extracts were prepared for microarray hybridization using Agilent One-color Low Input Quick Amp Labeling kits (Agilent Technologies v. 6.9.1, Santa Clara, CA). Six-hundred nanograms of labeled RNA per sample was fragmented, hybridized and washed according to the manufacturer instructions (Agilent, Gene Expression Hybridization Kit). Microarrays were scanned using an Agilent G2505 C Microarray Scanner and Agilent Feature Extraction Software (v. 10.1.1.1) was used to extract raw signal intensities from microarray images. All microarrays used for analysis were within acceptable quality control parameters. Raw signal intensities were quantile normalized and log2 transformed. The intensity of spike-in and \xe2\x80\x9cdark spot\xe2\x80\x9d Agilent controls was used to determine the lower limit of detection. All probe intensities below the limit of detection were assigned the value of the detection limit. Microarray data were uploaded to the Gene expression Omnibus (https://www.ncbi.nlm.nih.gov/geo) under accession number GSE111967. \n\n(11) Transcriptome microarray validation by qPCR was performed using the CFX96\xe2\x84\xa2 Real-Time PCR Detection System (BioRad). Reactions were prepared with 10 microliters of SSoFast\xe2\x84\xa2 EvaGreen\xc2\xae Supermix (BioRad, Hercules, CA, USA), 1 microliter each of 100 nanomolar forward and reverse primers, and 5 microliters of cDNA (diluted 20-fold prior to real-time analysis). The 2-step thermal cycling parameters were as follows: initial 1-cycle Taq polymerase activation at 95 degrees Celsius for 30 seconds, followed by 95 degrees Celsius for 5 seconds, and primer annealing at 60 degrees Celsius for 5 seconds. After 39 cycles, a dissociation curve was generated, starting at 65.0 degrees Celsius and ending at 95.0 degrees Celsius, with increments of 0.5 degrees Celsius every 5 seconds. Normalized gene expression was extracted using CFX Manager\xe2\x84\xa2 software with the relative \xce\x94\xce\x94Ct method. For microarray verification, a subset of genes showing differential expression on the microarrays were analyzed by qPCR. Those transcripts were heat shock protein a8 (hspa8), activating transcription factor 3 (atf3), D site albumin promoter binding protein b (dbpb), and complement component 8b (c8b). Primers were designed using Primer-BLAST (www.ncbi.nlm.nih.gov). Two reference genes (rps18 and ef1-alpha) were used to standardize expression values for the target genes. \n\n(12) Whole body tissue analysis for pesticides and disinfection byproducts was conducted on composite samples of 9 to 20 individual male fish from the 2014 exposure experiments. Tissue samples were analyzed for pesticides using gas chromatography-mass spectrometry and liquid chromatography-mass spectrometry methods (Hladik, M.L., Vandever, M., and Smalling, K.L., 2016, Exposure of native bees foraging in an agricultural landscape to current-use pesticides, Science of the Total Environment., v. 542, p. 469-477.). Tissue samples were analyzed for disinfection byproducts using gas chromatography-mass spectrometry methods (Hladik, M.L., Focazio, M.J., and Engle, M., 2014, Discharges of produced waters from oil and gas extraction via wastewater treatment plants are sources of disinfection by-products to receiving streams. Science of the Total Environment, v. 466-467, p. 1085-1093.). \n\nFish collected during the wild-fish sampling were anesthetized using MS-222. Each individual organism was characterized using morphological, physiological, and molecular techniques. The bioassays used are described below. \n\n(1) Wet weight and total length were measured to determine condition factor. \n\n(2) Blood was collected from the caudal vein of each fish into heparinized capillary tubes, centrifuged, and hematocrit recorded. Aliquots of plasma were frozen and stored at -80 degree Celsius until analyzed. White sucker plasma vitellogenin concentrations were measured by homologous enzyme-linked immunosorbent assay (ELISA) using a carp kit in accordance with the manufacturer\xe2\x80\x99s protocol (Biosense, Bergen, Norway). Smallmouth bass plasma vitellogenin was measured by ELISA using the monoclonal antibody 3G2 (Caymen Chemical, Ann Arbor, MI) as previously described (Iwanowicz, L.R., Blazer, V.S., Pinkney, A.E., Guy, C.P., Major, A.M., Munney, K., Mierzykowski, S., Lingenfelser, S., Secord, A., Patnode, K., Kubiak, T.J., Stern, C., Hahn, C.M., Iwanowicz, D.D., Walsh, H.L., and Sperry, A., 2016, Evidence of estrogenic endocrine disruption in smallmouth and largemouth bass inhibiting Northeast U.S. national wildlife refuge waters: A reconnaissance study. Ecotoxicology and Environmental Safety, v. 124, p. 50-59.). \n\n(3) Gonads, liver, and spleen were dissected and weighed, and the gonadosomatic index, hepatosomatic index, and splenosomatic index was calculated (Vajda, A.M., Barber, L.B., Gray, J.L., Lopez, E.M., Bolden, A.M., Schoenfuss, H.L., and Norris, D.O., 2011, Demasculinization of male fish by wastewater treatment plant effluent. Aquatic Toxicology, v. 103, p. 213-221.). \n\n(4) The dissected gonad from each fish was preserved in 10 percent neutral-buffered formalin until processed for histology (Presnell, J.K. and Schreibman, M.P., 1997, Humason\xe2\x80\x99s Animal Tissue Techniques, Johns Hopkins University Press; Baltimore, MD.). \n\n(5) At least ten cross-sections from each gonad were evaluated for gametogenetic stage, sperm abundance, and histopathological abnormalities (Blazer, V.S., 2002, Histopathological assessment of gonadal tissue in wild fishes. Fish Physiology and Biochemistry, v. 26, p. 85-101.; Pawlowski, S., van Aerle, R., Tyler, C.R., and Braunbeck, T., 2004, Effects of 17alpha-ethinylestradiol in a fathead minnow (Pimephales promelas) gonadal recrudescence assay. Ecotoxicology and Environmental Safety, v. 57, p. 215-223.).</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Emergent and Terrestrial Insect and Spider Sampling, Identification, and Analysis: \n\nEmerging aquatic insects, terrestrial insects, and spiders were collected at 4 of the sites where mobile laboratory experiments were conducted. At each site, 10 emergent insect traps were deployed in near-bank slack water for 4 days. Water depth below each trap was measured. The trapped emergent insects were collected in pre-cleaned, 125-milliliter amber-glass jars with Teflon-lined lids every 2 days (Emergent-1 and Emergent-2). Samples were chilled after collection and shipped to the laboratory for further processing. The emerging insect traps were 0.6 meter x 0.6 meter and constructed of a floating polyvinyl chloride frame with a 0.6 meter tall fine-mesh nylon screen tent (https://www.youtube.com/watch?v=Fu-L5W_NPt4). Spiders were sampled from the same reach and bank where emergent insect traps were deployed using a beat sheet and visual inspection. Sites were sampled for 1 to 1.5 hours. Because the Passage Creek site did not have the same biomass of spiders as the larger stream reaches, both banks were sampled. The spider samples were field processed in the same way as the emerging insect samples. \n\nA field assessment was conducted for the stream reaches in which the emergent traps were deployed. Starting at the most upstream point (0 meter), observe whole reach (50 meter) and estimate distance that vegetation (up to 2-meter height) from the bank overhangs the water surface. Repeat at 10-meter intervals. Estimate number and area of pool and riffle habitats. For each 10-meter reach, measure stream depth and observe water column and substrate characteristics. The stream reaches that were studied are not classically defined \xe2\x80\x9cpools\xe2\x80\x9d, and generally flow along the margin of the stream was slower than mid-stream. \n\nUpon return to the laboratory the insect and spider samples were sorted under 10 x magnification with a binocular microscope and identified taxonomically at the order level. The identified insect and spider samples were freeze-dried, and total dried weight determined (Tables 14 and 15). \n\nA subset of the insect and spider samples were extracted for chemical analysis (Tables 16 and 17). Freeze-dried (single observation or composite mass) tissue was homogenized with sodium sulfate and the sample extracted with 50:50 dichloromethane:acetone using an accelerated solvent extractor at 1500 pounds per square inch and 100 degree Celsius. Samples were exchanged into acetonitrile and reduced in volume to 1 milliliter. Matrix removal was achieved with a solid-phase extraction cartridge containing Z-sep+ sorbent (500 milligram). Final extract volume was reduced to 200 microliters for analysis using gas and liquid chromatography-tandem mass spectrometry (Hladik, M.L., Vandever, M., and Smalling, K.L., 2016, Exposure of native bees foraging in an agricultural landscape to current-use pesticides. Science of the Total Environment, v. 542, p. 469-477.).</procdesc>\n <procdate>2017</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.001</latres>\n <longres>0.001</longres>\n <geogunit>Degrees, minutes, and decimal seconds</geogunit>\n </geograph>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Table 1</enttypl>\n <enttypd>Site location and other information for investigations conducted in the Shenandoah River Watershed during 2014, 2015, and 2016. [See the Data Quality Information - Process Description "Water Quality Sample Collection" section for further information on activities referenced in this table; WWTP, wastewater treatment plant; --, not available]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Sites for field investigations.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 2</enttypl>\n <enttypd>Water quality constituents measured in water samples collected from investigations conducted in the Shenandoah River Watershed during 2014, 2015, and 2016. [See the Data Quality - Process Input "Water Quality Sample Collection" and "Chemical Analysis Methods" sections for further information on sampling activities and analytical methods referenced in this table; --, not available]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Constituents measured.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 3</enttypl>\n <enttypd>Quality assurance data (field blanks, replicate samples, and matrix spike samples) for individual constituents measured in water samples collected from the Shenandoah River Watershed during 2014, 2015, and 2016. [See Data Quality - Process Input "Water Quality Sample Collection" and "Chemical Analysis Methods" sections for further information on activities and analytical methods referenced in this table; sites listed in Table 1; all constituents measured are listed in Table 2; WWTP, wastewater treatment plant; --, not available; <MDL, less than method detection limit]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Measured water-quality constituents.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 4</enttypl>\n <enttypd>Summary of surrogate standard recovery results for select methods used to analyze water samples collected from the Shenandoah River Watershed during 2014, 2015, and 2016. [See Data Quality - Process Input "Chemical Analysis Methods" section for further information on analytical methods referenced in this table; sites listed in Table 1; WWTP, wastewater treatment plant; --, not available]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Measured water-quality constituents.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 5</enttypl>\n <enttypd>Constituents detected in water samples collected during mobile laboratory fathead minnow exposure experiments conducted in the Shenandoah River Watershed during 2014, 2015, and 2016. [See Data Quality - Process Input "Water Quality Sample Collection", "Chemical Analysis Methods", and "Mobile Laboratory Experiments" sections for further information on activities and analytical methods referenced in this table; sites listed in Table 1; all constituents measured are listed in Table 2; WWTP, wastewater treatment plant; --, not available; <MDL, less than method detection limit]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Measured water-quality constituents.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 6</enttypl>\n <enttypd>Constituents detected in water samples collected during stream-reach characterization in the Shenandoah River Watershed during August 2014. [See Data Quality - Process Input "Water Quality Sample Collection" and "Chemical Analysis Methods" sections for further information on activities and analytical methods referenced in this table; sites listed in Table 1; all constituents measured are listed in Table 2; WWTP, wastewater treatment plant; --, not available; <MDL, less than method detection limit]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Measured water-quality constituents.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 7</enttypl>\n <enttypd>Constituents detected in water samples collected during time-series characterization in the Shenandoah River Watershed during April to June 2016. [See Data Quality - Process Input "Water Quality Sample Collection" and "Chemical Analysis Methods" sections for further information on activities and analytical methods referenced in this table; sites listed in Table 1; all constituents measured are listed in Table 2; WWTP, wastewater treatment plant; --, not available; <MDL, less than method detection limit]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Measured water-quality constituents.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 8</enttypl>\n <enttypd>Constituents detected in water samples collected during landscape characterization in the Shenandoah River Watershed during August and October 2016. [See Data Quality - Process Input "Water Quality Sample Collection" and "Chemical Analysis Methods" sections for further information on activities and analytical methods referenced in this table; sites listed in Table 1; all constituents measured are listed in Table 2; WWTP, wastewater treatment plant; --, not available; <MDL, less than method detection limit]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Measured water-quality constituents.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 9</enttypl>\n <enttypd>Biomarkers measured on male and female fathead minnows exposed to various source waters during mobile laboratory exposure experiments conducted in the Shenandoah River Watershed during 2014, 2015, and 2016. [See Data Quality Information - Process Description "Mobile Laboratory Fish Exposure Experiments, Wild Fish Sampling, and Landscape Sampling Fish Exposure Experiments" and "Mobile Laboratory Fish Exposure Experiment, Wild-Fish Sampling, and Landscape Sampling Fish Exposure Experiment Biological Assays" sections for further information on activities referenced in this table; sites listed in Table 1; WWTP, wastewater treatment plant; --, not available; RNA, ribonucleic acid; qPCR, quantitative polymerase chain reaction assay; full microarray datasets deposited in National Center for Biotechnology Information Gene Expression Omnibus (GEO) and are accessible through GEO series ascension number GSE111967 (https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE111967)]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Fish-biomarker measurements.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 10</enttypl>\n <enttypd>Biomarkers measured on wild-caught male and female smallmouth bass and white suckers collected in the Shenandoah River Watershed during April 2016. [See Data Quality Information - Process Description "Mobile Laboratory Fish Exposure Experiments, Wild Fish Sampling, and Landscape Sampling Fish Exposure Experiments" and "Fathead Mobile Laboratory Fish Exposure Experiment, Wild-Fish Sampling, and Landscape Sampling Fish Exposure Experiment Biological Assays" section for further information on activities referenced in this table; sites listed in Table 1; --, not available]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Fish-bioassay measurements.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 11</enttypl>\n <enttypd>Results for 96-hour larval fathead minnow exposure experiments for stream waters collected from the mobile laboratory experiments and landscape characterization in the Shenandoah River Watershed during July, August, and October 2016. [See Data Quality Information - Process Description "Mobile Laboratory Fish Exposure Experiments, Wild Fish Sampling, and Landscape Sampling Fish Exposure Experiments" and "Mobile Laboratory Fish Exposure Experiment, Wild-Fish Sampling, and Landscape Sampling Fish Exposure Experiment Biological Assays" sections for further information on activities referenced in this table; sites listed in Table 1; WWTP, wastewater treatment plant; Individual, sample consisted of 1 frozen larvae; Pooled, sample consisted of 5 frozen larvae; --, not available; RNA, ribonucleic acid]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Fish-tissue measurements.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 12</enttypl>\n <enttypd>Results for measurement of pesticides and disinfection byproducts in male and female fathead minnows exposed to river water from the Shenandoah River Watershed during August 2014. [See Data Quality Information - Process Description "Mobile Laboratory Fish Exposure Experiment, Wild-Fish Sampling, and Landscape Sampling Fish Exposure Experiment Biological Assays" section for further information on activities referenced in this table; sites listed in Table 1; --, not available]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Fish-bioassay measurements.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 13</enttypl>\n <enttypd>Summary of site information and field observations for aquatic emergent insect, terrestrial insect, and spider biomass samples collected from the Shenandoah River Watershed during April 2015. [See Data Quality Information - Process Description "Emergent and Terrestrial Insect and Spider Sampling, Identification, and Analysis" section for further information on activities referenced in this table; sites listed in Table 1; --, not available]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Aquatic emergent insect, terrestrial insect, and spider measurements.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 14</enttypl>\n <enttypd>Summary of organism specific data for aquatic emergent insect samples collected from the Shenandoah River Watershed during April 2015. [See Data Quality Information - Process Description "Emergent and Terrestrial Insect and Spider Sampling, Identification, and Analysis" section for further information on activities referenced in this table; sites listed in Table 1; --, not available; Emergent, emerged insects non-lethally trapped in bottle attached to emergence trap; Aspirate, emergent insects aspirated off the mesh interior of emergence trap]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Aquatic emergent insect measurements.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 15</enttypl>\n <enttypd>Summary of organism specific data for spider, terrestrial insect, and vegetation samples collected from the Shenandoah River Watershed during April 2015. [See Data Quality Information - Process Description "Emergent and Terrestrial Insect and Spider Sampling, Identification, and Analysis" section for further information on activities referenced in this table; sites listed in Table 1; --, not available]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Terrestrial insect, spider, and vegetation measurements.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 16</enttypl>\n <enttypd>Summary of aquatic emergent insect, terrestrial insect, and spider biomass samples prepared for chemical analysis from the Shenandoah River Watershed during April 2015. [See Data Quality Information - Process Description "Emergent and Terrestrial Insect and Spider Sampling, Identification, and Analysis" section for further information on activities referenced in this table; sites listed in Table 1; --, not available]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Aquatic emergent insect, terrestrial insect, and spider measurements.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 17</enttypl>\n <enttypd>Summary of chemical analysis results for aquatic emergent insect, terrestrial insect, and spider biomass samples collected from the Shenandoah River Watershed during April 2015. [See Data Quality Information - Process Description "Emergent and Terrestrial Insect and Spider Sampling, Identification, and Analysis" section for further information on activities referenced in this table; site listed in Table 1; <MDL, less than method detection limit.]</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>See column heading.</attrlabl>\n <attrdef>See column heading.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Aquatic emergent insect and spider measurements.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>Colorado</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. Any use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200831</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Larry Barber</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Geochemist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3215 Marine Street, E-127</address>\n <city>Boulder</city>\n <state>Colorado</state>\n <postal>80303</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>303-541-3039</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2020-02-19Start Date2018-06-12End Date2018-10-30
## Citation
Ostberg, C.O., Kuehne, L.M., Chase, D.M., Duda, J.J., and Olden,J.D., 2020, Detection of invasive aquatic plants Myriophyllum spicatum and Egeria densa in lakes using eDNA, field and mesocosm data: U.S. Geological Survey data release, https://doi.org/10.5066/P90BVKTO.
## Summary
We conducted a study to test the factors related to detectability of two invasive aquatic plants (Egeria densa and Myriophyllym spicatum) using environmental DNA (eDNA), over extended periods of time, and specifically examined how plant growth stage and abundance relates to eDNA detection in semi-natural and natural conditions. This dataset is from sampling performed in summer of 2018 in lakes with varying species abundances, and a subset of lakes were re-sampled to test temporal variability in detection.
## Summary
We conducted a study to test the factors related to detectability of two invasive aquatic plants (Egeria densa and Myriophyllym spicatum) using environmental DNA (eDNA), over extended periods of time, and specifically examined how plant growth stage and abundance relates to eDNA detection in semi-natural and natural conditions. This dataset is from sampling performed in summer of 2018 in lakes with varying species abundances, and a subset of lakes were re-sampled to test temporal variability in detection.
## Contacts
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[Carl O Ostberg](/catalog/catalogParty/show?partyId=7763)
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:
[Carl O Ostberg](/catalog/catalogParty/show?partyId=7763),
[Lauren M Kuehne](/catalog/catalogParty/show?partyId=19469),
[Dorothy Murphy Chase](/catalog/catalogParty/show?partyId=1727),
[Jeffrey Duda](/catalog/catalogParty/show?partyId=2718),
[Julian D Olden](/catalog/catalogParty/show?partyId=55781)
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:
[Jeffrey Duda](/catalog/catalogParty/show?partyId=2718)
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:
[Western Fisheries Research Center](/catalog/catalogParty/show?partyId=17481)
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:
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[Ecosystems](/catalog/catalogParty/show?partyId=Ecosystems)
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:
[Western Fisheries Research Center](/catalog/catalogParty/show?partyId=17481)
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| Ostberg plant eDNA data release metadata2.xml<br>“Metadata describing eDNA study to detect invasive plants”<br>_Original FGDC Metadata_ | View | 35.73 KB | application/fgdc+xml |
| Detection of invasive aquatic plants in lakes using eDNA\_fielddata.csv<br>“Seasonal qPCR data from lakes ” | | 133.88 KB | text/csv |
| Detection of invasive aquatic plants in lakes using eDNA\_mesocosmdata.csv<br>“qPCR data from mesocosm experiment” | | 66.4 KB | text/csv |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Kuehne, L.M., C.O. Ostberg, D.M. Chase, J.J. Duda, and J.D. Olden. 2020. Use of environmental DNA to detect the invasive aquatic plants Myriophyllum spicatum and Egeria densa in lakes. Freshwater Science 39(3): 521-533 | [https://doi.org/10.1086/710106](https://doi.org/10.1086/710106 "https://doi.org/10.1086/710106") |
## Purpose
The goal was to develop and test the use of species specific eDNA assays to detect the presence of two non-native plant species (Egeria densa and Myriophyllym spicatum) in aquatic environments.
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## Tags
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- [Egeria densa](/catalog/items?q=&filter=tags%3DEgeria+densa "Egeria densa (Egeria densa, Theme, None)")
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## Provenance
## Additional Information
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| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P90BVKTO |
| USGS\_ScienceCenter | https://www.sciencebase.gov/vocab/category/item/identifier | Western Fisheries Research Center |
| USGS\_MissionArea | https://www.sciencebase.gov/vocab/category/item/identifier | Ecosystems |
| USGS\_keywords | https://www.sciencebase.gov/vocab/category/item/identifier | Botany, Ecology, Environmental Health, Genetics, Limnology, Water Resources |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Carl Ostberg</origin>\n <origin>Lauren Kuehne</origin>\n <origin>Dorothy Chase</origin>\n <origin>Jeffrey Duda</origin>\n <origin>Julian Olden</origin>\n <pubdate>20200219</pubdate>\n <title>Detection of invasive aquatic plants Myriophyllum spicatum and Egeria densa in lakes using eDNA, field and mesocosm data</title>\n <geoform>spreadsheet</geoform>\n <onlink>https://doi.org/10.5066/P90BVKTO</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Lauren M. Kuehne</origin>\n <origin>Carl O. Ostberg</origin>\n <origin>Dorothy M. Chase</origin>\n <origin>Jeffrey J. Duda</origin>\n <origin>Julian D. Olden</origin>\n <pubdate>20200901</pubdate>\n <title>Use of environmental DNA to detect the invasive aquatic plants Myriophyllum spicatum and Egeria densa in lakes</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Freshwater Science</sername>\n <issue>vol. 39, issue 3</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>University of Chicago Press</publish>\n </pubinfo>\n <othercit>ppg. 521-533</othercit>\n <onlink>https://doi.org/10.1086/710106</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>We conducted a study to test the factors related to detectability of two invasive aquatic plants (Egeria densa and Myriophyllym spicatum) using environmental DNA (eDNA), over extended periods of time, and specifically examined how plant growth stage and abundance relates to eDNA detection in semi-natural and natural conditions. This dataset is from sampling performed in summer of 2018 in lakes with varying species abundances, and a subset of lakes were re-sampled to test temporal variability in detection.</abstract>\n <purpose>The goal was to develop and test the use of species specific eDNA assays to detect the presence of two non-native plant species (Egeria densa and Myriophyllym spicatum) in aquatic environments.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20180612</begdate>\n <enddate>20181030</enddate>\n </rngdates>\n </timeinfo>\n <current>observed</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <descgeog>World</descgeog>\n <bounding>\n <westbc>-124.10156250000001</westbc>\n <eastbc>-121.58569335937501</eastbc>\n <northbc>47.53203824675999</northbc>\n <southbc>45.583289756006316</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n <themekey>environment</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>environmental DNA</themekey>\n <themekey>Egeria densa</themekey>\n <themekey>Myriophyllym spicatum</themekey>\n <themekey>non-native species</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5e386582e4b0a79317df566a</themekey>\n </theme>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>None. Users are advised to read the data set's metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Carl O Ostberg</cntper>\n <cntorg>U.S. Geological Survey, NW-PACIFIC ISLAND REG</cntorg>\n </cntperp>\n <cntpos>Research Fishery Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>6505 NE 65Th Street</address>\n <city>Seattle</city>\n <state>WA</state>\n <postal>98115</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>206-526-2535</cntvoice>\n <cntfax>206-526-6654</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <crossref>\n <citeinfo>\n <origin>Lauren M. Kuehne</origin>\n <origin>Carl O. Ostberg</origin>\n <origin>Dorothy M. Chase</origin>\n <origin>Jeffrey J. Duda</origin>\n <origin>Julian D. Olden</origin>\n <pubdate>20200101</pubdate>\n <title>Detection of invasive aquatic plants Myriophyllum spicatum and Egeria densa in lakes using environmental DNA</title>\n <geoform>publication</geoform>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>To test use of eDNA as a field-based detection method, we collected water samples in lakes that varied in abundance of E. densa and M. spicatum. All lakes were sampled from mid- to late-August of 2018. Water samples for eDNA processing were collected by canoe from four stations spaced along the fetch of the lake, comprised of two shallow and two deep (i.e., pelagic) points. The shallow stations were located in the photic zone (i.e., near the shore) at either end of the lake, at the point where the water depth was 2-3 m. The two pelagic stations were equidistant from the two shallow points and each other, but exact spacing between stations depended on the overall size of the lake. Water sampling was done in an upwind direction to reduce risk of contamination from the boat.\n\nIn late August, we also conducted sampling in three lakes with M. spicatum to examine whether detection declined reliably along transects with distance from plant patches. The three lakes (Deep Lake, Lake Desire, and Lake Meridian) varied in total abundance of M. spicatum. The transect sampling was conducted using a kayak, and care was taken to sample on days with little to no wind. At each lake, two discrete patches of M. spicatum that were at least 20 m from each other and from any other patch were identified. For each patch, two replicate 1-L water samples were collected at the center and edge. A mushroom anchor and large buoy affixed with an open-reel tape measure was positioned at the edge of the patch, and replicate 1-L samples were collected at 5, 10, 15, and 20 m from the edge of the patch, moving away from the shoreline.</procdesc>\n <procdate>20180830</procdate>\n </procstep>\n <procstep>\n <procdesc>At each sampling point, three replicate 1-L subsurface samples were collected using clean gloves and bleached bottles (20% bleach solution overnight). Water samples were stored on ice in coolers and then filtered on site using a portable vacuum pump unit with 1.5 \xc2\xb5m GFF; typically, this meant that all samples were filtered within two hours of collection. In some lakes, multiple GFFs had to be used to filter the full 1-L volume without excessive slowing due to clogging. The filter(s) were removed using forceps and preserved in sterile 20 mL vials with 95% ethanol and stored at -20\xc2\xb0C until DNA extraction. Two 1-L negative controls of deionized water in bleached bottles were brought out each day of field sampling and processed with samples collected from the lake.</procdesc>\n <procdate>20180815</procdate>\n </procstep>\n <procstep>\n <procdesc>MESOCOSM EXPERIMENT: The laboratory growth experiment was conducted in a light and temperature controlled room between August 1 \xe2\x80\x93 October 11, 2017. A total of 24 tanks were established in 80-L clear acrylic tubs to allow observation of growth and senescence of colonies of E. densa (n=10) and M. spicatum (n=10) over the 10-week period. In each tank, five stems of E. densa or M. spicatum were planted in 7 cm of substrate composed of equal parts sand, peat moss, and potting soil supplemented with 1 g kg-1 Osmocote (19:6:12, nitrogen:phosphorus:potassium) and capped with sand to keep soil from dispersing into the water column. Three control tanks with no plants were also established. Dechlorinated water was used to fill tanks, and a sufficient volume of general purpose culture solution for macrophytes (Smart and Barko 1985) was added; all refills of tanks throughout the experiment were done using the same dechlorinated water supply supplemented with growth solution. Light came from fluorescent plant and aquarium bulbs installed overhead, which were initially set to a 14/10 light schedule. Relative light levels experienced by each tank were measured prior to the start of the experiment using a light data logger (every 10 sec for 3 min, Model HOBO UA-002. Onset Computer Corporation). Ambient air temperature was maintained at a continuous 22\xc2\xb0C. \n\nTanks were covered with acrylic lids to avoid contamination from airborne particles; a small (2 cm) hole in the lid allowed introduction of airline tubing with an airstone to provide some continuous water circulation in the tank throughout the experiment. A short piece of 1-cm tubing was also secured though this hole for replenishing water following weekly sample collection. Each tank was fitted with an outflow elbow pipe that was positioned upward to stop outflow, except when weekly water samples were collected for eDNA filtration. A length of flexible 5-mm airline tubing was positioned and secured through each elbow pipe into the tank for collecting weekly samples without the need to open the tank.\n\nMature E. densa and M. spicatum plants were collected from populations in nearby Lake Washington (47\xc2\xb037\xe2\x80\xb2N 122\xc2\xb016\xe2\x80\xb2W), and stems for propagation were cut to a uniform length of 14 cm. Stems were treated with a commercial insecticide (Sevin, Bayer Company), and planted in tanks 8 days prior to the first eDNA sample collection. During this initial propagation period, M. spicatum was forming roots and beginning to grow, but E. densa showed signs of nutrient limitation (i.e., no formation of roots or buds, slight leaf deterioration); E. densa tanks were therefore supplemented with a small amount of liquid fertilizer (MiracleGro, Scotts Miracle-Gro Company) in weeks 1-5 to promote growth.\n\nReplicate 1-L water samples (n=2) were collected weekly from each tank starting on August 9th and continuing for seven weeks for M. spicatum (which grew and senesced quickly), and ten weeks for E. densa. After week five, the light schedule was adjusted to 6/18 and then to 0/24 after week seven to promote senescence. Each week, an estimate of plant biomass inside the tanks was recorded by measuring and summing the height of all stems and branches using rulers that were secured to the tank. Plant senescence was estimated by visually assessing the percentage of each plant that was deteriorated. Water removed from tanks during sampling was replaced with dechlorinated and growth-medium supplemented water.\nBefore sampling tanks, two replicates of dechlorinated water were filtered as blank controls. To collect 1-L water samples from tanks, water was siphoned through the fixed airline tubing directly into a vacuum-filtration setup. Water was allowed to flow from the tubing for 1 second to clear the line, and then directed into a filter cup attached to the vacuum flask with a 47-mm 1.5 \xc2\xb5m glass-fiber filter (GFF) until the 1-L volume was achieved. The filter was removed using sterile tweezers and preserved in 20 mL of 95% EtOH, and preserved filter samples were stored at -20\xc2\xb0C until processing.</procdesc>\n <procdate>20171017</procdate>\n </procstep>\n <procstep>\n <procdesc>Filter and mesocosm samples were air dried to allow ethanol to evaporate and then each filter was cut into eight 2 mm wide strips with sterile scissors and incubated in lysis buffer for one hour at 55 \xc2\xb0C. DNA was extracted using the DNeasy PowerPlant kit following the manufacturer\xe2\x80\x99s recommendations. Negative DNA extraction controls (extraction buffers only) were included during the DNA extraction process. Filter DNA extracts were stored at -20 \xc2\xb0C until testing by qPCR.\n\nAll filter DNA extracts were tested for the presence of PCR inhibitors, prior to running the EdITS1and MspITS1 qPCR assays, by performing an internal positive control (IPC) assay using TaqMan Exogenous Internal Positive Control Reagents (EXO-IPC) (Applied Biosystems). Testing for PCR inhibition was accomplished by performing two replicate qPCRs on each DNA sample and no-template control. Each IPC qPCR consisted of 6 \xc2\xb5L of Gene Expression Master Mix (Invitrogen, Thermo Fisher Scientific Corporation), 1.2 \xc2\xb5L EXO-IPC mix, 0.24 \xc2\xb5L of EXO-IPC DNA, and either 4 \xc2\xb5L of template DNA or 4 \xc2\xb5L of sterile water for the no-template control in a 12 \xc2\xb5L total reaction volume. Cycling conditions for the IPC consisted of 10 min initial heat activation at 95 \xc2\xb0C, followed by 40 cycles of denaturing at 95 \xc2\xb0C for 15 sec and annealing/extension at 60 \xc2\xb0C for 1 min. A Ct shift \xe2\x89\xa5 2 in environmental samples, relative to the no-template control, was applied as an indicator of PCR inhibition. No such inhibition was observed in environmental samples.\n\nThe EdITS1and MspITS1 qPCR assays were performed in triplicate on each sample. A linear, double stranded gBlock (Integrated DNA Technologies) consisting of the E. densa amplicon and a gBlock consisting of the M. spicatum amplicon were used as DNA standards. We used a standard curve with 6 x 100 thru 6 x10^4 copies/reaction run in triplicate on each qPCR plate to estimate the DNA copy number in eDNA samples. A negative template control (sterile water in place of DNA), as well as negative extraction and negative field controls were included on each qPCR plate. Across EdITS1 qPCR plates, efficiency ranged between 94.3% - 107% and R2 values ranged between 0.985 \xe2\x80\x93 0.993. Across MspITS1 qPCR plates, efficiency ranged between 104.2% - 109.3% and R2 values ranged between 0.990 \xe2\x80\x93 0.995.\n\nWe performed qPCRs using the ViiA7 real-time PCR System (Applied Biosystems, Foster City, CA, USA) and analyzed results using ViiA7 RUO 1.2.4 software (Applied Biosystems).</procdesc>\n <procdate>20181001</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Detection of invasive aquatic plants in lakes using eDNA_fielddata.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Target</attrlabl><attrdef>Describes one of two target assays for each row of data</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>Egeria densa</edomv>\n <edomvd>Genus and species name of target organism</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Myriophyllum spicatum</edomv>\n <edomvd>Genus and species name of target organism</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>SamplingEffort</attrlabl><attrdef>Describes two different types of field data collected</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>SEASONAL</edomv>\n <edomvd>Specifies seaonal sampling at four sites for each lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DFP</edomv>\n <edomvd>Specifies distance from patch (DFP) transects from known target organism population patches</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>Season</attrlabl><attrdef>Describes the season in which a water sample was collected</attrdef><attrdefs>Producer defined</attrdefs><attrdomv><edom>\n <edomv>n/a</edomv>\n <edomvd>Not applicable; applies to samples taken along transects within the Distance from Patch sampling framework.</edomvd>\n <edomvds>Producer defined</edomvds>\n</edom></attrdomv><attrdomv>\n <edom>\n <edomv>AUGUST</edomv>\n <edomvd>Samples collected in August</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>JUNE</edomv>\n <edomvd>Samples collected in June</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>OCTOBER</edomv>\n <edomvd>Samples collected in October</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>LakeName</attrlabl><attrdef>Specific Lake where a water sample was collected</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>BLACK</edomv>\n <edomvd>Water samples collected from Black Lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DEEP</edomv>\n <edomvd>Water samples collected from Deep Lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DESIRE</edomv>\n <edomvd>Water samples collected from Desire Lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DOLLOFF</edomv>\n <edomvd>Water samples collected from Dolloff Lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>FENWICK</edomv>\n <edomvd>Water samples collected from Fenwick Lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LACAMAS</edomv>\n <edomvd>Water samples collected from Lacamas Lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LONG</edomv>\n <edomvd>Water samples collected from Long Lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LOOMIS</edomv>\n <edomvd>Water samples collected from Loomis Lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>MERIDIAN</edomv>\n <edomvd>Water samples collected from Meridian Lake</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>Latitude coordinates of Lake or transect</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>45.603619</rdommin>\n <rdommax>47.49856</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>Longitude coordinates of Lake or transect</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>-124.043819</rdommin>\n <rdommax>-122.10234</rdommax>\n <attrunit>Decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Transect</attrlabl>\n <attrdef>For distance from patch (DFP) sampling, desribes whether teh sample was collected from Transect 1 or Transect 2.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><udom>Gives the value of a transect number where samples were collected for distance from patch (DFP) sampling. At each location two transects were sampled, so values will be either T1 or T1 for this field, or n/a in cases where the water sample was not collected from a transect as part of DFP sampling.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SampleDate</attrlabl>\n <attrdef>Specifies the date of water sample collection</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>10/27/2018</rdommin>\n <rdommax>9/1/2018</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Station</attrlabl>\n <attrdef>Differentiates different sample station designations for each sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><udom>Values 1-4 describe sample stations at each lake where water samples are collected, or for distance from patch (DFP) sample designates whether the sample was collected from the center or edge of the patch, or along a transect 5 m, 10 m, 15 m, or 20 m from the target species patch</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>StationReplicate</attrlabl><attrdef>One of three replicate water samples (a, b, and c) collected from each sample station.</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>A</edomv>\n <edomvd>The first of three water samples collected at a sample reach.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B</edomv>\n <edomvd>The second of three water samples collected at a sample reach.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>The third of three water samples collected at a sample reach.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>PCRreplicate</attrlabl><attrdef>An alphanumeric identifier for one of three qPCR triplicates performed for each water sample station replicate</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>A1</edomv>\n <edomvd>First qPCR quadruplicate from water sample A</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>A2</edomv>\n <edomvd>Second qPCR quadruplicate from water sample A</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>A3</edomv>\n <edomvd>Third qPCR quadruplicate from water sample A</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B1</edomv>\n <edomvd>First qPCR quadruplicate from water sample B</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B2</edomv>\n <edomvd>Secind qPCR quadruplicate from water sample B</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B3</edomv>\n <edomvd>Third qPCR quadruplicate from water sample b</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C1</edomv>\n <edomvd>First qPCR quadruplicate from water sample C</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C2</edomv>\n <edomvd>Second qPCR quadruplicate from water sample C</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C3</edomv>\n <edomvd>Third qPCR quadruplicate from water sample C</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>Detect</attrlabl><attrdef>Determination if the targeted taxa was detected or not detected in a water sample</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>Target species not detected with eDNA assay</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Target species detected with eDNA assay</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>CT</attrlabl>\n <attrdef>qPCR cycle threshold value for the targeted taxa eDNA assay for the PCRreplicate water sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>27.37</rdommin>\n <rdommax>39.79</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CtMean</attrlabl>\n <attrdef>The average qPCR cycle threshold value for the targeted taxa taken from PCR replicate samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>27.43</rdommin>\n <rdommax>39.19</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DNACopyRx</attrlabl>\n <attrdef>The number of DNA copies for a specific PCRreplicate sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>0.4595419</rdommin>\n <rdommax>1578.58</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MnDNACopyNo</attrlabl>\n <attrdef>The average number of DNA copies for the targeted taxa taken from PCR replicate samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>0.21</rdommin>\n <rdommax>1516.34</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MnCopyNoLiter</attrlabl>\n <attrdef>The average DNA copy number per Liter of sampled water</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>0.0</rdommin>\n <rdommax>25277.31</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Detection of invasive aquatic plants in lakes using eDNA_mesocosm.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Target</attrlabl><attrdef>Describes one of two target assays for each row of data</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>Egeria densa</edomv>\n <edomvd>Genus and species name of target organism</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Myriophyllum spicatum</edomv>\n <edomvd>Genus and species name of target organism</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>WeekNo</attrlabl>\n <attrdef>Indicates the sampling week in the experiment (1-10). Note: sampling for MSP ended at Week 7, where EDE was sampled through Week 10.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>1</rdommin>\n <rdommax>10</rdommax>\n <attrunit>Weeks</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TankNo</attrlabl>\n <attrdef>Unique identification number of the mesocosm tank</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>1</rdommin>\n <rdommax>23</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SampleDate</attrlabl>\n <attrdef>Specifies the date of water sample collection</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>08/09/2018</rdommin>\n <rdommax>10/11/2018</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TankReplicate</attrlabl><attrdef>One of three replicate water samples (a, b, and c) collected from each mesocosm on a given date.</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>A</edomv>\n <edomvd>The first of three water samples collected from a mesocosm.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B</edomv>\n <edomvd>The second of three water samples collected from a mesocosm.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>The third of three water samples collected from a mesocosm.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>PCRreplicate</attrlabl><attrdef>An alphanumeric identifier for one of three qPCR triplicates performed for each water sample collected from a mesocosm.</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>A1</edomv>\n <edomvd>First qPCR quadruplicate from tank replicate A</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>A2</edomv>\n <edomvd>Second qPCR quadruplicate from tank replicate A</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>A3</edomv>\n <edomvd>Third qPCR quadruplicate fromtank replicate A</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B1</edomv>\n <edomvd>First qPCR quadruplicate from tank replicate B</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B2</edomv>\n <edomvd>Secind qPCR quadruplicate from tank replicate B</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>B3</edomv>\n <edomvd>Third qPCR quadruplicate from tank replicate b</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C1</edomv>\n <edomvd>First qPCR quadruplicate from tank replicate C</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C2</edomv>\n <edomvd>Second qPCR quadruplicate from tank replicate C</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C3</edomv>\n <edomvd>Third qPCR quadruplicate from tank replicate C</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>Detect</attrlabl><attrdef>Determination if the targeted taxa was detected or not detected in a water sample</attrdef><attrdefs>Producer defined</attrdefs><attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>Target species not detected with eDNA assay</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Target species detected with eDNA assay</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n</attr>\n <attr>\n <attrlabl>CT</attrlabl>\n <attrdef>qPCR cycle threshold value for the targeted taxa eDNA assay for the PCRreplicate water sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>27.37</rdommin>\n <rdommax>39.79</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CtMean</attrlabl>\n <attrdef>The average qPCR cycle threshold value for the targeted taxa taken from PCR replicate samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>27.43</rdommin>\n <rdommax>39.19</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DNACopyRx</attrlabl>\n <attrdef>The number of DNA copies for a specific PCRreplicate sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>0.4595419</rdommin>\n <rdommax>1578.58</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MnDNACopyNo</attrlabl>\n <attrdef>The average number of DNA copies for the targeted taxa taken from PCR replicate samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>0.21</rdommin>\n <rdommax>1516.34</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MnCopyNoLiter</attrlabl>\n <attrdef>The average DNA copy number per Liter of sampled water</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv><rdom>\n <rdommin>0.0</rdommin>\n <rdommax>25277.31</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>The data described in this metadata record can be found in the publication in Freshwater Science by Kuehne et al. This paper describes two related projects that use environmental DNA (eDNA) to detect two non-native plant speces. The data for these projects are contained in separate text files described in this metadata record, one from a field study and the other from a laboratory mesocosm experiment.</eaover>\n <eadetcit>Kuehne, L.M., C.O. Ostberg, D.M. Chase, J.J. Duda, and J.D. Olden. 2020. Detection of invasive aquatic plants Myriophyllum spicatum and Egeria densa in lakes using environmental DNA. Freshwater Science 00:000-000</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform><digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt><onlinopt><computer><networka><networkr>https://doi.org/10.5066/xxxxxxxx</networkr></networka></computer></onlinopt></digtopt></digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200901</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Jeff Duda</cntper>\n <cntorg>U.S. Geological Survey, NW-PACIFIC ISLAND REG</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>6505 NE 65Th Street</address>\n <city>Seattle</city>\n <state>WA</state>\n <postal>98115</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>206-526-2532</cntvoice>\n <cntfax>206-526-6654</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n <metuc>Record created using USGS Metadata Wizard tool. (https://github.com/usgs/fort-pymdwizard)</metuc>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Wetland and Aquatic Research Center](/catalog/item/5285678ce4b063f258e65252)
3. [Hurricane Sandy 2013 National Wetlands Inventory Habitat Classification (Habitat Analysis of Coastal Federal Lands located within High Impact Zones of Hurricane Sandy, October 2012)](/catalog/item/57c70fb4e4b0f2f0cebed08a)
4. [Hurricane Sandy: 2013 NWI Data of Selected USFWS Coastal Barrier Resource Act (CBRA) Units along Long Island, New York](/catalog/folder/5798cf92e4b0589fa1c72908)
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## Dates
Publication Date2016Time Period2013-06
## Citation
Jones, W.R., 2016, Hurricane Sandy 2013 National Wetlands Inventory Habitat Classification (Habitat Analysis of Coastal Federal Lands located within High Impact Zones of Hurricane Sandy, October 2012): U.S. Geological Survey data release, http://dx.doi.org/10.5066/F75Q4T70.
## Summary
Hurricane Sandy directly hit the Atlantic shoreline of New Jersey during several astronomical high tide cycles in late October, 2012. The eastern seaboard areas are subject to sea level rise and increased severity and frequency of storm events, prompting habitat and land use planning changes. Wetland Aquatic Research Center (WARC) has conducted detailed mapping of marine and estuarine wetlands and deepwater habitats, including beaches and tide flats, and upland land use/land cover, using specially-acquired aerial imagery flown at 1-meter resolution.These efforts will assist the U.S. Fish and Wildlife Service (USFWS) continuing endeavors to map the barrier islands adhering to Coastal Barrier Resources Act (CBRA) guidelines. Mapped areas \[...\]
## Summary
Hurricane Sandy directly hit the Atlantic shoreline of New Jersey during several astronomical high tide cycles in late October, 2012. The eastern seaboard areas are subject to sea level rise and increased severity and frequency of storm events, prompting habitat and land use planning changes. Wetland Aquatic Research Center (WARC) has conducted detailed mapping of marine and estuarine wetlands and deepwater habitats, including beaches and tide flats, and upland land use/land cover, using specially-acquired aerial imagery flown at 1-meter resolution.These efforts will assist the U.S. Fish and Wildlife Service (USFWS) continuing endeavors to map the barrier islands adhering to Coastal Barrier Resources Act (CBRA) guidelines. Mapped areas consist of selected federal lands including, National Park Service areas, USFWS National Wildlife Refuges, and selected CBRA Units, including barrier islands and marshes in New York and New Jersey. These vital wetland areas are important for migratory waterfowl and neotropical bird habitats, wildlife food chain support and nurseries for shellfish and finfish populations. Coastal wetlands also play an important function as storm surge buffers. This project includes mapping of dominant estuarine wetland plant species useful for wetland functional analysis and wildlife evaluation and management concerns. It also aims to integrate with and offer updated databases pertinent to: USFWS NWR and NWI programs, NOAA tide flats and beaches data, FEMA flood zone data, Natural Heritage Endangered and Threated Species, watershed management, and state and local land use planning.
## Contacts
Point of Contact
:
[William R Jones](/catalog/catalogParty/show?partyId=5227)
Originator
:
[William R Jones](/catalog/catalogParty/show?partyId=5227)
Metadata Contact
:
[William R Jones](/catalog/catalogParty/show?partyId=5227)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5798cf92e4b0589fa1c72908?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5798cf92e4b0589fa1c72908?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5798cf92e4b0589fa1c72908?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
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| | | | |
| --- | --- | --- | --- |
| HurricaneSandy2013NWI\_Select\_CBRA\_on\_Long\_Island.xml<br>_Original FGDC Metadata_ | View | 15.99 KB | application/fgdc+xml |
| AcabonackHarbor\_CBRA\_2013NWI.zip | | 289.54 KB | application/zip |
| Amagansett\_CBRA\_2013NWI.zip | | 58.6 KB | application/zip |
| AmagansettP\_CBRA\_2013NWI.zip | | 35.44 KB | application/zip |
| BigReedPond\_CBRA\_2013NWI.zip | | 49.16 KB | application/zip |
| FireIsland\_CBRA\_2013NWI.zip | | 5.15 MB | application/zip |
| FireIslandP\_CBRA\_2013NWI.zip | | 1.58 MB | application/zip |
| GardinersIslBarriers\_CBRA\_2013NWI.zip | | 228.64 KB | application/zip |
| GeorgicaWainscottPonds\_CBRA\_2013NWI.zip | | 20.21 KB | application/zip |
| HogCreek\_CBRA\_2013NWI.zip | | 11.11 KB | application/zip |
| Mecox\_CBRA\_2013NWI.zip | | 158.82 KB | application/zip |
| MontaukPoint\_CBRA\_2013NWI.zip | | 38.23 KB | application/zip |
| Napeague\_CBRA\_2013NWI.zip | | 337.03 KB | application/zip |
| NorthwestHarbor\_CBRA\_2013NWI.zip | | 79.38 KB | application/zip |
| OysterPond\_CBRA\_2013NWI.zip | | 32.21 KB | application/zip |
| SagaponackPond\_CBRA\_2013NWI.zip | | 38.42 KB | application/zip |
| SammysBeach\_CBRA\_2013NWI.zip | | 190.28 KB | application/zip |
| SHamptonBeach\_CBRA\_2013NWI.zip | | 81.47 KB | application/zip |
| TianaBeach\_CBRA\_2013NWI.zip | | 442.7 KB | application/zip |
| TianaBeachP\_CBRA\_2013NWI.zip | | 91.28 KB | application/zip |
## Purpose
This project serves as a comprehensive and detailed mapping of natural and developed areas in the New York-New Jersey coastal zones,including wetland, deepwater and upland habitats together. Mapping focuses on 1) Hydrologic connectivity, which allows for water flow as well as passages for fish and aquatic sea life; 2) Identifying areas of habitat change due to a catastrophic storm event; 3) Assessing barrier beach damage and provide data to assist in developing mitigation plans; 4) Assess barrier beach and coastal wetland landward migration, which may affect shorebird/turtle environments as nesting sites, 5) Provide marsh species mapping and spatial data on the fragmentation of marsh; 6) document areas of saltwater intrusion; 7) Provide information on the distribution of marsh and other wetland communities (fresh, brackish and saline); 8) Assist with assessing economic impacts (commercial fishing and seafood, recreation); 9) Address data connectivity and utility by varied government and non-profit agencies, planners and partners. The goal of this analysis is to produce a detailed inventory of the barrier beaches, bays and coastal lagoons along the New York and New Jersey Atlantic coastline. Primarily, the barrier beaches, bays, and lagoons associated wetlands support critical aquatic, fish and wildlife habitats and are nurseries for fin- and shellfisheries. This map data will serve as a vital and versatile tool to managers of these resources and concerns, which will be easily integrated with numerous other data bases for quick and accurate planning and assessment. Barrier beaches and their coastal wetland lagoons function critically to mitigate flooding and erosion and buffer storm surges associated with increasingly frequent and severe storms. These storms present a heightened need for natural resource restoration, mitigation and protection; for storm management and emergency operations; and for best practices in natural resource and land use planning. This metadata contains information for the 2013 Photointerpretation of 52 Hurricane Sandy impact areas along the New York (Long Island) and New Jersey coastlines. This project uses the U.S. Fish and Wildlife Service National Wetlands Inventory Classification Scheme to delineate and identify wetlands in these highy effected areas. There are a total of 52 individual project areas located on federal lands (USFWS-NWR, USFWS-CBRA and NPS) that are higlighted for this project. The following are the specific project areas that are related to this metadata: National Park Service: Fire Island National Seashore and Gateway National Recreation Area. U.S. Fish and Wildlife Service-National Wildlife Refuges: Amagansett, Cape May, Conscience Point, Edwin B. Forsythe, Edwin B. Forsythe-Brigantine Division, Elizabeth A. Morton, Lido Beach, Seatuck and Wertheim. U.S. Fish and Wildlife Service-Coastal Barrier Resource Act New Jersey Project Areas: Sandy Hook, Seidler Beach, Cliffwood Beach, Conaskonk Point, Navesink Shrewsbury, Metedeconk Neck, Metedeconk Neck NJ04BP, Island Beach, Cedar Bonnet Island, Cedar Bonnet Island NJ06P, Brigantine, Corson Inlet, Stone Harbor, Stone Harbor NJ09P, Cape May, Higbee Beach, Dell Haven, Dell Haven NJ12P, Kimbles Beach, Moores Beach and Moores Beach NJ14P. U.S. Fish and Wildlife Service-Coastal Barrier Resource Act New York Project Areas: Northwest Harbor, Hog Creek, Big Reed Pond, Oyster Pond, Montauk Point, Amagansett, Amagansett NY56P, Georgica Wainscott Ponds, Sagaponack Pond, Fire Island, Fire Island NY59P, Jamaica Bay, Sammys Beach, Acabonack Harbor, Gardiners Island, Napeague, Mecox, South Hampton Beach, Tiana
## [Map](/catalog/item/imap/5798cf92e4b0589fa1c72908)
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## Communities
- USGS Wetland and Aquatic Research Center
## Tags
Theme
- [U.S. Fish and Wildlife Service, Northeast Region](/catalog/items?q=&filter=tags%3DU.S.+Fish+and+Wildlife+Service%2C+Northeast+Region "U.S. Fish and Wildlife Service, Northeast Region (U.S. Fish and Wildlife Service, Northeast Region, Theme, Hurricane Sandy)")
- [U.S. National Park Service](/catalog/items?q=&filter=tags%3DU.S.+National+Park+Service "U.S. National Park Service (U.S. National Park Service, Theme, Hurricane Sandy)")
- [U.S.F.W.S., Coastal Barrier Resources Act](/catalog/items?q=&filter=tags%3DU.S.F.W.S.%2C+Coastal+Barrier+Resources+Act "U.S.F.W.S., Coastal Barrier Resources Act (U.S.F.W.S., Coastal Barrier Resources Act, Theme, Hurricane Sandy)")
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## Provenance
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>William R. Jones</origin>\n <pubdate>2016</pubdate>\n <title>Hurricane Sandy: 2013 NWI Data of Selected USFWS Coastal Barrier Resource Act (CBRA) Units along Long Island, New York</title>\n <geoform>vector digital data</geoform>\n <onlink>http://dx.doi.org/10.5066/F75Q4T70</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Hurricane Sandy directly hit the Atlantic shoreline of New Jersey during several astronomical high tide cycles in late October, 2012. The eastern seaboard areas are subject to sea level rise and increased severity and frequency of storm events, prompting habitat and land use planning changes. Wetland Aquatic Research Center (WARC) has conducted detailed mapping of marine and estuarine wetlands and deepwater habitats, including beaches and tide flats, and upland land use/land cover, using specially-acquired aerial imagery flown at 1-meter resolution.These efforts will assist the U.S. Fish and Wildlife Service (USFWS) continuing endeavors to map the barrier islands adhering to Coastal Barrier Resources Act (CBRA) guidelines. Mapped areas consist of selected federal lands including, National Park Service areas, USFWS National Wildlife Refuges, and selected CBRA Units, including barrier islands and marshes in New York and New Jersey. These vital wetland areas are important for migratory waterfowl and neotropical bird habitats, wildlife food chain support and nurseries for shellfish and finfish populations. Coastal wetlands also play an important function as storm surge buffers. This project includes mapping of dominant estuarine wetland plant species useful for wetland functional analysis and wildlife evaluation and management concerns. It also aims to integrate with and offer updated databases pertinent to: USFWS NWR and NWI programs, NOAA tide flats and beaches data, FEMA flood zone data, Natural Heritage Endangered and Threated Species, watershed management, and state and local land use planning.</abstract>\n <purpose>This project serves as a comprehensive and detailed mapping of natural and developed areas in the New York-New Jersey coastal zones,including wetland, deepwater and upland habitats together. Mapping focuses on 1) Hydrologic connectivity, which allows for water flow as well as passages for fish and aquatic sea life; 2) Identifying areas of habitat change due to a catastrophic storm event; 3) Assessing barrier beach damage and provide data to assist in developing mitigation plans; 4) Assess barrier beach and coastal wetland landward migration, which may affect shorebird/turtle environments as nesting sites, 5) Provide marsh species mapping and spatial data on the fragmentation of marsh; 6) document areas of saltwater intrusion; 7) Provide information on the distribution of marsh and other wetland communities (fresh, brackish and saline); 8) Assist with assessing economic impacts (commercial fishing and seafood, recreation); 9) Address data connectivity and utility by varied government and non-profit agencies, planners and partners. The goal of this analysis is to produce a detailed inventory of the barrier beaches, bays and coastal lagoons along the New York and New Jersey Atlantic coastline. Primarily, the barrier beaches, bays, and lagoons associated wetlands support critical aquatic, fish and wildlife habitats and are nurseries for fin- and shellfisheries. This map data will serve as a vital and versatile tool to managers of these resources and concerns, which will be easily integrated with numerous other data bases for quick and accurate planning and assessment. Barrier beaches and their coastal wetland lagoons function critically to mitigate flooding and erosion and buffer storm surges associated with increasingly frequent and severe storms. These storms present a heightened need for natural resource restoration, mitigation and protection; for storm management and emergency operations; and for best practices in natural resource and land use planning.\nThis metadata contains information for the 2013 Photointerpretation of 52 Hurricane Sandy impact areas along the New York (Long Island) and New Jersey coastlines. This project uses the U.S. Fish and Wildlife Service National Wetlands Inventory Classification Scheme to delineate and identify wetlands in these highy effected areas. There are a total of 52 individual project areas located on federal lands (USFWS-NWR, USFWS-CBRA and NPS) that are higlighted for this project. The following are the specific project areas that are related to this metadata: National Park Service: Fire Island National Seashore and Gateway National Recreation Area. U.S. Fish and Wildlife Service-National Wildlife Refuges: Amagansett, Cape May, Conscience Point, Edwin B. Forsythe, Edwin B. Forsythe-Brigantine Division, Elizabeth A. Morton, Lido Beach, Seatuck and Wertheim. U.S. Fish and Wildlife Service-Coastal Barrier Resource Act New Jersey Project Areas: Sandy Hook, Seidler Beach, Cliffwood Beach, Conaskonk Point, Navesink Shrewsbury, Metedeconk Neck, Metedeconk Neck NJ04BP, Island Beach, Cedar Bonnet Island, Cedar Bonnet Island NJ06P, Brigantine, Corson Inlet, Stone Harbor, Stone Harbor NJ09P, Cape May, Higbee Beach, Dell Haven, Dell Haven NJ12P, Kimbles Beach, Moores Beach and Moores Beach NJ14P. U.S. Fish and Wildlife Service-Coastal Barrier Resource Act New York Project Areas: Northwest Harbor, Hog Creek, Big Reed Pond, Oyster Pond, Montauk Point, Amagansett, Amagansett NY56P, Georgica Wainscott Ponds, Sagaponack Pond, Fire Island, Fire Island NY59P, Jamaica Bay, Sammys Beach, Acabonack Harbor, Gardiners Island, Napeague, Mecox, South Hampton Beach, Tiana</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>201306</caldate>\n </sngdate>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>As needed</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-74.983661</westbc>\n <eastbc>-71.850313</eastbc>\n <northbc>41.141862</northbc>\n <southbc>38.922356</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Categories</themekt>\n <themekey>boundaries</themekey>\n <themekey>environment</themekey>\n <themekey>planningCadastre</themekey>\n </theme>\n <theme>\n <themekt>Hurricane Sandy</themekt>\n <themekey>U.S.F.W.S., Coastal Barrier Resources Act</themekey>\n <themekey>U.S. Fish and Wildlife Service, Northeast Region</themekey>\n <themekey>U.S. National Park Service</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5798cf92e4b0589fa1c72908</themekey>\n </theme>\n </keywords>\n <accconst>It is strongly recommended that this data is directly acquired from the distributor described above or from another USGS Biological Resources Division server and not indirectly through other sources which may have changed the data in some way. The distributor makes no claims as to the data's suitability for other purposes.</accconst>\n <useconst>Acknowledgement of the U.S. Geological Survey, Wetland Aquatic Research Center as a data source would be appreciated in products developed from these data, and such acknowledgment as is standard for citation and legal practices for data source is expected by users of this data. Sharing new data layers developed directly from these data would also be appreciated by WARC staff. Users should be aware that comparison with other data sets for the same area from other time periods may be inaccurate due to inconsistencies resulting from changes in mapping conventions, data collection, and computer processes over time. The distributor shall not be liable for improper or incorrect use of this data, based on the description of appropriate/inappropriate uses described in this metadata document. These data are not legal documents and are not to be used as such.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>William R. Jones</cntper>\n </cntperp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>physical</addrtype>\n <address>700 Cajundome Blvd</address>\n <city>Lafayette</city>\n <state>LA</state>\n <postal>70506</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>337-266-8581</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>USGS/Wetland Aquatic Reserach Center, Lafayete, LA and Gainsville,FL Offices. The WARC would like to acknowledge the assistance of U.S. Army Corps of Engineers, Mobile District.</datacred>\n <native>Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.2.2.3552</native>\n </idinfo>\n <dataqual>\n <logic>Data are inherently polygonal and linear. ArcGIS software is used to create and maintain topological relationships between features. Polygonal features begin and end at the same point, contain no overshoots or undershoots, and contain a single label. Linear features are continuous where appropriate, i.e., dangling arcs are removed if they are not required.</logic>\n <complete>For the cartographic process (photointerpretation), habitats were identified and mapped in accordance with nationally accepted mapping standards and conventions. For the digital conversion process, conventions and standard check list methodologies in place for the time period were followed.</complete>\n <lineage>\n <procstep>\n <procdesc>All habitat photointerpretation adheres to protocols and standards used by the U.S. Fish and Wildlife's National Wetland Inventory (NWI) Program. The NWI habitat data classified are outlined in the;Classification of Wetlands and Deepwater Habitats of the United States (https://www.fws.gov/wetlands/Documents/Classification-of-Wetlands-and-Deepwater-Habitats-of-the-United-States.pdf)and (http://www.fws.gov/wetlands/Documents/NWI_Wetlands_and_Deepwater_Map_Code_Diagram.pdf); (Cowardin and other 1979, FWS/OBS \xc2\x96 79/31). Uplands are derived from a land use and land cover classification system for use with remote sensor data (Anderson, J.R., Hardy, E.E., Roach J.T., and Witmer R.E., 1976, A land use and land cover classification system for use with remote sensor data: U.S. Geological Survey Professional Paper 964, 28 p.). Depending on project objectives, when mapping broad categories of data, some detail can be lost due to overall project goals. All upland categories, whether vegetated or unvegetated will be classified as Upland. Detailed habitat mapping was made possible using 1-meter pixel resolution, 3 Band (RGB-IR) stereo and orthoimages covering the project area footprints. Imagery was acquired by National Agriculture Imagery Program (NAIP) June-November 2013. The digital mosaic of the high resolution color infrared aerial photography project area is brought into ArcMap Software where photointerpretation begins. Habitat types specific to this project were delineated by overlaying project area boundaries onto the imagery and delineating features. Ancillary data sets with similar resolutions, were utilized to help classify areas that may be difficult to identify. Imagery of the project area is also viewed on screen in stereo which helps determine vegetation height and proper habitat classification. Where available, LIDAR data is utilized for elevation information that help discern habitats from one another especially where floating aquatics may be present. Once the photointerpreter completes their initial interpretation of the project area, the photointerpreter will perfor a quality assurance review of their own work msking corrections or improving their initial interpretation work. After the quality assurance review is complete, the lead photointerpreter will perform the final quality control review. In this review, linework is checked, database is checked for missing labels or inappropriate labels, topology and acreage tables are checked using a USFWS database tool.</procdesc>\n <procdate>2015</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>GT-polygon composed of chains</sdtstype>\n <ptvctcnt>490</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <mapproj>\n <mapprojn>NAD 1983 UTM Zone 16N</mapprojn>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-87.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </mapproj>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.0001</absres>\n <ordres>0.0001</ordres>\n </coordrep>\n <plandu>meter</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D North American 1983</horizdn>\n <ellips>GRS 1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>These data are provisional and subject to revision. The data are released on the condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from its authorized or unauthorized use.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>digital vector data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F75Q4T70</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200830</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>William R. Jones</cntper>\n </cntperp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>physical</addrtype>\n <address>700 Cajundome Blvd</address>\n <city>Lafayette</city>\n <state>LA</state>\n <postal>70506</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>337-266-8581</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <metuc>Acknowledgement of the U.S. Geological Survey, Wetland Aquatic Research Center (Lafayette , LA and Gainsville, FL Offices)as a data source would be appreciated in products developed from these data, and such acknowledgment as is standard for citation and legal practices for data source is expected by users of this data. Sharing new data layers developed directly from these data would also be appreciated by WARC staff. Users should be aware that comparison with other data sets for the same area from other time periods may be inaccurate due to inconsistencies resulting from changes in mapping conventions, data collection, and computer processes over time. The distributor shall not be liable for improper or incorrect use of this data, based on the description of appropriate/inappropriate uses described in this metadata document. These data are not legal documents and are not to be used as such.</metuc>\n </metainfo>\n</metadata>" |
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2. [USGS Dakota Water Science Center](/catalog/item/56b8f2e6e4b08d617f63a66d)
3. [Ancillary Data Related to Nutrients in the Chesapeake Bay—Data Supporting Structural Equation Modeling of Nutrient Loads](/catalog/item/5773f425e4b07657d1a99038)
4. [Nitrogen and phosphorus from fertilizer and manure for selected Chesapeake Bay watersheds](/catalog/folder/577c173ce4b0ef4d2f4264fb)
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## Dates
Publication Date2017Start Date1985End Date2012
## Citation
Ryberg, K.R., Sekellick, A.J., and Falcone, J.A., 2017, Ancillary data related to nutrients in the Chesapeake Bay—Data supporting structural equation modeling of nutrient loads: U.S. Geological Survey data release, https://doi.org/10.5066/F7NG4NQ4.
## Summary
This dataset contains estimates of the yearly sum of total nitrogen and total phosphorus (hereafter referred to as nitrogen and phosphorus) inputs from fertilizer applications and from manure applications in selected Chesapeake Bay watersheds from 1985 through 2012.
## Summary
This dataset contains estimates of the yearly sum of total nitrogen and total phosphorus (hereafter referred to as nitrogen and phosphorus) inputs from fertilizer applications and from manure applications in selected Chesapeake Bay watersheds from 1985 through 2012.
## Contacts
Point of Contact
:
[Karen R Ryberg](/catalog/catalogParty/show?partyId=8916)
Originator
:
[Andrew J Sekellick](/catalog/catalogParty/show?partyId=9294),
[Karen R Ryberg](/catalog/catalogParty/show?partyId=8916)
Metadata Contact
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[Karen R. Ryberg](/catalog/catalogParty/show?partyId=Karen+R.+Ryberg)
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| Nitrogen\_and\_phosphorus\_from\_fertilizer\_and\_manure\_for\_selected\_Chesapeake\_Bay\_watersheds.xml<br>_Original FGDC Metadata_ | View | 12.8 KB | application/fgdc+xml |
| fertManure.csv<br>“data” | | 148.43 KB | text/csv |
## Purpose
These data are part of a study to test causal hypotheses, using structural equation models, related to the drivers of total nitrogen and total phosphorus loads in selected Chesapeake Bay watersheds, 1985-2012. These data represent potential causal factors for total nitrogen and total phosphorus loads.
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## Tags
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## Provenance
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## Additional Information
### Identifiers
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| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F7NG4NQ4 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Andrew Sekellick</origin>\n <origin>Karen R. Ryberg</origin>\n <pubdate>2016</pubdate>\n <title>Nitrogen and phosphorus from fertilizer and manure for selected Chesapeake Bay watersheds</title>\n <geoform>Comma separated text file</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.5066/F7NG4NQ4</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset contains estimates of the yearly sum of total nitrogen and total phosphorus (hereafter referred to as nitrogen and phosphorus) inputs from fertilizer applications and from manure applications in selected Chesapeake Bay watersheds from 1985 through 2012.</abstract>\n <purpose>These data are part of a study to test causal hypotheses, using structural equation models, related to the drivers of total nitrogen and total phosphorus loads in selected Chesapeake Bay watersheds, 1985-2012. These data represent potential causal factors for total nitrogen and total phosphorus loads.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>1985</begdate>\n <enddate>2012</enddate>\n </rngdates>\n </timeinfo>\n <current>observed</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-80.55161394556775</westbc>\n <eastbc>-74.2272808505554</eastbc>\n <northbc>43.55759203025379</northbc>\n <southbc>36.62479659512296</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>total phosphorus</themekey>\n <themekey>total nitrogen</themekey>\n <themekey>surface water quality</themekey>\n <themekey>wastewater discharge</themekey>\n <themekey>nutrient content (water)</themekey>\n <themekey>agriculture</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:577c173ce4b0ef4d2f4264fb</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Chesapeake Bay</placekey>\n <placekey>Virginia</placekey>\n <placekey>Maryland</placekey>\n <placekey>Delaware</placekey>\n <placekey>Pennsylvania</placekey>\n <placekey>New York</placekey>\n <placekey>West Virginia</placekey>\n <placekey>District of Columbia</placekey>\n <placekey>James River</placekey>\n <placekey>Rappahannock River</placekey>\n <placekey>Susquehanna River</placekey>\n <placekey>Potomac River</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Karen R. Ryberg</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>821 E Interstate Avenue</address>\n <city>Bismarck</city>\n <state>North Dakota</state>\n <postal>58503</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>701-250-7422</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>National Water Quality Program National Water-Quality Assessment Project, Chesapeake Bay Program</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>(1) County-level fertilizer use data were downloaded October 12th, 2016, from http://pubs.usgs.gov/of/1990/ofr90130 for the years 1950 through 1985, from http://pubs.usgs.gov/wri/wri944176 for the year 1986, and from https://www.sciencebase.gov/catalog/item/5851b2d1e4b0f99207c4f238 for the years 1987 through 2012. Data for 1987 through 2012 includes both farm and non-farm fertilizer use. Land cover data for the year 2001 were downloaded from National Land cover Database at http://www.mrlc.gov/nlcd2001.php on October 12th, 2016. Shapefiles defining the selected Chesapeake Bay watersheds are available as part of the same data release in which these data are published. \n(2) The total cultivated crop area (value 81) and developed land area (values 21, 22, 23 and 24) were calculated for each county from NLCD 2001 data. \n(3) The county-level nitrogen and phosphorus fertilizer inputs on farms in kilograms were divided by the total cultivated crop area by county to create values for mass of nitrogen and phosphorus per available area for the years 1950 through 2012. \n(4) Non-farm nitrogen and phosphorus fertilizer inputs were divided by the total developed land area by county to create values for mass of nitrogen and phosphorus per available area for the years 1987 through 2012. \n(5) County rasters were created with the nutrient mass per available land area values for farm fertilizer from 1950-2012 and non-farm fertilizer from 1987 through 2012. \n(6) Rasters with pixels of 900 square meters were created from NLCD 2001 of cultivated crop and developed land area with values set to 900. These rasters were multiplied by the yearly nutrient mass per available land area values for farm and non-farm fertilizer. \n(7) The resulting farm and non-farm rasters were summed together and totaled for each year for each of the selected Chesapeake Bay watersheds.</procdesc>\n <procdate>20161019</procdate>\n </procstep>\n <procstep>\n <procdesc>(1) County-level Census of Agriculture animal count data were downloaded from https://www.sciencebase.gov/catalog/item/55db9455e4b0518e3547e5d6 for the years 1950, 1954, 1959, 1964, 1969, 1974, and 1978. County-level nitrogen and phosphorus mass from manure data were downloaded from https://pubs.er.usgs.gov/publication/ofr20171021 for 1982, 1987, 1992, 1997, 2002, 2007, and 2012. Land cover data for the year 2001 were downloaded from National Land cover Database at http://www.mrlc.gov. Shapefiles defining the selected Chesapeake Bay watersheds are available as part of the same data release in which these data are published. \n(2) The total pasture area (value 82) were calculated for each county from NLCD 2001 data. \n(3) Using the formulae detailed in Brakebill and Gronberg (2016), animal counts for the Census of Agriculture years from 1950-1978 were used to calculate an estimated mass of nitrogen and phosphorus for each of 7 different animal types and totaled by county. \n(4) County-level nitrogen and phosphorus from manure in kilograms were divided by the total pasture area by county to create values for mass of nitrogen and phosphorus from manure per available area for the Census of Agriculture years from 1950-2012. \n(5) County rasters were created with the nutrient mass per available land area values for Census of Agriculture years from 1950-2012. \n(6) Rasters with pixels of 900 square kilometers were created from NLCD 2001 of pasture land area with values set to 900. These rasters were multiplied by the yearly nutrient mass per available land area values from manure. \n(7) The resulting rasters were summed together and totaled for each year for each of the selected Chesapeake Bay watersheds. \n\nFor more information, see Gronberg, J.M., and Arnold, T.L., 2017, County-level estimates of nitrogen and phosphorus from animal manure for the conterminous United States, 2007 and 2012: U.S. Geological Survey Open-File Report 2017\xe2\x80\x931021, 6 p., https://doi.org/10.3133/ofr20171021.</procdesc>\n <procdate>20161019</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>fertManure.csv</enttypl>\n <enttypd>Comma separated text file of nitrogen and phosphorus from fertilizer and from manure for selected Chesapeake Bay watersheds.</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>staid</attrlabl>\n <attrdef>Streamgage station identification number.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <udom>Each USGS streamgage has a unique 8- to 15-digit identification number. Further information on how the identification numbers are assigned is available here https://help.waterdata.usgs.gov/faq/sites/do-station-numbers-have-any-particular-meaning.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>year</attrlabl>\n <attrdef>calendar year</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1985</rdommin>\n <rdommax>2012</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>fertTN</attrlabl>\n <attrdef>kilograms of total nitrogen from fertilizer</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5.5740</rdommin>\n <rdommax>228,484,010.7897</rdommax>\n <attrunit>kilograms</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>manureTN</attrlabl>\n <attrdef>kilograms of total nitrogen from manure</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>136.62</rdommin>\n <rdommax>91,551,755.5399</rdommax>\n <attrunit>kilograms</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>fertTP</attrlabl>\n <attrdef>kilograms of total phosphorus from fertilizer</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.6709</rdommin>\n <rdommax>73,114,034.8025</rdommax>\n <attrunit>kilograms</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>manureTP</attrlabl>\n <attrdef>kilograms of total phosphorus from manure</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>31.7419</rdommin>\n <rdommax>23,694,650.4674</rdommax>\n <attrunit>kilograms</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200818</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Karen R. Ryberg</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Statistician</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>821 E Interstate Ave</address>\n <city>Bismarck</city>\n <state>ND</state>\n <postal>58503</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>701-250-7422</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [California Seafloor Mapping Program](/catalog/item/54f788a9e4b02419550d997d)
3. [PointSurToPointArguello](/catalog/item/5c913756e4b09388245480c2)
4. [Transgressive Contours—Point Sur to Point Arguello, California](/catalog/folder/5c9138d8e4b09388245480de)
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## Dates
Publication Date2019Start Date2008-06-09End Date2014-08-02
## Citation
Johnson, S.Y., Hartwell, S.R., Watt, J.T., Beeson, J.W., Dartnell, P., and Cochran, S.A., 2019, California State Waters Map Series Data Catalog--Point Sur to Point Arguello Region, California: U.S. Geological Survey data release, https://doi.org/10.5066/P97CZ0T7.
## Summary
This part of DS 781 presents data for the transgressive contours of the Point Sur to Point Arguello, California, region. The vector data file is included in the “TransgressiveContours\_PointSurToPointArguello.zip,” which is accessible from https://doi.org/10.5066/P97CZ0T7. As part of the USGS's California State Waters Mapping Project, a 50-m grid of sediment thickness for the seafloor within the 3-nautical mile limit between Point Sur and Point Arguello was generated from seismic-reflection data collected between 2008 and 2014, and supplemented with geologic structure (fault and fold) information following the methodology of Wong (2012). Water depths determined from bathymetry data were added to the sediment thickness data to provide \[...\]
## Summary
This part of DS 781 presents data for the transgressive contours of the Point Sur to Point Arguello, California, region. The vector data file is included in the “TransgressiveContours\_PointSurToPointArguello.zip,” which is accessible from https://doi.org/10.5066/P97CZ0T7. As part of the USGS's California State Waters Mapping Project, a 50-m grid of sediment thickness for the seafloor within the 3-nautical mile limit between Point Sur and Point Arguello was generated from seismic-reflection data collected between 2008 and 2014, and supplemented with geologic structure (fault and fold) information following the methodology of Wong (2012). Water depths determined from bathymetry data were added to the sediment thickness data to provide information on the depth to base of the post-LGM unit.
Reference Cited: Wong, F. L., Phillips, E.L., Johnson, S.Y., and Sliter, R.W., 2012, Modeling of depth to base of Last Glacial Maximum and seafloor sediment thickness for the California State Waters Map Series, eastern Santa Barbara Channel, California: U.S. Geological Survey Open-File Report 2012-1161, 16 p. (available at https://pubs.usgs.gov/of/2012/1161/).
## Contacts
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Originator
:
[Samuel Y Johnson](/catalog/catalogParty/show?partyId=5164),
[Stephen Hartwell](/catalog/catalogParty/show?partyId=23301),
[Janet Tilden Watt](/catalog/catalogParty/show?partyId=10991),
[Jeffrey W Beeson](/catalog/catalogParty/show?partyId=Jeffrey+W+Beeson),
[Peter Dartnell](/catalog/catalogParty/show?partyId=2328),
[Susan A. Cochran](/catalog/catalogParty/show?partyId=1923)
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| | | | |
| --- | --- | --- | --- |
| TransgressiveContours\_PointSurToPointArguello\_metadata.xml<br>_Original FGDC Metadata_ | View | 28.25 KB | application/fgdc+xml |
| TransgressiveContours\_PointSurToPointArguello\_metadata.faq.html | | 34.79 KB | text/html |
| TransgressiveContours\_PointSurToPointArguello\_metadata.html | | 69.75 KB | text/html |
| TransgressiveContours\_PointSurToPointArguello\_metadata.txt | | 27.43 KB | text/plain |
| | | |
| --- | --- | --- |
| TransgressiveContours\_PointSurToPointArguello.cpg | | 5 Bytes |
| TransgressiveContours\_PointSurToPointArguello.dbf | | 33.1 KB |
| TransgressiveContours\_PointSurToPointArguello.prj | | 403 Bytes |
| TransgressiveContours\_PointSurToPointArguello.sbn | | 3.99 KB |
| TransgressiveContours\_PointSurToPointArguello.sbx | | 284 Bytes |
| TransgressiveContours\_PointSurToPointArguello.shp | | 3.35 MB |
| TransgressiveContours\_PointSurToPointArguello.shx | | 3.39 KB |
| TransgressiveContours\_PointSurToPointArguello.lyr | | 7 KB |
Shapefile:
TransgressiveContours\_PointSurToPointArguello.zip
## Related External Resources
Type: Web Link
| | |
| --- | --- |
| Web Link | [http://pubs.usgs.gov/ds/781/](http://pubs.usgs.gov/ds/781/ "http://pubs.usgs.gov/ds/781/") |
| Web Link | [https://cmgds.marine.usgs.gov/data/csmp/PointSurToPointArguello/data\_catalog\_PointSurToPointArguello.html](https://cmgds.marine.usgs.gov/data/csmp/PointSurToPointArguello/data_catalog_PointSurToPointArguello.html "https://cmgds.marine.usgs.gov/data/csmp/PointSurToPointArguello/data_catalog_PointSurToPointArguello.html") |
Type: Browse Image
| | |
| --- | --- |
| Transgressive contours for the region between Point Sur and Point Arguello | [https://www.sciencebase.gov/catalog/file/get/5c913920e4b09388245480e3?name=TransgressiveContours\_PointSurToPointArguello.jpg&allowOpen=true](https://www.sciencebase.gov/catalog/file/get/5c913920e4b09388245480e3?name=TransgressiveContours_PointSurToPointArguello.jpg&allowOpen=true "https://www.sciencebase.gov/catalog/file/get/5c913920e4b09388245480e3?name=TransgressiveContours_PointSurToPointArguello.jpg&allowOpen=true") |
## Purpose
To expand geologic mapping to the seafloor within the California's State Waters, to update coastal geologic mapping, and to contribute to a uniform regional geologic database, which can be used geographic information systems. Additionally, to aid in assessments and mitigation of geologic hazards in the Point Sur to Point Arguello coastal region and to provide sufficient geologic information for land-use and land-management decisions both onshore and offshore. This information is not intended for navigational purposes.
## Preview Image
![Transgressive contours for the region between Point Sur and Point Arguello](https://www.sciencebase.gov/catalog/file/get/5c913920e4b09388245480e3?name=TransgressiveContours_PointSurToPointArguello.jpg&allowOpen=true)
Transgressive contours for the region between Point Sur and Point Arguello
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## Provenance
Data sourceInput directly
## Additional Information
### Shapefile Extension
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| dateUploaded | Thu May 30 13:17:29 MDT 2019 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Samuel Y. Johnson</origin>\n <origin>Stephen R. Hartwell</origin>\n <origin>Janet T. Watt</origin>\n <origin>Jeffrey W. Beeson</origin>\n <origin>Peter Dartnell</origin>\n <origin>Susan A. Cochran</origin>\n <pubdate>2019</pubdate>\n <title>Transgressive Contours\xe2\x80\x94Point Sur to Point Arguello, California</title>\n <geoform>shapefile</geoform>\n <serinfo>\n <sername>Data Series</sername>\n <issue>DS 781</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P97CZ0T7</onlink>\n <onlink>https://www.sciencebase.gov/catalog/item/5c9138d8e4b09388245480de</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Nadine E. Golden</origin>\n <pubdate>2013</pubdate>\n <title>California State Waters Map Series Data Catalog</title>\n <geoform>database</geoform>\n <serinfo>\n <sername>Data Series</sername>\n <issue>DS 781</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.usgs.gov/ds/781/</onlink>\n <onlink>https://cmgds.marine.usgs.gov/data/csmp/PointSurToPointArguello/data_catalog_PointSurToPointArguello.html</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This part of DS 781 presents data for the transgressive contours of the Point Sur to Point Arguello, California, region. The vector data file is included in the \xe2\x80\x9cTransgressiveContours_PointSurToPointArguello.zip,\xe2\x80\x9d which is accessible from https://doi.org/10.5066/P97CZ0T7.\nAs part of the USGS\'s California State Waters Mapping Project, a 50-m grid of sediment thickness for the seafloor within the 3-nautical mile limit between Point Sur and Point Arguello was generated from seismic-reflection data collected between 2008 and 2014, and supplemented with geologic structure (fault and fold) information following the methodology of Wong (2012). Water depths determined from bathymetry data were added to the sediment thickness data to provide information on the depth to base of the post-LGM unit.\nReference Cited: Wong, F. L., Phillips, E.L., Johnson, S.Y., and Sliter, R.W., 2012, Modeling of depth to base of Last Glacial Maximum and seafloor sediment thickness for the California State Waters Map Series, eastern Santa Barbara Channel, California: U.S. Geological Survey Open-File Report 2012-1161, 16 p. (available at https://pubs.usgs.gov/of/2012/1161/).</abstract>\n <purpose>To expand geologic mapping to the seafloor within the California\'s State Waters, to update coastal geologic mapping, and to contribute to a uniform regional geologic database, which can be used geographic information systems. Additionally, to aid in assessments and mitigation of geologic hazards in the Point Sur to Point Arguello coastal region and to provide sufficient geologic information for land-use and land-management decisions both onshore and offshore. This information is not intended for navigational purposes.</purpose>\n <supplinf>Additional information about the field activities from which these data were derived is available online at:\n\nhttps://cmgds.marine.usgs.gov/fan_info.php?fan=B0511CC\nhttps://cmgds.marine.usgs.gov/fan_info.php?fan=S609SC\nhttps://cmgds.marine.usgs.gov/fan_info.php?fan=S608SC\nhttps://cmgds.marine.usgs.gov/fan_info.php?fan=2014-632-FA\n\nAny use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.\nAlthough this Federal Geographic Data Committee-compliant metadata file is intended to document the data set in nonproprietary form, as well as in Esri format, this metadata file may include some Esri-specific terminology.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20080609</begdate>\n <enddate>20140802</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition at time seismic data were collected</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-121.930947</westbc>\n <eastbc>-120.411322</eastbc>\n <northbc>36.283451</northbc>\n <southbc>34.423090</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>environment</themekey>\n <themekey>geoscientificInformation</themekey>\n <themekey>oceans</themekey>\n </theme>\n <theme>\n <themekt>Data Categories for Marine Planning</themekt>\n <themekey>Physical Habitats and Geomorphology</themekey>\n <themekey>Distributions</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>marine geology</themekey>\n <themekey>seismic reflection methods</themekey>\n <themekey>maps and atlases</themekey>\n <themekey>stratigraphic thickness</themekey>\n <themekey>geospatial datasets</themekey>\n </theme>\n <theme>\n <themekt>Marine Realms Information Bank (MRIB) keywords</themekt>\n <themekey>sediment deposition</themekey>\n <themekey>seismic reflection profiling</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>U.S. Geological Survey</themekey>\n <themekey>USGS</themekey>\n <themekey>Coastal and Marine Hazards and Resources Program</themekey>\n <themekey>CMHRP</themekey>\n <themekey>Pacific Coastal and Marine Science Center</themekey>\n <themekey>PCMSC</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Pacific Ocean</placekey>\n <placekey>State of California</placekey>\n <placekey>Point Sur</placekey>\n <placekey>Lafler Rock</placekey>\n <placekey>Gamboa Point</placekey>\n <placekey>Gorda</placekey>\n <placekey>Ragged Point</placekey>\n <placekey>Piedras Blancas</placekey>\n <placekey>Cambria</placekey>\n <placekey>Point Estero</placekey>\n <placekey>Morro Bay</placekey>\n <placekey>Point Buchon</placekey>\n <placekey>Avila Beach</placekey>\n <placekey>oceano Beach</placekey>\n <placekey>Point Sal</placekey>\n <placekey>Point Purisma</placekey>\n <placekey>Point Arguello</placekey>\n </place>\n </keywords>\n <accconst>None</accconst>\n <useconst>USGS-authored or produced data and information are in the public domain from the U.S. Government and are freely redistributable with proper metadata and source attribution. Please recognize and acknowledge the U.S. Geological Survey as the originator of the dataset and in products derived from these data.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n <cntper>PCMSC Science Data Coordinator</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060-5792</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>831-427-4747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://www.sciencebase.gov/catalog/file/get/5c913920e4b09388245480e3?name=TransgressiveContours_PointSurToPointArguello.jpg&allowOpen=true</browsen>\n <browsed>Transgressive contours for the region between Point Sur and Point Arguello</browsed>\n <browset>JPEG</browset>\n </browse>\n <native>Microsoft Windows Server 2008 R2 Version 6.1 (Build 7601) Service Pack 1; Esri ArcCatalog 10.0</native>\n <crossref>\n <citeinfo>\n <origin>Originator: Samuel Y. Johnson</origin>\n <origin>Stephen R. Hartwell</origin>\n <origin>Janet T. Watt</origin>\n <origin>Jeffrey W. Beeson</origin>\n <origin>P Dartnell</origin>\n <pubdate>2019</pubdate>\n <title>Offshore shallow structure and sediment distribution, Point Sur to Point Arguello, central California</title>\n <serinfo>\n <sername>Open-File Report</sername>\n <issue>2018-1158</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/ofr20181158</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>The data points from seismic-reflection profiles are dense along tracklines (about 1\xe2\x80\x932 m apart) and sparse between tracklines (typically 800\xe2\x80\x931,000 m apart). 50-m cell size for interpolation is better supported along track than between.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted. All vector geometry and attributes are present.</logic>\n <complete>Sediment thickness data points exported from Seisworks profiling software were processed within the California 3-nmi limit.</complete>\n <posacc>\n <horizpa>\n <horizpar>The sparker position may vary as much as 20 m from the navigation reference on the vessel.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>Estimated to be approximately 1 m, along the track lines where data is well constrained, but may be much greater in areas where interpolation occurred.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Johnson, S.Y.</origin>\n <origin>Hartwell, S.R.</origin>\n <origin>Sliter, R.W.</origin>\n <origin>Beeson, J.W.</origin>\n <pubdate>2017</pubdate>\n <title>Minisparker seismic-reflection data of field activity B\xe2\x80\x9305\xe2\x80\x9311\xe2\x80\x93CC, from Point Sur to Morro Bay, offshore central California, 2011\xe2\x80\x9309\xe2\x80\x9312 to 2011\xe2\x80\x9309\xe2\x80\x9326</title>\n <geoform>SEG-Y</geoform>\n <pubinfo>\n <pubplace>USGS National Archive of Marine Seismic Surveys database</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://walrus.wr.usgs.gov/namss/survey/b-05-11-cc/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>SEG-Y</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2011</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>2011 seismic</srccitea>\n <srccontr>digital seismic data from Point Sur to Estero Bay used to interpret subsurface geologic structure</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Sliter, R.W.</origin>\n <origin>Triezenberg, P.J.</origin>\n <origin>Hart, P.E.</origin>\n <origin>Watt, J.T.</origin>\n <origin>Johnson, S.Y.</origin>\n <origin>Scheirer, D.S.</origin>\n <pubdate>2009</pubdate>\n <title>High-resolution seismic-reflection and marine magnetic data along the Hosgri Fault Zone, central California</title>\n <geoform>SEG-Y</geoform>\n <serinfo>\n <sername>U.S. Geological Survey Open-File Report</sername>\n <issue>OFR 2009-1100</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://pubs.usgs.gov/of/2009/1100/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>SEG-Y</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2009</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>2009 seismic</srccitea>\n <srccontr>digital seismic data from Point Piedras Blancas to Point Sal used to interpret subsurface geologic structure</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Sliter, R.W.</origin>\n <origin>Triezenberg, P.J.</origin>\n <origin>Hart, P.E.</origin>\n <origin>Watt, J.T.</origin>\n <origin>Johnson, S.Y.</origin>\n <origin>Scheirer, D.S.</origin>\n <pubdate>2009</pubdate>\n <title>High-resolution seismic-reflection and marine magnetic data along the Hosgri Fault Zone, central California</title>\n <geoform>SEG-Y</geoform>\n <serinfo>\n <sername>U.S. Geological Survey Open-File Report</sername>\n <issue>OFR 2009-1100</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://pubs.usgs.gov/of/2009/1100/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>SEG-Y</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2008</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>2008 seismic</srccitea>\n <srccontr>digital seismic data from Point Estero to San Luis Obispo Bay used to interpret subsurface geologic structure</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Johnson, S.Y.</origin>\n <origin>Hartwell, S.R.</origin>\n <origin>Beeson, J.W.</origin>\n <pubdate>2016</pubdate>\n <title>Marine geophysical data\xe2\x80\x94Point Sal to Refugio State Beach, southern California</title>\n <geoform>SEG-Y</geoform>\n <serinfo>\n <sername>U.S. Geological Survey data release</sername>\n <issue>doi:10.5066/F7SX6BCD</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7SX6BCD</onlink>\n </citeinfo>\n </srccite>\n <typesrc>SEG-Y</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2014</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>ground condition</srccurr>\n </srctime>\n <srccitea>2014 seismic</srccitea>\n <srccontr>digital seismic data from Point Sal to Gaviota used to interpret subsurface geologic structure</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Samuel Y. Johnson</origin>\n <origin>Stephen R. Hartwell</origin>\n <origin>Janet T. Watt</origin>\n <origin>Jeffrey W. Beeson</origin>\n <origin>Peter Dartnell</origin>\n <pubdate>2019</pubdate>\n <title>Faults\xe2\x80\x94Point Sur to Point Arguello, California</title>\n <geoform>shapefile</geoform>\n <serinfo>\n <sername>U.S. Geological Survey data release</sername>\n <issue>doi: 10.5066/P97CZ0T7</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P97CZ0T7</onlink>\n </citeinfo>\n </srccite>\n <typesrc>shapefile</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2019</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>faults</srccitea>\n <srccontr>faults from Point Sur to Point Arguello were used to interpret subsurface geologic structure</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Samuel Y. Johnson</origin>\n <origin>Stephen R. Hartwell</origin>\n <origin>Janet T. Watt</origin>\n <origin>Jeffrey W. Beeson</origin>\n <origin>Peter Dartnell</origin>\n <pubdate>2019</pubdate>\n <title>Folds\xe2\x80\x94Point Sur to Point Arguello, California</title>\n <geoform>shapefile</geoform>\n <serinfo>\n <sername>U.S. Geological Survey data release</sername>\n <issue>doi: 10.5066/P97CZ0T7</issue>\n </serinfo>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P97CZ0T7</onlink>\n </citeinfo>\n </srccite>\n <typesrc>shapefile</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2019</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>folds</srccitea>\n <srccontr>folds from Point Sur to Point Arguello were used to interpret subsurface geologic structure</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>NOAA National Geophysical Data Center</origin>\n <pubdate>2013</pubdate>\n <title>U.S. Coastal Relief Model\xe2\x80\x94Southern California vers. 2</title>\n <geoform>GeoTIFF</geoform>\n <othercit>National Geophysical Data Center, 2012. U.S. Coastal Relief Model - Southern California vers. 2. National Geophysical Data Center, NOAA. doi:10.7289/V5V985ZM</othercit>\n </citeinfo>\n </srccite>\n <typesrc>NetCDF</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2017</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>download date</srccurr>\n </srctime>\n <srccitea>bathy</srccitea>\n <srccontr>used to calculate depth to transition</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Water bottom (seabed) and depth to base of the Last Glacial Maximum (LGM) horizons were digitized from seismic-reflection data using Seisworks software. The difference between the two horizons was exported from Seisworks for every shot point as XY coordinates (UTM Zone 10) and two-way travel time (TWT). The thickness was determined by applying a sound velocity to the TWT of 1,500 m/sec in water and 1,600 m/sec velocity in sediment, resulting in sediment thickness values.</procdesc>\n <srcused>all sources listed above, with the exception of \xe2\x80\x9cbathy,\xe2\x80\x9d were used in the creation of this layer</srcused>\n <procdate>2017</procdate>\n <srcprod>SedimentThicknessPoints</srcprod>\n </procstep>\n <procstep>\n <procdesc>XY locations and sediment thickness values Z were imported to ArcGIS format as points and interpolated to a preliminary surface with TopoRaster from which isopachs (thickness contours) were extracted at 2.5 m intervals. Further refinement of this sediment thickness map and the isopach shapefile (see https://pubs.usgs.gov/ds/781/PointSurToPointArguello/data/Isopachs_PointSurToPointArguello.zip) was accomplished through several iterations of manual editing to incorporate geology and fault information following the methodology of Wong (2012; see http://pubs.usgs.gov/of/2012/1161/).</procdesc>\n <srcused>SedimentThicknessPoints</srcused>\n <procdate>2017</procdate>\n <srcprod>SedimentThickness</srcprod>\n </procstep>\n <procstep>\n <procdesc>The depth to the base of the post-Last Glacial Maximum (LGM) unit was generated by adding the thickness data to water depths from the bathymetry data.</procdesc>\n <srcused>SedimentThickness, bathy</srcused>\n <procdate>2017</procdate>\n <srcprod>DepthToTransition</srcprod>\n </procstep>\n <procstep>\n <procdesc>Contours at 5-meter intervals were created using standard Esri GIS tools.</procdesc>\n <srcused>DepthToTransition</srcused>\n <procdate>2017</procdate>\n <srcprod>TransgressiveContours</srcprod>\n </procstep>\n <procstep>\n <procdesc>Edits were made as needed to correct data download links. No data were changed. Users are advised to compare the metadata date of this file to any similar file to ensure they are using the most recent version.</procdesc>\n <procdate>2020715</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Susan A Cochran</cntper>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2885 Mission St.</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>831-460-7545</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>String</sdtstype>\n <ptvctcnt>422</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>10</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-123.00000</longcm>\n <latprjo>0.00000</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.00</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>row and column</plance>\n <coordrep>\n <absres>50.0</absres>\n <ordres>50.0</ordres>\n </coordrep>\n <plandu>Meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>WGS84</horizdn>\n <ellips>WGS84</ellips>\n <semiaxis>6378137.00</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>TransgressiveContours</enttypl>\n <enttypd>lines of equal depth to transgressive surface</enttypd>\n <enttypds>standard sedimentology</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number</attrdef>\n <attrdefs>Esri</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>Esri</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ID</attrlabl>\n <attrdef>sequential feature number</attrdef>\n <attrdefs>this study</attrdefs>\n <attrdomv>\n <udom>sequential feature numbers</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CONTOUR</attrlabl>\n <attrdef>line of equal depth to transgressive surface</attrdef>\n <attrdefs>this study</attrdefs>\n <attrdomv>\n <udom>depth to transgressive surface using a 5-m interval</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Type</attrlabl>\n <attrdef>Type of contour</attrdef>\n <attrdefs>This report</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Index</edomv>\n <edomvd>Contour at 10m interval</edomvd>\n <edomvds>This report</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Intermediate</edomv>\n <edomvd>Contours at 5m interval</edomvd>\n <edomvds>This report</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>The downloadable data include a shapefile and associated files as well as FGDC-compliant metadata for the Transgressive Contours data layer in the Point Sur to Point Arguello region of California.</resdesc>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>shapefile</formname>\n <formvern>ArcMap (version 10.0, Esri, 2011)</formvern>\n <formspec>Line features are in shapefile format and are projected in the UTM Zone 10 coordinate system</formspec>\n <formcont>The downloadable data include a shapefile and associated files as well as FGDC-compliant metadata for the Transgressive Contours data layer in the Point Sur to Point Arguello region of California.</formcont>\n <filedec>Winzip</filedec>\n <transize>3.4</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://www.sciencebase.gov/catalog/file/get/5c9138d8e4b09388245480de</networkr>\n <networkr>https://doi.org/10.5066/P97CZ0T7</networkr>\n <networkr>https://pubs.usgs.gov/ds/781/</networkr>\n </networka>\n </computer>\n <accinstr>The first link will begin a direct download of the data. The second link is a landing page on which all of the downloadable data for a particular region are listed. The third link is a landing page for the entire data catalog.</accinstr>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None.</fees>\n </stdorder>\n <techpreq>The downloadable data file has been compressed with the "zip" command and can be unzipped with Winzip (or other tool) on Windows systems. To utilize these data, the user must have software capable of uncompressing the WinZip file and importing and viewing an Esri ArcMap shapefile. Users should download the ArcGIS Project File (https://www.sciencebase.gov/catalog/item/5c91390fe4b09388245480e1?name=PointSurToPointArguelloGIS.mxd.zip), a compressed (with the "zip" command) version of the ArcMap document (.mxd) that has all the data layers loaded in the table of contents for "Point Sur to Point Arguello" and has all the data symbolized as on the map sheets. Download and save this ArcGIS project file, including all data layers, to the directory the user has created for this GIS.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200715</metd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n <cntper>PCMSC Science Data Coordinator</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n </cntaddr>\n <cntvoice>831-427-4747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Data Release Products](/catalog/item/5474ec49e4b04d7459a7eab2)
3. [Plots of Wind Patterns of the World's Volcanoes](/catalog/item/5847137ee4b0f34b016ff271)
4. [Wind rose plots for the volcano: 284100 Kaitoku Seamount](/catalog/folder/58d013b0e4b0236b68f52d39)
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## Dates
Publication Date2017Start Date1990-01-01End Date2009-12-28
## Citation
Mastin, L.G., 2017, Plots of Wind Patterns of the World's Volcanoes: U.S. Geological Survey data release, https://doi.org/10.5066/F7SQ8XKT.
## Summary
This zip folder contains ASCII text files of vectors at the specified volcano at 12-hour intervals, from January 1, 1990 through December 28, 2009. The wind vectors are divided into five files, names by their elevation range above sea level in the atmosphere: 00-05km.txt; 05-11km.txt; 11-16km.txt; 16-24km.txt; and 24-30km.txt. The zip folder also contains a subfolder "figures", with Wind rose plots of wind direction and speed over this time period. The plots are by season, and by elevation, given a total of 20 plots (4 seasons, 5 elevation ranges). A summary plot is also included which gives the year-round wind pattern at the volcano, at 0-5 km elevation. Plots are in both jpg and pdf format.
## Summary
This zip folder contains ASCII text files of vectors at the specified volcano at 12-hour intervals, from January 1, 1990 through December 28, 2009. The wind vectors are divided into five files, names by their elevation range above sea level in the atmosphere: 00-05km.txt; 05-11km.txt; 11-16km.txt; 16-24km.txt; and 24-30km.txt. The zip folder also contains a subfolder "figures", with Wind rose plots of wind direction and speed over this time period. The plots are by season, and by elevation, given a total of 20 plots (4 seasons, 5 elevation ranges). A summary plot is also included which gives the year-round wind pattern at the volcano, at 0-5 km elevation. Plots are in both jpg and pdf format.
## Contacts
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[Larry G Mastin](/catalog/catalogParty/show?partyId=6582)
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[Larry G Mastin](/catalog/catalogParty/show?partyId=6582)
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:
[Larry G Mastin](/catalog/catalogParty/show?partyId=6582)
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| WindRosePlot\_metadata\_284100\_Kaitoku\_Seamount.xml<br>_Original FGDC Metadata_ | View | 11.61 KB | application/fgdc+xml |
| 284100\_Kaitoku\_Seamount.zip | | 3.28 MB | application/zip |
| WindRosePlot\_summary\_284100\_Kaitoku\_Seamount.jpg | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/58d013b0e4b0236b68f52d39?f=__disk__ca%2F86%2Fe9%2Fca86e9987fe3c54da865d58acd65637e9ac73567&width=150&height=112) | 67.73 KB | image/jpeg |
## Purpose
Data are intended to be used as a reference for volcanoes that are threatening to erupt, as an indicator of areas that could be at risk from tephra fall during a future eruption.
## Preview Image
![Preview Image](https://www.sciencebase.gov/catalog/file/get/58d013b0e4b0236b68f52d39?f=__disk__ca%2F86%2Fe9%2Fca86e9987fe3c54da865d58acd65637e9ac73567&width=580&height=435)
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## Communities
- USGS Data Release Products
## Tags
Theme
- [Volcanic Ash](/catalog/items?q=&filter=tags%3DVolcanic+Ash "Volcanic Ash (Volcanic Ash, Theme, USGS Thesaurus)")
- [Volcanic Eruption Forecasting](/catalog/items?q=&filter=tags%3DVolcanic+Eruption+Forecasting "Volcanic Eruption Forecasting (Volcanic Eruption Forecasting, Theme, USGS Thesaurus)")
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- [wind](/catalog/items?q=&filter=tags%3Dwind "wind (wind, Theme, USGS Thesaurus)")
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- [Kaitoku Seamount](/catalog/items?q=&filter=tags%3DKaitoku+Seamount "Kaitoku Seamount (Kaitoku Seamount, Place, Smithsonian Institution Global Volcanism Program)")
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Larry G. Mastin</origin>\n <pubdate>2017</pubdate>\n <title>Wind rose plots for the volcano: 284100 Kaitoku Seamount</title>\n <geoform>ASCII text files and images (jpg and pdf)</geoform>\n <onlink>https://doi.org/10.5066/F7SQ8XKT</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This zip folder contains ASCII text files of vectors at the specified volcano at \n12-hour intervals, \nfrom January 1, 1990 through December 28, 2009. \nThe wind vectors are divided into five files, names by their elevation range above \nsea level in the atmosphere: 00-05km.txt; 05-11km.txt; 11-16km.txt; 16-24km.txt; \nand 24-30km.txt. \nThe zip folder also contains a subfolder "figures", with Wind rose plots of wind \ndirection and speed over \nthis time period. The plots are by season, and by elevation, given a total of 20 \nplots (4 seasons, 5 \nelevation ranges). A summary plot is also included which gives the year-round \nwind pattern at the volcano, \nat 0-5 km elevation. Plots are in both jpg and pdf format.</abstract>\n <purpose>Data are intended to be used as a reference for volcanoes that are threatening to \nerupt, as an indicator \nof areas that could be at risk from tephra fall during a future eruption.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>19900101</begdate>\n <enddate>20091228</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>140.933</westbc>\n <eastbc>140.933</eastbc>\n <northbc>26.060</northbc>\n <southbc>26.060</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Volcanic Ash</themekey>\n <themekey>Volcanic Eruption Forecasting</themekey>\n <themekey>meteorology</themekey>\n <themekey>wind</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:58d013b0e4b0236b68f52d39</themekey>\n </theme>\n <place>\n <placekt>Smithsonian Institution Global Volcanism Program</placekt>\n <placekey>Kaitoku Seamount</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Larry G. Mastin</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1300 SE Cardinal Court, Bldg. 10, Suite 100</address>\n <city>Vancouver</city>\n <state>WA</state>\n <postal>98683</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>360-993-8925</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the \nabstract. Users are advised \nto read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>National Oceanic and Atmospheric Administration (NOAA)</origin>\n <pubdate>2017</pubdate>\n <title>NCEP/NCAR Reanalysis 1 model</title>\n <geoform>Binary (netCDF)</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>NOAA</publish>\n </pubinfo>\n <onlink>https://www.esrl.noaa.gov/psd/data/gridded/data.nmc.reanalysis.html</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Numerical</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19900101</begdate>\n <enddate>20091228</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>current</srccurr>\n </srctime>\n <srccitea>RE 1</srccitea>\n <srccontr>Data contributed by NOAA</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Data are derived from the NCEP/NCAR Reanalysis 1 meteorological model \n(Kalnay et al., 1996). It is a global \nmodel of meteorological weather patterns developed by the National Oceanic \nand Atmospheric Administrations \nNational Center for Environment Prediction (NCEP) and the National Center for \nAtmospheric Research (NCAR) in Boulder, \nColorado. The model divides the Earth\xe2\x80\x99s atmosphere into a global grid, spaced \n2.5 degrees latitude and longitude, and \ninto 17 pressure levels in the atmosphere, from 1000 to 10 hectoPascals \n(hPa)\xe2\x80\x94roughly from sea level to 34 km elevation. \nThe model covers time periods from January 1, 1948 to the present, at \ntime intervals of every six hours. \n\nFor this report, a program was written that reads the NCEP/NCAR Reanalysis \n1 model output and linearly interpolates to the latitude \nand longitude of a given volcano. The wind vectors at each pressure level \nwere read, and then averaged over height \nintervals of 0-5, 5-11, 11-16, 16-24, and >24km above sea level (asl). \nFor each height interval, wind rose plots were \ngenerated for three-month quarters of the year that approximately represent \nthe seasons. These quarters are Jan-Feb-Mar, \nApr-May-Jun, Jul-Aug-Sep, and Oct-Nov-Dec. \nWe chose to read the NCEP/NCAR Reanalysis 1 meteorology at intervals of 12 \nhours (0000 and 1200 UTC) for the period \nJanuary 1, 1990 to December 28, 2009. The 12-hour frequency, and the 20-year \ntime window, were considered the minimum \nrequired to capture diurnal fluctuations in wind, and decadal oscillations \nin climate respectively. For these settings, \nit took about 3 weeks on a desktop computer to generate this 6 Gb dataset. \nMore frequent readings, over a longer time \nperiod, would have slightly improved the statistical distribution at the cost \nof time and size of the output. \n\nReference: \nKalnay, E., Kanamitsu, M., Kistler, R., Collins, W., Deaven, D., Gandin, L., Iredell, M., Saha, \nS., White, G., Woollen, J., Zhu, Y., \nLeetmaa, A., Reynolds, R., Chelliah, M., Ebisuzaki, W., Higgins, W., Janowiak, \nJ., Mo, K.C., Ropelewski, C., Wang, J., \nJenne, R., and Joseph, D., 1996, The NCEP/NCAR 40-Year Reanalysis Project: \nBulletin of the \nAmerican Meteorological Society, v. 77, no. 3, p. 437-471.</procdesc>\n <procdate>20170101</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>volcano name=Kaitoku Seamount , volcano number=284100, as given by the Smithsonian \nInstitutions Global Volcano Program (2013) \n\nReference: \nGlobal Volcanism Program, 2013. Volcanoes of the World, v. 4.5.3. Venzke, E (ed.). \nSmithsonian Institution. Downloaded 17 \nJan 2017. http://dx.doi.org/10.5479/si.GVP.VOTW4-2013</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>ASCII table</enttypl>\n <enttypd>ASCII files with the names 00-05km.txt, 05-11km.txt, 11-16km.txt, \n16-24km.txt, and 24-40km.txt. Names \nrefer to the elevation of winds (km asl) in the file.</enttypd>\n <enttypds>Values in this table conceived by the author.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>"Date & time"</attrlabl>\n <attrdef>Date and time (UTC) of the wind vector given on this line of the table.</attrdef>\n <attrdefs>International Telecommunications Union (http://www.itu.int/)</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1990-01-01T00:00:00Z</edomv>\n <edomvd>Given and yyyy-mm-ddThh:mm:ss, where yyyy=year, mm=month, dd=day of month, \nhh=hour, mm=minute, and ss=second UTC</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Layertop</attrlabl>\n <attrdef>Elevation of the top of this elevation range, in kilometers above sea level.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>40</rdommax>\n <attrunit>kilometers</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>n</attrlabl>\n <attrdef>Number of pressure levels in the numerical weather prediction model that \nwere averaged to obtain the wind \nvector given on this line.</attrdef>\n <attrdefs>Produce defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>17</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>u_wind</attrlabl>\n <attrdef>East component of wind vector, in meters per second.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-200</rdommin>\n <rdommax>200</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>v_wind</attrlabl>\n <attrdef>North component of wind vector, in meters per second</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-200</rdommin>\n <rdommax>200</rdommax>\n <attrunit>meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>These plots are useful indicators of wind patterns at a given volcano, and \nthus can potentially be used as a \nguide for areas at risk from tephra inundation during future eruptions. But \nfuture wind patterns \nmay vary. Use with discretion.</distliab>\n <techpreq>This zip file contains data in ASCII format, as well as images in jpg and pdf \nformat. Users must have \nsoftware on their computers that are capable of reading this format.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200831</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Larry Mastin</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1300 SE Cardinal Court, Bldg. 10, Suite 100</address>\n <city>Vancouver</city>\n <state>WA</state>\n <postal>98683</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>360-993-8925</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2017-09-18Start Date2016-01-13End Date2017-03-13
## Citation
Barry, A.M., Hagar, J.C., and Rivers, J.W., 2017, Created snag characteristics and cavity-nesting bird associations in the CFIRP stands, McDonald-Dunn Research Forest, Corvallis, OR, USA, 2016: U.S. Geological Survey data release, https://doi.org/10.5066/F75M64MC.
## Summary
Snags provide critical habitat for nearly one-third of wildlife species in forests of the Pacific Northwest, so historic declines in snags are thought to have had a strong impact on biodiversity. Resource managers often create snags to mitigate the scarcity of snags within managed forests, but information regarding the function and structure of created snags across long time periods (>20 years) is absent from the literature. Using snags that were created by topping mature Douglas-fir trees (Pseudotsuga menziesii) as part of the OSU College of Forestry Integrated Research Project, we measured characteristics of 731 snags and quantified foraging and breeding use of snags by birds 25-27 years after their creation. We also examined whether \[...\]
## Summary
Snags provide critical habitat for nearly one-third of wildlife species in forests of the Pacific Northwest, so historic declines in snags are thought to have had a strong impact on biodiversity. Resource managers often create snags to mitigate the scarcity of snags within managed forests, but information regarding the function and structure of created snags across long time periods (>20 years) is absent from the literature. Using snags that were created by topping mature Douglas-fir trees (Pseudotsuga menziesii) as part of the OSU College of Forestry Integrated Research Project, we measured characteristics of 731 snags and quantified foraging and breeding use of snags by birds 25-27 years after their creation. We also examined whether different harvest treatments (i.e., group selection, two-story, clearcut) and snag configurations (i.e., scattered and clustered) influenced snag characteristics or avian use for foraging and nesting. In addition, we conducted point count and call play-back surveys to calculate naive occupancy estimates for cavity-nesting bird species.
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| | | | |
| --- | --- | --- | --- |
| Created snag characteristics and cavity-nesting bird associations.xml<br>_Original FGDC Metadata_ | View | 125.61 KB | application/fgdc+xml |
| Call playback data 2016\_final.csv | | 11.6 KB | text/csv |
| Created snag condition 2016.csv | | 49.54 KB | text/csv |
| Created snag focal observations\_2015\_2016.csv | | 550.54 KB | text/csv |
| Point Count Data 2016\_final.csv | | 195.93 KB | text/csv |
| Snag nests\_2015\_2016.csv | | 57.92 KB | text/csv |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Barry, A.M., Hagar, J.C., Rivers, J.W., 2017, Long-term dynamics and characteristics of snags created for wildlife habitat: Forest Ecology and Management, v. 403, no. 2017, p. 145-151, https://doi.org/10.1016/j.foreco.2017.07.049. | [https://doi.org/10.1016/j.foreco.2017.07.049](https://doi.org/10.1016/j.foreco.2017.07.049 "https://doi.org/10.1016/j.foreco.2017.07.049") |
## Purpose
Data were collected to assess the changes in characteristics of Douglas-fir snags after 25 years and the usefulness of these structures to cavity-nesting birds. Data were also collected to assess the impact of different regeneration treatments and snag configurations on both characteristics and use by birds.
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## Provenance
## Additional Information
### Identifiers
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| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F75M64MC |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Amy M. Barry</origin>\n <origin>Joan C. Hagar</origin>\n <origin>James W. Rivers</origin>\n <pubdate>2017</pubdate>\n <title>Created snag characteristics and cavity-nesting bird associations in the CFIRP stands, McDonald-Dunn Research Forest, Corvallis, OR, USA, 2016</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>www.sciencebase.gov</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F75M64MC</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Amy M. Barry</origin>\n <origin>Joan C. Hagar</origin>\n <origin>James W. Rivers</origin>\n <pubdate>2017</pubdate>\n <title>Long-term dynamics and characteristics of snags created for wildlife habitat</title>\n <geoform>journal article</geoform>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>Forest Ecology and Management (Elsevier)</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1016/j.foreco.2017.07.049</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Snags provide critical habitat for nearly one-third of wildlife species in forests of the Pacific Northwest, so historic declines in snags are thought to have had a strong impact on biodiversity. Resource managers often create snags to mitigate the scarcity of snags within managed forests, but information regarding the function and structure of created snags across long time periods (>20 years) is absent from the literature. Using snags that were created by topping mature Douglas-fir trees (Pseudotsuga menziesii) as part of the OSU College of Forestry Integrated Research Project, we measured characteristics of 731 snags and quantified foraging and breeding use of snags by birds 25-27 years after their creation. We also examined whether different harvest treatments (i.e., group selection, two-story, clearcut) and snag configurations (i.e., scattered and clustered) influenced snag characteristics or avian use for foraging and nesting. In addition, we conducted point count and call play-back surveys to calculate naive occupancy estimates for cavity-nesting bird species.</abstract>\n <purpose>Data were collected to assess the changes in characteristics of Douglas-fir snags after 25 years and the usefulness of these structures to cavity-nesting birds. Data were also collected to assess the impact of different regeneration treatments and snag configurations on both characteristics and use by birds.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20160113</begdate>\n <enddate>20170313</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-123.343</westbc>\n <eastbc>-123.228</eastbc>\n <northbc>44.713</northbc>\n <southbc>44.602</southbc>\n </bounding>\n <descgeog>McDonald-Dunn Research Forest, Corvallis, OR, USA</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>cavity-nesting birds</themekey>\n <themekey>Oregon Coast Range</themekey>\n <themekey>Pseudotsuga menziesii</themekey>\n <themekey>Douglas fir</themekey>\n <themekey>CFIRP</themekey>\n <themekey>created snag</themekey>\n <themekey>snag persistence</themekey>\n <themekey>silviculture</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5984b34ce4b05ba66e9d8f8f</themekey>\n </theme>\n </keywords>\n <accconst>None</accconst>\n <useconst>None</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Science Data Coordinator</cntper>\n <cntorg>U.S. Geological Survey Forest and Rangeland Ecosystem Science Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and physical</addrtype>\n <address>777 NW 9th Street, Suite 400</address>\n <city>Corvallis</city>\n <state>OR</state>\n <postal>97330</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>(541) 750-1030</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Financial support for this work was provided by the Fish and Wildlife Habitat in Managed Forests Research Program in the College of Forestry at Oregon State University, the US Geological Survey Forest and Rangeland Ecosystem Science Center, and the Oregon State University College Forests. We thank Scott Walter for sharing unpublished data; Jim Kiser, Mark Harmon, Brenda McComb, Stephen Fitzgerald, and Brent Klumph for logistical support; Ariel Muldoon and Lisa Ganio for statistical advice; and Niels Garlick, Codey Mathis, Karla Garcia, Mason Wagner, Jeffrey Hollenbeck and Josh Johnson for assistance in the field.</datacred>\n <crossref>\n <citeinfo>\n <origin>C. Chambers</origin>\n <origin>T. Carrigan</origin>\n <origin>T. Sabin</origin>\n <origin>J. Tappeiner</origin>\n <origin>W. McComb</origin>\n <pubdate>1997</pubdate>\n <title>Use of artificially created Douglas-fir snags by cavity-nesting birds. Western Journal of Applied Forestry, 12), 93\xe2\x80\x9397.</title>\n <pubinfo>\n <pubplace>unknown</pubplace>\n <publish>unknown</publish>\n </pubinfo>\n <onlink>unknown</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>R. Kumar</origin>\n <origin>P. Singh</origin>\n <pubdate>2010</pubdate>\n <title>Determining woodpecker diversity in the sub-Himalayan forests of northern India using call playbacks. Journal of Field Ornithology, 81, 215\xe2\x80\x93222.</title>\n <pubinfo>\n <pubplace>unknown</pubplace>\n <publish>unknown</publish>\n </pubinfo>\n <onlink>unknown</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>J. Ralph</origin>\n <origin>J. Sauer</origin>\n <origin>S. Droege</origin>\n <pubdate>1995</pubdate>\n <title>Monitoring bird populations by point counts. USDA Forest Service Gen. Tech. PSW-GTR-149.</title>\n <pubinfo>\n <pubplace>unknown</pubplace>\n <publish>U.S. Forest Service</publish>\n </pubinfo>\n <onlink>unknown</onlink>\n </citeinfo>\n </crossref>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>birds</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>American Ornithologists\' Union</origin>\n <pubdate>2017</pubdate>\n <title>Birds of North and Middle America Checklist</title>\n <geoform>website</geoform>\n <pubinfo>\n <pubplace>online</pubplace>\n <publish>American Ornithologists\' Union</publish>\n </pubinfo>\n <onlink>http://checklist.aou.org/taxa/</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <taxonpro>identification keys</taxonpro>\n <taxoncom>Birds were unambiguously identified based on appearance and distribution.</taxoncom>\n </taxonsys>\n <taxongen>All birds were identified to species.</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <common>animals</common>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <common>chordates</common>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <common>vertebrates</common>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Aves</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Accipitriformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Accipitridae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Buteo</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Buteo jamaicensis</taxonrv>\n <common>red-tailed hawk</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anseriformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Anatidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Anserinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Branta</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Branta canadensis</taxonrv>\n <common>Canada goose</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Cathartiformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Cathartidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Cathartes</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Cathartes aura</taxonrv>\n <common>turkey vulture</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Columbiformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Columbidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Patagioenas</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Patagioenas fasciata</taxonrv>\n <common>band-tailed pigeon</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Streptopelia</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Streptopelia decaocto</taxonrv>\n <common>Eurasian collared-dove</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Zenaida</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Zenaida macroura</taxonrv>\n <common>mourning dove</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Galliformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Odontophoridae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Oreortyx</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Oreortyx pictus</taxonrv>\n <common>mountain quail</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Phasianidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Meleagridinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Meleagris</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Meleagris gallopavo</taxonrv>\n <common>wild turkey</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Passeriformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Bombycillidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Bombycilla</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Bombycilla cedrorum</taxonrv>\n <common>cedar waxwing</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Cardinalidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Passerina</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Passerina amoena</taxonrv>\n <common>lazuli bunting</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Pheucticus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Pheucticus melanocephalus</taxonrv>\n <common>black-headed grosbeak</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Piranga</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Piranga ludoviciana</taxonrv>\n <common>western tanager</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Certhiidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Certhiinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Certhia</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Certhia americana</taxonrv>\n <common>brown creeper</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Corvidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Corvus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Corvus brachyrhynchos</taxonrv>\n <common>American crow</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Corvus corax</taxonrv>\n <common>common raven</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Cyanocitta</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Cyanocitta stelleri</taxonrv>\n <common>Steller\'s jay</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Perisoreus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Perisoreus canadensis</taxonrv>\n <common>Gray jay</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Fringillidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Carduelinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Coccothraustes</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Coccothraustes vespertinus</taxonrv>\n <common>evening grosbeak</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Haemorhous</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Haemorhous purpureus</taxonrv>\n <common>purple finch</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Loxia</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Loxia curvirostra</taxonrv>\n <common>red crossbill</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Spinus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Spinus tristis</taxonrv>\n <common>American goldfinch</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Hirundinidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Hirundininae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Progne</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Progne subis</taxonrv>\n <common>purple martin</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Tachycineta</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Tachycineta thalassina</taxonrv>\n <common>violet-green swallow</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Icteridae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Agelaiinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Molothrus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Molothrus ater</taxonrv>\n <common>brown-headed cowbird</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Paridae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Poecile</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Poecile atricapillus</taxonrv>\n <common>black-capped chickadee</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Poecile rufescens</taxonrv>\n <common>chestnut-backed chickadee</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Parulidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Cardellina</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Cardellina pusilla</taxonrv>\n <common>Wilson\'s warbler</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Geothlypis</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Geothlypis tolmiei</taxonrv>\n <common>MacGillivray\'s Warbler</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Geothlypis trichas</taxonrv>\n <common>common yellowthroat</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Oreothlypis</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Oreothlypis celata</taxonrv>\n <common>orange-crowned warbler</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Setophaga</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Setophaga nigrescens</taxonrv>\n <common>black-throated gray warbler</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Setophaga occidentalis</taxonrv>\n <common>hermit warbler</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Setophaga townsendi</taxonrv>\n <common>Townsend\'s warbler</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Passerellidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Junco</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Junco hyemalis</taxonrv>\n <common>dark-eyed junco</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Melospiza</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Melospiza melodia</taxonrv>\n <common>song sparrow</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Pipilo</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Pipilo maculatus</taxonrv>\n <common>spotted towhee</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Zonotrichia</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Zonotrichia leucophrys</taxonrv>\n <common>white-crowned sparrow</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Regulidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Regulus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Regulus satrapa</taxonrv>\n <common>golden-crowned kinglet</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Sittidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Sittinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Sitta</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Sitta canadensis</taxonrv>\n <common>red-breasted nuthatch</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Troglodytidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Thryomanes</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Thryomanes bewickii</taxonrv>\n <common>Bewick\'s wren</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Troglodytes</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Troglodytes aedon</taxonrv>\n <common>house wren</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Troglodytes pacificus</taxonrv>\n <common>Pacific wren</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Turdidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Catharus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Catharus guttatus</taxonrv>\n <common>hermit thrush</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Catharus ustulatus</taxonrv>\n <common>Swainson\'s thrush</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Turdus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Turdus migratorius</taxonrv>\n <common>American robin</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Tyrannidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Fluvicolinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Contopus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Contopus cooperi</taxonrv>\n <common>olive-sided flycatcher</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Contopus sordidulus</taxonrv>\n <common>western wood-pewee</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Empidonax</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Empidonax difficilis</taxonrv>\n <common>Pacific-slope flycatcher</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Vireonidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Vireo</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Vireo cassinii</taxonrv>\n <common>Cassin\'s vireo</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Vireo gilvus</taxonrv>\n <common>warbling vireo</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Vireo huttoni</taxonrv>\n <common>Hutton\'s vireo</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Piciformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Picidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Picinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Colaptes</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Colaptes auratus</taxonrv>\n <common>northern flicker</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Dryocopus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Dryocopus pileatus</taxonrv>\n <common>pileated woodpecker</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Picoides</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Picoides pubescens</taxonrv>\n <common>downy woodpecker</common>\n </taxoncl>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Picoides villosus</taxonrv>\n <common>hairy woodpecker</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Sphyrapicus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Sphyrapicus ruber</taxonrv>\n <common>red-breasted sapsucker</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Strigiformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Strigidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Glaucidium</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Glaucidium gnoma</taxonrv>\n <common>northern pygmy-owl</common>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Strix</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Strix varia</taxonrv>\n <common>barred owl</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <logic>After data were collected in the field, each technician entered his/her own data into a shared excel document and checked that data for accuracy (i.e., dates and times made sense, species codes were accurate, all fields were filled in and made sense, etc.). Data were checked a second time by the crew leader (AMB) to assess that all fields were filled in logically when data were analyzed and if there were any discrepancies, the technician that collected that data was contacted and the data were reviewed and corrected.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <lineage>\n <procstep>\n <procdesc>Original data collection</procdesc>\n <procdate>20170313</procdate>\n </procstep>\n <method>\n <methtype>Field</methtype>\n <methdesc>We assessed whether created snags were standing or fallen. Standing was defined as having a height of greater or equal to 2.5 meters, and fallen was defined as having a height of less than 2.5 meters. We assessed whether or not a created snag had broken since the time of creation by looking for the presence of a jagged, uneven top which contrasted the smooth top that snags had when they were created by topping. We estimated percent bark cover to the nearest 5% by visually inspecting the snag from all sides and estimating how much of the snag was still covered with bark. We assessed whether or not the snag had bark that was peeling away from the snag in an area of greater than or equal to 1 meter squared anywhere on the bole of the snag. We estimated the percentage of the snag that was covered in cavities to the nearest 10% by visually inspecting the entire snag and estimating how much of the bole was taken up by cavities. Cavities included bird mediated cavities (foraging or nesting) as well as natural cavities that were caused by rot or decay or limbs falling off. Focal observations consisted of visual observations of bird use on a randomly selected subset of all of the created snags that were located within the CFIRP stands. Snags were selected randomly within treatments so that each treatment (harvest type and arrangement) was equally sampled. We recorded foraging and breeding activities for cavity-nesting birds using snags during focal observations, as well as details about nests that were located on created snags.\nDuring the 2016 avian breeding season (May-July), we conducted point count and call-playback surveys from dawn until 10:00 a.m. to quantify occupancy by primary cavity-nesters. Point count stations were positioned randomly in each stand under the constraints that they had to be \xe2\x89\xa5100 meters from stand edges and \xe2\x89\xa5250 meters from other point count sampling locations to avoid double-counting birds. Point counts followed the protocol of Ralph et al. 1995 and consisted of a 10-minute aural and visual count period. Immediately following each point count survey, we conducted a 5-minute call-playback survey with a portable playback unit to increase detection of primary cavity-nesting species (Kumar & Singh, 2010) thought present on stands based on historical data (Chambers et al., 1997): Downy Woodpecker (Picoides pubescins), Hairy Woodpecker (Leuconotopicus villosus), Red-breasted Sapsucker (Sphyrapicus ruber), Northern Flicker (Colaptes auratus), and Pileated Woodpecker (Dryocopus pileatus). Our surveys consisted of a 30-second vocalization followed by a 30-second listening interval; vocalizations were recorded from individuals in the Pacific Northwest region of North America and included both a call and a territorial drumming.</methdesc>\n </method>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Created snag condition 2016</enttypl>\n <enttypd>Comma-separated values (.csv) file describing the characteristics collected on created snags in the CFIRP stands.</enttypd>\n <enttypds>Dataset developer</enttypds>\n </enttyp>\n <attr>\n <attrlabl>snag id</attrlabl>\n <attrdef>The unique number that was assigned to each snag.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of snag identification numbers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>date</attrlabl>\n <attrdef>The day, month, and year that the data were collected.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of dates in m/d/yyyy format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>obs</attrlabl>\n <attrdef>The initials of the observer that collected the data.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of initials.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>block</attrlabl>\n <attrdef>The block in which the snag was located.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lewisburg Saddle</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DN</edomv>\n <edomvd>Dunn</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PV</edomv>\n <edomvd>Peavy</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>stand</attrlabl>\n <attrdef>The stand in which the snag was located. Each block contained multiple stands and the number of the stand in preceeded by the abbreviation for each stand.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of site name and stand numbers. LS refers to Lewisburg Saddle, PV refers to Peavy, DN refers to Dunn.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>treat</attrlabl>\n <attrdef>The harvest treatment applied to the stand.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>GS</edomv>\n <edomvd>Group selection</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TS</edomv>\n <edomvd>Two-story</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>CC</edomv>\n <edomvd>Clearcut</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>arrang</attrlabl>\n <attrdef>The snag arrangement (i.e. configuration) to which each snag was assigned.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Clustered</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>S</edomv>\n <edomvd>Scattered</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>focal</attrlabl>\n <attrdef>Indicates whether or not a snag was a focal snag and recieved additional measurements of snag characterstics (i.e. bark cover, cavity cover, etc.).</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>No; not a focal snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Yes; focal snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>standing</attrlabl>\n <attrdef>Whether or not a snag was considered to be standing, defined as having a height of greater than or equal to 2.5 meters.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>No; snag was not standing</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Yes; snag was standing</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dead</attrlabl>\n <attrdef>Indicates whether or not a snag was dead (i.e., contained no living material).</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>No; snag was not dead</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Yes; snag was dead</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>broken</attrlabl>\n <attrdef>Indicates whether or not a snag was broken since the time of creation. A "." indicates that no data were collected for this attribute and a "?" indicates that the observer was unable to discern whether the top was broken or not.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>No; snag was not broken</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Yes; snag was broken</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>top rounding</attrlabl>\n <attrdef>Whether or not the top remained intact but had a rounded appearance which indicated that the bark and sapwood was sloughing away from the sides of the top. A "." indicates that data were not collected for this attribute and a "?" or a "1?" indicates that the observer was unable to discern whether or not the top was rounding.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>No; snag did not have rounded appearance</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Yes; snag had a rounded appearance</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>top condit</attrlabl>\n <attrdef>Description of the condition of the top. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1/2 of top broken</edomv>\n <edomvd>Half of the top of the snag was broken off.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>about to break</edomv>\n <edomvd>The top of the snag showed indications of cracking that could lead to breaking.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>breaking down side</edomv>\n <edomvd>The top was broken on one side of the snag only but one side remained intact.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Thinning</edomv>\n <edomvd>Bark and outer wood was missing from the top giving it a thinned appearance in comparison to the rest of the bole of the snag, but no indications of breaking.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Caving in</edomv>\n <edomvd>The top did not appear to be broken, but the inner wood had rotted away and is causing the top to fall inward.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Hollowing</edomv>\n <edomvd>The inner wood had decayed away at the top but the bark was structurally intact, giving the top a hollow appearance.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>height</attrlabl>\n <attrdef>The height of the snag as measured in meters. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.6</rdommin>\n <rdommax>23.5</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dead branches</attrlabl>\n <attrdef>Categories describing the number of dead branches present on snags. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>0 branches</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>1-10 branches</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>11-25 branches</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>26-50 branches</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>51-75 branches</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>percent bark cover</attrlabl>\n <attrdef>The percentage of the snag bole that was covered in bark estimated to the nearest 5%. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>5</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>bark exfoliating</attrlabl>\n <attrdef>Indicates whether or not the bark was exfoliating (or peeling away from) the bole of the snag in an area of greater than or equal to 1 meter squared. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>No; bark was not exfoliating in an area greater than one meter squared</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Yes; bark was exfoliating in an area greater than one meter squared</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>percent veg cover</attrlabl>\n <attrdef>The percentage of the bole of the snag that was covered in vegetation (e.g., poison oak) estimated to the nearest 10%. A "." indicates that data were not collected for this attribute. A value of "<1", "<5", or "<10" all mean that there was less than 10% bark cover on the snag.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>sapwood condit</attrlabl>\n <attrdef>A description of the condtiion of the sapwood when it was visable on the snag (i.e. bark was missing in some areas that exposed sapwood). A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Crumbley</edomv>\n <edomvd>The sapwood appeared to be loose and dry in texture with cracks in it and pieces missing that had fallen away from the bole of the snag.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Gone</edomv>\n <edomvd>Sapwood appeared to be missing completely.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Hardened</edomv>\n <edomvd>Sapwood appeared to have been hardened from sun exposure, looked dry and hard to the touch.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Soft</edomv>\n <edomvd>Sapwood appeared to be more moist but still falling away from snag or missing in places.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Powdery</edomv>\n <edomvd>Sapwood apeared to be dry and falling away from bole of snag and finely ground like powder rather than larger chunks.</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>notes</attrlabl>\n <attrdef>Any additional notes relevant to this particular record. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of text</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>dbh</attrlabl>\n <attrdef>The diameter at breast height for each snag. Measurement was collected during initial assessments in 1995 and used here for statistical analysis. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>34.8</rdommin>\n <rdommax>196.9</rdommax>\n <attrunit>centimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>percent slope</attrlabl>\n <attrdef>The percent slope of the ground on which the snag was located. This measurement was taken during initial assessment by previous researchers in 1995 and used here for statistical analysis. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>70</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>numsnags</attrlabl>\n <attrdef>The number of snags that were contained in each cell/entry. Used for statistical analysis only.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>1 snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Created snag focal observations 2015_2016</enttypl>\n <enttypd>Comma-separated values (.csv) file containing data collected on a random subset of created snags that describes bird use of snags during both 2015 and 2016 from mid-April through June.</enttypd>\n <enttypds>Dataset developer</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Observer</attrlabl>\n <attrdef>Initials of the person collecting data.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of initials.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The on which date the survey was conducted.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of dates in m/d/yyyy format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Visit</attrlabl>\n <attrdef>The amount of times that snag was visited including the current visit. A "." indicates that data were not collected for this attribute. A "?" indicates that the observer was unsure of the visit number.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of visit number assignments.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Block</attrlabl>\n <attrdef>The block in which the snag being surveyed was located.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lewisburg Saddle</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PV</edomv>\n <edomvd>Peavy</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DN</edomv>\n <edomvd>Dunn</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stand</attrlabl>\n <attrdef>The stand number in which the snag that was being surveyed was located. Stands were within blocks and each stand number was comprised of the block abreviation followed by a number.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of site name and stand numbers. LS refers to Lewisburg Saddle, PV refers to Peavy, DN refers to Dunn.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Treatment</attrlabl>\n <attrdef>Harvest treatment that was applied to the stand.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>GS</edomv>\n <edomvd>Group selection</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TS</edomv>\n <edomvd>Two-story</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>CC</edomv>\n <edomvd>Clearcut</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arrangement</attrlabl>\n <attrdef>The snag arrangment (configuration) that was assigned to each stand at the time of treatment</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Clustered</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>S</edomv>\n <edomvd>Scattered</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Snag ID</attrlabl>\n <attrdef>The unique number that was assigned to each individual snag at the time that snags were created. "UNK" indicates that the snag ID was unknown due to a missing tag.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of snag identifiers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Focal Snag</attrlabl>\n <attrdef>Indicates whether the data recorded is for a focal snag (Y) or a non-focal snag (N; a snag that was not randomly chosen for focal observations).</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Y</edomv>\n <edomvd>Yes; focal snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>N</edomv>\n <edomvd>No; non-focal snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Incidental</attrlabl>\n <attrdef>Indicates whether or not the observation took place during a designated focal observation period.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Y</edomv>\n <edomvd>Yes; observation did not take place during a designated focal observation period</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>N</edomv>\n <edomvd>No; observation took place during a designated focal observation period</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rain</attrlabl>\n <attrdef>The level of rainfall at the time of the survey. A "." indiates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>no rain</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>light rain</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>moderate rain</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>heavy rain</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wind</attrlabl>\n <attrdef>The average wind conditions occurring across the focal observation (based on the Beaufort scale). A "." indicates that data were not collected for this attribute. A "4.5" indicates that the wind level was directly between the description for a "4" and a "5".</attrdef>\n <attrdefs>Beaufort Scale</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>Calm</edomvd>\n <edomvds>Beaufort Wind Scale, http://www.spc.noaa.gov/faq/tornado/beaufort.html</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>light air</edomvd>\n <edomvds>Beaufort Wind Scale, http://www.spc.noaa.gov/faq/tornado/beaufort.html</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>light breeze</edomvd>\n <edomvds>Beaufort Wind Scale, http://www.spc.noaa.gov/faq/tornado/beaufort.html</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>gentle breeze</edomvd>\n <edomvds>Beaufort Wind Scale, http://www.spc.noaa.gov/faq/tornado/beaufort.html</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>moderate breeze</edomvd>\n <edomvds>Beaufort Wind Scale, http://www.spc.noaa.gov/faq/tornado/beaufort.html</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5</edomv>\n <edomvd>fresh breeze</edomvd>\n <edomvds>Beaufort Wind Scale, http://www.spc.noaa.gov/faq/tornado/beaufort.html</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>6</edomv>\n <edomvd>strong breeze</edomvd>\n <edomvds>Beaufort Wind Scale, http://www.spc.noaa.gov/faq/tornado/beaufort.html</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7</edomv>\n <edomvd>high wind</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cloud</attrlabl>\n <attrdef>The category of cloud cover at the time of the survey. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>0% cloud cover</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>1-30% cloud cover</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>31-60% cloud cover</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>61-90% cloud cover</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>91-100% cloud cover</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Focal Point</attrlabl>\n <attrdef>Indicates the position at which the observer was located around the snag. Snag observation time was split between two points around the snag to increase viewing potential. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>First observation point (7.5 minute observation)</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>Second observation point (7.5 minute observation)</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Start time</attrlabl>\n <attrdef>The time that the focal observation survey began in standard A.M./P.M. time. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of times in h:mm am/pm format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Alphabetic code for the species observed during focal observations, based in part on the American Ornithologists\' Union\'s four-letter species checklist (http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf). If more than one individual was present doing the same activity, then the number of individuals is indicated in parantheses after the species code. A "?" indicates that the species could not be determined. A "-" indicates that no species were detected. If the species was not a bird, then the name of the species is written out.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of species names and abbreviations.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Activity</attrlabl>\n <attrdef>The code letter for the activity that the species was observed doing. Letter codes seperated by a "," indicate that both activities occured during the observation period but have no specific order. Codes seperated by "or" indicate that the observer was unsure which of the two activities occured. A "." indicates that no data were recorded and a "-" indicates that no activity occured.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>Foraging</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>N</edomv>\n <edomvd>Nesting</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>P</edomv>\n <edomvd>Perching</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>S</edomv>\n <edomvd>Singing</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Calling</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>E</edomv>\n <edomvd>Excavating a cavity</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D</edomv>\n <edomvd>Drumming</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>O</edomv>\n <edomvd>Other (specified in notes section)</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>?</edomv>\n <edomvd>Activity unknown</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Hunting</edomv>\n <edomvd>Hunting</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Location</attrlabl>\n <attrdef>The location on the snag that the species was observed conducting the activity. A "-" indicates that there was no activity that occured and a "?" indicates that the observor was unsure of the location of the activity. Location codes seperated by a "," indicate that the specified activites occured at muliple locations on the snag in no specific order.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Bole</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>Dead Branch</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Crown</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>Live branch</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5</edomv>\n <edomvd>Shrub/vine on the snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>6</edomv>\n <edomvd>Top</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7</edomv>\n <edomvd>Other (described in notes section)</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Time</attrlabl>\n <attrdef>The amount of time (in seconds) that the individual spent doing the activity, or an approximation is a "<" or ">" sign was recorded. A "-" indicates that no activity occured and a "?" indicates that the observor was unsure of how long the activity occured for. A value of "intermittent" indicates that the activity occurred intermittently throughout the observation period.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of text and numbers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>End time</attrlabl>\n <attrdef>The time at which the focal observation ended (approx. 7.5 minutes after the start time in most cases) in standard A.M./P.M. format.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of times in h:mm am/pm format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Notes</attrlabl>\n <attrdef>Any additional notes about the observation or specifications when the catagory "Other" was used.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of text.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Snag nests 2015_2016</enttypl>\n <enttypd>Comma-separated values (.csv) file containing information about the nests that were located in created snag in the CFIRP stands during 2015 and 2016. Nests were located from mid-April through June.</enttypd>\n <enttypds>Dataset developer</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Visit</attrlabl>\n <attrdef>The number of survey visits that nest received including the current visit. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of visit numbers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Observer</attrlabl>\n <attrdef>The initials of the observer that collected the data. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of initials for each observer that collected the data.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Snag ID</attrlabl>\n <attrdef>The unique number that was given to each snag when they were created.A "." indicates that data were not collected for this attribute. "Unk" indicates that the snag ID was unknown.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of unique snag numbers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nest ID</attrlabl>\n <attrdef>A unique number that was assigned to each nest. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of nest identifiers. Format follows SnagID-YYYY followed by the number of nests in that snag OR ObserversInitials-YYYY- followed by the number of nests found by that observer in that year.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Focal Snag</attrlabl>\n <attrdef>Indicates whether or not the nest was found in a focal snag or a non-focal snag.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Y</edomv>\n <edomvd>Yes; nest found in focal snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>N</edomv>\n <edomvd>No; nest found in non-focal snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Created Snag</attrlabl>\n <attrdef>Indicates whether or not the nest was found in a created snag.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Y</edomv>\n <edomvd>Yes; nest found in created snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>N</edomv>\n <edomvd>No; nest was not found in created snag</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Four letter code, based on the American Ornithologists\' Union checklist, for the species that was found nesting. Species codes seperated by "or" indicates that it was one or the other species.</attrdef>\n <attrdefs>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CBCH</edomv>\n <edomvd>Chestnut-backed chickadee</edomvd>\n <edomvds>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>RBNU</edomv>\n <edomvd>Red-breasted nuthatch</edomvd>\n <edomvds>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NOFL</edomv>\n <edomvd>Northern flicker</edomvd>\n <edomvds>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HAWO</edomv>\n <edomvd>Hairy woodpecker</edomvd>\n <edomvds>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>RBSA</edomv>\n <edomvd>Red breasted sapsucker</edomvd>\n <edomvds>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>BRCR</edomv>\n <edomvd>Brown creeper</edomvd>\n <edomvds>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DEJU</edomv>\n <edomvd>Dark-eyed junco</edomvd>\n <edomvds>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PAWR</edomv>\n <edomvd>Pacific wren</edomvd>\n <edomvds>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NOPO</edomv>\n <edomvd>Northern pygmy owl</edomvd>\n <edomvds>American Ornithologists\' Union checklist, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Block</attrlabl>\n <attrdef>The block in which the snag with the nest was located.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lewisburg Saddle</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PV</edomv>\n <edomvd>Peavy</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DN</edomv>\n <edomvd>Dunn</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Treatment</attrlabl>\n <attrdef>The harvest treatment that was applied to the stand in which the nest was located. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>GS</edomv>\n <edomvd>Group selection</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>TS</edomv>\n <edomvd>Two-story</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>CC</edomv>\n <edomvd>Clearcut</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Arrangement</attrlabl>\n <attrdef>The snag arrangement (configuration) that was assigned to the stand in which the nest was located. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Clustered</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>S</edomv>\n <edomvd>Scattered</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stand</attrlabl>\n <attrdef>The abbreviation for the stand in which the snag with the nest was located. Includes the block abbreviation followed by a number. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of stand identifiers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cavity height</attrlabl>\n <attrdef>The height in meters of the cavity on the snag from the ground. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.8</rdommin>\n <rdommax>35.5</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nest azimuth</attrlabl>\n <attrdef>The direction in degrees that the nest cavity opening was facing on the snag. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>352</rdommax>\n <attrunit>degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The day on which the nest was found.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of dates in m/d/yyyy format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Time</attrlabl>\n <attrdef>The time at which the nest was found in standard A.M/P.M. format. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of times in h:mm am/pm format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stage</attrlabl>\n <attrdef>The stage that the nest was at during the observation. A "." or a blank cell indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Nestling</edomv>\n <edomvd>Nestlings present in the nest</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>?</edomv>\n <edomvd>Unsure of stage</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Dep</edomv>\n <edomvd>Depredated</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Build</edomv>\n <edomvd>Adults buidling the nest</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Fledge</edomv>\n <edomvd>Nestlings have fledged the nest</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Inc</edomv>\n <edomvd>Incubating; adults are sitting on eggs</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Feed</edomv>\n <edomvd>Adults are feeding young</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Excavate</edomv>\n <edomvd>Adults are excavating a cavity</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>No activity</edomv>\n <edomvd>No activity at nest site</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Abandoned</edomv>\n <edomvd>Adults have abandoned the cavity/nest</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Flush</attrlabl>\n <attrdef>Whether or not the adults were flushed out of the cavity upon arrival. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Y</edomv>\n <edomvd>Yes; adults were flushed out of the cavity upon arrival</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>N</edomv>\n <edomvd>No; adults were not flushed out of the cavity upon arrival</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Eggs</attrlabl>\n <attrdef>The number of eggs that were in the cavity. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of egg counts.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>chicks</attrlabl>\n <attrdef>The minimum number of chicks that were detected in the cavity. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>5</rdommax>\n <attrunit>individual chicks</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Adult behavior</attrlabl>\n <attrdef>The behavior of the adults at the nest cavity site. Behaviors seperated by a "," indicate that multiple behaviors occurred during the observation period and do not have any specific order of occurrence. A "." indicates that data were not collected for that attribute. A "?" indicates that the observer was unsure of the behavior.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Feed</edomv>\n <edomvd>Adults feeding chicks</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Build</edomv>\n <edomvd>Adults seen with nesting material and building nest in cavity</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Excavate</edomv>\n <edomvd>Adults activly excavating cavity</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Brood</edomv>\n <edomvd>Adult brooding eggs in cavity</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>No activty</edomv>\n <edomvd>No activity at nest</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Incubating</edomv>\n <edomvd>Adults incubating eggs</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Calling</edomv>\n <edomvd>Adults calling</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Location description</attrlabl>\n <attrdef>The physical description of where the nest is located. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of descriptive text regarding location of nest on snag.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Additional comments about the nest. A "." indicates that data were not collected for that attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of text.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fate</attrlabl>\n <attrdef>Indicates that the nest was successful (i.e. fledged at least 1 chick). A "." indicates that data were not collected for that attribute. A "?" indicates that the observer was unsure of whether or not the nest was successful.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Yes; nest was considered successful</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nesting Attempt</attrlabl>\n <attrdef>Indicates whether or not the supposed nest was an actual nesting attempt or just a cavity start. A "." indicates that data were not collected for that attribute. A "?" indicates that the observer was unsure of whether or not it was a true nesting attempt.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Y</edomv>\n <edomvd>Yes; actual nesting attempt</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>N</edomv>\n <edomvd>No; not an actual nesting attempt but rather just a cavity start</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Point Count Data 2016_final</enttypl>\n <enttypd>Comma-separated values (.csv) file containing point count data collected in CFIRP stands during 2016 May-July on all bird species.</enttypd>\n <enttypds>Dataset developer</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The date on which the survey was conducted.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of dates in m/d/yyyy format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Observer</attrlabl>\n <attrdef>The initials of the observer that collected the data.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of initials.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Block</attrlabl>\n <attrdef>The block in which the survey point was located.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lewisburg Saddle</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PV</edomv>\n <edomvd>Peavy</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DN</edomv>\n <edomvd>Dunn</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stand</attrlabl>\n <attrdef>The number of the stand in which the point count survey was conducted.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of stand identifiers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Point</attrlabl>\n <attrdef>Unique number assigned to each point count location.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of point count location identifiers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Start Time</attrlabl>\n <attrdef>The time that the 10 minute survey began in standard A.M./P.M. format. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of times in h:mm am/pm format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Temp</attrlabl>\n <attrdef>The temperature in degrees Fahrenheit at the start of each point count. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>42</rdommin>\n <rdommax>67</rdommax>\n <attrunit>degrees Fahrenheit</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Wind</attrlabl>\n <attrdef>The average wind speed during the survey period; based on the Beaufort scale. If numbers are seperated by "TO" then the windspeed changed from the first number to the second number during the survey period. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Beaufort Scale</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>under 1 mile per hour</edomvd>\n <edomvds>Beaufort wind scale, http://www.spc.noaa.gov/faq/tornado/beaufort.html</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>1-3 miles per hour</edomvd>\n <edomvds>Beaufort wind scale, http://www.spc.noaa.gov/faq/tornado/beaufort.html</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>4-7 miles per hour</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>8-12 miles per hour</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>13-18 miles per hour</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5</edomv>\n <edomvd>19-24 miles per hour</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>6</edomv>\n <edomvd>25-31 miles per hour</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cloud</attrlabl>\n <attrdef>Estimation of the percent cloud cover to the nearest 10%. A "." indicates that data were not collected for this attribute. Two numbers seperated by "TO" indicates that the cloud cover changed during the survey period from the first number to the second.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of numbers and text.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Visit</attrlabl>\n <attrdef>The number of times that point count location has been visited including the current visit. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of visit numbers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>The species code, based on the American Ornithologists\' Union four-letter code (http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf), associated with the species that was observed or heard at the point count location with the following exceptions: "UNK" indicates the observer was unable to identify the species, "UNK W" indicates that it was an unknown woodpecker species, "XXHU" indicates that it was an unknown hummingibrd species, "UNK H" indicates that it was an unknown hawk species, "UNK Nestlings" indicates that unknown species of nestlings were heard crying from a nest, "ROOSTER" indicates a domestic rooster, "PEACOCK" indicates a domestic peacock. A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of species codes based on the American Ornithologists\' Union four-letter code, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Abund</attrlabl>\n <attrdef>The minimum number of that same species that were present in the same location (i.e. a nesting pair would be 2). A "." indicates that data were not collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of bird counts.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>0-3:20</attrlabl>\n <attrdef>A code for how the individual was detected during the first 3 minutes and 20 seconds of the 10 minute point count. Behavior codes seperated by a "/" indicate that both behaviors occurred during the survey period in no specific order. A "-" indicates that no activity was observed during this time period.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>S</edomv>\n <edomvd>Singing</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Calling</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D</edomv>\n <edomvd>Drumming</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>V</edomv>\n <edomvd>Visual</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>Flyover</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dist1</attrlabl>\n <attrdef>The category for the distance in meters that the detected bird species wass from the observer during the preceeding time period. A "." indicates that no data were collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>0-10 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>11-20 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>21-30 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>31-40 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5</edomv>\n <edomvd>41-50 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>6</edomv>\n <edomvd>51-60 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7</edomv>\n <edomvd>61-70 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>8</edomv>\n <edomvd>71-80 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>9</edomv>\n <edomvd>81-90 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10</edomv>\n <edomvd>91-100 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>11</edomv>\n <edomvd>beyond 100 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3:21-6:40</attrlabl>\n <attrdef>A code for how the individual was detected during the second 3 minutes and 20 seconds of the 10 minute point count. Behavior codes seperated by a "/" indicate that both behaviors occured during the survey period in no specific order. A "-" indicates that no activity was observed during this time period.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>S</edomv>\n <edomvd>Singing</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Calling</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D</edomv>\n <edomvd>Drumming</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>V</edomv>\n <edomvd>Visual</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>Flyover</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dist2</attrlabl>\n <attrdef>The category for the distance in meters that the detected bird species was from the observer during the preceeding time period. A "." indicates that no data were collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>0-10 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>11-20 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>21-30 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>31-40 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5</edomv>\n <edomvd>41-50 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>6</edomv>\n <edomvd>51-60 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7</edomv>\n <edomvd>61-70 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>8</edomv>\n <edomvd>71-80 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>9</edomv>\n <edomvd>81-90 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10</edomv>\n <edomvd>91-100 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>11</edomv>\n <edomvd>beyond 100 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>6:41-10:00</attrlabl>\n <attrdef>A code for how the individual was detected during the third 3 minutes and 20 seconds of the 10 minute point count. Behavior codes seperated by a "/" indicate that both behaviors occured during the survey period in no specific order. A "-" indicates that no activity was observed during this time period.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>S</edomv>\n <edomvd>Singing</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Calling</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D</edomv>\n <edomvd>Drumming</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>V</edomv>\n <edomvd>Visual</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>Flyover</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Dist3</attrlabl>\n <attrdef>The category for the distance in meters that the detected bird species was from the observer during the preceeding time period. A "." indicates that no data were collected for this attribute.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>0-10 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>11-20 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>21-30 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>31-40 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5</edomv>\n <edomvd>41-50 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>6</edomv>\n <edomvd>51-60 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7</edomv>\n <edomvd>61-70 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>8</edomv>\n <edomvd>71-80 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>9</edomv>\n <edomvd>81-90 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10</edomv>\n <edomvd>91-100 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>11</edomv>\n <edomvd>beyond 100 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Any additional comments relevant to this record.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of text.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Call playback data 2016_final</enttypl>\n <enttypd>Comma-separated values (.csv) file containing data collected on woodpecker species that were detected using call playback surveys. Survey points were were located at point count locations in CFIRP stands. Data collected from May to July 2016</enttypd>\n <enttypds>Dataset developer</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The date on which the data were collected.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of dates in m/d/yyyy format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Observer</attrlabl>\n <attrdef>The initials of the observer that collected the data.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of initials.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Block</attrlabl>\n <attrdef>The block in which the survey was located in the CFIRP stands.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lewisburg Saddle</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PV</edomv>\n <edomvd>Peavy</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DN</edomv>\n <edomvd>Dunn</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Stand</attrlabl>\n <attrdef>The number of the stand in which the survey points were located.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of stand identifiers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Point</attrlabl>\n <attrdef>Unique number associated with each point count location where call playback surveys took place.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of point count location identifiers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Visit</attrlabl>\n <attrdef>The number of visits that each point recieved including the current visit.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of visit numbers.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Start time</attrlabl>\n <attrdef>The time at which the survey began in standard A.M./P.M. format.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of times in h:mm am/pm format.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>The four letter American Ornithologists\' Union code for the species that was detected during the call playback survey. A "-" indicates that no species were detected.</attrdef>\n <attrdefs>http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</attrdefs>\n <attrdomv>\n <edom>\n <edomv>DOWO</edomv>\n <edomvd>Downy woodpecker</edomvd>\n <edomvds>American Ornithologists\' Union, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HAWO</edomv>\n <edomvd>Hairy woodpecker</edomvd>\n <edomvds>American Ornithologists\' Union, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>RBSA</edomv>\n <edomvd>Red-breasted sapsucker</edomvd>\n <edomvds>American Ornithologists\' Union, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NOFL</edomv>\n <edomvd>Northern flicker</edomvd>\n <edomvds>American Ornithologists\' Union, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>PIWO</edomv>\n <edomvd>Pileated woodpecker</edomvd>\n <edomvds>American Ornithologists\' Union, http://www.birdpop.org/docs/misc/Alpha_codes_eng.pdf</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>UNK</edomv>\n <edomvd>Unknown woodpecker species</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Detection type</attrlabl>\n <attrdef>The code for how the individual was detected. Codes seperated by a "/" indicate that the species was detected doing both behaviors during the survey period in no specific order. A "-" indicates that no species were detected.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>S</edomv>\n <edomvd>Singing</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>C</edomv>\n <edomvd>Calling</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>V</edomv>\n <edomvd>Visual</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D</edomv>\n <edomvd>Drumming</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>F</edomv>\n <edomvd>Flyover</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Distance</attrlabl>\n <attrdef>The estimated distance that the individual was detected from the observer. A "-" indicates that no species were detected.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>0-10 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>11-20 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>21-30 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>31-40 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>5</edomv>\n <edomvd>41-50 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>6</edomv>\n <edomvd>51-60 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7</edomv>\n <edomvd>61-70 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>8</edomv>\n <edomvd>71-80 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>9</edomv>\n <edomvd>81-90 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>10</edomv>\n <edomvd>91-100 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>11</edomv>\n <edomvd>beyond 100 meters</edomvd>\n <edomvds>Dataset developer</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Additional comments relevant to this record.</attrdef>\n <attrdefs>Dataset developer</attrdefs>\n <attrdomv>\n <udom>Unbounded list of text.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>U.S. Geological Survey - ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Comma-separated values (.csv) file</formname>\n <formvern>none</formvern>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/F75M64MC</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200819</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Science Data Coordinator</cntper>\n <cntorg>U.S. Geological Survey Forest and Rangeland Ecosystem Science Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>777 NW 9th Street, Suite 400</address>\n <city>Corvallis</city>\n <state>OR</state>\n <postal>97330</postal>\n </cntaddr>\n <cntvoice>(541) 750-1030</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS New Jersey Water Science Center](/catalog/item/56df0016e4b015c306fc2aad)
3. [Current-use pesticides and emerging amphibian pathogens in natural ponds, excavated ponds, and stormwater basins from 24 sites varying in land-use classifications throughout the New Jersey Pinelands, 2014-2016](/catalog/folder/5a68d627e4b06e28e9c72248)
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## Dates
Publication Date2018-07-20Start Date2014End Date2016
## Citation
Romanok, K.M, Smalling, K.L., Bunnell, J.F., Cohl, J.A., Hazard, L., Monsen, K., Laidig, K.J., Akob, D.M., Hansen, A., Hladik, M.L., Abdalla, N., Ahmed, Q., Assan, A., Burritt, P.M., De Parsia, M., Griggs, A.L., McWayne-Holmes, M., Patel, N., Sanders, C.J., Shrestha, Y., Sobel, M.C., and Stout, S.M., 2018, Current-use pesticides and emerging amphibian pathogens in natural ponds, excavated ponds and stormwater basins from 24 sites varying in land-use classifications throughout the New Jersey Pinelands, 2014–2016: U.S. Geological Survey data release, https://doi.org/10.5066/F71G0K6G.
## Summary
Water, sediment, anuran food (leaf litter and detritus) and whole body larval amphibian composites were analyzed for over 100 current-use pesticides from 24 wetlands representing land-use gradients in the New Jersey Pinelands, USA during 2014-2016. Emerging amphibian pathogens, Ranavirus and Batrachochytrium dendrobatidis (Bd) were also assessed in individual larvae at the 24 wetlands. Tables in this data release contain the results from these analyses, with quality assurance summaries, along with site information, including land-use classifications.
## Summary
Water, sediment, anuran food (leaf litter and detritus) and whole body larval amphibian composites were analyzed for over 100 current-use pesticides from 24 wetlands representing land-use gradients in the New Jersey Pinelands, USA during 2014-2016. Emerging amphibian pathogens, Ranavirus and Batrachochytrium dendrobatidis (Bd) were also assessed in individual larvae at the 24 wetlands. Tables in this data release contain the results from these analyses, with quality assurance summaries, along with site information, including land-use classifications.
## Contacts
Point of Contact
:
[Kelly Smalling](/catalog/catalogParty/show?partyId=9576)
Originator
:
[Kristin M Romanok](/catalog/catalogParty/show?partyId=8768),
[Kelly Smalling](/catalog/catalogParty/show?partyId=9576),
[John F. Bunnell](/catalog/catalogParty/show?partyId=John+F.+Bunnell),
[Jonathan A Cohl](/catalog/catalogParty/show?partyId=64809),
[Lisa Hazard](/catalog/catalogParty/show?partyId=Lisa+Hazard),
[Kirsten Monsen](/catalog/catalogParty/show?partyId=Kirsten+Monsen),
[Kim J. Laidig](/catalog/catalogParty/show?partyId=Kim+J.+Laidig),
[Denise M Akob](/catalog/catalogParty/show?partyId=60653),
[Angela Hansen](/catalog/catalogParty/show?partyId=16280),
[Michelle L Hladik](/catalog/catalogParty/show?partyId=4600),
[Nicole Abdallah](/catalog/catalogParty/show?partyId=Nicole+Abdallah),
[Quratulain Ahmed](/catalog/catalogParty/show?partyId=69996),
[Araba Assan](/catalog/catalogParty/show?partyId=Araba+Assan),
[Patrick M. Burritt](/catalog/catalogParty/show?partyId=Patrick+M.+Burritt),
[Matthew D De Parsia](/catalog/catalogParty/show?partyId=65026),
[Amaryl L Griggs](/catalog/catalogParty/show?partyId=67433),
[Megan M McWayne-Holmes](/catalog/catalogParty/show?partyId=23081),
[Naisargi Patel](/catalog/catalogParty/show?partyId=Naisargi+Patel),
[Corey J Sanders](/catalog/catalogParty/show?partyId=23615),
[Yesha Shrestha](/catalog/catalogParty/show?partyId=67260),
[Marilyn C. Sobel](/catalog/catalogParty/show?partyId=Marilyn+C.+Sobel),
[Sean M Stout](/catalog/catalogParty/show?partyId=67490)
Metadata Contact
:
[Kristin M Romanok](/catalog/catalogParty/show?partyId=8768)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
SDC Data Owner
:
[New Jersey Water Science Center](/catalog/catalogParty/show?partyId=17210)
USGS Mission Area
:
[Water Resources](/catalog/catalogParty/show?partyId=Water+Resources)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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| | | | |
| --- | --- | --- | --- |
| Pinelands\_metadata.xml<br>_Original FGDC Metadata_ | View | 64.56 KB | application/fgdc+xml |
| Pinelands\_StationandLanduse\_DataDictionary\_2014to2016.txt<br>“Table 1” | | 6.45 KB | text/plain |
| Pinelands\_StationandLandUse\_Characteristics\_2014to2016.txt<br>“Table 2” | | 10.12 KB | text/plain |
| Pinelands\_Methods\_2014to2016.txt<br>“Table 3” | | 11.13 KB | text/plain |
| Pinelands\_QA\_Summary\_2014to2016.txt<br>“Table 4” | | 2.09 KB | text/plain |
| Pinelands\_QA\_Surrogates\_2014to2016.txt<br>“Table 5” | | 7.81 KB | text/plain |
| Pinelands\_QA\_MatrixSpikes\_2014to2016.txt<br>“Table 6” | | 7.88 KB | text/plain |
| Pinelands\_Water\_2014to2016.txt<br>“Table 7” | | 5.27 KB | text/plain |
| Pinelands\_Sediment\_2014to2016.txt<br>“Table 8” | | 4.52 KB | text/plain |
| Pinelands\_Anuran\_Food\_2014to2016.txt<br>“Table 9” | | 4.42 KB | text/plain |
| Pinelands\_Tissue\_2014to2016.txt<br>“Table 10” | | 8.02 KB | text/plain |
| Pinelands\_BdResults\_2014to2016.txt<br>“Table 11” | | 14.98 KB | text/plain |
| Pinelands\_RanavirusResults\_2014to2016.txt<br>“Table 12” | | 1.95 KB | text/plain |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Smalling, K.L., Bunnell, J.F., Cohl, J., Romanok, K.M., Hazard, L., Monsen, K., Akob, D.M., Hansen, A., Hladik, M.L., Abdallah, N., Ahmed, Q., Assan, A., De Parsia, M., Griggs, A., McWayne-Holmes, M., Patel, N., Sanders, C., Shrestha, Y., Stout, S., and Williams, B., 2018, An initial comparison of pesticides and amphibian pathogens between natural and created wetlands in the New Jersey Pinelands, 2014–16: U.S. Geological Survey Open-File Report 2018–1077, 18 p., https://doi.org/10.3133/ofr20181077. | [https://doi.org/10.3133/ofr20181077](https://doi.org/10.3133/ofr20181077 "https://doi.org/10.3133/ofr20181077") |
## Purpose
The study was designed to compare the functional equivalency of natural ponds and two types of created wetlands: excavated ponds and stormwater basins by analyzing them for current-use pesticides and emerging amphibian pathogens. Sites were selected based on land-use classifications within a 500 meter radius around each wetland from a pool of natural ponds, excavated ponds and stormwater basins determined as part of a larger study by the New Jersey Pinelands Commission. Water, bed sediment, anuran food (e.g., algae, leaves, detritus) and larval frogs were collected from four reference (minimum land-use impact) and four degraded (maximum land-use impact) from each wetland type for a total of 24 wetlands throughout the Pinelands National Preserve, New Jersey, 2014-16. The percent of altered land ranged from 0 to 60 % for the natural ponds, 0 to 64% for the excavated ponds and 23-79% for the stormwater basins. Prevalence of Ranavirus was determined based on tail clips collected from 60 individual larval frogs in each pond. Ten animals from each pond were swabbed for the presence of Batrachochytrium dendrobatidis (Bd). Other constituents collected at each pond included turbidity, pH, specific conductance, dissolved organic carbon, total dissolved nitrogen, percent organic carbon in sediment, and larval frog lipid content.
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Kristin M. Romanok</origin>\n <origin>Kelly L. Smalling</origin>\n <origin>John F. Bunnell</origin>\n <origin>Jonathan A. Cohl</origin>\n <origin>Lisa Hazard</origin>\n <origin>Kirsten Monsen</origin>\n <origin>Kim J. Laidig</origin>\n <origin>Denise M. Akob</origin>\n <origin>Angela Hansen</origin>\n <origin>Michelle L. Hladik</origin>\n <origin>Nicole Abdallah</origin>\n <origin>Quratulain Ahmed</origin>\n <origin>Araba Assan</origin>\n <origin>Patrick M. Burritt</origin>\n <origin>Matthew De Parsia</origin>\n <origin>Amaryl Griggs</origin>\n <origin>Megan McWayne-Holmes</origin>\n <origin>Naisargi Patel</origin>\n <origin>Corey Sanders</origin>\n <origin>Yesha Shrestha</origin>\n <origin>Marilyn C. Sobel</origin>\n <origin>Sean Stout</origin>\n <pubdate>2018</pubdate>\n <title>Current-use pesticides and emerging amphibian pathogens in natural ponds, excavated ponds, and stormwater basins from 24 sites varying in land-use classifications throughout the New Jersey Pinelands, 2014-2016</title>\n <geoform>tabular</geoform>\n <serinfo>\n <sername>data release</sername>\n <issue>doi:10.5066/F71G0K6G</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F71G0K6G</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Water, sediment, anuran food (leaf litter and detritus) and whole body larval amphibian composites were analyzed for over 100 current-use pesticides from 24 wetlands representing land-use gradients in the New Jersey Pinelands, USA during 2014-2016. Emerging amphibian pathogens, Ranavirus and Batrachochytrium dendrobatidis (Bd) were also assessed in individual larvae at the 24 wetlands. Tables in this data release contain the results from these analyses, with quality assurance summaries, along with site information, including land-use classifications.</abstract>\n <purpose>The study was designed to compare the functional equivalency of natural ponds and two types of created wetlands: excavated ponds and stormwater basins by analyzing them for current-use pesticides and emerging amphibian pathogens. Sites were selected based on land-use classifications within a 500 meter radius around each wetland from a pool of natural ponds, excavated ponds and stormwater basins determined as part of a larger study by the New Jersey Pinelands Commission. Water, bed sediment, anuran food (e.g., algae, leaves, detritus) and larval frogs were collected from four reference (minimum land-use impact) and four degraded (maximum land-use impact) from each wetland type for a total of 24 wetlands throughout the Pinelands National Preserve, New Jersey, 2014-16. The percent of altered land ranged from 0 to 60 % for the natural ponds, 0 to 64% for the excavated ponds and 23-79% for the stormwater basins. Prevalence of Ranavirus was determined based on tail clips collected from 60 individual larval frogs in each pond. Ten animals from each pond were swabbed for the presence of Batrachochytrium dendrobatidis (Bd). Other constituents collected at each pond included turbidity, pH, specific conductance, dissolved organic carbon, total dissolved nitrogen, percent organic carbon in sediment, and larval frog lipid content.</purpose>\n <supplinf>Funding provided by New Jersey Pinelands Commission, EPA Region 2 Wetland Program Development Grant #96294000, U.S. Geological Survey Cooperative Water Program and U.S. Geological Survey Amphibian Research and Monitoring Initiative</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2014</begdate>\n <enddate>2016</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-74.9339</westbc>\n <eastbc>-74.24</eastbc>\n <northbc>39.94</northbc>\n <southbc>39.2872</southbc>\n </bounding>\n <descgeog>Pinelands National Reserve, New Jersey, USA</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>amphibians</themekey>\n <themekey>water quality</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>pesticides</themekey>\n <themekey>sediment-quality</themekey>\n <themekey>tissue</themekey>\n <themekey>amphibian food</themekey>\n <themekey>amphibian disease</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5a68d627e4b06e28e9c72248</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information Systems</placekt>\n <placekey>New Jersey</placekey>\n <placekey>Pinelands</placekey>\n <placekey>ponds</placekey>\n <placekey>storm-water basins</placekey>\n <placekey>land-use metrics</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Kelly Smalling</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3450 Princeton Pike</address>\n <city>Lawrenceville</city>\n <state>New Jersey</state>\n <postal>08648</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>609-331-4850</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Amphibians</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2017</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Kelly Smalling</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3450 Princeton Pike, Suite 110</address>\n <city>Lawrenceville</city>\n <state>NJ</state>\n <postal>08648</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>609-771-3900</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>John Bunnell</cntper>\n <cntorg>New Jersey Pinelands Commission</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>15 Springfield Road</address>\n <city>New Lisbon</city>\n <state>New Jersey</state>\n <postal>08064</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>609-894-7300</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>expert advice</taxonpro>\n <taxoncom>Specimens were identified by visual inspection.</taxoncom>\n </taxonsys>\n <taxongen>Collected amphibian samples include: Anaxyrus fowleri (Fowler's Toad), Lithobates sphenocephalus (Southern Leopard Frog), Pseudacris crucifer (Spring Peeper), Lithobates sylvaticus (Wood Frog), Lithobates clamitans (Green Frog), Hyla versicolor (Northern Gray Treefrog), Lithobates catesbeianus (American Bullfrog), and an unknown species at one site. Two specimens were collected per site. Whole body specimens were used for analyses.</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Amphibia</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anura</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Bufonidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Anaxyrus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Anaxyrus fowleri</taxonrv>\n <common>Fowler's Toad</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Amphibia</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anura</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Ranidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Lithobates</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Lithobates sphenocephalus</taxonrv>\n <common>Southern Leopard Frog</common>\n <taxoncl>\n <taxonrn>Subspecies</taxonrn>\n <taxonrv>Lithobates sphenocephalus sphenocephalus</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Subspecies</taxonrn>\n <taxonrv>Lithobates sphenocephalus utricularius</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Amphibia</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anura</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Hylidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Hylinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Pseudacris</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Pseudacris crucifer</taxonrv>\n <common>Spring Peeper</common>\n <common>rainette crucif\xc3\xa8re</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Amphibia</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anura</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Ranidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Lithobates</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Lithobates sylvaticus</taxonrv>\n <common>Wood Frog</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Amphibia</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anura</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Ranidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Lithobates</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Lithobates clamitans</taxonrv>\n <common>Green Frog</common>\n <taxoncl>\n <taxonrn>Subspecies</taxonrn>\n <taxonrv>Lithobates clamitans clamitans</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Subspecies</taxonrn>\n <taxonrv>Lithobates clamitans melanota</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Amphibia</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anura</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Ranidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Lithobates</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Lithobates clamitans</taxonrv>\n <common>Green Frog</common>\n <taxoncl>\n <taxonrn>Subspecies</taxonrn>\n <taxonrv>Lithobates clamitans clamitans</taxonrv>\n </taxoncl>\n <taxoncl>\n <taxonrn>Subspecies</taxonrn>\n <taxonrv>Lithobates clamitans melanota</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Amphibia</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anura</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Hylidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Hylinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Hyla</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Hyla versicolor</taxonrv>\n <common>Gray Treefrog</common>\n <common>rainette versicolore</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Amphibia</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Anura</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Ranidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Lithobates</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Lithobates catesbeianus</taxonrv>\n <common>American Bullfrog</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Data table creation from National Water Information System (NWIS) and associated laboratories.</procdesc>\n <procdate>20170820</procdate>\n </procstep>\n <method>\n <methtype>Field</methtype>\n <methdesc>Water, sediment, anuran food (leaf litter and detritus) and whole body larval amphibian composites were analyzed for over 100 current-use pesticides from 24 wetlands representing land-use gradients in the New Jersey Pinelands, USA during 2014-2016. Emerging amphibian pathogens, Ranavirus and Batrachochytrium dendrobatidis (Bd) were also assessed in individual larvae at the 24 wetlands.</methdesc>\n <methcite>\n <citeinfo>\n <origin>Smalling, K.L., Bunnell, J.F., Cohl, J., Romanok, K.M., Hazard, L., Monsen, K., Akob, D.M., Hansen, A., Hladik, M.L., Abdallah, N., Ahmed, Q., Assan, A., De Parsia, M., Griggs, A., McWayne-Holmes, M., Patel, N., Sanders, C., Shrestha, Y., Stout, S., Williams, B.</origin>\n <pubdate>2018</pubdate>\n <title>An initial comparison of pesticides and amphibian pathogens between natural and created wetlands in the New Jersey Pinelands, 2014-16</title>\n <geoform>report</geoform>\n <serinfo>\n <sername>Open-File Report</sername>\n <issue>2018-1077</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/ofr20181077</onlink>\n </citeinfo>\n </methcite>\n </method>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>1.0E-4</latres>\n <longres>1.0E-4</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>NAD83</horizdn>\n <ellips>GRS 1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_StationandLanduse_DataDictionary_2014to2016.txt</enttypl>\n <enttypd>Table 1. Data dictionary describing land-use information found in Pinelands_StationandLandUse_Characteristics_2014to2016.txt (Land-use characteristics for sites located in the Pinelands Area, New Jersey, 2014-16).</enttypd>\n <enttypds>Producer defined and New Jersey Department of Environmental Protection; New Jersey Deparment of Environmental Protection (NJDEP), 2010. NJDEP 2007 land use/land cover update. New Jersey Department of Environmental Protection, Office of Information Resource Management, Bureau of Geographic Information Systems, Trenton, New Jersey, USA. (http://www.nj.gov/dep/gis/lulc07shp.html)</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_Landuse_DataDictionary_2014to2016.txt; Column 1</attrlabl>\n <attrdef>Column headers (referring to column headers found in Pinelands_StationandLandUse_Characteristics_2014to2016.txt)</attrdef>\n <attrdefs>Producer defined. m, meters</attrdefs>\n <attrdomv>\n <udom>Referring to column headers in Pinelands_StationandLandUse_Characteristics_2014to2016.txt</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_StationandLanduse_DataDictionary_2014to2016.txt; Column 2</attrlabl>\n <attrdef>Description of column headers (defining column headers found in Pinelands_StationandLandUse_Characteristics_2014to2016.txt)</attrdef>\n <attrdefs>Producer defined. m, meters</attrdefs>\n <attrdomv>\n <udom>Defining Column 1</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_StationandLandUse_Characteristics_2014to2016.txt</enttypl>\n <enttypd>Table 2. Sample location information, year sampled, pond classification, the percentage of altered land within a 500 m radius around the natural ponds, excavated ponds, and stormwater basins sampled throughout the Pinelands National Preserve, New Jersey, 2014-16. Also included is basic land-use information in a 100 to 1000 m buffer around each wetland.</enttypd>\n <enttypds>U.S. Geological Survey and New Jersey Pinelands Commission. Refer to Pinelands_StationandLanduse_DataDictionary.txt for column header descriptions. Classification of ponds based on New Jersey Pinelands Commission's wetland inventory. Designation based on percent (%) altered land in a 500 meter (m) buffer around each pond; reference = less than 1% altered for natural and excavated ponds and less than 50% altered for stormwater basins; degraded greater than or equal to 30% altered for natural and excavated ponds and greater than 55% altered for stormwater basins. Total percent of altered land (urban plus agriculture) in a 500 m buffer surrounding each pond. New Jersery Department of Environmental Protection. 2010. NJDEP 2007 land use/land cover update. New Jersey Department of Environmental Protection, Office of Information Resource Management, Bureau of Geographic Information Systems, Trenton, New Jersey, USA. http://www.nj.gov/dep/gis/lulc07shp.html</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_StationandLandUse_Characteristics.txt; Columns 1-8</attrlabl>\n <attrdef>Station information corresponding to headings: Station number, Station name, Wetland name, Year (yyyy), Pond Type, Pond classification.</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission.</attrdefs>\n <attrdomv>\n <udom>Refer to Pinelands_StationandLanduse_DataDictionary_2016to2016.txt for definitions.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_StationandLandUse_Characteristics.txt; Columns 9-69.</attrlabl>\n <attrdef>Land-use Characteristics corresponding to headings: Altered land (percent), Agriculture (100 m), Agriculture (1000 m), Agriculture (200 m), Agriculture (300 m), Agriculture (400 m), Agriculture (500 m), Agriculture (600 m), Agriculture (700 m), Agriculture (800 m), Agriculture (900 m), Barren (100 m), Barren (1000 m), Barren (200 m), Barren (300 m), Barren (400 m), Barren (500 m), Barren (600 m), Barren (700 m), Barren (800 m), Barren (900 m), Developed (100 m), Developed (1000 m), Developed (200 m), Developed (300 m), Developed (400 m), Developed (500 m), Developed (600 m), Developed (700 m), Developed (800 m), Developed (900 m), Forest (100 m), Forest (1000 m), Forest (200 m), Forest (300 m), Forest (400 m), Forest (500 m), Forest (600 m), Forest (700 m), Forest (800 m), Forest (900 m), Water (100 m), Water (1000 m), Water (200 m), Water (300 m), Water (400 m), Water (500 m), Water (600 m), Water (700 m), Water (800 m), Water (900 m), Wetland (100 m), Wetland (1000 m), Wetland (200 m), Wetland (300 m), Wetland (400 m), Wetland (500 m), Wetland (600 m), Wetland (700 m), Wetland (800 m), Wetland (900 m)</attrdef>\n <attrdefs>Refer to Pinelands_StationandLanduse_DataDictionary_2014to2016.txt for definitions.</attrdefs>\n <attrdomv>\n <udom>Percentages of land use present in area listed in column header.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_Methods_2014to2016.txt</enttypl>\n <enttypd>Table 3. Current-use pesticides analyzed in water, sediment, anuran food and larval tissue samples collected from natural ponds, excavated ponds, and stormwater basins throughout the Pinelands Area, New Jersey, 2014-16.</enttypd>\n <enttypds>USGS New Jersey Water Science Center and New Jersey Pinelands Commission</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_Methods_2014to2016.txt; Column headers corresponding to columns 1-3.</attrlabl>\n <attrdef>Method information corresponding to headings: Compound, CAS, Chemical Abstract Service number, Sample medium</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Sample medium refers to the types of samples collected for listed parameter. Parameter information found in National Water Information System, where available (NWIS; http://nwis.waterdata.usgs.gov/usa/nwis). CAS, Chemical Abstract System.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Methods_2014to2016.txt; Column headers corresponding to columns 4, 6, 8</attrlabl>\n <attrdef>Method information corresponding to headings: Water reporting limits, (ng/L; unless noted), Sediment and anuran food reporting limits (ug/kg, dry weight), Tissue reporting limits (ug/kg, wet weight)</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Parameter information found in National Water Information System, where available (NWIS; http://nwis.waterdata.usgs.gov/usa/nwis). ng/L, nanograms per liter; ug/kg, micrograms per kilogram.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Methods_2014to2016.txt; Column headers corresponding to columns 5 and 7</attrlabl>\n <attrdef>Method information corresponding to headings: Water parameter codes, Sediment parameter codes</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>Parameter code</codesetn>\n <codesets>Parameter information found in National Water Information System (NWIS; http://nwis.waterdata.usgs.gov/usa/nwis). No parameter codes exist for tissue samples.</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_QA_Summary_2014to2016.txt</enttypl>\n <enttypd>Table 4. Summary of quality assurance/quality control samples collected from natural ponds, excavated ponds, and stormwater basins throughout the Pinelands Area, New Jersey, 2014-16.</enttypd>\n <enttypds>U.S. Geological Survey. [NA, not applicable; Salinas River Fish are reference fish tissue used as a lab matrix spike.]</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_QA_Summary_2014to2016.txt; Columns 1-7.</attrlabl>\n <attrdef>Summary quality assurance/quality control information corresponding to headings: Wetland name, Site number, Medium type, Sample type, Date (mm/dd/yyyy), Time (hh:mm), Laboratory identification number.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Site identification information and sampling specifics relating to quality assurance data. Laboratory ID, Laboratory assigned identification number, first two letters represent medium analyzed, followed by laboratory sequence number. WS = water, SS = sediment (SB) and (or) anuran food (BP); TS = tissue</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_QA_Surrogates_2014to2016.txt</enttypl>\n <enttypd>Table 5. Percent recoveries of 13C-atrazine, 13C-fipronil, 13C-cis-permethrin, 13C-p,p\xef\xbf\xbd-DDE and d14-trifluralin added as recovery surrogates in the laboratory to each sample processed for current-use pesticides. 13C-atrazine and d10-trifluralin were added as recovery surrogates to all water samples, while 13C-Fipronil was added as a third recovery surrogate to water samples in 2016. 13C-cis-permethrin, 13C-p,p\xef\xbf\xbd-DDE and d10-trifluralin were added as recovery surrogates to sediment, food and tissue samples.</enttypd>\n <enttypds>U.S. Geological Survey.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_QA_Surrogates_2014to2016.txt; Column 1-2</attrlabl>\n <attrdef>Laboratory identification information corresponding to headings: Wetland name, Laboratory ID</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Wetland name and Laboratory Identification numbers. Refer to Pinelands_StationandLandUse_Characteristics_2014to2016 for station information. Laboratory ID, Laboratory assigned identification number, first two letters represent medium analyzed, followed by laboratory sequence number. WS = water, SS = sediment (SB) and (or) anuran food (BP); TS = tissue; NA, not available. Matrix spike, replicate, or laboratory blank samples are listed where applicable.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_QA_Surrogates_2014to16.txt; Columns 3-7</attrlabl>\n <attrdef>Surrogate recoveries corresponding to headings: 13C-Atrazine (percent recovery), 13C-Fipronil (percent recovery), 13C-cis-permethrin (percent recovery), 13C-p,p'-DDE (percent recovery), and d14-Trifluralin (percent recovery).</attrdef>\n <attrdefs>Producer defined. Units are percent recovery. NA, not available.</attrdefs>\n <attrdomv>\n <udom>Refer to Pinelands_Water_2014to2016.txt, Pinelands_Sediment_2014to2016.txt, Pinelands_Tissue_2014to2016.txt, and Pinelands_Amphibian_Food_2014to2016.txt tables for concentration results.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_QA_MatrixSpikes_2014to2016.txt</enttypl>\n <enttypd>Table 6. Percent recoveries of all pesticides added to each matrix spike sample prior to extraction and analysis.</enttypd>\n <enttypds>U.S. Geological Survey; Values represent a percent recovery for each pesticide based on a known spike concentration. NA, not available</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_QA_MatrixSpikes_2014to16.txt; Column 1</attrlabl>\n <attrdef>Compound</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Names of pesticide and (or) pesticide degradates analyzed in water, sediment, anuran food and tissue samples.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_QA_MatrixSpikes_2014to16.txt; Columns 2-15.</attrlabl>\n <attrdef>Laboratory identification numbers (medium designation) (Wetland name), corresponding to headings: WS3327 (WS) (Arrowwood Xpond), WS4165 (WS) (Button Pond), SS2069 (SB) (Forge Xpond), SS2079 (SB) (Ashford Basin), SS2324 (SB) (Charles Basin), SS2327 (SB) (Jackson Basin), SS2495 (SB) (Windsor Basin), SS2498 (SB) (Charles Basin), SS2322 (BP) (Charles Basin), SS2329 (BP) (Jackson Basin), TS1788 (BA) (Salinas River fish), TS2010 (BA) (Salinas River fish), TS2021 (BA) (Salinas River fish), TS2239 (BA) (Windsor Basin)</attrdef>\n <attrdefs>Producer defined. Medium: WS, water; SB, sediment; BP, amphibian food; BA, tissue</attrdefs>\n <attrdomv>\n <udom>Matrix spike percent recovery results for listed laboratory identification numbers(Refer to following tables for site names referencing laboratory ids: Pinelands _Water_2014to2016.txt, Pinelands_Sediment_2014to2016.txt, Pinelands_Tissue_2014to2016.txt, and Pinelands_Amphibian_Food_2014to2016.txt)</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_Water_2014to2016.txt</enttypl>\n <enttypd>Table 7. Current-use pesticide concentrations (nanograms per liter) in water samples collected from natural ponds, excavated ponds, and stormwater basins throughout the Pinelands Area, New Jersey, 2014-16. Field water quality parameters and dissolved organic carbon concentrations (milligrams per liter) at each wetland are also reported. Values noted with an E are less than the method detection limit and are considered estimates.</enttypd>\n <enttypds>U.S. Geological Survey and New Jersey Pinelands Commission. Concentration data for pesticides and pesticide degradates analyzed in water at the U.S. Geological Survey Organic Chemistry Research Laboratory, in Sacramento, California (https://ca.water.usgs.gov/projects/PFRG/ResearchTeam.html). ID, identification number; XPond, excavated pond; nd, not detected above method detection limit; E, estimated. Method information available in Pinelands_Methods_2014to2016.txt.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_Water_2014to2016.txt; Site information columns 1-4</attrlabl>\n <attrdef>Station information corresponding to column headings: Station number, Wetland name, Laboratory ID, and Date sampled (mm/dd/yyyy)</attrdef>\n <attrdefs>U.S. Geological Survey National Water Information System (NWIS); http://dx.doi.org/10.5066/F7P55KJN. Laboratory ID, Wetland name and Date sampled are producer defined.</attrdefs>\n <attrdomv>\n <udom>USGS station identification number, location and sampling information available in Pinelands_StationandLandUse_Characteristics_2014to16.txt.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Water_2014to2016.txt; Columns 5-26.</attrlabl>\n <attrdef>Field measurements (units listed) and pesticide and pesticide degradate concentration data (in nanograms per liter, unless otherwise noted) corresponding to column headings: Dissolved oxygen (milligrams per liter), pH (standard units), Specific conductance (microseimens per centimeter), Temperature (degrees celsius), Turbidity (nephelometric turbidity units), Atrazine, Azoxystrobin, Bifenthrin, Boscalid, Carbaryl, Clomazone, Desulfinylfipronil, Desulfinylfipronil amide, Fenbuconazole, Fipronil, Fipronil sulfide, Fipronil sulfone, Metalaxyl, Metolachlor, Napropamide, Propiconazole, Triadimenol</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission.</attrdefs>\n <attrdomv>\n <udom>Concentration results, in units listed, for field parameters and pesticide and pesticide degradate compounds.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_Sediment_2014to2016.txt</enttypl>\n <enttypd>Table 8. Pesticide concentrations (micrograms per kilogram, dry weight) in bed-sediment samples collected from natural ponds, excavated ponds, and stormwater basins throughout the Pinelands Area, New Jersey, 2014-16. The mass extracted (grams) is also reported as well as the percent organic carbon. Values noted with an E are less than the method detection limit and are considered estimates.</enttypd>\n <enttypds>U.S. Geological Survey and New Jersey Pinelands Commission. Concentration data for pesticides and pesticide degradates analyzed in bed-sediment at the U.S. Geological Survey Organic Chemistry Research Laboratory, in Sacramento, California (https://ca.water.usgs.gov/projects/PFRG/ResearchTeam.html). ID, identification number; Xpond, excavated pond; nd, not detected above method detection limit; E, estimated; NA, not available. Method information available in Pinelands_Methods_2014to2016.txt.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_Sediment_2014to2016.txt; Columns 1-4.</attrlabl>\n <attrdef>Site information corresponding to headings: Station number, Wetland name, Laboratory ID, and Date sampled (mm/dd/yyyy).</attrdef>\n <attrdefs>U.S. Geological Survey National Water Information System (NWIS); http://dx.doi.org/10.5066/F7P55KJN. Laboratory ID, Wetland name and Date sampled are producer defined.</attrdefs>\n <attrdomv>\n <udom>Site and sample information.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Sediment_2014to2016.txt; Column 5.</attrlabl>\n <attrdef>Organic carbon</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.3</rdommin>\n <rdommax>41.2</rdommax>\n <attrunit>percent weight, dry weight</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Not available</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Sediment_2014to2016.txt; Columns 6-27</attrlabl>\n <attrdef>Detected pesticide concentrations corresponding to headings: 3,4-Dichloroaniline, Bifenthrin, Chlorpyrifos, Cyhalothrin (all isomers), Desulfinylfipronil amide, Diazinon, Dithiopyr, Fipronil, Fipronil sulfide, Fipronil sulfone, Metalaxyl, Methoprene, Metolachlor, Oxadiazon, p,p'-DDD, p,p'-DDE, p,p'-DDT, Pebulate, Pendimethalin, Prodiamine, Propiconazole, Triticonazole</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Concentration data of detected pesticide and pesticide degradate compounds. Units are micrograms per kilogram, dry weight. nd, not detected; E, estimated.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_Anuran_Food_2014to2016.txt</enttypl>\n <enttypd>Table 9. Pesticide concentrations (micrograms per kilogram, dry weight) in anuran food samples collected from natural ponds, excavated ponds, and stormwater basins throughout the Pinelands Area, New Jersey, 2014-16. The mass extracted (grams) is also reported. Values denoted with an E, are less than the method detection limit and are considered estimates.</enttypd>\n <enttypds>U.S. Geological Survey and New Jersey Pinelands Commission. Concentration data for pesticides and pesticide degradates analyzed in anuran food at the U.S. Geological Survey Organic Chemistry Research Laboratory, in Sacramento, California (https://ca.water.usgs.gov/projects/PFRG/ResearchTeam.html).</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_Anuran_Food_2014to2016.txt; Station information corresponding to columns 1-4.</attrlabl>\n <attrdef>Station information corresponding to headings: Station number, Wetland name, Laboratory ID, Date sampled (mm/dd/yyyy).</attrdef>\n <attrdefs>U.S. Geological Survey National Water Information System (NWIS); http://dx.doi.org/10.5066/F7P55KJN. Laboratory ID, Wetland name and Date sampled are producer defined.</attrdefs>\n <attrdomv>\n <udom>Producer defined. Location and sample information available in Pinelands_StationandLandUse_Characteristics_2014to16.txt.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Anuran_Food_2014to2016.txt; Column 5</attrlabl>\n <attrdef>Mass (grams)</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.45</rdommin>\n <rdommax>10.8</rdommax>\n <attrunit>grams</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Anuran_Food_2014to2016.txt; Columns 6-28</attrlabl>\n <attrdef>Pesticide and pesticide degradate concentrations corresponding to column headings: 3,4-dichloroaniline, Azoxystrobin, Bifenthrin, Chlorpyrifos, Cyhalothrin, Diazinon, Dithiopyr, Fipronil, Fipronil Desulfinyl, Fipronil Sulfide, Fipronil Sulfone, Metalaxyl, Methoprene, Metolachlor, Oxydiazon, p,p'-DDD, p,p'-DDE, p,p'-DDT, Pendimethalin, Permethrin, Prodiamine, Propiconazole, Triticonazole</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission.</attrdefs>\n <attrdomv>\n <udom>nd, not detected above method detection limit. Method information available in Pinelands_Methods_2014to2016.txt.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_Tissue_2014to2016.txt</enttypl>\n <enttypd>Table 10. Pesticide concentrations (micrograms per kilogram, wet weight) in composite-larval-anuran tissue samples collected from natural ponds, excavated ponds, and stormwater basins throughout the Pinelands Area, New Jersey, 2014-16. The mass of each composite extracted (grams) and the percent lipid of each composite is also reported.</enttypd>\n <enttypds>U.S. Geological Survey and New Jersey Pinelands Commission. Concentration data for pesticides and pesticide degradates analyzed in tissue at the U.S. Geological Survey Organic Chemistry Research Laboratory, in Sacramento, California (https://ca.water.usgs.gov/projects/PFRG/ResearchTeam.html). ID, identification number; Xpond, excavated pond; nd, not detected above method detection limit; E, estimated value. Method information available in Pinelands_Methods_2014to16.txt.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_Tissue_2014to2016.txt; Columns 1-4.</attrlabl>\n <attrdef>Station information corresponding to column headings: Station number, Wetland name; Laboratory ID, Date sampled (mm/dd/yyyy)</attrdef>\n <attrdefs>Laboratory ID, Wetland name and Date sampled are producer defined.</attrdefs>\n <attrdomv>\n <udom>Producer defined. Location and sample information available in Pinelands_StationandLandUse_Characteristics_2014to16.txt.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Tissue_2014to2016.txt; Column 5.</attrlabl>\n <attrdef>Biota IDS</attrdef>\n <attrdefs>Pesticide Fate Research Laboratory, Sacramento, California</attrdefs>\n <attrdomv>\n <udom>List of identification numbers created by laboratory, user can determine number of collected species used in a composite sample for analyses.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Tissue_2014to2016.txt; Column 6-7.</attrlabl>\n <attrdef>Tissue sample information corresponding to headings: Species name, Common name. When identified by sampling team, the name of the species collected for use in composite sample for analyses. Refer to Taxonomy section for further information.</attrdef>\n <attrdefs>Integrated Taxonomic Information System (ITIS).</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>ITIS Classification</codesetn>\n <codesets>https://www.itis.gov/</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Tissue_2014to2016.txt; Column 8.</attrlabl>\n <attrdef>Mass (grams); wet weight, in grams of composite samples.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.38</rdommin>\n <rdommax>21.87</rdommax>\n <attrunit>grams</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Tissue_2014to2016.txt; Column 9</attrlabl>\n <attrdef>Tissue lipid content (percent)</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.4</rdommin>\n <rdommax>3.83</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_Tissue_2014to2016.txt; Columns 10-19</attrlabl>\n <attrdef>Pesticide and pesticide degradate concentrations in tissue-quality samples corresponding to headings: Bifentrhin, Dithiopyr, Fipronil sulfone, Oxydiazon, p,p'-DDD, p,p'-DDE, p,p'-DDT, Pendimethalin, Pentachloroanisole, Trifluralin</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission.</attrdefs>\n <attrdomv>\n <udom>For compound and method information, refer to Pesticide_Methods_2014to16.txt. XPond, excavated pond; ID, identification number.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_BdResults_2014to2016.txt</enttypl>\n <enttypd>Table 11. Mean Batrachochytrium dendrobatidis (Bd) zoospore abundance (zoospore equivalents/swab) observed on the 10 individual larval amphibians swabs collected from natural ponds, excavate ponds, and stormwater basins throughout the Pinelands Area, New Jersey, 2014-16. Swabs in which Bd was observed above the detection limit are noted as positive for Bd.</enttypd>\n <enttypds>U.S. Geological Survey and New Jersey Pinelands Commission. Samples analyzed at the U.S. Geological Survey, Reston Molecular and Environmental Microbiology Laboratory, Reston, Virginia.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_BdResults_2014to2016.txt; columns 1-3.</attrlabl>\n <attrdef>Site information corresponding to headings: Field ID; Wetland name; Year sampled (yyyy).</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Site and sampling information. Refer to table Pinelands_StationandLandUse_Characteristics_2014to2016.txt for site and sampling information. Field ID, provided by laboratory.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_BdResults_2014to2015.txt; column 4</attrlabl>\n <attrdef>Species</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission.</attrdefs>\n <attrdomv>\n <udom>Refer to Pinelands_TissueSampleInformation_2014to2016.txt for sample and species information.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_BdResults_2014to2016.txt; column 5</attrlabl>\n <attrdef>Bd (Zoospore equivalents/swab); Average number of Bd zoospores on the swab. Swabs are analyzed in triplicate and an average is calculated.</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission</attrdefs>\n <attrdomv>\n <edom>\n <edomv>nd</edomv>\n <edomvd>not detected</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>BDL</edomv>\n <edomvd>Below detection limit (measured quantitation cycle (Cq) value is above that of the Non Template Control (NTC))</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>11.6</rdommin>\n <rdommax>17351</rdommax>\n <attrunit>Zoospore equivalents/swab</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>*</edomv>\n <edomvd>Compromised sample, result not reported.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_BdResults_2014to2016.txt; column 6</attrlabl>\n <attrdef>Standard deviation (Zoospore equivalents/swab); Standard deviation of results from Column 5.</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <edom>\n <edomv>-</edomv>\n <edomvd>not applicable</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>2.9</rdommin>\n <rdommax>1850</rdommax>\n <attrunit>Zoospore equivalents/swab</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>*</edomv>\n <edomvd>Compromised sample, result not reported.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_BdResults_2014to2016.txt; column 7</attrlabl>\n <attrdef>Bd detection; Batrachochytrium dendrobatidis (Bd) zoospore detections</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Pos</edomv>\n <edomvd>Bd detected on swab</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Neg</edomv>\n <edomvd>Bd not detected on swab if the copies per equivalent in the DNA extract of the swab is greater than 10</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>*</edomv>\n <edomvd>Compromised sample, result not reported.</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Pinelands_RanavirusResults_2014to2016.txt</enttypl>\n <enttypd>Table 12. Detection and prevalence of Ranavirus in larval anurans collected from natural ponds, excavated ponds, and stormwater basins throughout the Pinelands Area, New Jersey, 2014-16. The species with positive detections are also noted as well as the individual larvae from each site.</enttypd>\n <enttypds>U.S. Geological Survey and New Jersey Pinelands Commission. Samples analyzed at Montclair State University, Montclair, New Jersey. Method information can be found in Mao, J., R. P. Hedrick and V. G. Chinchar, 1997. Molecular characterization, sequence analysis and taxonomic position of newly isolated fish iridoviruses. Virology 229:212, 220.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Pinelands_RanavirusResults_2014to2016.txt; columns 1-2.</attrlabl>\n <attrdef>Site information corresponding to headings: Wetland name; Year sampled (yyyy).</attrdef>\n <attrdefs>Producer defined.</attrdefs>\n <attrdomv>\n <udom>Site and sampling information. Refer to table Pinelands_StationandLandUse_Characteristics_2014to2016.txt for site and sampling information. XPond, excavated pond</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_RanavirusResults_2014to2016.txt; columns 3-4.</attrlabl>\n <attrdef>Count of Ranavirus detection results corresponding to headings: Number of positives; Number of negatives.</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>Number of positives: 0; Number of negatives: 15.</rdommin>\n <rdommax>Number of positives: 18; Number of negatives: 60.</rdommax>\n <attrunit>The number of individual larvae that tested positive (column 3) or negative (column 4) for ranavirus.</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_RanavirusResults_2014to2016.txt; column 5.</attrlabl>\n <attrdef>Number of false positives; the number of false positives associated with each pond (larvae that tested positive but was really negative).</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>24</rdommax>\n <attrunit>Count</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_RanavirusResult_2014to2016.txt; column 6.</attrlabl>\n <attrdef>Final pond result; Notation of whether the pond was considered positive or negative for ranavirus based on the results of the analysis.</attrdef>\n <attrdefs>U.S. Geological Survey</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Neg</edomv>\n <edomvd>Negative for Ranavirus</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Pos</edomv>\n <edomvd>Positive for Ranavirus</edomvd>\n <edomvds>Producer defined.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_RanavirusResults_2014to2016.txt; column 7.</attrlabl>\n <attrdef>Prevalence (percent); The percent infected with ranavirus in the pond (# of positive detections/total number of individuals sampled).</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>42.9</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pinelands_RanavirusResults_2014to2016.txt; columns 8-9.</attrlabl>\n <attrdef>Sample and species information corresponding to headings: Individuals that tested positive; Species tested positive.</attrdef>\n <attrdefs>U.S. Geological Survey and New Jersey Pinelands Commission. Individual species number provided by laboratory.</attrdefs>\n <attrdomv>\n <udom>[--, no samples tested positive for ranavirus. Unique field ID associated with the individual larvae that tested positive for ranavirus (column 8). The species where positive results were observed. Latin name with common name in parentheses (column 9).]</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. This report contains CAS Registry Numbers, which is a Registered Trademark of the American Chemical Society. CAS recommends the verification of the CASRNs through CAS Client ServicesSM.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>tab-delimited text</formname>\n <transize>0.038</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://www.sciencebase.gov/catalog/file/get/5a68d627e4b06e28e9c72248</networkr>\n <networkr>https://doi.org/10.5066/F71G0K6G</networkr>\n </networka>\n </computer>\n <accinstr>The first link will begin a direct download of the data. The second link is a landing page for the entire project.</accinstr>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n <techpreq>It is recommended that the data files be imported into spreadsheets as text (.txt) files, and all columns, designated 'text'.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200825</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Kristin M. Romanok</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>3450 Princeton Pike</address>\n <city>Lawrenceville</city>\n <state>New Jersey</state>\n <postal>08648</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>609-771-3952</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>" |
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1. [Water-Quality Data from the Yukon River Basin in Alaska and Canada](/catalog/item/573f3b8de4b04a3a6a24ae28)
2. [Data Quality Assurance Field Blanks](/catalog/folder/577d8a11e4b0ef4d2f43b494)
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## Dates
Publication Date2016Start Date2014
## Citation
Herman-Mercer, N.M., 2016, Water-Quality Data from the Yukon River Basin in Alaska and Canada: U.S. Geological Survey data release, http://dx.doi.org/10.5066/F77D2S7B.
## Summary
This dataset contains data collected from field blanks. Field blanks are deionized water processed in the field by community technicians using processing methods identical to those for surface water samples. Field blanks are then analyzed in the laboratory following procedures identical to those for surface water samples.
## Summary
This dataset contains data collected from field blanks. Field blanks are deionized water processed in the field by community technicians using processing methods identical to those for surface water samples. Field blanks are then analyzed in the laboratory following procedures identical to those for surface water samples.
## Contacts
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[Nicole M Herman-Mercer](/catalog/catalogParty/show?partyId=12445)
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[Nicole M Herman-Mercer](/catalog/catalogParty/show?partyId=12445)
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[Nicole M Herman-Mercer](/catalog/catalogParty/show?partyId=12445)
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[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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## Purpose
Data were obtained in order to identify any sample contamination that may take place in the field and potentially bias surface water sample data.
## Communities
- Alaska CASC
- National and Regional Climate Adaptation Science Centers
- The Indigenous Observation Network: Collaborative, Community Monitoring
## Tags
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## Provenance
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Nicole Herman-Mercer</origin>\n <pubdate>2016</pubdate>\n <title>Water Quality Data from the Yukon River Basin in Alaska and Canada Data Quality Assurance Field Blanks</title>\n <geoform>CSV files</geoform>\n <pubinfo>\n <pubplace>Denver, CO</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.5066/F77D2S7B</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset contains data collected from field blanks. Field blanks are deionized water processed in the field by community technicians using processing methods identical to those for surface water samples. Field blanks are then analyzed in the laboratory following procedures identical to those for surface water samples.</abstract>\n <purpose>Data were obtained in order to identify any sample contamination that may take place in the field and potentially bias surface water sample data.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2014</begdate>\n <enddate>present</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>In work</progress>\n <update>Annually</update>\n </status>\n <keywords>\n <theme>\n <themekt>USGS Thesarus</themekt>\n <themekey>Water Quality</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:577d8a11e4b0ef4d2f43b494</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Yukon River Basin in Alaska, USA and Canada</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Nicole Herman-Mercer</cntper>\n <cntorg>USGS</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 53, Mail Stop 418</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-236-5031</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Surface water samples were collected throughout the Yukon River Basin in Alaska and Canada by community technicians and Yukon River Inter-Tribal Watershed Council staff. Data is available for samples collected from 2009-2014 and analyzed shortly after collection.</procdesc>\n <procdate>20151001</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Data Quality Assurance - Field Blanks 2014</enttypl>\n <enttypd>This dataset contains information on field blanks used to asses the quality of surface water samples.</enttypd>\n <enttypds>Community technicians from the Yukon River Basin and Laboratory managers at the USGS National Research Program, Central Branch</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>Unique sample identification number assigned to each sample as it enters the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>sequential numbers</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Site ID</attrlabl>\n <attrdef>Sample location identification; The first two alpha characters are the first two letters of the river, stream, or lake being sampled. The next three alphas are the FAA airport codes for the nearest airport. The 6th numeric is usually a "1" designated as the first official sample site location. If this location were to change in the future a "2" would be designated, and so forth. The 7th alpha indicates if the sample location is above, "a", or below, "b", the airport or community.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>alpha numeric characters</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The data a surface water sample was collected</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>MM/DD/YYYY</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Chloride</attrlabl>\n <attrdef>Chloride concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-equivalents per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sulfate</attrlabl>\n <attrdef>Sulfate concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-equivalents per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Nitrate</attrlabl>\n <attrdef>Nitrate concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-equivalents per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ammonium</attrlabl>\n <attrdef>Ammonium concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-equivalents per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Calcium</attrlabl>\n <attrdef>Calcium concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-equivalents per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Magnesium</attrlabl>\n <attrdef>Magnesium concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-equivalents per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sodium</attrlabl>\n <attrdef>Sodium concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-equivalents per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Potassium</attrlabl>\n <attrdef>Potassium concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-equivalents per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Alkalinity</attrlabl>\n <attrdef>The alkalinity of a surface water sample measured in the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>micro-equivalents per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Laboratory pH</attrlabl>\n <attrdef>The pH of a surface water sample measured in the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Standard units</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>pH field</attrlabl>\n <attrdef>the pH of a surface water sample measured in the field. An entry of NA indicates that no field measurement was made.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>standard units</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Laboratory specific conductance</attrlabl>\n <attrdef>The specific conductance of a surface water sample measured in the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>micro-Siemens per centimeter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Aluminum</attrlabl>\n <attrdef>Aluminum concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-grams per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Barium</attrlabl>\n <attrdef>Barium concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-grams per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Iron</attrlabl>\n <attrdef>Iron concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-grams per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Manganese</attrlabl>\n <attrdef>Manganese concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-grams per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Silica</attrlabl>\n <attrdef>Silica concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in milligrams per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Strontium</attrlabl>\n <attrdef>Strontium concentration in surface water sample as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "<" followed by a number indicates that the measured concentration is less than the instrument detection limit, which is represented by the number following the symbol. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Concentration in micro-grams per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ultra Violet Absorbance</attrlabl>\n <attrdef>Ultra Violet Absorbance in surface water samples as measured in the laboratory. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "E" following the data indicates that the value is estimated.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>254 nanometers</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Average Dissolved Organic Carbon</attrlabl>\n <attrdef>Dissolved organic carbon in surface water samples as measured in the laboratory and averaged between duplicate samples. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "E" following the data indicates that the value is estimated</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>milligrams per liter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Specific Ultra Violet Absorbance</attrlabl>\n <attrdef>Specific ultra violet absorbance, calculated. An entry of "NA" indicates that a sample was not received for this analysis and there is no data to report. An entry of "E" following the data indicates that the value is estimated.</</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>[L/(mg carbon * m)]</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - Sciencebase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-///-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>This database, identified as "Water Quality from the Yukon River Basin in Alaska and Canada Field Measurements and Laboratory Analysis" , has been approved for release by the U.S. Geological Survey (USGS). Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the database is released on condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from its authorized or unauthorized use.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200831</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Nicole M. Herman-Mercer</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, MS 418</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-236-5031</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [USGS Denver Mesozoic Catalog for 14595 fossil localities from the Rocky Mountain Region (1933-2017)](/catalog/folder/5a85f259e4b00f54eb36d398)
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## Dates
Publication Date2018-04-09Start Date1933End Date2017
## Citation
McKinney, K.C., and Cobban, W.A., 2018, USGS Denver Mesozoic Catalog for 14595 fossil localities from the Rocky Mountain Region (1933-2017): U.S. Geological Survey data release, https://doi.org/10.5066/F7057F62.
## Summary
Collection consist of Western Interior Upper Cretaceous ammonites and Inoceramids featuring stratigraphic and spatial data. Data is primarily type fossils from the USGS Denver Mesozoic Invertebrate Catalog created and maintained by U.S. Geological Survey (USGS). Data was collected by paleontologist William A. Cobban during his sixty years of service within the USGS Paleontology And Stratigraphy Branch and Geologic Mapping Team. His catalogs were converted into digital form, Excel and Filemaker Pro database. The Catalog is 14595 fossil localities. His supplementary data has been added whenever possible - sources field map locality points, E&R files with enhanced faunal lists, as well as formal publications. For the complete traditional \[...\]
## Summary
Collection consist of Western Interior Upper Cretaceous ammonites and Inoceramids featuring stratigraphic and spatial data. Data is primarily type fossils from the USGS Denver Mesozoic Invertebrate Catalog created and maintained by U.S. Geological Survey (USGS). Data was collected by paleontologist William A. Cobban during his sixty years of service within the USGS Paleontology And Stratigraphy Branch and Geologic Mapping Team. His catalogs were converted into digital form, Excel and Filemaker Pro database. The Catalog is 14595 fossil localities. His supplementary data has been added whenever possible - sources field map locality points, E&R files with enhanced faunal lists, as well as formal publications.
For the complete traditional dataset, please contact [Kevin Mckinney](http://[email protected]) ([email protected]) and/or [Kathy Hollis](http://[email protected]) ([email protected])
## Contacts
Point of Contact
:
[Kevin C McKinney](/catalog/catalogParty/show?partyId=6784),
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
Originator
:
[Kevin C McKinney](/catalog/catalogParty/show?partyId=6784),
[William A Cobban](/catalog/catalogParty/show?partyId=28383)
Metadata Contact
:
[Ricardo McClees-Funinan](/catalog/catalogParty/show?partyId=6676),
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
SDC Data Owner
:
[Core Research Center](/catalog/catalogParty/show?partyId=17172)
USGS Mission Area
:
[Core Science Systems](/catalog/catalogParty/show?partyId=Core+Science+Systems)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5a85f259e4b00f54eb36d398?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5a85f259e4b00f54eb36d398?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5a85f259e4b00f54eb36d398?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
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| Cobban\_Final\_3.14.18.xml<br>“Metadata”<br>_Original FGDC Metadata_ | View | 25.91 KB | application/fgdc+xml |
| CobFinalVer3.xls<br>“Data” | | 11.92 MB | application/vnd.ms-excel |
| Bill\_Cobban\_1940\_LittleRockyMtns\_MT\_Field.jpg<br>“William Cobban” | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5a85f259e4b00f54eb36d398?f=__disk__fd%2F53%2Ffc%2Ffd53fcacea1afc9ab77ab1bb3996e4b9470724d4&width=75&height=113) | 250.56 KB | image/jpeg |
| | | |
| --- | --- | --- |
| CobFinalShape/CobFinal.sbx | | 1.97 KB |
| CobFinalShape/CobFinal.cpg | | 5 Bytes |
| CobFinalShape/CobFinal.sbn | | 130.5 KB |
| CobFinalShape/CobFinal.prj | | 167 Bytes |
| CobFinalShape/CobFinal.shx | | 114.12 KB |
| CobFinalShape/CobFinal.shp | | 399.18 KB |
| CobFinalShape/CobFinal.dbf | | 156.9 MB |
Shapefile:
CobFinalShape/CobFinal.zip
## Purpose
The dataset provides the foundation for regional sequence stratigraphy. This collection is an important contributor to the USGS geologic mapping, as well for demarkation of stratigraphic locations of energy resources.
## Preview Image
![William Cobban](https://www.sciencebase.gov/catalog/file/get/5a85f259e4b00f54eb36d398?f=__disk__fd%2F53%2Ffc%2Ffd53fcacea1afc9ab77ab1bb3996e4b9470724d4&width=290&height=435)
William Cobban
## [Map](/catalog/item/imap/5a85f259e4b00f54eb36d398)
[![Map Preview](https://www.sciencebase.gov/catalog/file/get/5a85f259e4b00f54eb36d398?f=__disk__90%2Fbe%2Fc8%2F90bec838d7b25b988412dfb70d0c191a0ba4c513)](/catalog/item/imap/5a85f259e4b00f54eb36d398)
## Spatial Services
ScienceBase WMS
ScienceBase WFS
## Communities
- USGS Data Release Products
- USGS National Paleontological Database
## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
Theme
- [Campanian](/catalog/items?q=&filter=tags%3DCampanian "Campanian (Campanian, Theme, USGS Thesaurus)")
- [Cenomanian](/catalog/items?q=&filter=tags%3DCenomanian "Cenomanian (Cenomanian, Theme, USGS Thesaurus)")
- [Coniacian](/catalog/items?q=&filter=tags%3DConiacian "Coniacian (Coniacian, Theme, USGS Thesaurus)")
- [Cretaceous](/catalog/items?q=&filter=tags%3DCretaceous "Cretaceous (Cretaceous, Theme, USGS Thesaurus)")
- [Maastrichtian](/catalog/items?q=&filter=tags%3DMaastrichtian "Maastrichtian (Maastrichtian, Theme, USGS Thesaurus)")
- [Mesozoic](/catalog/items?q=&filter=tags%3DMesozoic "Mesozoic (Mesozoic, Theme, USGS Thesaurus)")
- [Santonian](/catalog/items?q=&filter=tags%3DSantonian "Santonian (Santonian, Theme, USGS Thesaurus)")
- [Turonian](/catalog/items?q=&filter=tags%3DTuronian "Turonian (Turonian, Theme, USGS Thesaurus)")
- [biota](/catalog/items?q=&filter=tags%3Dbiota "biota (biota, Theme, ISO 19115 Topic Category)")
- [fossils](/catalog/items?q=&filter=tags%3Dfossils "fossils (fossils, Theme, USGS Thesaurus)")
Place
- [United States](/catalog/items?q=&filter=tags%3DUnited+States "United States (United States, Place, None)")
- [Western Interior](/catalog/items?q=&filter=tags%3DWestern+Interior "Western Interior (Western Interior, Place, None)")
USGS Scientific Topic Keyword
- [Energy Resources](/catalog/items?q=&filter=tags%3DEnergy+Resources "Energy Resources (Energy Resources, USGS Scientific Topic Keyword, )")
- [Information Sciences](/catalog/items?q=&filter=tags%3DInformation+Sciences "Information Sciences (Information Sciences, USGS Scientific Topic Keyword, )")
- [Land Use Change](/catalog/items?q=&filter=tags%3DLand+Use+Change "Land Use Change (Land Use Change, USGS Scientific Topic Keyword, )")
Types
- [Downloadable](/catalog/items?q=&filter=browseType%3DDownloadable "Downloadable")
- [Map Service](/catalog/items?q=&filter=browseType%3DMap+Service "Map Service")
- [OGC WFS Layer](/catalog/items?q=&filter=browseType%3DOGC+WFS+Layer "OGC WFS Layer")
- [OGC WMS Layer](/catalog/items?q=&filter=browseType%3DOGC+WMS+Layer "OGC WMS Layer")
- [Shapefile](/catalog/items?q=&filter=browseType%3DShapefile "Shapefile")
## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F7057F62 |
### Shapefile Extension
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| dateUploaded | Tue Aug 28 13:42:02 MDT 2018 |
| name | CobFinalShape/CobFinal.cpg |
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| name | CobFinalShape/CobFinal.sbn |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Kevin McKinney</origin>\n <origin>William A. Cobban</origin>\n <pubdate>2018</pubdate>\n <title>USGS Denver Mesozoic Catalog for 14595 fossil localities from the Rocky Mountain Region (1933-2017)</title>\n <geoform>vector digital data</geoform>\n <onlink>https://doi.org/10.5066/F7057F62</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Collection consist of Western Interior Upper Cretaceous ammonites and Inoceramids featuring stratigraphic and spatial data. Data is primarily type fossils from the USGS Denver Mesozoic Invertebrate Catalog created and maintained by U.S. Geological Survey (USGS). Data was collected by paleontologist William A. Cobban during his sixty years of service within the USGS Paleontology And Stratigraphy Branch and Geologic Mapping Team. His catalogs were converted into digital form, Excel and Filemaker Pro database. The Catalog is 14595 fossil localities. His supplementary data has been added whenever possible - sources field map locality points, E&R files with enhanced faunal lists, as well as formal publications</abstract>\n <purpose>The dataset provides the foundation for regional sequence stratigraphy. This collection is an important contributor to the USGS geologic mapping, as well for demarcation of stratigraphic locations of energy resources.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>1933</begdate>\n <enddate>2017</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>In work</progress>\n <update>As needed</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-155.7000</westbc>\n <eastbc>-67.6000</eastbc>\n <northbc>70.8000</northbc>\n <southbc>28.8000</southbc>\n </bounding>\n <descgeog>North America</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Cretaceous</themekey>\n <themekey>Campanian</themekey>\n <themekey>Maastrichtian</themekey>\n <themekey>Mesozoic</themekey>\n <themekey>Coniacian</themekey>\n <themekey>Santonian</themekey>\n <themekey>Turonian</themekey>\n <themekey>Cenomanian</themekey>\n <themekey>fossils</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5a85f259e4b00f54eb36d398</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Western Interior</placekey>\n <placekey>United States</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>The data contained in the database have not been reviewed for publication and, therefore, may contain inconsistencies or errors. Taxonomic names represent the time in which they were collected and may not represent the most up-to-date usage. Spatial data has been truncated to protect land management resources. Truncated data follows standards set by the Smithsonian Institution. Please contact data owner if detailed locality information is needed.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Kevin McKinney</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 975, W 6th Ave Kipling St</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>303.236.7561</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <native>Filemaker Pro, OpenRefine, Excel, and R Studio</native>\n <crossref>\n <citeinfo>\n <origin>William A. Cobban</origin>\n <origin>Ireneusz Walaszczyk</origin>\n <origin>John D. Obradovich</origin>\n <origin>Kevin C. McKinney</origin>\n <pubdate>2006</pubdate>\n <title>A USGS Zonal Table for the Upper Cretaceous Middle Cenomanian--Maastrichtian of the Western Interior of the United States Based on Ammonites, Inoceramids, and Radiometric Ages</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Open-File Report</sername>\n <issue>2006-1250</issue>\n </serinfo>\n <onlink>https://pubs.usgs.gov/of/2006/1250/</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Data was primarily the typed USGS Denver Mesozoic Invertebrate Catalog created and maintained by USGS Paleontologist William A. Cobban during his sixty years of service in the Paleontology And Stratigraphy Branch and the Geologic Mapping Team. His catalogs were converted into digital form (Excel and Filemaker Pro database). The Catalog is 15,000+ fossil localities. His supplementary data has been added whenever possible - sources field map locality points, E&R files with enhanced faunal lists, as well as formal publications. I have also added fauna lists from recent detailed inventory. Data conversions were projected and compared to original analog field map locality points.</attraccr>\n </attracc>\n <logic>Conversion from analog PLSS and text-based spatial data is a critical component of this electronic release. Thousands of locality points were created by projecting filed maps over USGS DRG map base. PLSS data were also converted using DRG maps. Tests were conducted for accuracy of conversion results by projecting localities on to several 7.5 min topography sheets and comparing results to original field map locality points. Outside testing was also conducted by an Air Force spatial data expert.The OFR-2006-1250 data was used to populate Age columns within each Stage and Substage and Millions of years ago of the Upper Cretaceous.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Analog data were created by Dr. William A. Cobban converted to digital data by Kevin C. McKinney. Spatial data in the original catalog were given in township/range section. Those were converted to decimal degree data to latitude and longitude.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>Entity point</sdtstype>\n <ptvctcnt>14595</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.0197042839</latres>\n <longres>0.0303161372</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>North_American_Datum_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>CobFinalVer2.shp Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature number.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Sequential unique whole numbers that are automatically generated.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Feature geometry.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Coordinates defining the features.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>LocNum</attrlabl>\n <attrdef>Number used to identify locality within the USGS Denver Mesozoic Catalog (numerical)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.0</rdommin>\n <rdommax>15246.0</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Suffix_Loc</attrlabl>\n <attrdef>Lithological subset of the locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Value represented by a letter</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collection</attrlabl>\n <attrdef>Unique identifier for the collection</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Cretaceous_Mollusks_Denver</edomv>\n <edomvd>Cretaceous aged mollusks from the Denver regional collection</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>FieldNum1</attrlabl>\n <attrdef>Alphanumeric assigned number</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Field collector alphanumeric assigned number. If cell is empty, no field number assigned.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>FieldNum2</attrlabl>\n <attrdef>Alphanumeric assigned number</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Field collector alphanumeric assigned number. If cell is empty, no field number assigned.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>FieldNum3</attrlabl>\n <attrdef>Alphanumeric assigned number</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Field collector alphanumeric assigned number. If cell is empty, no field number assigned.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>FieldNum4</attrlabl>\n <attrdef>Alphanumeric assigned number</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Field collector alphanumeric assigned number. If cell is empty, no field number assigned.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Country</attrlabl>\n <attrdef>Country</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>USA</edomv>\n <edomvd>USA Western Interior</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Mexico</edomv>\n <edomvd>Mexico</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Canada</edomv>\n <edomvd>Canada</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>State</attrlabl>\n <attrdef>State</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>States within the USA and Mexico, and provinces in Canada</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>County</attrlabl>\n <attrdef>County</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Counties and Parishes within the United States</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Era</attrlabl>\n <attrdef>Geological era</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Mesozoic</edomv>\n <edomvd>Geological era between the Paleozoic and Cenozoic</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Age_Period</attrlabl>\n <attrdef>Geological time unit longer than an epoch and division of an Era</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Cretaceous</edomv>\n <edomvd>Last period of the Mesozoic era</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Age_Stage</attrlabl>\n <attrdef>Epoch</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Subunits within the Cretaceous</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Age_Series</attrlabl>\n <attrdef>Subdivision of the stage</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Subunits within Stages</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Age_Date_M</attrlabl>\n <attrdef>Geological age given in Millions of years (MYA)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>66.0</rdommin>\n <rdommax>100.5</rdommax>\n <attrunit>Mya</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Formation</attrlabl>\n <attrdef>Geological Formation</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Geological Formations</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Member</attrlabl>\n <attrdef>Geological Member</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Geological Members</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lithology</attrlabl>\n <attrdef>Lithology notes</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Characteristics defining a formation</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Index_Foss</attrlabl>\n <attrdef>Fossil that is useful for dating and correlating the strata in which it is found</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Guide fossils recorded throughout the Western Interior</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collector1</attrlabl>\n <attrdef>Name of collector that established the locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Collectors names</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collector2</attrlabl>\n <attrdef>Name of collector that established the locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Collectors names</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collector3</attrlabl>\n <attrdef>Name of collector that established the locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Collectors names</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collector4</attrlabl>\n <attrdef>Name of collector that established the locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Collectors names</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collector5</attrlabl>\n <attrdef>Name of collector that established the locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Collectors names</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collector6</attrlabl>\n <attrdef>Name of collector that established the locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Collectors names</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Collector7</attrlabl>\n <attrdef>Name of collector that established the locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Collectors names</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>EandR1</attrlabl>\n <attrdef>Examine and Internal reports created for illuminating species names, significance of particular specimens and often include additional lithologic information</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Combination of numbers and letters. \n\nFormat always followed\nUSGS Branch initials - Year was written - Sequential number assigned within the year/Regional initials</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>EandR2</attrlabl>\n <attrdef>Examine and Internal reports created for illuminating species names, significance of particular specimens and often include additional lithologic information</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Combination of numbers and letters. \n\nFormat always followed\nUSGS Branch initials - Year was written - Sequential number assigned within the year/Regional initials</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>EandR3</attrlabl>\n <attrdef>Examine and Internal reports created for illuminating species names, significance of particular specimens and often include additional lithologic information</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Combination of numbers and letters. \n\nFormat always followed\nUSGS Branch initials - Year was written - Sequential number assigned within the year/Regional initials</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Map1</attrlabl>\n <attrdef>USGS map used by the collector.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Name of USGS map used. This may be 250k, 125k, 15 min, 7.5 min maps</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Map2</attrlabl>\n <attrdef>USGS map used by the collector.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Name of USGS map used. This may be 250k, 125k, 15 min, 7.5 min maps</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Map3</attrlabl>\n <attrdef>USGS map used by the collector.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Name of USGS map used. This may be 250k, 125k, 15 min, 7.5 min maps</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Map4</attrlabl>\n <attrdef>USGS map used by the collector.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Name of USGS map used. This may be 250k, 125k, 15 min, 7.5 min maps</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Datum</attrlabl>\n <attrdef>Datum used for locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NAD83/WGS84</edomv>\n <edomvd>The World Geodetic System 1984 (WGS84) and North American Datum of 1983 (NAD83)</edomvd>\n <edomvds>http://www.naref.org/transf/nad83_hydroscan2006.pdf</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reference1</attrlabl>\n <attrdef>Publication referenced for a given locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Peer Reviewed Journal Article</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reference2</attrlabl>\n <attrdef>Publication referenced for a given locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Peer Reviewed Journal Article</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reference3</attrlabl>\n <attrdef>Publication referenced for a given locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Peer Reviewed Journal Article</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reference4</attrlabl>\n <attrdef>Publication referenced for a given locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Peer Reviewed Journal Article</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reference5</attrlabl>\n <attrdef>Publication referenced for a given locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Peer Reviewed Journal Article</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reference6</attrlabl>\n <attrdef>Publication referenced for a given locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Peer Reviewed Journal Article</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reference7</attrlabl>\n <attrdef>Publication referenced for a given locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Peer Reviewed Journal Article</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Reference8</attrlabl>\n <attrdef>Publication referenced for a given locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Peer Reviewed Journal Article</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Notes and observations of uniqueness made by a curator, or even a conflict noted in documented spatial data</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Notes and observations of uniqueness made by a curator, or even a conflict noted in documented spatial data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Compiled_F</attrlabl>\n <attrdef>Species identified within a locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>List of species names</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Orig_Resum</attrlabl>\n <attrdef>Cobbans identification of most stratigraphically significant fossil from that locality</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>List of species names</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date1</attrlabl>\n <attrdef>Date locality established</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Calendar date</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>Latitude decimal degree conversion of the spatial Locality data</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>28.8</rdommin>\n <rdommax>70.8</rdommax>\n <attrunit>Decimal degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Long</attrlabl>\n <attrdef>Longitude decimal degree conversion of the spatial Locality data</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-155.7</rdommin>\n <rdommax>-67.6</rdommax>\n <attrunit>Decimal degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/F7057F62</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200818</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Ricardo McClees-Funinan</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>physical</addrtype>\n <address>12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>703.648.4349</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [Pacific Island Ecosystems Research Center](/catalog/item/53e2b035e4b0fe532be3bfcf)
3. [PIERC Public Data Releases](/catalog/item/65c633dad34ef4b119cb2808)
4. [Hakalau Forest National Wildlife Refuge Vegetation Map 2016](/catalog/item/598cf704e4b09fa1cb12625c)
5. [Accuracy assessment plots for the full map area for the vegetation map of the Hakalau Forest National Wildlife Refuge Hakalau Forest Unit and adjacent lands, island of Hawaii, 2016](/catalog/folder/600726ddd34e162231fb1996)
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## Dates
Publication Date2021-01-22Start Date2010End Date2014
## Citation
Jacobi, J.D., 2021, Hakalau Forest National Wildlife Refuge Vegetation Map 2016: U.S. Geological Survey data release, https://doi.org/10.5066/F7JM28KG.
## Summary
This data layer identifies location and boundaries for 100 randomly located plots used to assess the accuracy of a vegetation map of the Hakalau Forest National Wildlife Refuge Hakalau Forest Unit and adjacent lands.
## Summary
This data layer identifies location and boundaries for 100 randomly located plots used to assess the accuracy of a vegetation map of the Hakalau Forest National Wildlife Refuge Hakalau Forest Unit and adjacent lands.
## Contacts
Point of Contact
:
[James D Jacobi](/catalog/catalogParty/show?partyId=65848)
Originator
:
[James D Jacobi](/catalog/catalogParty/show?partyId=65848)
Metadata Contact
:
[James D Jacobi](/catalog/catalogParty/show?partyId=65848)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
USGS Mission Area
:
[Ecosystems](/catalog/catalogParty/show?partyId=Ecosystems)
SDC Data Owner
:
[Pacific Island Ecosystems Research Center](/catalog/catalogParty/show?partyId=17406)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
## Attached Files - sorting - [Metadata First](/catalog/item/get/600726ddd34e162231fb1996?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/600726ddd34e162231fb1996?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/600726ddd34e162231fb1996?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
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| Hakalau\_Vegetation\_Map\_2016\_Accuracy\_Assessment\_Plots\_Full\_Map\_Area\_FGDC.xml<br>_Original FGDC Metadata_ | View | 13.13 KB | application/fgdc+xml |
| Hakalau\_Vegetation\_Map\_2016\_Accuracy\_Assessment\_Plots\_Full\_Map\_Area.zip<br>“Zipped shapefile” | | 40.08 KB | application/zip |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Full technical report published by Hawaii Cooperative Studies Unit (PDF format) | [http://dspace.lib.hawaii.edu/handle/10790/3300](http://dspace.lib.hawaii.edu/handle/10790/3300 "http://dspace.lib.hawaii.edu/handle/10790/3300") |
## Purpose
This vegetation map was produced to serve as an updated habitat base for management of natural resources of the Hakalau Forest Unit (HFU) of the Hakalau Forest National Wildlife Refuge on the island of Hawai‘i. The map is based on a vegetation map originally produced as part of the U.S. Fish and Wildlife Service’s Hawai‘i Forest Bird Survey to depict the distribution, structure, and composition of plant communities on the island of Hawai‘i as they existed in 1977. The current map has been updated to represent current conditions of plant communities in the HFU, based on WorldView 2 imagery taken in 2012 and very high-resolution imagery collected by Pictometry International in 2010 to 2014. The accuracy assessment plots were use to evaluate the accuracy of the resulting vegetation map.
## [Map](/catalog/item/imap/600726ddd34e162231fb1996)
[![](https://basemap.nationalmap.gov/ArcGIS/rest/services/USGSTopo/MapServer/export?size=360%2C220&bbox=-1.730592037485194E7%2C2242176.357314564%2C-1.7268090978346486E7%2C2265294.3218451585&f=image&format=png24&transparent=true)![](https://www.sciencebase.gov/catalogMaps/mapping/ows/600726ddd34e162231fb1996?service=wms&layers=footprint&format=image/png&height=220&width=360&request=getmap&transparent=true&srs=EPSG:900913&styles=&version=1.1.1&bbox=-1.730592037485194E7,2242176.357314564,-1.7268090978346486E7,2265294.3218451585)](/catalog/item/imap/600726ddd34e162231fb1996)
## Communities
- Pacific Island Ecosystems Research Center
## Tags
Theme
- [accuracy assessment](/catalog/items?q=&filter=tags%3Daccuracy+assessment "accuracy assessment (accuracy assessment, Theme, None)")
- [vegetation](/catalog/items?q=&filter=tags%3Dvegetation "vegetation (vegetation, Theme, USGS Thesaurus)")
- [vegetation map](/catalog/items?q=&filter=tags%3Dvegetation+map "vegetation map (vegetation map, Theme, None)")
Place
- [Hakalau Forest National Wildlife Refuge](/catalog/items?q=&filter=tags%3DHakalau+Forest+National+Wildlife+Refuge "Hakalau Forest National Wildlife Refuge (Hakalau Forest National Wildlife Refuge, Place, None)")
- [Hawaii](/catalog/items?q=&filter=tags%3DHawaii "Hawaii (Hawaii, Place, Common geographic areas)")
## Provenance
Data sourceInput directly
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>James D. Jacobi</origin>\n <pubdate>20210122</pubdate>\n <title>Accuracy assessment plots for the full map area for the vegetation map of the Hakalau Forest National Wildlife Refuge Hakalau Forest Unit and adjacent lands, island of Hawaii, 2016</title>\n <geoform>Vector Digital Data Set (Polygon)</geoform>\n <onlink>https://doi.org/10.5066/F7JM28KG</onlink>\n <lworkcit>\n <citeinfo>\n <origin>James D. Jacobi</origin>\n <pubdate>20170815</pubdate>\n <title>Vegetation Map for the Hakalau Forest Unit of the Hakalau Forest National Wildlife Refuge on the island of Hawaii</title>\n <geoform>Publication (Other)</geoform>\n <serinfo>\n <sername>Hawaii Cooperative Studies Unit Technical Report Series</sername>\n <issue>HCSU-084</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Hilo, HI</pubplace>\n <publish>University of Hawaii at Hilo</publish>\n </pubinfo>\n <onlink>http://dspace.lib.hawaii.edu/handle/10790/3300</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data layer identifies location and boundaries for 100 randomly located plots used to assess the accuracy of a vegetation map of the Hakalau Forest National Wildlife Refuge Hakalau Forest Unit and adjacent lands,</abstract>\n <purpose>This vegetation map was produced to serve as an updated habitat base for management of natural resources of the Hakalau Forest Unit (HFU) of the Hakalau Forest National Wildlife Refuge on the island of Hawai\xe2\x80\x98i. The map is based on a vegetation map originally produced as part of the U.S. Fish and Wildlife Service\xe2\x80\x99s Hawai\xe2\x80\x98i Forest Bird Survey to depict the distribution, structure, and composition of plant communities on the island of Hawai\xe2\x80\x98i as they existed in 1977. The current map has been updated to represent current conditions of plant communities in the HFU, based on WorldView 2 imagery taken in 2012 and very high-resolution imagery collected by Pictometry International in 2010 to 2014. The accuracy assessment plots were use to evaluate the accuracy of the resulting vegetation map.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2010</begdate>\n <enddate>2014</enddate>\n </rngdates>\n </timeinfo>\n <current>observed</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-155.386564713</westbc>\n <eastbc>-155.197063606</eastbc>\n <northbc>19.925804378</northbc>\n <southbc>19.748214188</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>vegetation</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>vegetation map</themekey>\n <themekey>accuracy assessment</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:600726ddd34e162231fb1996</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Hawaii</placekey>\n </place>\n <place>\n <placekt>None</placekt>\n <placekey>Hakalau Forest National Wildlife Refuge</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>None. Users are advised to read the data set's metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, PACIFIC REGION</cntorg>\n <cntper>James D Jacobi</cntper>\n </cntorgp>\n <cntpos>Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Bldg 344 Chain of Craters Rd.</address>\n <city>Hawaii National Park</city>\n <state>HI</state>\n <postal>96718</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>808-985-6411</cntvoice>\n <cntfax>808-967-8568</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>U.S. Fish and Wildlife Service</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.5 (Build 6491) Service Pack N/A (Build N/A)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>These plots were used to conduct and accuracy assessment of the vegetation map produced for the plant communities in the full map area within and adjacent to the Hakalau Forest Unit of the Hakalau Forest National Wildlife Refuge.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>A set of 100 points was generated within the full map area of the vegetation map for the Hakalau Forest National Wildlife Refuge on the island of Hawaii using the Create Random Points tool in ArcMap 10.3. A 25-m radius polygon was then drawn around each point using the Buffer tool in ArcMap 10.3 to define the boundary of the reference \xe2\x80\x9cfield\xe2\x80\x9d sample plots.</procdesc>\n <procdate>20160601</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>G-polygon</sdtstype>\n <ptvctcnt>100</ptvctcnt>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>5</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-153.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.6096</absres>\n <ordres>0.6096</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D_North_American_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>FID</attrlabl>\n <attrdef>Internal feature identifier</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>99</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape</attrlabl>\n <attrdef>Internal feature identifier for feature class type</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <udom>Polygon = polygon feature class</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BUFF_DIST</attrlabl>\n <attrdef>This is a 25 m buffer polygon around each of the 100 random accuracy assessment points for the full map area of the Hakalau Forest National Wildlife Refuge vegetation map.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>25</rdommin>\n <rdommax>25</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>X_Coordina</attrlabl>\n <attrdef>GPS easting coordinate for each of the 100 random accuracy assessment points for the full map area of the Hakalau Forest National Wildlife Refuge vegetation map. (UTM Z5Q projection; NAD83 datum)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>250201.4574</rdommin>\n <rdommax>269747.0473</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y_Coordina</attrlabl>\n <attrdef>GPS northing coordinate for each of the 100 random accuracy assessment points for the full map area of the Hakalau Forest National Wildlife Refuge vegetation map. (UTM Z5Q projection; NAD83 datum)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2185400.8952</rdommin>\n <rdommax>2204752.3832</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape_Leng</attrlabl>\n <attrdef>Length of accuracy assessment plot boundary in meters.</attrdef>\n <attrdefs>Esri</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>157.07963267949</rdommin>\n <rdommax>157.07963267949</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Shape_Area</attrlabl>\n <attrdef>Area of the accuracy assessment plot in square meters.</attrdef>\n <attrdefs>Esri</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1963.49540849362</rdommin>\n <rdommax>1963.49540849362</rdommax>\n <attrunit>square meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>This data layer identifies the location and size of 100 random plots used to assess the accuracy of a vegetation map of the full map area of the Hakalau Forest National Wildlife Refuge Hakalau Forest Unit and adjacent lands, island of Hawaii.</eaover>\n <eadetcit>This vegetation map was produced to serve as an updated habitat base for management of natural resources of the Hakalau Forest Unit (HFU) of the Hakalau Forest National Wildlife Refuge on the island of Hawai\xe2\x80\x98i. The map is based on a vegetation map originally produced as part of the U.S. Fish and Wildlife Service\xe2\x80\x99s Hawai\xe2\x80\x98i Forest Bird Survey to depict the distribution, structure, and composition of plant communities on the island of Hawai\xe2\x80\x98i as they existed in 1977. The current map has been updated to represent current conditions of plant communities in the HFU, based on WorldView 2 imagery taken in 2012 and very high-resolution imagery collected by Pictometry International in 2010 to 2014.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Distributor assumes no liability for misuse of data.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/F7JM28KG</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>none</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20210122</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>James D Jacobi</cntper>\n <cntorg>U.S. Geological Survey, PACIFIC REGION</cntorg>\n </cntperp>\n <cntpos>Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Bldg 344 Chain of Craters Rd.</address>\n <city>Hawaii National Park</city>\n <state>HI</state>\n <postal>96718</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>808-985-6411</cntvoice>\n <cntfax>808-967-8568</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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4. [Telemetry and reproductive data for Lake Trout in Yellowstone Lake, 2011-2016](/catalog/item/5d657308e4b0c4f70ceeb147)
5. [Telemetry detection data for Lake Trout in Yellowstone Lake, 2011-2015](/catalog/folder/5d66e98ae4b0c4f70cf0c9cd)
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## Dates
Publication Date2019-09-03Start Date2011-08-26End Date2015-08-31
## Citation
Gresswell, R.E., Heredia, N.A., and Sandstrom, P.T., 2019, Telemetry and reproductive data for Lake Trout in Yellowstone Lake, 2011-2016: U.S. Geological Survey data release, https://doi.org/10.5066/P95LNXU7.
## Summary
We initiated a project in 2011 to identify lake-wide movement patterns and spawning areas of invasive lake trout in Yellowstone Lake, WY. We implanted acoustic transmitters in lake trout and established a network of stationary telemetry receivers in Yellowstone Lake. Lake Trout tagged with acoustic transmitters (Vemco V - series) were tracked with stationary acoustic receivers (Vemco VR2W - 69 kHz) from 2011 to 2015. The number of active receivers ranged from 17 - 65 as short term goals of the project changed. Coordinates for each detection represent the location of the receiver reading the transmitter. Additionally, detection ranges can vary from apporximately 500 - 1200 meters (but see Vemco.com for more details). In total, the dataset \[...\]
## Summary
We initiated a project in 2011 to identify lake-wide movement patterns and spawning areas of invasive lake trout in Yellowstone Lake, WY. We implanted acoustic transmitters in lake trout and established a network of stationary telemetry receivers in Yellowstone Lake. Lake Trout tagged with acoustic transmitters (Vemco V - series) were tracked with stationary acoustic receivers (Vemco VR2W - 69 kHz) from 2011 to 2015. The number of active receivers ranged from 17 - 65 as short term goals of the project changed. Coordinates for each detection represent the location of the receiver reading the transmitter. Additionally, detection ranges can vary from apporximately 500 - 1200 meters (but see Vemco.com for more details). In total, the dataset consists of more than 24 million detections from 470 Lake Trout and 21 Yellowstone Cutthroat Trout that were tagged over the course of the study. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.
## Contacts
Point of Contact
:
[Bob Gresswell](/catalog/catalogParty/show?partyId=Bob+Gresswell)
Process Contact
:
[Bob Gresswell](/catalog/catalogParty/show?partyId=Bob+Gresswell)
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:
[Bob Gresswell](/catalog/catalogParty/show?partyId=3933),
[Nicholas A. Heredia](/catalog/catalogParty/show?partyId=Nicholas+A.+Heredia),
[Philip T. Sandstrom](/catalog/catalogParty/show?partyId=Philip+T.+Sandstrom),
[Jason G. Romine](/catalog/catalogParty/show?partyId=Jason+G.+Romine),
[Lee F. G. Gutowsky](/catalog/catalogParty/show?partyId=Lee+F.+G.+Gutowsky),
[Patricia E. Bigelow](/catalog/catalogParty/show?partyId=Patricia+E.+Bigelow),
[Michael J. Parsley](/catalog/catalogParty/show?partyId=Michael+J.+Parsley),
[Brian D. Ertel](/catalog/catalogParty/show?partyId=Brian+D.+Ertel),
[Cory D. Suski](/catalog/catalogParty/show?partyId=Cory+D.+Suski)
Metadata Contact
:
[Bob Gresswell](/catalog/catalogParty/show?partyId=Bob+Gresswell)
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[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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:
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| Yellowstone Lake Telemetry Lake Trout Detections 2011-2015.xml<br>_Original FGDC Metadata_ | View | 18.87 KB | application/fgdc+xml |
| Yellowstone Lake Telemetry Lake Trout Detections 2011-2015.csv | | 1.96 GB | text/csv |
## Related External Resources
Type: Web Link
| | |
| --- | --- |
| Northern Rocky Mountain Science Center | [https://www.usgs.gov/centers/norock](https://www.usgs.gov/centers/norock "https://www.usgs.gov/centers/norock") |
## Purpose
These data were used to track Lake Trout movement in Yellowstone Lake, WY, with the intention of identifying fall spawning locations.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Robert E. Gresswell</origin>\n <origin>Nicholas A. Heredia</origin>\n <origin>Philip T. Sandstrom</origin>\n <origin>Jason G. Romine</origin>\n <origin>Lee F. G. Gutowsky</origin>\n <origin>Patricia E. Bigelow</origin>\n <origin>Michael J. Parsley</origin>\n <origin>Brian D. Ertel</origin>\n <origin>Cory D. Suski</origin>\n <pubdate>20190903</pubdate>\n <title>Yellowstone Lake Telemetry Lake Trout Detections 2011-2015</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P95LNXU7</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>We initiated a project in 2011 to identify lake-wide movement patterns and spawning areas of invasive lake trout in Yellowstone Lake, WY. We implanted acoustic transmitters in lake trout and established a network of stationary telemetry receivers in Yellowstone Lake. Lake Trout tagged with acoustic transmitters (Vemco V - series) were tracked with stationary acoustic receivers (Vemco VR2W - 69 kHz) from 2011 to 2015. The number of active receivers ranged from 17 - 65 as short term goals of the project changed. Coordinates for each detection represent the location of the receiver reading the transmitter. Additionally, detection ranges can vary from apporximately 500 - 1200 meters (but see Vemco.com for more details). In total, the dataset consists of more than 24 million detections from 470 Lake Trout and 21 Yellowstone Cutthroat Trout that were tagged over the course of the study. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</abstract>\n <purpose>These data were used to track Lake Trout movement in Yellowstone Lake, WY, with the intention of identifying fall spawning locations.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20110826</begdate>\n <enddate>20150831</enddate>\n </rngdates>\n </timeinfo>\n <current>observed</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-110.58013916015626</westbc>\n <eastbc>-110.20385742187501</eastbc>\n <northbc>44.56699093657141</northbc>\n <southbc>44.27273816279087</southbc>\n </bounding>\n <descgeog>Yellowstone Lake, Yellowstone National Park, WY</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>ecology</themekey>\n <themekey>fish</themekey>\n <themekey>life sciences</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5d66e98ae4b0c4f70cf0c9cd</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Yellowstone National Park</placekey>\n </place>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Wyoming</placekey>\n </place>\n </keywords>\n <accconst>None. Please see \'Distribution Info\' for details.</accconst>\n <useconst>None. Users are advised to read the data set\'s metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Bob Gresswell</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2327 University Way</address>\n <city>Bozeman</city>\n <state>MT</state>\n <postal>59715</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>406-994-7085</cntvoice>\n <cntfax>406-994-6416</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>fishes</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2019</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <taxonpro>expert knowledge, keys and key characteristics</taxonpro>\n </taxonsys>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Actinopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Teleostei</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Protacanthopterygii</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Salmoniformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Salmonidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Salmoninae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Oncorhynchus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Oncorhynchus clarkii</taxonrv>\n <taxoncl>\n <taxonrn>Subspecies</taxonrn>\n <taxonrv>Oncorhynchus clarkii bouvieri</taxonrv>\n <common>TSN: 553416</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Salvelinus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Salvelinus namaycush</taxonrv>\n <common>TSN: 162002</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Transmitters were surgically implanted into the body cavity of the lake trout by experienced biologists. We only tagged lake trout longer than 405 mm (18 in.). All transmitters (Vemco V-series tags) are coded to emit a unique identification signal; some also have depth and temperature sensors. Stationary receivers (Vemco VR2W - 69 kHz) with an average detection radius of about 500 - 1200 m were attached to an anchored rope, with a float located at the surface visible to boaters. Field work generally began soon after ice-off (late May-early June) with the retrieval of receivers deployed overwinter. Data were offloaded during this preiod and receiver batteries were changed. After winter data retrieval, receivers were redeployed in a general positioning array that remained in the lake until the beginning of the spawning season in late August. After each data retrieval, detection data was processed through Vemoco\'s \'Flase Detection Analyzer\' and suspect detections were removed. The resulting data was added to previous data collections to create one dataset. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</procdesc>\n <procdate>20151115</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Bob Gresswell</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2327 University Way</address>\n <city>Bozeman</city>\n <state>MT</state>\n <postal>59715</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>406-994-7085</cntvoice>\n <cntfax>406-994-6416</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>12</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-111.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>unknown</absres>\n <ordres>unknown</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North American Datum of 1983 (NAD 83)</horizdn>\n <ellips>NAD_1983</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Yellowstone Lake Telemetry Trout Detections 2011-2015.csv</enttypl>\n <enttypd>Comma Separate Value (CSV) file</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Unnamed: 0</attrlabl>\n <attrdef>Data count (number of rows)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>24336572</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Receiver</attrlabl>\n <attrdef>Unique ID (Vemco serial number) associated with each acoustic receiver.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>"VR2W" represents the Vemco Receiver Series, the remaining 6 digits are a unique identifier.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TagID.num</attrlabl>\n <attrdef>Unique acoustic transmitter ID.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Some transmitters have two consecutive ID numbers (one even, one odd), one for the temperature reading and one for the depth reading. The two tagID\'s are paired together for each fish in the "FishID" column. The assignement of ID\'s can be parsed by the first two or three digits and are distingushed as fallows: 12xxx even numbers = Temperature 12xxx odd numbers = Depth 14xxx even numbers = Depth 14xxx odd numbers = Temperature 154xx even numbers = Temperature 154xx odd numbers = Depth 155xx even numbers = Temperature 155xx odd numbers = Depth 153xx even numbers = Depth 153xx odd numbers = Temperature 31xxx, 32xxx, 56xxx = single ID (no tempurature or depth) 6xxxx represent sync tags that were not used in fish and not used for data analysis.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>temp</attrlabl>\n <attrdef>Temperature sensor reading at time of transmission .</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>No data collected</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>-4.3764</rdommin>\n <rdommax>17.8866</rdommax>\n <attrunit>degrees celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>depth</attrlabl>\n <attrdef>Depth sensor reading at time of transmission.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>No data collected</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <rdom>\n <rdommin>-3.897048</rdommin>\n <rdommax>110.3648</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>FishID</attrlabl>\n <attrdef>Unique Id for each fish tagged. Some trasnmitters were used more than once, so Fish ID should be used to distinguish between fish and not "TagID.num".</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Unique Id for each fish tagged. Some trasnmitters were used more than once, so Fish ID should be used to distinguish between fish and not "TagID.num".</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>easting</attrlabl>\n <attrdef>Easting for Universal Transverse Mercator (UTM) coordinate system Zone 12 North.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>534542</rdommin>\n <rdommax>562646</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>northing</attrlabl>\n <attrdef>Northing for Universal Transverse Mercator (UTM) coordinate system Zone 12 North.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4904476</rdommin>\n <rdommax>4931019</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date_Time</attrlabl>\n <attrdef>Date and time signature of transmission.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2011-08-26 09:27:24</rdommin>\n <rdommax>2015-08-12 13:39:54</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>Bob Gresswell</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2327 University Way</address>\n <city>Bozeman</city>\n <state>MT</state>\n <postal>59715</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>406-994-7085</cntvoice>\n <cntfax>406-994-6416</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P95LNXU7</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20201103</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Bob Gresswell</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>2327 University Way</address>\n <city>Bozeman</city>\n <state>MT</state>\n <postal>59715</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>406-994-7085</cntvoice>\n <cntfax>406-994-6416</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the CDGSM</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n <metuc>Record created using USGS Metadata Wizard tool. (https://github.com/usgs/fort-pymdwizard)</metuc>\n </metainfo>\n</metadata>' |
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4. [Texture-Based Estimated Equivalent Horizontal Hydraulic Conductivity of the Glacial Deposits](/catalog/folder/5878ce42e4b04df303d958c5)
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## Citation
Bayless, E.R., Arihood, L.D., and Sperl, B.J., 2017, Maps and grids of hydrogeologic information created from standardized water-well drillers’ records of the glaciated United States: U.S. Geological Survey data release, https://doi.org/10.5066/F7BR8QCZ.
## Summary
The glacial aquifer system of the United States encompasses all or parts of 25 states and is the most widely used supply of drinking water in the Nation (Maupin and Barber, 2005; Maupin and Arnold, 2010). A series of seven raster data sets were derived from a database of water-well drillers' records that was compiled in partial fulfillment of the goals of the U.S. Geological Survey’s Groundwater Availability and Use assessment program (U.S. Geological Survey, 2002). They contain hydrogeologic information for areas of the U.S. that are north of the southern limit of Pleistocene glaciation, including the total thickness of glacial deposits, thickness of coarse-grained sediment within the glacial deposits, specific-capacity based horizontal \[...\]
## Summary
The glacial aquifer system of the United States encompasses all or parts of 25 states and is the most widely used supply of drinking water in the Nation (Maupin and Barber, 2005; Maupin and Arnold, 2010). A series of seven raster data sets were derived from a database of water-well drillers' records that was compiled in partial fulfillment of the goals of the U.S. Geological Survey’s Groundwater Availability and Use assessment program (U.S. Geological Survey, 2002). They contain hydrogeologic information for areas of the U.S. that are north of the southern limit of Pleistocene glaciation, including the total thickness of glacial deposits, thickness of coarse-grained sediment within the glacial deposits, specific-capacity based horizontal hydraulic conductivity and transmissivity of coarse-grained sediment within the glacial deposits, texture-based estimated equivalent horizontal and vertical hydraulic conductivity of the glacial deposits, and texture-based estimated equivalent transmissivity of the glacial deposits. The raster data sets are available for download in both American Standard Code for Information Interchange (ASCII) and Environmental Systems Research Institute (ESRI) Grid formats. These data have value for regional studies of water availability and aquifer vulnerability.
References
Maupin, M.A., and Arnold, T.L., 2010, Estimates for self-supplied domestic withdrawals and population served for
selected principal aquifers, calendar year 2005: U.S. Geological Survey Open-File Report 2010-1223, 10 p.
http://pubs.usgs.gov/of/2010/1223/pdf/ofr20101223.pdf.
Maupin, M.A., and Barber, N.L., 2005, Estimated withdrawals from principal aquifers in the United States, 2000:
U.S. Geological Survey Circular 1279, 46 p. http://pubs.usgs.gov/circ/2005/1279/.
U.S. Geological Survey, 2002, Concepts for national assessment of water availability and use: U.S. Geological
Survey Circular 1223, 34 p.
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## Related External Resources
Type: Publication that references this resource
| | |
| --- | --- |
| Bayless, E.R., Arihood, L.D., Reeves, H.W., Sperl, B.J.S., Qi, S.L., Stipe, V.E., and Bunch, A.R., 2017, Maps and grids of hydrogeologic information created from standardized water-well drillers’ records of the glaciated United States: U.S. Geological Survey Scientific Investigations Report 2015–5105, 34 p., https://doi.org/10.3133/sir20155105. | [https://doi.org/10.3133/sir20155105](https://doi.org/10.3133/sir20155105 "https://doi.org/10.3133/sir20155105") |
| Supplementary Material for SIR2015-5105 | [https://mi.water.usgs.gov/projects/WaterSmart/Map-SIR2015-5105.html](https://mi.water.usgs.gov/projects/WaterSmart/Map-SIR2015-5105.html "https://mi.water.usgs.gov/projects/WaterSmart/Map-SIR2015-5105.html") |
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## Purpose
Grids of continuous hydrogeologic information, particularly hydraulic conductivity, might be used in examining aquifer vulnerability, surface-water low-flow characteristics, groundwater/surface-water interaction, and groundwater recharge. Coarse-grained sediment thickness and total thickness of glacial deposits might be used for estimating groundwater storage.
## [Map](/catalog/item/imap/5878ce42e4b04df303d958c5)
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## Communities
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## Tags
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- [Coarse](/catalog/items?q=&filter=tags%3DCoarse "Coarse (Coarse, Theme, None)")
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- [Sediment](/catalog/items?q=&filter=tags%3DSediment "Sediment (Sediment, Theme, None)")
- [Specific Capacity](/catalog/items?q=&filter=tags%3DSpecific+Capacity "Specific Capacity (Specific Capacity, Theme, None)")
- [Thickness](/catalog/items?q=&filter=tags%3DThickness "Thickness (Thickness, Theme, None)")
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- [Water Availability](/catalog/items?q=&filter=tags%3DWater+Availability "Water Availability (Water Availability, Theme, None)")
- [environment](/catalog/items?q=&filter=tags%3Denvironment "environment (environment, Theme, ISO 19115 Topic Category)")
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>U.S. Geological Survey</origin>\n <origin>Randall Bayless</origin>\n <origin>Leslie Arihood</origin>\n <origin>Benjamin Sperl</origin>\n <pubdate>2017</pubdate>\n <title>Texture-Based Estimated Equivalent Horizontal Hydraulic Conductivity of the Glacial Deposits</title>\n <geoform>raster digital data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7BR8QCZ</onlink>\n <lworkcit>\n <citeinfo>\n <origin>U.S. Geological Survey, Department of the Interior</origin>\n <origin>Randall Bayless</origin>\n <origin>Leslie Arihood</origin>\n <origin>Howard Reeves</origin>\n <origin>Benjamin Sperl</origin>\n <origin>Sharon Qi</origin>\n <origin>Valerie Stipe</origin>\n <origin>Aubrey Bunch</origin>\n <pubdate>2017</pubdate>\n <title>Maps and grids of hydrogeologic information created from standardized water-well drillers\xe2\x80\x99 records of the glaciated United States</title>\n <geoform>report</geoform>\n <serinfo>\n <sername>U.S. Geological Survey Scientific Investigations Report</sername>\n <issue>SIR 2015-5105</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/sir20155105</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The glacial aquifer system of the United States encompasses all or parts of 25 states and is the most widely used supply of drinking water in the Nation (Maupin and Barber, 2005; Maupin and Arnold, 2010). A series of seven raster data sets were derived from a database of water-well drillers' records that was compiled in partial fulfillment of the goals of the U.S. Geological Survey\xe2\x80\x99s Groundwater Availability and Use assessment program (U.S. Geological Survey, 2002). They contain hydrogeologic information for areas of the U.S. that are north of the southern limit of Pleistocene glaciation, including the total thickness of glacial deposits, thickness of coarse-grained sediment within the glacial deposits, specific-capacity based horizontal hydraulic conductivity and transmissivity of coarse-grained sediment within the glacial deposits, texture-based estimated equivalent horizontal and vertical hydraulic conductivity of the glacial deposits, and texture-based estimated equivalent transmissivity of the glacial deposits. The raster data sets are available for download in both American Standard Code for Information Interchange (ASCII) and Environmental Systems Research Institute (ESRI) Grid formats. These data have value for regional studies of water availability and aquifer vulnerability.</abstract>\n <purpose>Grids of continuous hydrogeologic information, particularly hydraulic conductivity, might be used in examining aquifer vulnerability, surface-water low-flow characteristics, groundwater/surface-water interaction, and groundwater recharge. Coarse-grained sediment thickness and total thickness of glacial deposits might be used for estimating groundwater storage.</purpose>\n <supplinf>This data set (5) is one in a series of seven that represent hydrogeologic information for \nareas of the United States that are north of the southern limit of Pleistocene glaciation:\n\n(1) Total Thickness of Glacial Deposits (sir155105_gt)\n(2) Thickness of Coarse-Grained Sediment within the Glacial Deposits (sir155105_sg)\n(3) Specific-Capacity Based Horizontal Hydraulic Conductivity of Coarse-Grained Sediment within the Glacial Deposits (sir155105_kr)\n(4) Specific-Capacity Based Transmissivity of Coarse-Grained Sediment within the Glacial Deposits (sir155105_tr)\n(5) Texture-Based Estimated Equivalent Horizontal Hydraulic Conductivity of the Glacial Deposits (sir155105_k)\n(6) Texture-Based Estimated Equivalent Vertical Hydraulic Conductivity of the Glacial Deposits (sir155105_kz)\n(7) Texture-Based Estimated Equivalent Transmissivity of the Glacial Deposits (sir155105_t)\n\nThe seven data sets listed above could not be generated for every state in the study area due to data limitations. \nRefer to U.S. Geological Survey Scientific Investigations Report 2015-5105 for information as to which data sets are \navailable for each state and a detailed explanation of the methods used to generate each data set.\n\nReferences\n\nBayless, E.R., Arihood, L.D., Reeves, H.W., Sperl, B.J.S., Qi, S.L., Stipe, V.E., and Bunch. A.R., 2017,\nMaps and grids of hydrogeologic information created from standardized water-well drillers\xe2\x80\x99 records of the glaciated\nUnited States: U.S. Geological Survey Scientific Investigations Report 2015\xe2\x80\x935105, 34 p.,\nhttps://doi.org/10.3133/sir20155105.\n\nArihood, L.D., 2009, Processing, analysis, and general evaluation of well-driller records for estimating\nhydrogeologic parameters of the glacial sediments in a ground-water flow model of the Lake Michigan Basin:\nU.S. Geological Survey Scientific Investigations Report 2008\xe2\x80\x935184, 26 p., accessed June 1, 2015 at URL\nhttp://pubs.usgs.gov/sir/2008/5184/.]\n\nIgnizio, D.A., O\xe2\x80\x99Donnell, M.S., and Talbert, C.B., 2014, Metadata Wizard\xe2\x88\x92An easy-to-use tool for creating\nFGDC-CSDGM metadata for geospatial datasets in ESRI ArcDesktop: U.S. Geological Survey Open-File Report,\n2014-1132, 14 p., http://dx.doi.org/10.3133/ofr20141132.\n\nMathey, S.B., ed., 1989, National water information system user\xe2\x80\x99s manual, v. 2, chap. 4., Ground-Water Site Inventory\nSystem: U.S. Geological Survey Open-File Report 89\xe2\x80\x93587, 281 p.\n\nMaupin, M.A., and Arnold, T.L., 2010, Estimates for self-supplied domestic withdrawals and population served for\nselected principal aquifers, calendar year 2005: U.S. Geological Survey Open-File Report 2010-1223, 10 p.\nhttp://pubs.usgs.gov/of/2010/1223/pdf/ofr20101223.pdf.\n\nMaupin, M.A., and Barber, N.L., 2005, Estimated withdrawals from principal aquifers in the United States, 2000:\nU.S. Geological Survey Circular 1279, 46 p. http://pubs.usgs.gov/circ/2005/1279/.\n\nOlcott, P.G., 1992, Ground Water Atlas of the United States, Iowa, Michigan, Minnesota, Wisconsin: U.S. Geological\nSurvey Hydrology Atlas 730-J, accessed May 12, 2015, at http://pubs.er.usgs.gov/publication/ha730J/.\n\nU.S. Geological Survey, 2002, Concepts for national assessment of water availability and use: U.S. Geological\nSurvey Circular 1223, 34 p.\n\nU.S. Geological Survey, 2007, Facing tomorrow\xe2\x80\x99s challenges\xe2\x80\x94U.S. Geological Survey science in the decade 2007\xe2\x80\x932017:\nU.S. Geological Survey Circular 1309, x + 70p.\n\nSchweitzer, P.N., 1995, MP: a compiler for formal metadata (ver. 2.9.16, October 2012): U.S. Geological Survey\ncomputer program, accessed August 15, 2014, at http://geology.usgs.gov/tools/metadata/.\n\nSoller, D.R., and Reheis, M.C., compilers, 2004, Surficial materials in the conterminous United States: U.S.\nGeological Survey Open-File Report 03\xe2\x80\x93275, scale 1:5,000,000, accessed March 17, 2015, at\nhttp://pubs.usgs.gov/of/2003/of03-275/.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2017</caldate>\n </sngdate>\n </timeinfo>\n <current>The water-well drillers' records compiled under this study represent static versions of State-managed databases which are continually updated as new well completion reports are submitted. The earliest and most recent completion dates noted in water-well drillers' records used by this study range between the years 1800-2015. Ranges of dates associated with individual states in the study area are provided in the 'Lineage' section of this metadata. Records added to State-managed databases after they were received by the U.S. Geological Survey during the time period of 2008 to 2015 are not included.</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None Planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-123.762038278</westbc>\n <eastbc>-67.03664314</eastbc>\n <northbc>50.902107494</northbc>\n <southbc>35.389561197</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>geoscientificInformation</themekey>\n <themekey>inlandWaters</themekey>\n <themekey>environment</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>Glacial</themekey>\n <themekey>Deposits</themekey>\n <themekey>Aquifer</themekey>\n <themekey>Coarse</themekey>\n <themekey>Sediment</themekey>\n <themekey>Sand</themekey>\n <themekey>Gravel</themekey>\n <themekey>Thickness</themekey>\n <themekey>Hydrogeology</themekey>\n <themekey>Hydraulic Conductivity</themekey>\n <themekey>Transmissivity</themekey>\n <themekey>Specific Capacity</themekey>\n <themekey>Water Availability</themekey>\n <themekey>Groundwater</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5878ce42e4b04df303d958c5</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Connecticut</placekey>\n <placekey>Idaho</placekey>\n <placekey>Illinois</placekey>\n <placekey>Indiana</placekey>\n <placekey>Iowa</placekey>\n <placekey>Kansas</placekey>\n <placekey>Massachusetts</placekey>\n <placekey>Michigan</placekey>\n <placekey>Minnesota</placekey>\n <placekey>Montana</placekey>\n <placekey>Nebraska</placekey>\n <placekey>New Hampshire</placekey>\n <placekey>New York</placekey>\n <placekey>North Dakota</placekey>\n <placekey>Ohio</placekey>\n <placekey>Pennsylvania</placekey>\n <placekey>Rhode Island</placekey>\n <placekey>South Dakota</placekey>\n <placekey>Vermont</placekey>\n <placekey>Wisconsin</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Information' section for details.</accconst>\n <useconst>The data provided in this raster data set are intended for interpretation at a regional scale (county-wide study areas or greater). Local discrepancies may occur for reasons noted in the 'Attribute Accuracy Report' section. Users are advised to read the metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>Randall Bayless</cntper>\n </cntorgp>\n <cntpos>Hydrologist (GW Spec)</cntpos>\n <cntaddr>\n <addrtype>mailing</addrtype>\n <address>5957 Lakeside Boulevard</address>\n <city>Indianapolis</city>\n <state>IN</state>\n <postal>46278-1996</postal>\n </cntaddr>\n <cntvoice>317-600-2747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Collaboration on behalf of the State agencies and academic institutions that shared or made publicly available their water-well drillers' records was integral to the success of this study. Agencies listed in the 'Lineage' section are acknowledged for their contributions.</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; ESRI ArcCatalog 10.1 (Build 3035) Service Pack 1 (Build 3143)</native>\n <crossref>\n <citeinfo>\n <origin>Randall Bayless</origin>\n <origin>Leslie Arihood</origin>\n <pubdate>2017</pubdate>\n <title>Total Thickness of Glacial Deposits</title>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7BR8QCZ</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Randall Bayless</origin>\n <origin>Leslie Arihood</origin>\n <pubdate>2017</pubdate>\n <title>Thickness of Coarse-Grained Sediment within the Glacial Deposits</title>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7BR8QCZ</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Randall Bayless</origin>\n <origin>Leslie Arihood</origin>\n <pubdate>2017</pubdate>\n <title>Specific-Capacity Based Horizontal Hydraulic Conductivity of Coarse-Grained Sediment within the Glacial Deposits</title>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7BR8QCZ</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Randall Bayless</origin>\n <origin>Leslie Arihood</origin>\n <pubdate>2017</pubdate>\n <title>Specific-Capacity Based Transmissivity of Coarse-Grained Sediment within the Glacial Deposits</title>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7BR8QCZ</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Randall Bayless</origin>\n <origin>Leslie Arihood</origin>\n <pubdate>2017</pubdate>\n <title>Texture-Based Estimated Equivalent Vertical Hydraulic Conductivity of the Glacial Deposits</title>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7BR8QCZ</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Randall Bayless</origin>\n <origin>Leslie Arihood</origin>\n <pubdate>2017</pubdate>\n <title>Texture-Based Estimated Equivalent Transmissivity of the Glacial Deposits</title>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7BR8QCZ</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Accuracy of cell values in the hydrogeologic data sets are subject to the quality of information documented in water-well drillers' records and the methods used to process data. Sources of error include misinterpretations and generalizations of geologic materials documented during well construction, misclassification of free-text lithology descriptions to Groundwater Site Inventory (GWSI) codes, assumptions that were made in the methodology to derive hydrogeologic information, and the density and spatial distribution of well records used to interpolate values at unsampled locations.</attraccr>\n </attracc>\n <logic>Quality assurance was performed on the standardized database to delete and/or modify water-well drillers' records having incomplete data or violations of logical consistency. See the 'Process Step' section for details.</logic>\n <complete>Water-well drillers' records added to State-managed databases after they were received by the U.S. Geological Survey during the time period of 2008 to 2015 are not included. Oil and gas well logs, and logs from other activities focused on mineral deposits, are another potential source of information, but were omitted because they generally do not provide detailed descriptions of unconsolidated lithologies or information from hydraulic testing. The degree of completeness with which fields in the standardized database are populated with values influences the spatial density and distribution of well records that are available for processing and thus, the quality of interpolated results. Data sets were only generated for states in the study area if required data elements were of sufficient completeness and spatial coverage to produce reliable results. Areas with very thin glacial deposits and areas with sparse well density were manually digitized and assigned null values where it was apparent that the attribute quality of interpolated values was degraded.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has not been conducted.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Connecticut Department of Consumer Protection</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Hartford, CT</pubplace>\n <publish>Connecticut Department of Consumer Protection</publish>\n </pubinfo>\n <onlink>http://www.ct.gov/dcp/site/default.asp</onlink>\n </citeinfo>\n </srccite>\n <typesrc>file transfer protocol</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1972 (earliest year of well completion in source data)</begdate>\n <enddate>2015 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>CT DCP</srccitea>\n <srccontr>the source provided scanned images (.tif) of water-well drillers' records in the state of Connecticut</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Idaho Department of Water Resources</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Boise, ID</pubplace>\n <publish>Idaho Department of Water Resources</publish>\n </pubinfo>\n <onlink>http://www.idwr.idaho.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1926 (earliest year of well completion in source data)</begdate>\n <enddate>2011 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>ID DWR</srccitea>\n <srccontr>the source provided a Microsoft\xc2\xae Excel spreadsheet (.xlsx) containing information from water-well drillers' records in the state of Idaho</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Illinois State Geological Survey</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Champaign, IL</pubplace>\n <publish>Illinois State Geological Survey</publish>\n </pubinfo>\n <onlink>http://isgs.illinois.edu/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1865 (earliest year of well completion in source data)</begdate>\n <enddate>2013 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>IL GS</srccitea>\n <srccontr>the source provided ASCII files (.txt) containing information from water-well drillers' records in the state of Illinois</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Indiana Department of Natural Resources, Division of Water</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Indianapolis, IN</pubplace>\n <publish>Indiana Department of Natural Resources</publish>\n </pubinfo>\n <onlink>http://www.in.gov/dnr/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>CD-ROM</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1900 (earliest year of well completion in source data)</begdate>\n <enddate>2000 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>IN DNR</srccitea>\n <srccontr>the source provided a Borland\xc2\xae Paradox database (.db) containing information from water-well drillers' records in the state of Indiana</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Iowa Department of Natural Resources</origin>\n <pubdate>unknown</pubdate>\n <title>Private Well Tracking System</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Des Moines, IA</pubplace>\n <publish>Iowa Department of Natural Resources</publish>\n </pubinfo>\n <onlink>http://www.iowadnr.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1846 (earliest year of well completion in source data)</begdate>\n <enddate>2015 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>IA DNR</srccitea>\n <srccontr>the source provided dBASE files (.dbf) and an ESRI\xc2\xae shapefile (.shp) containing information from water-well drillers' records in the state of Iowa</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Massachusetts Department of Environmental Protection</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Boston, MA</pubplace>\n <publish>Massachusetts Department of Environmental Protection</publish>\n </pubinfo>\n <onlink>http://www.mass.gov/eea/agencies/massdep/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1893 (earliest year of well completion in source data)</begdate>\n <enddate>2012 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>MA DEP</srccitea>\n <srccontr>the source provided a Microsoft\xc2\xae Access database (.accdb) containing information from water-well drillers' records in the state of Massachusetts</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Kansas Geological Survey</origin>\n <pubdate>unknown</pubdate>\n <title>Water Well Completion Records (WWC5) Database</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Lawrence, KS</pubplace>\n <publish>Kansas Geological Survey</publish>\n </pubinfo>\n <onlink>http://www.kgs.ku.edu/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1956 (earliest year of well completion in source data)</begdate>\n <enddate>2014 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>KS GS</srccitea>\n <srccontr>the source provided an ASCII file (.txt) containing information from water-well drillers' records in the state of Kansas</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Michigan Department of Environmental Quality</origin>\n <pubdate>unknown</pubdate>\n <title>Wellogic System</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Lansing, MI</pubplace>\n <publish>Michigan Department of Environmental Quality</publish>\n </pubinfo>\n <onlink>http://www.michigan.gov/deq</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1868 (earliest year of well completion in source data)</begdate>\n <enddate>2014 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>MI DEQ</srccitea>\n <srccontr>the source provided ASCII files (.txt) containing information from water-well drillers' records in the state of Michigan</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Minnesota Geological Survey</origin>\n <pubdate>unknown</pubdate>\n <title>County Well Index database</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>St. Paul, MN</pubplace>\n <publish>Minnesota Geological Survey</publish>\n </pubinfo>\n <onlink>http://www.mngs.umn.edu/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1875 (earliest year of well completion in source data)</begdate>\n <enddate>2014 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>MN GS</srccitea>\n <srccontr>the source provided ESRI\xc2\xae shapefiles (.shp) and a Microsoft\xc2\xae Access database (.accdb) containing information from water-well drillers' records in the state of Minnesota</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Montana Department of Natural Resources and Conservation</origin>\n <pubdate>unknown</pubdate>\n <title>Ground Water Information Center</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Helena, MT</pubplace>\n <publish>Montana Department of Natural Resources and Conservation</publish>\n </pubinfo>\n <onlink>http://www.dnrc.mt.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1808 (earliest year of well completion in source data)</begdate>\n <enddate>2015 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>MT DNRC</srccitea>\n <srccontr>the source provided ASCII files (.txt) containing information from water-well drillers' records in the state of Montana</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Nebraska Department of Natural Resources</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Lincoln, NE</pubplace>\n <publish>Nebraska Department of Natural Resources</publish>\n </pubinfo>\n <onlink>http://www.dnr.nebraska.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1900 (earliest year of well completion in source data)</begdate>\n <enddate>2011 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>NE DNR</srccitea>\n <srccontr>the source provided an Access database (.accdb) containing information from water-well drillers' records in the state of Nebraska</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>University of Nebraska, Lincoln</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Lincoln, NE</pubplace>\n <publish>University of Nebraska, Lincoln</publish>\n </pubinfo>\n <onlink>http://www.unl.edu/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1931 (earliest year of well completion in source data)</begdate>\n <enddate>2004 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>UNL</srccitea>\n <srccontr>the source provided an Access database (.accdb) containing information from water-well drillers' records in the state of Nebraska</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>New Hampshire Department of Environmental Services</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Concord, NH</pubplace>\n <publish>New Hampshire Department of Environmental Services</publish>\n </pubinfo>\n <onlink>http://des.nh.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1954 (earliest year of well completion in source data)</begdate>\n <enddate>2015 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>NH DES</srccitea>\n <srccontr>the source provided an ESRI\xc2\xae File Geodatabase (.gdb) containing information from water-well drillers' records in the state of New Hampshire</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>New York Department of Environmental Conservation</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Albany, NY</pubplace>\n <publish>New York Department of Environmental Conservation</publish>\n </pubinfo>\n <onlink>http://www.dec.ny.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1967 (earliest year of well completion in source data)</begdate>\n <enddate>2014 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>NY DEC</srccitea>\n <srccontr>the source provided Adobe\xc2\xae PDF files (.pdf) containing information from water-well drillers' records in the state of New York</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>North Dakota State Water Commission</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Bismarck, ND</pubplace>\n <publish>North Dakota State Water Commission</publish>\n </pubinfo>\n <onlink>http://www.swc.nd.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1900 (earliest year of well completion in source data)</begdate>\n <enddate>2011 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>ND SWC</srccitea>\n <srccontr>the source provided ASCII files (.txt) containing information from water-well drillers' records in the state of North Dakota</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Ohio Department of Natural Resources</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Columbus, OH</pubplace>\n <publish>Ohio Department of Natural Resources</publish>\n </pubinfo>\n <onlink>http://ohiodnr.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1900 (earliest year of well completion in source data)</begdate>\n <enddate>2011 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>OH DNR</srccitea>\n <srccontr>the source provided a Microsoft\xc2\xae Access (.accdb) database containing information from water-well drillers' records in the state of Ohio</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Pennsylvania Department of Conservation and Natural Resources</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Harrisburg, PA</pubplace>\n <publish>Pennsylvania Department of Conservation and Natural Resources</publish>\n </pubinfo>\n <onlink>http://www.dcnr.state.pa.us/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1900 (earliest year of well completion in source data)</begdate>\n <enddate>2015 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>PA DCNR</srccitea>\n <srccontr>the source provided a Microsoft\xc2\xae Access (.accdb) database containing information from water-well drillers' records in the state of Pennsylvania</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Rhode Island Department of Health, Office of Drinking Water Quality</origin>\n <pubdate>unknown</pubdate>\n <title>water well drillers' records (official title unknown)</title>\n <geoform>document</geoform>\n <pubinfo>\n <pubplace>Providence, RI</pubplace>\n <publish>Rhode Island Department of Health, Office of Drinking Water Quality</publish>\n </pubinfo>\n <onlink>http://health.ri.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>paper</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1972 (earliest year of well completion in source data)</begdate>\n <enddate>2014 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>RI DOH</srccitea>\n <srccontr>the source allowed access to hard copy versions of water-well drillers' records for the state of Rhode Island</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>South Dakota Department of Environment and Natural Resources</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Pierre, SD</pubplace>\n <publish>South Dakota Department of Environment and Natural Resources</publish>\n </pubinfo>\n <onlink>http://denr.sd.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1887 (earliest year of well completion in source data)</begdate>\n <enddate>2014 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>SD DENR</srccitea>\n <srccontr>the source provided ESRI\xc2\xae shapefiles (.shp) and a Microsoft\xc2\xae Access database (.accdb) containing information from water-well drillers' records in the state of South Dakota</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Vermont Department of Environmental Conservation</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Montpelier, VT</pubplace>\n <publish>Vermont Department of Environmental Conservation</publish>\n </pubinfo>\n <onlink>http://www.anr.state.vt.us/dec/dec.htm</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1924 (earliest year of well completion in source data)</begdate>\n <enddate>2008 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>VT DEC</srccitea>\n <srccontr>the source provided ESRI\xc2\xae shapefiles (.shp) containing information from water-well drillers' records in the state of Vermont</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Washington State Department of Ecology</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Olympia, WA</pubplace>\n <publish>Washington State Department of Ecology</publish>\n </pubinfo>\n <onlink>http://www.ecy.wa.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1936 (earliest year of well completion in source data)</begdate>\n <enddate>2014 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>WA DOE</srccitea>\n <srccontr>the source provided ASCII files (.txt) containing information from water-well drillers' records in the state of Washington</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Wisconsin Department of Natural Resources</origin>\n <pubdate>unknown</pubdate>\n <title>digital well database (official title unknown)</title>\n <geoform>tabular digital data</geoform>\n <pubinfo>\n <pubplace>Madison, WI</pubplace>\n <publish>Wisconsin Department of Natural Resources</publish>\n </pubinfo>\n <onlink>http://dnr.wi.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>electronic mail system</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>1889 (earliest year of well completion in source data)</begdate>\n <enddate>2009 (most recent year of well completion in source data)</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>most recent year of well completion in source data</srccurr>\n </srctime>\n <srccitea>WI DNR</srccitea>\n <srccontr>the source provided a Microsoft\xc2\xae Access database (.accdb) containing information from water-well drillers' records for the state of Wisconsin</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Sharon Mathey</origin>\n <pubdate>1989</pubdate>\n <title>National Water Information System User's Manual Volume 2, Chapter 4</title>\n <geoform>document</geoform>\n <serinfo>\n <sername>U.S. Geological Survey Open-File Report</sername>\n <issue>OFR 89-587</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.er.usgs.gov/publication/ofr89587</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>1989</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Mathey</srccitea>\n <srccontr>the source provided a list of standard Ground-Water Site-Inventory system lithology codes</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>David Soller</origin>\n <origin>Patricia Packard</origin>\n <pubdate>1998</pubdate>\n <title>Digital representation of a map showing the thickness and character of Quaternary sediments in the glaciated United States east of the Rocky Mountains</title>\n <geoform>map</geoform>\n <serinfo>\n <sername>U.S. Geological Digital Data Series</sername>\n <issue>DDS-38</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://pubs.er.usgs.gov/publication/ds38</onlink>\n </citeinfo>\n </srccite>\n <typesrc>online</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>1998</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Soller and Packard</srccitea>\n <srccontr>the source provided a map of the thickness of Quaternary sediments</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Compiling and reformatting source data\n\nWater-well drillers' records were compiled from sources listed in the 'Lineage' section and reformatted to adhere\nwith a logical database model. The model enforces uniformity in the names and domains of data elements and consists \nof two tables joined in a one-to-many relationship. The first table, named 'General', contains one record per water \nwell and a set of fields that describe general well-site information such as latitude/longitude coordinates, well \ndepth, casing and screen lengths, aquifer-test data, and groundwater levels. The second table, named 'Lithology', \nmay contain many records per well-site with fields denoting the top and bottom depths of lithology units and a \nfield for texture descriptions.\n\nConversion to GWSI lithologies\n\nWater-well drillers' records were processed using ESRI\xc2\xae ARC Macro Language (AML) programming to convert lithology \ndescriptions noted by well drillers into standard Ground-Water Site Inventory system (GWSI) lithology codes \n(Mathey, 1989). The program compares substrings (e.g., sand and gravel) found in original descriptions with lines \nin an interpretation file. Once converted to GWSI lithologies, lithology records were classified as being 'aquifer' \nor 'nonaquifer' material, which are interchangeable with the terms 'coarse-grained' and 'fine-grained,' respectively.\n\nInterpolation of hydrogeologic grids\n\nGrids of hydrogeologic information were derived for each state in the study area independent of one another during \nseparate processing sessions. Water-well drillers\xe2\x80\x99 records were not shared across state boundaries. Tabular data \nfrom the \xe2\x80\x98General\xe2\x80\x99 and \xe2\x80\x98Lithology\xe2\x80\x99 tables were exported from the standardized databases of each state as two files \nformatted in American Standard Code for Information Interchange (ASCII). The first file containing basic well-site \ninformation was converted to an ESRI\xc2\xae point coverage. The second file containing lithology information was converted \nto an ESRI\xc2\xae INFO table and joined with the point coverage of well-site information. The file that resulted from the \njoin was then processed by an AML program that 1) computed values of hydrogeologic information at well sites and 2) \ninterpolated continuous raster surfaces between well sites using the inverse distance weighted (IDW) method. A power \nparameter of 2 was used in the distance function that controls the influence of surrounding well data on values at \ninterpolated locations. A default setting for output cell size was adopted which divides the longest dimension \n(north-south or east-west) of the state being processed by a value of 400.\n\nExplanation of cell values (texture-based estimated equivalent horizontal hydraulic conductivity of the glacial deposits, feet per day)\n\nValues of texture-based equivalent estimated horizontal hydraulic conductivity were calculated at well sites as the\nweighted-arithmetic mean of the horizontal hydraulic conductivities of layered 'aquifer' and 'non-aquifer' material\nin the driller's log. Lithology units classified as 'aquifer' and 'non-aquifer' material were assumed to have \nhorizontal hydraulic conductivities of 100 feet per day (ft/d) and 1 ft/d, respectively. Weights were assigned on \nthe basis of the proportional thickness of lithology units. The computed values are representative of the entire \nthickness of glacial deposits penetrated by the well.\n\nMerging state grids\n\nThe grids generated for each state were resampled to a cell size of 800 square meters and combined into a single \nuniformly spaced grid using bilinear interpolation. Cell size for the grid was chosen on the basis of well density. \nWell density was often as high as 4 wells per square mile. If a square mile is divided evenly into four sub areas \n(each area represented by one well), then those areas would be 2,460 square feet, or about 804 square meters. \nRounding this cell size to 800 square meters yields a cell spacing of approximately one cell per 0.25 miles.\n\nQuality assurance\n\nHydrogeologic grids were only generated for states if required data elements were of sufficient completeness and \nspatial coverage to produce reliable results. A target well density of 0.3 wells per square mile, or 3 wells per 10 \nsquare miles, was used as a means to gauge whether the number of well records in an area was satisfactory. Prior to \nexecuting the IDW interpolation algorithm, processing was performed to delete and/or modify records that did not meet \nthe data processing requirements or were found to violate any of a series of logical consistency checks.\n\n- Well records lacking geographic coordinates were deleted.\n- Well records with coordinates beyond the glacial limit were deleted.\n- Well records where the upper elevation of a formation was higher than the base of the overlying formation \nwere deleted.\n- Well records containing bedrock formations positioned above glacial deposits were deleted.\n- Negative values of total glacial sediment thickness, calculated by subtracting bedrock elevation from the \nland-surface elevation, were assigned a value of one foot.\n- Land-surface elevations were compared with published maximum and minimum elevations for each state in the \nstudy area and records having elevations that exceed those extremes by 20 feet were deleted.\n- Well records having anomalous values of hydrogeologic information were deleted.\n\nTools used to prepare metadata\n\nThe Metadata Wizard version 1.2.4 was used to generate an initial version of this metadata from the input \ndata set and validation was performed using Metadata Parser (MP) version 2.9.16. Errors reported by MP were \nexamined and addressed. These tools were developed by Drew Ignizio, Colin Talbert, and Michael O'Donnell \nat the U.S. Geological Survey Fort Collins Science Center (Ignizio and others, 2014) and Peter Schweitzer \nof the U.S. Geological Survey (Schweitzer, 1995).</procdesc>\n <procdate>2017</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Raster</direct>\n <rastinfo>\n <rasttype>Grid Cell</rasttype>\n <rowcount>1908</rowcount>\n <colcount>5205</colcount>\n <vrtcount>1</vrtcount>\n </rastinfo>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <mapproj>\n <mapprojn>USA Contiguous Albers Equal Area Conic USGS version (ESRI Full Name: USA_Contiguous_Albers_Equal_Area_Conic_USGS_version)</mapprojn>\n <albers>\n <stdparll>29.5</stdparll>\n <stdparll>45.5</stdparll>\n <longcm>-96.0</longcm>\n <latprjo>23.0</latprjo>\n <feast>0.0</feast>\n <fnorth>0.0</fnorth>\n </albers>\n </mapproj>\n <planci>\n <plance>row and column</plance>\n <coordrep>\n <absres>800.0</absres>\n <ordres>800.0</ordres>\n </coordrep>\n <plandu>Meter</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D_North_American_1983</horizdn>\n <ellips>GRS_1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Value</attrlabl>\n <attrdef>Horizontal hydraulic conductivity of the glacial deposits overlying bedrock, in feet per day.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.548911929130554</rdommin>\n <rdommax>100</rdommax>\n <attrunit>feet per day</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>Cell values are expressed in units of feet per day, which represent the horizontal hydraulic conductivity of glacial deposits overlying bedrock.</eaover>\n <eadetcit>Bayless, E.R., Arihood, L.D., Reeves, H.W., Sperl, B.J.S., Qi, S.L., Stipe, V.E., and Bunch. A.R., 2017, Maps and grids of hydrogeologic information created from standardized water-well drillers\xe2\x80\x99 records of the glaciated United States: U.S. Geological Survey Scientific Investigations Report 2015\xe2\x80\x935105, 34 p.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Although these data have been used by the U.S. Geological Survey, U.S. Department of the Interior, no \nwarranty expressed or implied is made by the U.S. Geological Survey as to the accuracy of the data and related materials. \nThe act of distribution shall not constitute any such warranty, and no responsibility is assumed by the U.S. Geological \nSurvey in the use of this data, software, or related materials. Any use of trade, product, or firm names is for descriptive \npurposes only and does not imply endorsement by the U.S. Government.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>ESRI Grid</formname>\n <formcont>Online accessible data</formcont>\n <filedec>WinZip compressed file</filedec>\n <transize>11.4</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/F7BR8QCZ</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <digform>\n <digtinfo>\n <formname>ASCII (floating point)</formname>\n <formcont>Online accessible data</formcont>\n <filedec>WinZip compressed file</filedec>\n <transize>10.4</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/F7BR8QCZ</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Indiana-Kentucky Water Science Center</cntorg>\n <cntper>Benjamin J Sperl</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>5957 Lakeside Blvd</address>\n <city>Indianapolis</city>\n <state>IN</state>\n <postal>46278</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>317-290-3333</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standards for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n <mettc>local time</mettc>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [Eastern Ecological Science Center](/catalog/item/603cf2b7d34eb1203117e444)
3. [xLegacy Data Releases](/catalog/item/61570edad34e0df5fb9f8228)
4. [Patuxent Wildlife Research Center](/catalog/item/5807c9fae4b0841e59e3a4da)
5. [Preliminary evaluation of behavioral response of nesting waterbirds to small unmanned aircraft flight](/catalog/folder/5b311234e4b040769c13f5a0)
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## Dates
Publication Date2018-10-17Start Date2015-06-05End Date2016-08-01
## Citation
Reintsma, K.M., McGowan, P.C., Callahan, C., Collier, T., Gray, D., Sullivan, J.D., and Prosser, D.J., 2018, Preliminary evaluation of behavioral response of nesting waterbirds to small unmanned aircraft flight: U.S. Geological Survey data release, https://doi.org/10.5066/P9QDV7S8.
## Summary
This dataset is comprised of 3 .csv files related to the use of unmanned aerial systems over waterbird colonies. Specifically, data detail the disturbance observed in birds during flights, the time required for traditional ground surveys to be conducted, and the distance at which birds flush during traditional ground surveys.
## Summary
This dataset is comprised of 3 .csv files related to the use of unmanned aerial systems over waterbird colonies. Specifically, data detail the disturbance observed in birds during flights, the time required for traditional ground surveys to be conducted, and the distance at which birds flush during traditional ground surveys.
## Contacts
Point of Contact
:
[Diann J Prosser](/catalog/catalogParty/show?partyId=8310)
Originator
:
[Kaitlyn M Reintsma](/catalog/catalogParty/show?partyId=72464),
[Peter C McGowan](/catalog/catalogParty/show?partyId=Peter+C+McGowan),
[Carl Callahan](/catalog/catalogParty/show?partyId=Carl+Callahan),
[Tom Collier](/catalog/catalogParty/show?partyId=Tom+Collier),
[David Gray](/catalog/catalogParty/show?partyId=David+Gray),
[Jeffery D Sullivan](/catalog/catalogParty/show?partyId=72872),
[Diann J Prosser](/catalog/catalogParty/show?partyId=8310)
Metadata Contact
:
[Diann J Prosser](/catalog/catalogParty/show?partyId=8310)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
CMS Group
:
[Patuxent Wildlife Research Center](/catalog/catalogParty/show?partyId=17193)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
SDC Data Owner
:
[Eastern Ecological Science Center](/catalog/catalogParty/show?partyId=17184)
USGS Mission Area
:
[Ecosystems](/catalog/catalogParty/show?partyId=Ecosystems)
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| --- | --- | --- | --- |
| Preliminary\_evaluation\_of\_behavioral\_response\_of\_nesting\_waterbirds\_to\_small\_unmanned\_aircraft\_flight.xml<br>_Original FGDC Metadata_ | View | 18.02 KB | application/fgdc+xml |
| DataKey.docx | | 15.16 KB | application/vnd.openxmlformats-officedocument.wordprocessingml.document |
| ReinstmaEtAl\_2018\_UASManuscript\_DroneFlights.csv | | 2.75 KB | text/csv |
| ReinstmaEtAl\_2018\_UASManuscript\_FlushDistance.csv | | 22.34 KB | text/csv |
| ReinstmaEtAl\_2018\_UASManuscript\_TraditionalSurveyData.csv | | 1.79 KB | text/csv |
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| --- | --- |
| Reinstma, K.M., McGowan, P.C., Callahan, C., Collier, T., Gray, D., Sullivan, J.D., and Prosser, D.J., 2018, Preliminary evaluation of ehavioral response of nesting waterbirds to small unmanned aircraft flight: Waterbirds, v. 41, no. 3, p. 326-331, https://doi.org/10.1675/063.041.0314. | [https://doi.org/10.1675/063.041.0314](https://doi.org/10.1675/063.041.0314 "https://doi.org/10.1675/063.041.0314") |
## Purpose
Data were obtained to determine the viability of using unmanned aerial systems to survey waterbird populations.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Kaitlyn M. Reintsma</origin>\n <origin>Peter C. McGowan</origin>\n <origin>Carl Callahan</origin>\n <origin>Tom Collier</origin>\n <origin>David Gray</origin>\n <origin>Jeffery D. Sullivan</origin>\n <origin>Diann J. Prosser</origin>\n <pubdate>2018</pubdate>\n <title>Preliminary evaluation of behavioral response of nesting waterbirds to small unmanned aircraft flight</title>\n <geoform>.csv</geoform>\n <pubinfo>\n <pubplace>Laurel, MD</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9QDV7S8</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Reinstma, K. M.</origin>\n <origin>McGowan, P. C.</origin>\n <origin>Callahan, C.</origin>\n <origin>Collier, T.,</origin>\n <origin>Gray, D.,</origin>\n <origin>Sullivan, J. D.</origin>\n <origin>Prosser, D. J.</origin>\n <pubdate>2018</pubdate>\n <title>Preliminary evaluation of ehavioral response of nesting waterbirds to small unmanned aircraft flight</title>\n <geoform>tables</geoform>\n <pubinfo>\n <pubplace>Journal</pubplace>\n <publish>Waterbirds</publish>\n </pubinfo>\n <onlink>https://doi.org/10.1675/063.041.0314</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset is comprised of 3 .csv files related to the use of unmanned aerial systems over waterbird colonies. Specifically, data detail the disturbance observed in birds during flights, the time required for traditional ground surveys to be conducted, and the distance at which birds flush during traditional ground surveys.</abstract>\n <purpose>Data were obtained to determine the viability of using unmanned aerial systems to survey waterbird populations.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20150605</begdate>\n <enddate>20160801</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-76.415405273979</westbc>\n <eastbc>-76.327514648982</eastbc>\n <northbc>38.800848412151</northbc>\n <southbc>38.728034590327</southbc>\n </bounding>\n <descgeog>Poplar Island</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>waterbirds</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5b311234e4b040769c13f5a0</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Chesapeake Bay</placekey>\n <placekey>Poplar Island</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Diann J Prosser</cntper>\n <cntorg>USGS Patuxent Wildlife Research Center</cntorg>\n </cntperp>\n <cntpos>Research Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>10300 Baltimore Avenue</address>\n <city>Beltsville</city>\n <state>MD</state>\n <postal>20705</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>301-497-5914</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>This work was supported by the U.S. Army Corps of Engineers (Baltimore District), U.S. Geological Survey (Patuxent Wildlife Research Center), UASbio, the U.S. Fish and Wildlife Service (Chesapeake Bay Field Office), and the Maryland Environmental Service. We acknowledge Katie DeVoss, Eddie Gaylord, Julia Geschke, Lucas Howell, Paul Marban, and Saba Rahman for their contributions to this work.</datacred>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Birds</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2018</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Diann J Prosser</cntper>\n <cntorg>USGS Patuxent Wildlife Research Center</cntorg>\n </cntperp>\n <cntpos>Research Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>10300 Baltimore Avenue</address>\n <city>Beltsville</city>\n <state>MD</state>\n <postal>20705</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>301-497-5914</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>expert advice</taxonpro>\n <taxoncom>All waterbird species were identified to the genus or species level. Waterbirds are defined as species belonging to the following groups: waterfowl (e.g., ducks, geese, swans), shorebirds (e.g., sandpipers, plovers), marsh birds (e.g., rails, bitterns), seabirds (e.g., gulls, terns, cormorants), wading birds (e.g., herons, egrets, and ibises), raptors (only ospreys, Pandion haliaetus, and bald eagles, Haliaeetus leucocephalus), and selected perching birds often associated with water (e.g., belted kingfisher, Megaceryle alcyon, and fish crows, Corvus ossifragus).</taxoncom>\n </taxonsys>\n <taxongen>All waterbird species were identified to the species level</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Aves</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Charadriiformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Laridae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Sterna</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Sterna hirundo</taxonrv>\n <common>Charr\xc3\xa1n com\xc3\xban</common>\n <common>Common Tern</common>\n <common>Sterne pierregarin</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Deuterostomia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Chordata</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Vertebrata</taxonrv>\n <taxoncl>\n <taxonrn>Infraphylum</taxonrn>\n <taxonrv>Gnathostomata</taxonrv>\n <taxoncl>\n <taxonrn>Superclass</taxonrn>\n <taxonrv>Tetrapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Aves</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Pelecaniformes</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Threskiornithidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Threskiornithinae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Plegadis</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Plegadis falcinellus</taxonrv>\n <common>Ibis cara oscura</common>\n <common>Glossy Ibis</common>\n <common>Ibis falcinelle</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>We entered the survey data into Microsoft Excel worksheets and conducted QA/QC prior to analysis.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <method>\n <methtype>Field</methtype>\n <methdesc>This study took place on the Paul S. Sarbanes Ecosystem Restoration Project at Poplar Island (hereafter, Poplar Island) at 38\xc2\xb0 45\xe2\x80\xb2 58.29\xe2\x80\xb3 N, 76\xc2\xb0 22\xe2\x80\xb2 56.27\xe2\x80\xb3 W, a 460-ha reclamation and restoration project located in the Chesapeake Bay, Maryland, USA. Poplar Island was created by the U.S. Army Corps of Engineers and Maryland Port Administration with the primary purpose of restoring island habitat, providing placement and storage for dredged material, and minimizing environmental harm (U.S. Army Corps of Engineers 2014). While 32 avian species have been reported nesting on Poplar Island (Maryland Environmental Service 2013), this study focused specifically on two separate waterbird colonies: the mixed species wading bird rookery and the Common Tern colony. \n\nIn 2015, the focal egret and ibis colony (Mixed Species Rookery) had approximately 240 pairs of Snowy Egrets, Cattle Egrets, and Glossy Ibis located throughout a 0.41-ha habitat island dominated by a dense, ~3-m tall, mature shrub community characterized by groundsel tree (Baccaharis hamlifolia), marsh elder (Iva frutescens), wax myrtle (Myrica crucifera), red chokeberry (Aronia arbutifolia), and arborvitae (Thuja occidentalis). The focal Common Tern nesting colony, encompassing ~1 ha, consisted of approximately 124 and 61 breeding pairs in 2015 and 2016, respectively (D. Prosser, unpubl. data). At the time of these trials, the shoreline inhabited by the colony was typical Common Tern nesting habitat (Nisbet 2000), with open bare ground composed of a mix of sand, silt and clay interspersed with a grass/forb vegetation community characterized by common ragweed (Ambrosia artemisifolia) and horseweed (Conyza canadensis). \n\nsUAS Trials \nMixed Species Rookery trial. On 29 May 2015, a sUAS with six rotors (Storm Drone 6 V3 GPS Flying Platform) was launched from a dike road 60 m from the edge of the colony, brought to a height of 53 m above ground level and flown at an approximately constant height above the colony, then lowered to 33 m and flown back to the proximal edge of the colony. The sUAS was lowered again to 18 m and then flown over the colony and back to the launch site (Fig. 1A). The sUAS flight paths were raised by 3 m compared to other surveys (i.e., 18 m, 33 m, and 53 m instead of 15 m, 30 m, and 50 m) when surveying in the Mixed Species Rookery to account for vegetation height. \n\nCommon Tern colony trials. \nNine Common Tern trials were conducted from 2015 to 2016 (Table 1). The first three trials were conducted on 29 May 2015, near the time of peak incubation, and 1 July 2015 after the majority of eggs had hatched (Burger and Gochfield 1991). Trials were performed similarly to the Mixed Species Rookery trial; however, only the lower altitudes were tested (30 m and 15 m; Fig. 1B). An additional six trials were performed on 12 May 2016 and involved landing the sUAS in the colony for one trial, the maximum disturbance we could create with the sUAS, followed by five replicate fly-overs at 12 m above the colony, a more realistic disturbance for monitoring activities. Although a heavier (1,290 g vs. 2,935 g) sUAS with only four rotors (DJI Inspire 1 V.2.0) was used in the 2016 Common Tern trials, we considered the two sUAS to be comparable as they are both group one drones. \n\nTraditional Surveys \nAs part of the ongoing monitoring of waterbird populations on Poplar Island, breeding surveys are conducted for both the Mixed Species Rookery and Common Tern colonies. Adult counts from the Mixed Species Rookery are determined via a flush survey (Steinkamp et al. 2003). Two crew members travel to the back of the Mixed Species Rookery via canoe and flush the adult birds from the island by creating a clapping sound. As the adult birds flush, a team of observers records a count of each species. In the Common Tern colony, adult counts are taken by observers with spotting scopes positioned at the colony\xe2\x80\x99s edge. Immediately following this, chick and nest counts are determined via a ground survey (Steinkamp et al. 2003), during which multiple biologists spread the width of the colony and walk through it to count nests, check egg status, and capture chicks for banding. During tern surveys, the distance upon approach that the closest birds flush and the amount of time until birds returned was recorded with a laser range finder. The duration of each traditional survey was recorded for each colony.</methdesc>\n </method>\n </lineage>\n </dataqual>\n <eainfo>\n <overview>\n <eaover>Data and terms are described in definitions tables included in data files.</eaover>\n <eadetcit>Data and terms are described in definitions tables included in data files available on http://doi.org/10.5066/P9QDV7S8</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>US Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty</distliab>\n <techpreq>none</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Diann J Prosser</cntper>\n <cntorg>USGS Patuxent Wildlife Research Center</cntorg>\n </cntperp>\n <cntpos>Research Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>10300 Baltimore Avenue</address>\n <city>Beltsville</city>\n <state>MD</state>\n <postal>20705</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>301-497-5914</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2019-11-04Start Date2017-10-12End Date2017-12-01
## Citation
Langenheim, V.E., 2019, Aeromagnetic data, grid data, and magnetization boundaries of a survey flown in the Burney region, northeastern California: U.S. Geological Survey data release, https://doi.org/10.5066/P9PUFYDD.
## Summary
This data release contains data from flightlines collected during an aeromagnetic survey of the Burney region of northeastern California. These data were gridded and magnetization boundaries were calculated using the maximum horizontal gradient method on the gridded data.
## Summary
This data release contains data from flightlines collected during an aeromagnetic survey of the Burney region of northeastern California. These data were gridded and magnetization boundaries were calculated using the maximum horizontal gradient method on the gridded data.
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| burney\_mag\_grid.csv | | 8.65 MB | text/csv |
| readme.txt | | 1.44 KB | text/plain |
| burneyfin\_max\_small.csv | | 296.42 KB | text/csv |
| burneyfin\_max\_big.csv | | 236.63 KB | text/csv |
## Related External Resources
Type: Related Primary Publication
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| --- | --- |
| Langenheim, V.E., 2021, Aeromagnetic map of Burney and the surrounding area, northeastern California: U.S. Geological Survey Open-File Report, https://doi.org/10.3133/ofr20211006. | [https://doi.org/10.3133/ofr20211006](https://doi.org/10.3133/ofr20211006 "https://doi.org/10.3133/ofr20211006") |
## Purpose
An aeromagnetic survey was flown of the Burney region of northeastern California to promote further understanding of the geology and structure of this region, serving as a basis for geophysical investigations and by supporting geologic mapping, water resource investigations, and volcanic and seismic hazard assessments.
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## Provenance
## Additional Information
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| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9PUFYDD |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Langenheim, Victoria E.</origin>\n <pubdate>20191104</pubdate>\n <title>Aeromagnetic data, grid data, and magnetization boundaries of a survey flown in the Burney region, northeastern California</title>\n <geoform>tabular digital data</geoform>\n <onlink>https://doi.org/10.5066/P9PUFYDD</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release contains data from flightlines collected during an aeromagnetic survey of the Burney region of northeastern California. These data were gridded and magnetization boundaries were calculated using the maximum horizontal gradient method on the gridded data.</abstract>\n <purpose>An aeromagnetic survey was flown of the Burney region of northeastern California to promote further understanding of the geology and structure of this region, serving as a basis for geophysical investigations and by supporting geologic mapping, water resource investigations, and volcanic and seismic hazard assessments.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20171012</begdate>\n <enddate>20171201</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-122.017</westbc>\n <eastbc>-120.177</eastbc>\n <northbc>41.411</northbc>\n <southbc>39.99</southbc>\n </bounding>\n <descgeog>World</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>geoscientificInformation</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>magnetic anomaly</themekey>\n <themekey>magnetic field (earth)</themekey>\n <themekey>magnetometer measurement</themekey>\n <themekey>magnetic horizontal gradient</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5dadf0aee4b09fd3b0c9d8f3</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Burney</placekey>\n <placekey>Susanville</placekey>\n <placekey>Lake Almanor</placekey>\n <placekey>Fall River Mills</placekey>\n </place>\n </keywords>\n <accconst>None. Please see \'Distribution Info\' for details.</accconst>\n <useconst>None. Users are advised to read the data set\'s metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Victoria E Langenheim</cntper>\n <cntorg>U.S. Geological Survey, SOUTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Research Geophysicist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 989, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>650-329-5313</cntvoice>\n <cntfax>650-329-5133</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Data were flown by New-Sense Geophysics Ltd. (Toronto, Canada). Field operations were carried out by Chris Evans, Pawel Starmach, Martin Muc, and Glenn Slover. The pilot was Walter Fiesel (Brucelandair International). Chris Evans and Lily Manoukian produced the logistics report.</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Magnetic field values were measured by a Scintrex CS-3 optically pumped Cesium split beam sensor mounted in a fixed stinger assembly on the plane. The raw magnetic data were recorded at a frequency of 50 Hz. For a magnetic field of 50,000 nanoteslas (nT), resolution is equivalent of 0.0075 nT. Two Scintrex CS-3 sensors were used at the base of operations for diurnal corrections; sensitivity and absolute accuracy of the ground magnetometer is +/- 0.01 nT.</attraccr>\n </attracc>\n <logic>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>Positions were measured using Novatel OEM628 GPS receivers, which tracks GNSS constellations and satellite signals including GPS, GLONASS, Galileo and Compass. Channels were configured for GPS: L1, L2, Differential.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>In addition to GPS heights, height above ground was measured by a TRA 3500A radar altimeter. Accuracy is estimated to be less than 5 m.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Raw magnetic values (MAG_RAW) were cleaned of occassional dropouts, re-sampled at 10 Hz, and compensated for permanent, induced, and eddy current magnetic noise generated by the airfract using data from the fluxgate magnetometer (MAG_COMP). Diurnal magnetic variations were measured (DIURNAL_RAW) and filtered with a 51-point Cosine filter and a low-pass filter to remove some low-amplitude cultural noise (DIURNAL_FILT). MAG_DIURNAL_CORR is the diurnally corrected magnetic values (MAG_COMP - DIURNAL_FILT +49990 nT). MAG_HEADING_CORR are heading-corrected magnetic values, that were then corrected for distance lag (MAG_LAG_CORR). Simple leveling to the values was performed manually (Mag_Lev). Additional microleveling (grid cell size 400 m, decorrugation cutoff of 4000 m, amplitude limit of 20 nT, and Naudy filter length of 200 m) resulted in MAG_FIN values. A final correction for the total field strength of the International Geomagnetic Reference Field (survey date November 14, 2017 using the average value of GPS height of 1916 m for the entire survey) was subtracted from MAG_FIN to arrive at Mag_FIN_IGRF values. Note that some fields may not have values for all locations because of missing data (denoted by consecutive commas). The MAG_FIN values were gridded using a cell size of 200m. \n\nThese data were gridded at a cell spacing of 200 by 200 m using the minimum curvature principle to create the file BURNEY_MAG_GRID.CSV.\n\nTo produce maximum horizontal gradients for the files BURNEYFIN_MAX_SMALL.CSV and BURNEYFIN_MAX_BIG.CSV, the gridded values were upward continued 100 m. This upward continued grid was subtracted from the original grid to provide a residual magnetic grid that was then converted to a magnetic potential field that centers the anomalies over their sources and produces an equivalent "gravity" field that would be produced if all the magnetic material were replaced by proportionately dense material. The steepest horizontal gradients were then determined by numerically searching for maxima in the horizontal gradient of the equivalent "gravity" field.</procdesc>\n <procdate>20191004</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Victoria E Langenheim</cntper>\n <cntorg>U.S. Geological Survey, SOUTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Research Geophysicist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 989, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>650-329-5313</cntvoice>\n <cntfax>650-329-5133</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>burney_mag_data_final.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Line</attrlabl>\n <attrdef>Flightline identifier</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Identifer of flightline</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>UTM_X</attrlabl>\n <attrdef>easting (WGS84 datum, UTM zone 10N)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>582371.31</rdommin>\n <rdommax>739401.83</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>UTM_Y</attrlabl>\n <attrdef>northing (WGS84 datum, UTM zone 10N)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4429781.25</rdommin>\n <rdommax>4584897.90</rdommax>\n <attrunit>meter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>LONG_WGS84</attrlabl>\n <attrdef>longitude (WGS84 datum)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-122.017015</rdommin>\n <rdommax>-120.176951</rdommax>\n <attrunit>degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>LAT_WGS84</attrlabl>\n <attrdef>latitude (WGS84 datum)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>39.994314</rdommin>\n <rdommax>41.410698</rdommax>\n <attrunit>degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GPS_HEIGHT_WGS84</attrlabl>\n <attrdef>GPS height (WGS84 datum) of measurement</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1105.11</rdommin>\n <rdommax>3102.55</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>RAD_ALT</attrlabl>\n <attrdef>height of measurement above terrain from radar altimeter (raw data)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>66.48</rdommin>\n <rdommax>941.57</rdommax>\n <attrunit>meter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>RAD_ALT_LAG</attrlabl>\n <attrdef>height of measurement above terrain from radar altimeter (corrected for lag and windowed to 2500 feet)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>66.48</rdommin>\n <rdommax>760.00</rdommax>\n <attrunit>meter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>JULIAN_DATE</attrlabl>\n <attrdef>Julian date</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Julian date as YYYYDDD (Y=year; D=day), ranges from 2017287 to 2017311.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TIME</attrlabl>\n <attrdef>time</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>time in hh:mm:ss (hours:minutes:seconds)</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MAG_RAW</attrlabl>\n <attrdef>raw magnetometer reading</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>90948.24</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MAG_COMP</attrlabl>\n <attrdef>magnetometer reading cleaned, filtered, and compensated</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>47479.16</rdommin>\n <rdommax>53739.60</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DIURNAL_RAW</attrlabl>\n <attrdef>base station magnetometer reading (raw)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>49916.41</rdommin>\n <rdommax>50062.00</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DIURNAL_FILT</attrlabl>\n <attrdef>base station magnetometer reading filtered</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>49923.70</rdommin>\n <rdommax>50061.08</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MAG_DIURNAL_CORR</attrlabl>\n <attrdef>compensated, cleaned, and filtered magnetometer reading corrected for diurnal variations (base station reading)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>47413.17</rdommin>\n <rdommax>53786.30</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MAG_HEADING</attrlabl>\n <attrdef>magnetometer value corrected for heading</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>47416.17</rdommin>\n <rdommax>53789.30</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MAG_LAG_CORR</attrlabl>\n <attrdef>magnetometer reading corrected for lag</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>47416.17</rdommin>\n <rdommax>53789.30</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MAG_LEV</attrlabl>\n <attrdef>magnetometer data leveled conventionally (simple)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>47479.01</rdommin>\n <rdommax>53793.96</rdommax>\n <attrunit>naontesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MAG_FIN</attrlabl>\n <attrdef>magnetometer data microleveled</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>47499.01</rdommin>\n <rdommax>53773.96</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>IGRF</attrlabl>\n <attrdef>Calculated International Geomagnetic Reference Field (IGRF) value, using \'auto\' year model (date 2017Nov14 and height of 1916 meters)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>49730.87</rdommin>\n <rdommax>50480.60</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>MAG_FIN_IGRF</attrlabl>\n <attrdef>IGRF corrected residual magnetic anomaly</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-2727.63</rdommin>\n <rdommax>3455.29</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>burney_mag_grid.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>LONG_NAD27</attrlabl>\n <attrdef>longitude (NAD27 datum)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-122.0239</rdommin>\n <rdommax>-120.1699</rdommax>\n <attrunit>degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>LAT_NAD27</attrlabl>\n <attrdef>latitude (NAD27 datum)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>39.9892</rdommin>\n <rdommax>41.4171</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GRIDDED_MAGNETIC_ANOMALY</attrlabl>\n <attrdef>gridded residual magnetic anomaly value</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-2581.1116</rdommin>\n <rdommax>3403.0154</rdommax>\n <attrunit>nanotesla</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>burneyfin_max_big.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>-120.7305</attrlabl>\n <attrdef>longitude (NAD27 datum)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-122.0158</rdommin>\n <rdommax>-120.229</rdommax>\n <attrunit>degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>39.9976</attrlabl>\n <attrdef>latitude (NAD27)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>39.9991</rdommin>\n <rdommax>41.4088</rdommax>\n <attrunit>degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>3.5924</attrlabl>\n <attrdef>maximum horizontal gradient value (greater than mean for entire dataset)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.8811</rdommin>\n <rdommax>14.807</rdommax>\n <attrunit>nt?km</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>burneyfin_max_small.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing data.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>-120.6467</attrlabl>\n <attrdef>longitude (NAD27 datum)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-122.0181</rdommin>\n <rdommax>-120.1977</rdommax>\n <attrunit>degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>39.9946</attrlabl>\n <attrdef>latitude (NAD27 datum)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>39.9964</rdommin>\n <rdommax>41.4085</rdommax>\n <attrunit>degree</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>1.972</attrlabl>\n <attrdef>maximum horizontal gradient value (less than mean for entire dataset)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0887</rdommin>\n <rdommax>2.8804</rdommax>\n <attrunit>nT/km</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9PUFYDD</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200820</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Victoria E Langenheim</cntper>\n <cntorg>U.S. Geological Survey, SOUTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Research Geophysicist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop 989, 345 Middlefield Road</address>\n <city>Menlo Park</city>\n <state>CA</state>\n <postal>94025</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>650-329-5313</cntvoice>\n <cntfax>650-329-5133</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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3. [Satellite video and field measurements of flow velocity acquired from the Tanana River in Alaska and used for particle image velocimetry (PIV)](/catalog/item/5fb67bdad34eb413d5e14021)
4. [Geo-referenced orthophotos of the Tanana River, Alaska, acquired July 24, 2019](/catalog/folder/5fb7b60dd34eb413d5e14811)
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## Dates
Acquisition2019-07-24Publication Date2021-05-03
## Citation
Legleiter, C.J., and Kinzel, P.J., 2021, Satellite video and field measurements of flow velocity acquired from the Tanana River in Alaska and used for particle image velocimetry (PIV): U.S. Geological Survey data release, https://doi.org/10.5066/P9ZY5LK1.
## Summary
This data release consists of an orthophoto of the Tanana River in Alaska acquired on July 24, 2019. The orthophoto was produced from images obtained using a Hasselblad A6D-100C 100 megapixel digital mapping camera deployed within a pod mounted on the landing gear of a Robinson R44 helicopter. Images were acquired as the helicopter transited a series of flight lines designed to provide complete coverage, with ample overlap, of the study area along the Tanana River. Also within the pod was an ATLANS GPS/Inertial Motion Unit (IMU) that recorded the position and orientation of the platform during the flight. This information was used to geo-reference the images by performing aerial triangulation and bundle adjustment within the TerraSolid \[...\]
## Summary
This data release consists of an orthophoto of the Tanana River in Alaska acquired on July 24, 2019. The orthophoto was produced from images obtained using a Hasselblad A6D-100C 100 megapixel digital mapping camera deployed within a pod mounted on the landing gear of a Robinson R44 helicopter. Images were acquired as the helicopter transited a series of flight lines designed to provide complete coverage, with ample overlap, of the study area along the Tanana River. Also within the pod was an ATLANS GPS/Inertial Motion Unit (IMU) that recorded the position and orientation of the platform during the flight. This information was used to geo-reference the images by performing aerial triangulation and bundle adjustment within the TerraSolid software suite, which was also used to produce a LiDAR DEM that was incorporated into the orthophoto production process. The resulting orthorectified image had a spatial resolution (pixel size) of 0.1 m. The image is saved as a GeoTIFF file with an embedded header that contains the spatial referencing information for the image; the projected coordinate system is UTM Zone 6N, NAD83. The main purpose of this orthophoto was to serve as a base for geo-referencing the video described in a related data release accessible from the parent landing page cited above.
## Contacts
Originator
:
[Carl J Legleiter](/catalog/catalogParty/show?partyId=13411),
[Paul J Kinzel](/catalog/catalogParty/show?partyId=5505)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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:
[Integrated Modeling & Prediction Division](/catalog/catalogParty/show?partyId=77212)
USGS Mission Area
:
[Water Resources](/catalog/catalogParty/show?partyId=Water+Resources)
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| | | | |
| --- | --- | --- | --- |
| TananaOrthoMetadata.xml<br>“Metadata describing the data and how the data were acquired and processed”<br>_Original FGDC Metadata_ | View | 16.98 KB | application/fgdc+xml |
| | | |
| --- | --- | --- |
| Tanana\_ortho\_V2.tif | | 270.67 MB |
Extension:
Tanana\_ortho\_V2.zip
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Legleiter, C.J., and Kinzel, P.J., 2021, Surface Flow Velocities From Space: Particle Image Velocimetry of Satellite Video of a Large, Sediment-Laden River: Frontiers in Water, v. 3, https://doi.org/10.3389/frwa.2021.652213. | [https://doi.org/10.3389/frwa.2021.652213](https://doi.org/10.3389/frwa.2021.652213 "https://doi.org/10.3389/frwa.2021.652213") |
## Material Request Instructions
For questions concerning this data set, please contact:
Dr. Carl J. Legleiter - [email protected], 303-271-3651
Geomorphology and Sediment Transport Laboratory
United States Geological Survey
4620 Technology Drive, Suite #400
Golden, CO 80403
## Purpose
The main purpose of this orthophoto was to serve as a base for geo-referencing the video described in a related data release accessible from the parent landing page cited above.
## Rights
Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.
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- _Constituent Of_ [Satellite video and field measurements of flow velocity acquired from the Tanana River in Alaska and used for particle image velocimetry (PIV)](/catalog/item/5fb67bdad34eb413d5e14021 "Satellite video and field measurements of flow velocity acquired from the Tanana River in Alaska and used for particle image velocimetry (PIV)")
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- _related_ [Field measurements of flow velocity from the Tanana River, Alaska, July 24, 2019](/catalog/item/5fb7a86cd34eb413d5e147f8 "Field measurements of flow velocity from the Tanana River, Alaska, July 24, 2019")
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- [Tanana River](/catalog/items?q=&filter=tags%3DTanana+River "Tanana River (Tanana River, Place, )")
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## Provenance
Data sourceInput directly
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | 10.5066/P9ZY5LK1 |
### Raster Extension
| boundingBox | | minY | 64.56129638365844 |
| minX | -149.1100081429664 |
| maxY | 64.57320938207582 |
| maxX | -149.06294844752645 | |
| files | | name | Tanana\_ortho\_V2.tif |
| contentType | image/geotiff |
| pathOnDisk | \_\_disk\_\_f1/30/c1/f130c1da2dad32cbd4b75c66a8090fec94c04484 |
| dateUploaded | Wed Jul 20 08:45:41 MDT 2022 |
| checksum | | value | 167a4f1fb5503b3b5cab8c1c4d569924 |
| type | MD5 | | |
| name | Tanana\_ortho\_V2 |
| nativeCrs | EPSG:26906 |
| rasterType | GeoTIFF |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Carl J. Legleiter</origin>\n <origin>Paul J. Kinzel</origin>\n <pubdate>20210503</pubdate>\n <title>Geo-referenced orthophotos of the Tanana River, Alaska, acquired July 24, 2019</title>\n <geoform>The orthophoto is saved as a GeoTIFF format geo-referenced image file with spatial referencing information embedded in the GeoTIFF header.</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <othercit>Legleiter, C.J., and Kinzel, P.J., 2021, Satellite video and field measurements of flow velocity acquired from the Tanana River in Alaska and used for particle image velocimetry (PIV): U.S. Geological Survey data release, https://doi.org/10.5066/P9ZY5LK1.</othercit>\n <onlink>https://doi.org/10.5066/P9ZY5LK1</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Carl J. Legleiter</origin>\n <origin>Paul J. Kinzel</origin>\n <pubdate>20210528</pubdate>\n <title>Surface Flow Velocities From Space: Particle Image Velocimetry of Satellite Video of a Large, Sediment-Laden River</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Frontiers in Water</sername>\n <issue>vol. 3</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>Frontiers Media SA</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3389/frwa.2021.652213</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release consists of an orthophoto of the Tanana River in Alaska acquired on July 24, 2019. The orthophoto was produced from images obtained using a Hasselblad A6D-100C 100 megapixel digital mapping camera deployed within a pod mounted on the landing gear of a Robinson R44 helicopter. Images were acquired as the helicopter transited a series of flight lines designed to provide complete coverage, with ample overlap, of the study area along the Tanana River. Also within the pod was an ATLANS GPS/Inertial Motion Unit (IMU) that recorded the position and orientation of the platform during the flight. This information was used to geo-reference the images by performing aerial triangulation and bundle adjustment within the TerraSolid software suite, which was also used to produce a LiDAR DEM that was incorporated into the orthophoto production process. The resulting orthorectified image had a spatial resolution (pixel size) of 0.1 m. The image is saved as a GeoTIFF file with an embedded header that contains the spatial referencing information for the image; the projected coordinate system is UTM Zone 6N, NAD83. The main purpose of this orthophoto was to serve as a base for geo-referencing the video described in a related data release accessible from the parent landing page cited above.</abstract>\n <purpose>The main purpose of this orthophoto was to serve as a base for geo-referencing the video described in a related data release accessible from the parent landing page cited above.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>20190724</caldate>\n </sngdate>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>As needed</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-149.1100</westbc>\n <eastbc>-149.0629</eastbc>\n <northbc>64.5732</northbc>\n <southbc>64.5613</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Remote sensing</themekey>\n <themekey>Orthophotography</themekey>\n <themekey>geo-referenced</themekey>\n <themekey>river</themekey>\n <themekey>image</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5fb7b60dd34eb413d5e14811</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>USA</placekey>\n <placekey>Tanana River</placekey>\n <placekey>Alaska</placekey>\n <placekey>Nenana</placekey>\n </place>\n </keywords>\n <accconst>None</accconst>\n <useconst>Although these data have been used by the U.S. Geological Survey, U.S. Department of the Interior, these data and information are provided with the understanding that they are not guaranteed to be usable, timely, accurate, or complete. Users are cautioned to consider carefully the provisional nature of these data and information before using them for decisions that concern personal or public safety or the conduct of business that involves substantial monetary or operational consequences. Neither the U.S. Government nor any agency thereof, nor any of their employees, contractors, or subcontractors, make any warranty, express or implied, nor assume any legal liability or responsibility for the accuracy, completeness, or usefulness of any data, software, information, apparatus, product, or process disclosed, nor represent that its use would not infringe on privately owned rights. Trade, firm, or product names and other references to non-USGS products and services are provided for information only and do not constitute endorsement or warranty, express or implied, by the USGS, USDOI, or U.S. Government, as to their suitability, content, usefulness, functioning, completeness, or accuracy. \n\nUnless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Carl J Legleiter</cntper>\n <cntorg>WATER: IMPD ESMB</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>4620 Technology Dr, Suite #400</address>\n <city>Golden</city>\n <state>CO</state>\n <postal>80403</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-271-3651</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>KR_MBES_CUBE.jpg</browsen>\n <browsed>Illustration of the dataset</browsed>\n <browset>JPG</browset>\n </browse>\n <datacred>The US Army Corps of Engineers Cold Regions Research and Engineering Laboratory provided the camera and instrumented helicopter pod and acquired the image data. The USGS Alaska Science Center provided equipment and personnel for collecting supporting field data. The National Center for Airborne Laser Mapping produced the orthophoto.</datacred>\n <secinfo>\n <secsys>None</secsys>\n <secclass>Unclassified</secclass>\n <sechandl>None</sechandl>\n </secinfo>\n <native>The orthophoto is saved as a GeoTIFF format geo-referenced image file with spatial referencing information embedded in the GeoTIFF header. The file was produced in a Windows 10 operating system and can be read into various geospatial software packages such as ArcGIS, Global Mapper, ENVI, and MATLAB. The file name is Tanana_ortho.tif and is 134 MB in size. The orthophoto was generated by the National Center for Airborne Laser Mapping using the TerraSolid software package.</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>This data release consists of an orthophoto of the Tanana River in Alaska acquired on July 24, 2019. The orthophoto was produced from images obtained using a Hasselblad A6D-100C 100 megapixel digital mapping camera deployed within a pod mounted on the landing gear of a Robinson R44 helicopter. Images were acquired as the helicopter transited a series of flight lines designed to provide complete coverage, with ample overlap, of the study area along the Tanana River. Also within the pod was an ATLANS GPS/Inertial Motion Unit (IMU) that recorded the position and orientation of the platform during the flight.</procdesc>\n <procdate>20190724</procdate>\n </procstep>\n <procstep>\n <procdesc>Information from the GPS/IMU recorded on the helicopter during the flight was used to geo-reference the images by performing aerial triangulation and bundle adjustment within the TerraSolid software suite, which was also used to produce a LiDAR DEM that was incorporated into the orthophoto production process. The resulting orthorectified image had a spatial resolution (pixel size) of 0.1 m. The image is saved as a GeoTIFF file with an embedded header that contains the spatial referencing information for the image; the projected coordinate system is UTM Zone 6N, NAD83. The main purpose of this orthophoto was to serve as a base for geo-referencing the video described in a related data release accessible from the parent landing page cited above.</procdesc>\n <procdate>20200501</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Raster</direct>\n <rastinfo>\n <rasttype>Grid Cell</rasttype>\n <rowcount>12556</rowcount>\n <colcount>22152</colcount>\n <vrtcount>1</vrtcount>\n </rastinfo>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>6</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-147.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>row and column</plance>\n <coordrep>\n <absres>0.10000000000000052</absres>\n <ordres>0.09999999999997033</ordres>\n </coordrep>\n <plandu>meters</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>North_American_Datum_1983</horizdn>\n <ellips>GRS 1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.2572221010042</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Tanana_ortho.tif</enttypl>\n <enttypd>Raster geospatial data file saved in a GeoTIFF format</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Value</attrlabl>\n <attrdef>Unique numeric values contained in each raster cell.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0</rdommin>\n <rdommax>254.0</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <overview>\n <eaover>This data release consists of an orthophoto of the Tanana River in Alaska acquired on July 24, 2019. The orthophoto was produced from images obtained using a Hasselblad A6D-100C 100 megapixel digital mapping camera deployed within a pod mounted on the landing gear of a Robinson R44 helicopter. Images were acquired as the helicopter transited a series of flight lines designed to provide complete coverage, with ample overlap, of the study area along the Tanana River. Also within the pod was an ATLANS GPS/Inertial Motion Unit (IMU) that recorded the position and orientation of the platform during the flight. This information was used to geo-reference the images by performing aerial triangulation and bundle adjustment within the TerraSolid software suite, which was also used to produce a LiDAR DEM that was incorporated into the orthophoto production process. The resulting orthorectified image had a spatial resolution (pixel size) of 0.1 m. The image is saved as a GeoTIFF file with an embedded header that contains the spatial referencing information for the image; the projected coordinate system is UTM Zone 6N, NAD83. The main purpose of this orthophoto was to serve as a base for geo-referencing the video described in a related data release accessible from the parent landing page cited above.</eaover>\n <eadetcit>Legleiter, C.J., and Kinzel, P.J., 2021, Satellite video and field measurements of flow velocity acquired from the Tanana River in Alaska and used for particle image velocimetry (PIV): U.S. Geological Survey data release, https://doi.org/10.5066/P9ZY5LK1.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>Carl J Legleiter</cntper>\n <cntorg>U.S. Geological Survey, WATER</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Suite 400</address>\n <city>Golden</city>\n <state>CO</state>\n <postal>80403</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-271-3651</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Although these data have been used by the U.S. Geological Survey, U.S. Department of the Interior, no warranty expressed or implied is made by the U.S. Geological Survey as to the accuracy of the data. The act of distribution shall not constitute any such warranty, and no responsibility is assumed by the U.S. Geological Survey in the use of these data, software, or related materials. The use of firm, trade, or brand names in this report is for identification purposes only and does not constitute endorsement by the U.S. Geological Survey. The names mentioned in this document may be trademarks or registered trademarks of their respective trademark owners. \n\nUnless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>ZIP</formname>\n <formvern>none</formvern>\n <formspec>GeoTIF image format</formspec>\n <formcont>A zip archive containing GeoTIF images with spatial referencing information embedded in the header of each file.</formcont>\n <transize>1350.0</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>none</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n <techpreq>The data are provided in a zip archive containing the full set of orthophoto tiles as a series of 8 GeoTIF image files with spatial referencing information embedded in the header of each GeoTIF image file. The units of the coordinates are meters and the projected coordinate system is UTM Zone 6N, NAD83. The geo-referenced image files can be viewed and analyzed in various geospatial software packages including GlobalMapper, ArcGIS, ENVI, and MATLAB.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20210503</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Carl J. Legleiter</cntper>\n <cntorg>WATER: IMPD ESMB</cntorg>\n </cntperp>\n <cntpos>Research Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>4620 Technology Dr, Suite #400</address>\n <city>Golden</city>\n <state>CO</state>\n <postal>80403</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-271-3651</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2016-06-30Time Period2016
## Citation
Mirus, B.B., Smith, J.B., Stark, Benjamin, Lewis, York, Michel, Abigail and Baum, R.L., 2016, Laboratory Testing Results: Material strength and hydraulic properties for specimens collected from coastal bluffs near Mukilteo, Washington: U.S. Geological Survey data release, http://dx.doi.org/10.5066/F7H13033.
## Summary
This data release includes the detailed results from laboratory testing of colluvium and landslide deposit specimens collected from coastal bluffs near Mukilteo, Washington. The specimens were collected as part of a larger effort to characterize the potential for shallow landslide initiation along the Puget Sound Railway corridor between the cities of Everett and Seattle. The details of the specimen collection and research objectives of the study are provided in: “Assessing Landslide Potential on Coastal Bluffs near Mukilteo, Washington—Geologic Site Characterization for Hydrologic Monitoring” (Mirus et al., 2016). Laboratory experiments includes test to estimate the following properties: specific gravity, porosity, bulk and grain \[...\]
## Summary
This data release includes the detailed results from laboratory testing of colluvium and landslide deposit specimens collected from coastal bluffs near Mukilteo, Washington. The specimens were collected as part of a larger effort to characterize the potential for shallow landslide initiation along the Puget Sound Railway corridor between the cities of Everett and Seattle. The details of the specimen collection and research objectives of the study are provided in: “Assessing Landslide Potential on Coastal Bluffs near Mukilteo, Washington—Geologic Site Characterization for Hydrologic Monitoring” (Mirus et al., 2016). Laboratory experiments includes test to estimate the following properties: specific gravity, porosity, bulk and grain densities, grain-size distributions, in situ volumetric water content, liquid and plastic limits, saturated hydraulic conductivity, water-retention and unsaturated hydraulic conductivity relations, and soil strength properties. The testing of the specimens was performed by Cooper Testing Labs Inc. in Palo Alto, California, and by York Lewis at Colorado School of Mines in Golden, Colorado.
The following citations relate to this data release.
Mirus, B.B., Smith, J.B., Stark, Benjamin, Lewis, York, Michel, Abigail, and Baum, R.L., 2016, Assessing landslide potential on coastal bluffs near Mukilteo, Washington—Geologic site characterization for hydrologic monitoring: U.S. Geological Survey Open-File Report 2016–1082, 28 p., http://dx.doi.org/10.3133/ofr20161082.
van Genuchten, MTh., 1980. A closed-form equation for predicting the hydraulic conductivity of unsaturated soils: Soil Science Society America Journal, vol. 44, p. 892-898.
Wayllace, A., and Lu, N., 2012, A transient water release and imbibitions method for rapidly measuring wetting and drying soil water retention and hydraulic conductivity functions: Geotechnical Testing Journal, vol. 35, doi: 10.1520/GTJ103596.
## Contacts
Originator
:
[Benjamin B Mirus](/catalog/catalogParty/show?partyId=7061),
[Joel B Smith](/catalog/catalogParty/show?partyId=58377),
[Benjamin Stark](/catalog/catalogParty/show?partyId=Benjamin+Stark),
[York Lewis](/catalog/catalogParty/show?partyId=York+Lewis),
[Abigail Michel](/catalog/catalogParty/show?partyId=Abigail+Michel),
[Rex L Baum](/catalog/catalogParty/show?partyId=590)
Point of Contact
:
[Benjamin B Mirus](/catalog/catalogParty/show?partyId=7061)
Metadata Contact
:
[Benjamin B Mirus](/catalog/catalogParty/show?partyId=7061)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
USGS Mission Area
:
[Natural Hazards](/catalog/catalogParty/show?partyId=Natural+Hazards)
SDC Data Owner
:
[Landslide Hazards Program](/catalog/catalogParty/show?partyId=17175)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5745b339e4b07e28b662c5a4?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5745b339e4b07e28b662c5a4?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5745b339e4b07e28b662c5a4?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item or download all files listed below as a compressed file.
| | | | |
| --- | --- | --- | --- |
| Lab\_tests\_for\_specimens\_from\_Mukilteo\_WA\_2016.xml<br>_Original FGDC Metadata_ | View | 9.27 KB | application/fgdc+xml |
| VH\_IC1\_CSM\_Strength.xlsx<br>“Strength test results on specimen VH.IC1, conducted at Colorado School of Mines” | | 171.12 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| VH\_IC4\_CSM\_Strength.xlsx<br>“Strength test results on specimen VH.IC4, conducted at Colorado School of Mines” | | 184.72 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| VH\_IC5\_CSM\_Strength.xlsx<br>“Strength test results on specimen VH.IC5, conducted at Colorado School of Mines” | | 193.89 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| VH\_IC5\_CSM\_SWRC.xls<br>“TRIM test results on specimen VH.IC5, conducted at Colorado School of Mines” | | 889.5 KB | application/vnd.ms-excel |
| VH\_IC3\_CSM\_SWRC.xls<br>“TRIM test results on specimen VH.IC3, conducted at Colorado School of Mines” | | 818 KB | application/vnd.ms-excel |
| VH\_IC4\_CSM\_SWRC.xls<br>“TRIM test results on specimen VH.IC4, conducted at Colorado School of Mines” | | 740.5 KB | application/vnd.ms-excel |
| VH\_IC1\_CSM\_SWRC.xls<br>“TRIM test results on specimen VH.IC1, conducted at Colorado School of Mines” | | 1 MB | application/vnd.ms-excel |
| VH\_IC3\_CSM\_Strength.xlsx<br>“Strength test results on specimen VH.IC3, conducted at Colorado School of Mines” | | 151.05 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| LS\_CTL\_GRN-SIZE.pdf<br>“Grainsize analysis conducted on LS specimens by Cooper Testing Labs Inc.” | | 140.83 KB | application/pdf |
| LS\_CTL\_LL.pdf<br>“Liquid Limits determined for LS specimens by Cooper Testing Labs Inc.” | | 21.99 KB | application/pdf |
| LS\_IC4b\_CTL\_Ksat.xlsx<br>“Saturated hydraulic conductivity of specimen LSIC4b, conducted by Cooper Testing” | | 34.41 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| LS\_IC5b\_CTL\_Ksat.xlsx<br>“Saturated hydraulic conductivity of specimen LSIC5b, conducted by Cooper Testing” | | 34.41 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| LS\_IC5a\_CTL\_Ksat.xlsx<br>“Saturated hydraulic conductivity of specimen LSIC5a, conducted by Cooper Testing” | | 34.38 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| LS\_IC4a\_CTL\_Ksat.xlsx<br>“Saturated hydraulic conductivity of specimen LSIC4a, conducted by Cooper Testing” | | 35.14 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| LS\_RG-5c\_CTL\_Strength.xlsx<br>“Strength test results on specimen LS.RG5c, conducted at Cooper Testing Labs Inc.” | | 172.5 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| VH\_RG-5c\_CTL\_Strength.xlsx<br>“Strength test results on specimen VH.RG5b, conducted at Cooper Testing Labs Inc.” | | 182.08 KB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
| LS\_IC3b\_CTL\_Strenth.xlsm<br>“Strength test results on specimen LS.IC3b, conducted at Cooper Testing Labs Inc.” | | 759.04 KB | application/vnd.ms-excel.sheet.macroenabled.12 |
| LS\_IC3a\_CTL\_Strength.xlsm<br>“Strength test results on specimen LS.IC3a, conducted at Cooper Testing Labs Inc.” | | 765.29 KB | application/vnd.ms-excel.sheet.macroenabled.12 |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Mirus, B.B., Smith, J.B., Stark, Benjamin, Lewis, York, Michel, Abigail, and Baum, R.L., 2016, Assessing landslide potential on coastal bluffs near Mukilteo, Washington-Geologic site characterization for hydrologic monitoring: U.S. Geological Survey Open-File Report 2016-1082, 28 p., http://dx.doi.org/10.3133/ofr20161082. | [http://dx.doi.org/10.3133/ofr20161082](http://dx.doi.org/10.3133/ofr20161082 "http://dx.doi.org/10.3133/ofr20161082") |
## Purpose
Data were collected to determine hydraulic and geotechnical properties of specimens collected in the field.
## Communities
- USGS Data Release Products
## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Theme
- [Geological Hazards](/catalog/items?q=&filter=tags%3DGeological+Hazards "Geological Hazards (Geological Hazards, Theme, USGS Thesaurus)")
- [Landslides](/catalog/items?q=&filter=tags%3DLandslides "Landslides (Landslides, Theme, USGS Thesaurus)")
Place
- [Mukilteo, Washington](/catalog/items?q=&filter=tags%3DMukilteo%2C+Washington "Mukilteo, Washington (Mukilteo, Washington, Place, FGDC)")
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## Provenance
Data sourceInput directly
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| doi | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F7H13033 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Benjamin B. Mirus</origin>\n <origin>Joel B. Smith</origin>\n <origin>Benjamin Stark</origin>\n <origin>York Lewis</origin>\n <origin>Abigail Michel</origin>\n <origin>Rex L. Baum</origin>\n <pubdate>2016</pubdate>\n <title>Laboratory Testing Results: Material strength and hydraulic properties for specimens collected from coastal bluffs near Mukilteo, Washington</title>\n <geoform>excel spreadsheets and pdf documents</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.5066/F7H13033</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release includes the detailed results from laboratory testing of colluvium and landslide deposit specimens collected from coastal bluffs near Mukilteo, Washington. The specimens were collected as part of a larger effort to characterize the potential for shallow landslide initiation along the Puget Sound Railway corridor between the cities of Everett and Seattle. The details of the specimen collection and research objectives of the study are provided in: \xe2\x80\x9cAssessing Landslide Potential on Coastal Bluffs near Mukilteo, Washington\xe2\x80\x94Geologic Site Characterization for Hydrologic Monitoring\xe2\x80\x9d (doi:10.3133/ofr20161082). Laboratory experiments includes test to estimate the following properties: specific gravity, porosity, bulk and grain densities, grain-size distributions, in situ volumetric water content, liquid and plastic limits, saturated hydraulic conductivity, water-retention and unsaturated hydraulic conductivity relations, and soil strength properties. The testing of the specimens was performed by Cooper Testing Labs Inc. in Palo Alto, California, and by York Lewis at Colorado School of Mines in Golden, Colorado. \n\nThe following citations relate to this data release. \n\nMirus, B.B., Smith, J.B., Stark, Benjamin, Lewis, York, Michel, Abigail, and Baum, R.L., 2016, Assessing landslide potential on coastal bluffs near Mukilteo, Washington\xe2\x80\x94Geologic site characterization for hydrologic monitoring: U.S. Geological Survey Open-File Report 2016\xe2\x80\x931082, 28 p., http://dx.doi.org/10.3133/ofr20161082. \n\nvan Genuchten, MTh., 1980. A closed-form equation for predicting the hydraulic conductivity of unsaturated soils: Soil Science Society America Journal, vol. 44, p. 892-898. \n\nWayllace, A., and Lu, N., 2012, A transient water release and imbibitions method for rapidly measuring wetting and drying soil water retention and hydraulic conductivity functions: Geotechnical Testing Journal, vol. 35, doi: 10.1520/GTJ103596.</abstract>\n <purpose>Data were collected to determine hydraulic and geotechnical properties of specimens collected in the field.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2016</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Landslides</themekey>\n <themekey>Geological Hazards</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5745b339e4b07e28b662c5a4</themekey>\n </theme>\n <place>\n <placekey>Mukilteo, Washington</placekey>\n </place>\n <place>\n <placekey>Puget Sound, Washington</placekey>\n </place>\n </keywords>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Benjamin Mirus</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1711 Illinois St.</address>\n <city>Golden</city>\n <state>CO</state>\n <postal>80401</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>3032738613</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Sound Transit</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <method>\n <methtype>n/a</methtype>\n </method>\n </lineage>\n </dataqual>\n <eainfo>\n <overview>\n <eaover>This data release includes the detailed results from laboratory testing of colluvium and landslide deposit specimens collected from coastal bluffs near Mukilteo, Washington. The specimens were collected as part of a larger effort to characterize the potential for shallow landslide initiation along the Puget Sound Railway corridor between the cities of Everett and Seattle. The details of the specimen collection and research objectives of the study are provided in: \xe2\x80\x9cAssessing Landslide Potential on Coastal Bluffs near Mukilteo, Washington\xe2\x80\x94Geologic Site Characterization for Hydrologic Monitoring\xe2\x80\x9d (http://dx.doi.org/10.3133/ofr20161082). Laboratory experiments includes test to estimate the following properties: specific gravity, porosity, bulk and grain densities, grain-size distributions, in situ volumetric water content, liquid and plastic limits, saturated hydraulic conductivity, water-retention and unsaturated hydraulic conductivity relations, and soil strength properties. The testing of the specimens was performed by Cooper Testing Labs Inc. in Palo Alto, California, and by York Lewis at Colorado School of Mines in Golden, Colorado. \nThe Transient Water Release and Imbibitions Method (TRIM) is described by Wallayce and Lu (2012) and all other testing procedures were conducted using ASTM standardized methods, which can be found through ASTM International. Note that the specific ASTM test numbers are provided in the headers of corresponding files and documents found in this data release, and also in the accompanying Open File Report.</eaover>\n <eadetcit>U.S. Geological Survey Open File Report 2016 #1082: http://dx.doi.org/10.3133/ofr20161082</eadetcit>\n <eadetcit>ASTM International Testing Library: https://www.astm.org/Standard/standards-and-publications.html</eadetcit>\n <eadetcit>Wallayce and Lu (2012): https://www.astm.org/DIGITAL_LIBRARY/JOURNALS/GEOTECH/PAGES/GTJ103596.htm</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Geospatial Datasets</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F7H13033</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Benjamin Mirus</cntper>\n <cntorg>U.S. Geological Survey Geologic Hazards Science Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Box 25046, M.S. 966</address>\n <city>Denver</city>\n <state>Colorado</state>\n <postal>80225-0046</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-273-8610</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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4. [Subsurface stratigraphic picks of the Middle–Upper Triassic Shublik Formation, Alaska North Slope](/catalog/folder/5e138050e4b0ecf25c53b38c)
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## Dates
Publication Date2020-02-13Time Period2020
## Citation
Rouse, W.A., Whidden, K.J., Dumoulin, J.A., and Houseknecht, D.W., 2020, Subsurface stratigraphic picks of the Middle–Upper Triassic Shublik Formation, Alaska North Slope: U.S. Geological Survey data release, https://doi.org/10.5066/P91O4B6R.
## Summary
The Middle–Upper Triassic Shublik Formation is the main source rock for Arctic Alaska oil and gas accumulations, including the supergiant Prudhoe Bay field. A revised stratigraphic framework recently has been developed in outcrop for the Shublik and related strata that delineates three large-scale stratigraphic units: 1) the lower clastic (LC) unit, 2) the middle carbonate-chert (MCC) unit, and 3) the upper clastic-carbonate (UCC) unit. The three stratigraphic units were interpreted to comprise five transgressive-regressive (T-R) sequences (LC1, MCC1, MCC2, MCC3, and UCC1). This outcrop-based framework has been extended to the subsurface of the Alaska North Slope using gamma-ray logs from 161 exploration wells. Subsurface stratigraphic \[...\]
## Summary
The Middle–Upper Triassic Shublik Formation is the main source rock for Arctic Alaska oil and gas accumulations, including the supergiant Prudhoe Bay field. A revised stratigraphic framework recently has been developed in outcrop for the Shublik and related strata that delineates three large-scale stratigraphic units: 1) the lower clastic (LC) unit, 2) the middle carbonate-chert (MCC) unit, and 3) the upper clastic-carbonate (UCC) unit. The three stratigraphic units were interpreted to comprise five transgressive-regressive (T-R) sequences (LC1, MCC1, MCC2, MCC3, and UCC1). This outcrop-based framework has been extended to the subsurface of the Alaska North Slope using gamma-ray logs from 161 exploration wells. Subsurface stratigraphic picks of the five T-R sequences within the Shublik Formation for each well are documented herein.
## Contacts
Point of Contact
:
[William A Rouse](/catalog/catalogParty/show?partyId=15751)
Originator
:
[William A Rouse](/catalog/catalogParty/show?partyId=15751),
[Katherine J Whidden](/catalog/catalogParty/show?partyId=16184),
[Julie A Dumoulin](/catalog/catalogParty/show?partyId=2745),
[David W Houseknecht](/catalog/catalogParty/show?partyId=4750)
Metadata Contact
:
[Eric A Morrissey](/catalog/catalogParty/show?partyId=7209)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
Distributor
:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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:
[Energy Resources Program](/catalog/catalogParty/show?partyId=17164)
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:
[Energy and Minerals](/catalog/catalogParty/show?partyId=Energy+and+Minerals)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5e138050e4b0ecf25c53b38c?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5e138050e4b0ecf25c53b38c?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5e138050e4b0ecf25c53b38c?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
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| Product\_10.5066P91O4B6R\_METADATA.xml<br>_Original FGDC Metadata_ | View | 15.7 KB | application/fgdc+xml |
| Shublik\_Tops.csv | | 17.08 KB | text/csv |
## Purpose
Data was compiled to facilitate correlation of depositional facies, map facies across the Alaska North Slope, and interpret likely geologic influences on Middle–Upper Triassic depositional patterns.
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## Provenance
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## Additional Information
### Identifiers
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| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P91O4B6R |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Rouse, William A.</origin>\n <origin>Whidden, Katherine J.</origin>\n <origin>Dumoulin, Julie A.</origin>\n <origin>Houseknecht, David W.</origin>\n <pubdate>20200213</pubdate>\n <title>Subsurface stratigraphic picks of the Middle\xe2\x80\x93Upper Triassic Shublik Formation, Alaska North Slope</title>\n <geoform>Tabular, spreadsheet, comma separated values (.csv) file format</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P91O4B6R</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The Middle\xe2\x80\x93Upper Triassic Shublik Formation is the main source rock for Arctic Alaska oil and gas accumulations, including the supergiant Prudhoe Bay field. A revised stratigraphic framework recently has been developed in outcrop for the Shublik and related strata that delineates three large-scale stratigraphic units: 1) the lower clastic (LC) unit, 2) the middle carbonate-chert (MCC) unit, and 3) the upper clastic-carbonate (UCC) unit. The three stratigraphic units were interpreted to comprise five transgressive-regressive (T-R) sequences (LC1, MCC1, MCC2, MCC3, and UCC1). This outcrop-based framework has been extended to the subsurface of the Alaska North Slope using gamma-ray logs from 161 exploration wells. Subsurface stratigraphic picks of the five T-R sequences within the Shublik Formation for each well are documented herein.</abstract>\n <purpose>Data was compiled to facilitate correlation of depositional facies, map facies across the Alaska North Slope, and interpret likely geologic influences on Middle\xe2\x80\x93Upper Triassic depositional patterns.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2020</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-166.15722655948</westbc>\n <eastbc>-142.86621093541</eastbc>\n <northbc>71.370969653229</northbc>\n <southbc>68.989768160257</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>stratigraphy</themekey>\n <themekey>gamma-ray logging</themekey>\n </theme>\n <theme>\n <themekt>USGS Energy Resources Thesaurus</themekt>\n <themekey>USGS</themekey>\n <themekey>U.S. Geological Survey</themekey>\n <themekey>Geology</themekey>\n <themekey>Oil</themekey>\n <themekey>Natural Gas</themekey>\n <themekey>Earth Science</themekey>\n <themekey>Natural Resources</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5e138050e4b0ecf25c53b38c</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>North Slope</placekey>\n <placekey>Alaska</placekey>\n </place>\n <stratum>\n <stratkt>USGS Geolex</stratkt>\n <stratkey>Shublik</stratkey>\n </stratum>\n <temporal>\n <tempkt>USGS Thesaurus: Time Periods</tempkt>\n <tempkey>Triassic</tempkey>\n </temporal>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>William Rouse</cntper>\n <cntorg>United States Geological Survey</cntorg>\n </cntperp>\n <cntpos>Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>12201 Sunrise Valley Drive, MS956</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>7036486423</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <crossref>\n <citeinfo>\n <origin>Rouse, William A.</origin>\n <origin>Whidden, Katherine J.</origin>\n <origin>Dumoulin, Julie A.</origin>\n <origin>Houseknecht, David W.</origin>\n <pubdate>2020</pubdate>\n <title>Surface to subsurface correlation of the Middle\xe2\x80\x93Upper Triassic Shublik Formation within a revised sequence stratigraphic framework</title>\n <pubinfo>\n <pubplace>Online</pubplace>\n <publish>AAPG Interpretation</publish>\n </pubinfo>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Accuracy of tops values in the dataset are dependent on well log sensor data readings and have not been validated relative to "true" values.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>All wells that penetrated the entire Triassic Shublik interval and contained gamma-ray log curves throughout the entirety of the interval were used.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>IHS</origin>\n <pubdate>2020</pubdate>\n <title>IHS Enerdeq Browser</title>\n <geoform>Excel Well Workbook</geoform>\n <pubinfo>\n <pubplace>Internet</pubplace>\n <publish>IHS Markit</publish>\n </pubinfo>\n <onlink>https://ihsmarkit.com/products/oil-gas-tools-enerdeq-browser.html</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19651011</begdate>\n <enddate>20120727</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>IHS Enerdeq Browser</srccitea>\n <srccontr>Well Header Information</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Tops were derived by manual interpretation and data entry using specified data sources.</procdesc>\n <procdate>2019</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>N/A</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.01</latres>\n <longres>0.01</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>North American Datum 1927</horizdn>\n <ellips>Clarke 1866</ellips>\n <semiaxis>6378206.4</semiaxis>\n <denflat>294.978698214</denflat>\n </geodetic>\n </horizsys>\n <vertdef>\n <depthsys>\n <depthdn>Measured depth</depthdn>\n <depthres>1.0</depthres>\n <depthdu>feet</depthdu>\n <depthem>Attribute values</depthem>\n </depthsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Shublik_Tops</enttypl>\n <enttypd>This table contains well header information with interpreted tops information.</enttypd>\n <enttypds>Producer Defined.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>API Number</attrlabl>\n <attrdef>Unique, permanent, numeric identifier assigned to every petroleum well in the United States according to the standards of the American Petroleum Institute</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <udom>Unique, permanent, numeric identifier.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>Surface location of well in latitude decimal degrees</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>69.39</rdommin>\n <rdommax>71.32</rdommax>\n <attrunit>Decimal Degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>Surface location of well in longitude decimal degrees</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-161.07</rdommin>\n <rdommax>-146.24</rdommax>\n <attrunit>Decimal Degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Operator Name</attrlabl>\n <attrdef>Name of operator that drilled the well</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <udom>Unique name</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lease Name</attrlabl>\n <attrdef>Name of lease where well was drilled. Asterisks denote wells with cored intervals in the Shublik Formation used to ground truth regional correlations.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <udom>Unique name</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Well Number</attrlabl>\n <attrdef>Number assigned by operator that drilled the well. Each operator used different system for labeling wells for organizational purposes.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <udom>Unique</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Elevation (feet)</attrlabl>\n <attrdef>Datum elevation in feet at well location from which formation top was measured using geophysical well log. The elevation is recorded on geophysical well log by logging company.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>7</rdommin>\n <rdommax>1501</rdommax>\n <attrunit>feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Elevation Reference</attrlabl>\n <attrdef>Description of reference elevation from which formation top was measured using geophysical well logs.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <edom>\n <edomv>GR</edomv>\n <edomvd>Ground</edomvd>\n <edomvds>Producer Defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>DF</edomv>\n <edomvd>Derrick floor</edomvd>\n <edomvds>Producer Defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>KB</edomv>\n <edomvd>Kelly bushing</edomvd>\n <edomvds>Producer Defined.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>ES</edomv>\n <edomvd>Estimated</edomvd>\n <edomvds>Producer Defined.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Top Shublik / UCC1 (feet)</attrlabl>\n <attrdef>Depth to top of the upper clastic-carbonate unit 1 of the Shublik Formation as measured from geophysical well log, in feet</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2265</rdommin>\n <rdommax>16490</rdommax>\n <attrunit>feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Top MCC3 (feet)</attrlabl>\n <attrdef>Depth to top of the middle carbonate-chert unit 3 of the Shublik Formation as measured from geophysical well log, in feet.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2694</rdommin>\n <rdommax>16705</rdommax>\n <attrunit>feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Top MCC2 (feet)</attrlabl>\n <attrdef>Depth to top of the middle carbonate-chert unit 2 of the Shublik Formation as measured from geophysical well log, in feet.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2696</rdommin>\n <rdommax>16860</rdommax>\n <attrunit>feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Top MCC1 (feet)</attrlabl>\n <attrdef>Depth to top of the middle carbonate-chert unit 1 of the Shublik Formation as measured from geophysical well log, in feet.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3504</rdommin>\n <rdommax>16973</rdommax>\n <attrunit>feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Top LC1 (feet)</attrlabl>\n <attrdef>Depth to top of the lower clastic unit 1 of the Shublik Formation as measured from geophysical well log, in feet.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3599</rdommin>\n <rdommax>14780</rdommax>\n <attrunit>feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Base Shublik (feet)</attrlabl>\n <attrdef>Depth to base of the Shublik Formation as measured from geophysical well log, in feet.</attrdef>\n <attrdefs>Producer Defined.</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2265</rdommin>\n <rdommax>17069</rdommax>\n <attrunit>feet</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <techpreq>The file contains data available in comma separated value (.csv) file format. The user must have software capable of opening and viewing a .csv file.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200819</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Eric A Morrissey</cntper>\n <cntorg>NORTHEAST REGION: EASTERN ENERGY RESOURCES SC</cntorg>\n </cntperp>\n <cntpos>Info Tech Spec (Internet)</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 956, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>703-648-6409</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2018Start Date2003End Date2009
## Citation
Munn, M.D., 2018, The quality of our Nation’s water—Understanding the influence of nutrients on stream ecosystems in agricultural landscapes—supplemental data: U.S. Geological Survey data release, https://doi.org/10.5066/F7QZ286J.
## Summary
This dataset includes water temperature and dissolved oxygen collected during July 2007 from Stalker Creek in Idaho. Data was collected at 3 minute intervals over several days.
## Summary
This dataset includes water temperature and dissolved oxygen collected during July 2007 from Stalker Creek in Idaho. Data was collected at 3 minute intervals over several days.
## Contacts
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[Mark D Munn](/catalog/catalogParty/show?partyId=7286)
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## Purpose
This report summarizes findings on processes that influence nutrients and how nutrient enrichment can alter biological communities in agricultural streams. These findings are relevant to local, state, regional, and national decision-makers involved in efforts to (1) better understand the influence of nutrients on agricultural streams, (2) develop nutrient criteria for streams and rivers, (3) reduce nutrients to streams and downstream receiving waters, and (4) develop tools for tracking nutrient and biological conditions following nutrient reduction strategies.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Mark D. Munn</origin>\n <pubdate>2018</pubdate>\n <title>Water temperature and dissolved oxygen data from Stalker Creek, Idaho, used in a USGS National Water Quality Project assessing nutrients in agricultural streams</title>\n <geoform>csv</geoform>\n <pubinfo>\n <pubplace>Tacoma, WA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7QZ286J</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Mark Munn</origin>\n <pubdate>2018</pubdate>\n <title>The quality of our Nation\xe2\x80\x99s water\xe2\x80\x94Understanding the influence of nutrients on stream ecosystems in agricultural landscapes\xe2\x80\x94supplemental data</title>\n <geoform>csv</geoform>\n <pubinfo>\n <pubplace>Tacoma, WA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7QZ286J</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset includes water temperature and dissolved oxygen collected during July 2007 from Stalker Creek in Idaho. Data was collected at 3 minute intervals over several days.</abstract>\n <purpose>This report summarizes findings on processes that influence nutrients and how nutrient enrichment can alter biological communities in agricultural streams. These findings are relevant to local, state, regional, and national decision-makers involved in efforts to (1) better understand the influence of nutrients on agricultural streams, (2) develop nutrient criteria for streams and rivers, (3) reduce nutrients to streams and downstream receiving waters, and (4) develop tools for tracking nutrient and biological conditions following nutrient reduction strategies.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>2003</begdate>\n <enddate>2009</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-120.49804687378</westbc>\n <eastbc>-72.158203125712</eastbc>\n <northbc>47.605868049157</northbc>\n <southbc>29.954555464249</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>freshwater ecosystems</themekey>\n <themekey>algae</themekey>\n <themekey>invertebrates</themekey>\n <themekey>agriculture</themekey>\n <themekey>ecosystem monitoring</themekey>\n </theme>\n <theme>\n <themekt>none</themekt>\n <themekey>stream</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5a4e7fa7e4b0d05ee8c663a6</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>United States of America</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Mark Munn</cntper>\n <cntorg>U.S. Geological Survey, Washington Water Science Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>934 Broadway, Suite 300</address>\n <city>Tacoma</city>\n <state>WA</state>\n <postal>98402</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>253-552-1686</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>U.S. Geological Survey</datacred>\n <crossref>\n <citeinfo>\n <origin>Munn, M.D.</origin>\n <origin>Frey, J.W.</origin>\n <origin>Tesoriero, A.J.</origin>\n <origin>Black, R.W.</origin>\n <origin>Duff, J.H.</origin>\n <origin>Lee, Kathy</origin>\n <origin>Maret, T.R.</origin>\n <origin>Mebane, C.E.</origin>\n <origin>Waite, I.R.</origin>\n <origin>Zelt, R.B.</origin>\n <pubdate>2018</pubdate>\n <title>The quality of our Nation\xe2\x80\x99s water\xe2\x80\x94Understanding the influence of nutrients on stream ecosystems in agricultural landscapes</title>\n <serinfo>\n <sername>Circular</sername>\n <issue>1437</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/cir1437</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>values were quality checked using standard USGS protocols</attraccr>\n </attracc>\n <logic>data accuracy checked</logic>\n <complete>Data set is considered complete</complete>\n <posacc>\n <horizpa>\n <horizpar>USGS Station ID</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>USGS station ID</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>continuous dissolved oxygen data was downloaded from YSI water quality meter and checked using standard USGS protocols</procdesc>\n <procdate>2010</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>USGS Site ID Numbers</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Stalkner_Creek_ID_DO</enttypl>\n <enttypd>concentrations of dissolved oxygen at Stalkner Creek, ID</enttypd>\n <enttypds>Mark Munn</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Station_ID</attrlabl>\n <attrdef>USGS Station ID</attrdef>\n <attrdefs>USGS National Water Information System</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>USGS Station ID</codesetn>\n <codesets>USGS National Water Information System</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>calendar date</attrdef>\n <attrdefs>calendar</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>calendar date</codesetn>\n <codesets>calendar</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Time</attrlabl>\n <attrdef>time of day, military time</attrdef>\n <attrdefs>time</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>military time</codesetn>\n <codesets>time</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Temp_C</attrlabl>\n <attrdef>water temperature in degrees C</attrdef>\n <attrdefs>YSI continuous water quality meter</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>C</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DO_mg/L</attrlabl>\n <attrdef>dissolved oxygen in mg per liter</attrdef>\n <attrdefs>values from YSI continuous water quality sensor</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>25</rdommax>\n <attrunit>mg per liter</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey -- ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Cenver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>No warranty expressed or implied is made regarding the accuracy or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. This disclaimer applies both to individual use of the data and aggregate use with other data.The U.S. Geological Survey shall not be held liable for improper or incorrect use of the data described and/or contained herein.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200827</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Mark Munn</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Ecologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>934 Broadway, Suite 300</address>\n <city>Tacoma</city>\n <state>WA</state>\n <postal>98402</postal>\n <country>Pierce</country>\n </cntaddr>\n <cntvoice>253-552-1686</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2018-01-26Start Date2016-06-15End Date2016-09-28
## Citation
Bessette-Kirton, E.K. and Coe, J.A., 2018, Pre- and post-event digital elevation models generated from high-resolution stereo satellite imagery of the 2016 Lamplugh rock avalanche in Glacier Bay National Park and Preserve, Alaska: U.S. Geological Survey data release, https://doi.org/10.5066/F7TT4Q4B.
## Summary
The use of high-resolution remotely sensed imagery can be an effective way to obtain quantitative measurements of rock-avalanche volumes and geometries in remote glaciated areas, both of which are important for an improved understanding of rock-avalanche characteristics and processes. We utilized the availability of high-resolution (~0.5 m) WorldView satellite stereo imagery to derive digital elevation data in a 100 km2 area around the 28 June 2016 Lamplugh rock avalanche in Glacier Bay National Park and Preserve, Alaska. We used NASA Ames Stereo Pipeline, an open-source software package available from NASA, to produce one pre- and four post-event digital elevation models (DEMs) of the area surrounding the Lamplugh rock avalanche. \[...\]
## Summary
The use of high-resolution remotely sensed imagery can be an effective way to obtain quantitative measurements of rock-avalanche volumes and geometries in remote glaciated areas, both of which are important for an improved understanding of rock-avalanche characteristics and processes. We utilized the availability of high-resolution (~0.5 m) WorldView satellite stereo imagery to derive digital elevation data in a 100 km2 area around the 28 June 2016 Lamplugh rock avalanche in Glacier Bay National Park and Preserve, Alaska. We used NASA Ames Stereo Pipeline, an open-source software package available from NASA, to produce one pre- and four post-event digital elevation models (DEMs) of the area surrounding the Lamplugh rock avalanche. This data release includes five raster elevation datasets (2-m resolution) in GeoTIFF format that have been orthrectified to the Universal Transverse Mercator (UTM) coordinate system (zone 7N). Elevations are measured in reference to the World Geodetic System 1984 (WGS84) ellipsoid. Because the study area is remote and difficult to access, ground control was not available to assess the absolute accuracy of DEMs. The DEMs have not been precisely co-registered. Data contained in this release include a pre-event DEM from 15 June 2016, and post-event DEMs from 16 July 2016, 27 August 2016, 27 September 2016, and 28 September 2016. The filenames for these DEMs are 20160615\_LamplughDEM.tif, 20160716\_LamplughDEM.tif, 20160827\_LamplughDEM.tif, 20160927\_LamplughDEM.tif, and 20160928\_LamplughDEM.tif, respectively. We also provide a CSV file (Lamplugh\_DEM\_Image\_Notes.csv) that contains the acquisition date, satellite platform, image identification number, resolution, off-nadir angle, and notes on image quality for each stereo pair used to generate DEMs.
## Contacts
Originator
:
[Erin K Bessette-Kirton](/catalog/catalogParty/show?partyId=71381),
[Jeffrey A Coe](/catalog/catalogParty/show?partyId=1927)
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:
[Geologic Hazards Science Center (GHSC) Data Steward](/catalog/catalogParty/show?partyId=Geologic+Hazards+Science+Center+%28GHSC%29+Data+Steward)
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:
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
SDC Data Owner
:
[Landslide Hazards Program](/catalog/catalogParty/show?partyId=17175)
USGS Mission Area
:
[Natural Hazards](/catalog/catalogParty/show?partyId=Natural+Hazards)
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| | | | |
| --- | --- | --- | --- |
| LamplughDEM\_FGDC.xml<br>_Original FGDC Metadata_ | View | 15.77 KB | application/fgdc+xml |
| Lamplugh\_DEM\_Image\_Notes.csv | | 1.01 KB | text/csv |
| 20160615\_LamplughDEM.zip | | 39.64 MB | application/zip |
| 20160716\_LamplughDEM.zip | | 31.57 MB | application/zip |
| 20160827\_LamplughDEM.zip | | 40.36 MB | application/zip |
| 20160927\_LamplughDEM.zip | | 9.02 MB | application/zip |
| 20160928\_LamplughDEM.zip | | 34.07 MB | application/zip |
## Purpose
The purpose of this data release is to present pre- and post-event DEMs of the 28 June 2016 Lamplugh rock avalanche in Glacier Bay National Park and Preserve, Alaska. The DEMs can be used to study topographic changes resulting from rock-avalanche failure and emplacement, ablation and entrainment of glacial ice, and compaction of the rock-avalanche deposit.
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## Communities
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## Associated Items
- _related to_ [Rock mass quality and structural geology observations in Glacier Bay National Park and Preserve, Alaska from the summers of 2021 and 2022](/catalog/item/6693fde2d34eab7a881cb610 "Rock mass quality and structural geology observations in Glacier Bay National Park and Preserve, Alaska from the summers of 2021 and 2022")
- _related_ [Slow-moving landslides and subsiding fan deltas mapped from Sentinel-1 InSAR in the Glacier Bay region, Alaska and British Columbia, 2018-2020](/catalog/item/623ca899d34e915b67d39648 "Slow-moving landslides and subsiding fan deltas mapped from Sentinel-1 InSAR in the Glacier Bay region, Alaska and British Columbia, 2018-2020")
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## Tags
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Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
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- [NASA Ames Stereo Pipeline](/catalog/items?q=&filter=tags%3DNASA+Ames+Stereo+Pipeline "NASA Ames Stereo Pipeline (NASA Ames Stereo Pipeline, Theme, None)")
- [Worldview satellite imagery](/catalog/items?q=&filter=tags%3DWorldview+satellite+imagery "Worldview satellite imagery (Worldview satellite imagery, Theme, None)")
- [digital elevation model](/catalog/items?q=&filter=tags%3Ddigital+elevation+model "digital elevation model (digital elevation model, Theme, None)")
- [landslide](/catalog/items?q=&filter=tags%3Dlandslide "landslide (landslide, Theme, )")
- [remote sensing](/catalog/items?q=&filter=tags%3Dremote+sensing "remote sensing (remote sensing, Theme, None)")
- [rock avalanche](/catalog/items?q=&filter=tags%3Drock+avalanche "rock avalanche (rock avalanche, Theme, None)")
- [stereogrammetry](/catalog/items?q=&filter=tags%3Dstereogrammetry "stereogrammetry (stereogrammetry, Theme, None)")
Place
- [Alaska](/catalog/items?q=&filter=tags%3DAlaska "Alaska (Alaska, Place, None)")
- [Glacier Bay National Park](/catalog/items?q=&filter=tags%3DGlacier+Bay+National+Park "Glacier Bay National Park (Glacier Bay National Park, Place, None)")
- [Lamplugh Glacier](/catalog/items?q=&filter=tags%3DLamplugh+Glacier "Lamplugh Glacier (Lamplugh Glacier, Place, None)")
## Provenance
## Additional Information
### Alternate Titles
### Identifiers
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| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F7TT4Q4B |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Erin K. Bessette-Kirton</origin>\n <origin>Jeffrey A. Coe</origin>\n <pubdate>20180130</pubdate>\n <title>Pre- and post-event digital elevation models generated from high-resolution stereo satellite imagery of the 2016 Lamplugh rock avalanche in Glacier Bay National Park and Preserve, Alaska</title>\n <geoform>Raster Digital Data Set</geoform>\n <onlink>https://doi.org/10.5066/F7TT4Q4B</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The use of high-resolution remotely sensed imagery can be an effective way to obtain quantitative measurements of rock-avalanche volumes and geometries in remote glaciated areas, both of which are important for an improved understanding of rock-avalanche characteristics and processes. We utilized the availability of high-resolution (~0.5 m) WorldView satellite stereo imagery to derive digital elevation data in a 100 km2 area around the 28 June 2016 Lamplugh rock avalanche in Glacier Bay National Park and Preserve, Alaska. We used NASA Ames Stereo Pipeline, an open-source software package available from NASA, to produce one pre- and four post-event digital elevation models (DEMs) of the area surrounding the Lamplugh rock avalanche. This data release includes five raster elevation datasets (2-m resolution) in GeoTIFF format that have been orthrectified to the Universal Transverse Mercator (UTM) coordinate system (zone 7N). Elevations are measured in reference to the World Geodetic System 1984 (WGS84) ellipsoid. Because the study area is remote and difficult to access, ground control was not available to assess the absolute accuracy of DEMs. The DEMs have not been precisely co-registered. Data contained in this release include a pre-event DEM from 15 June 2016, and post-event DEMs from 16 July 2016, 27 August 2016, 27 September 2016, and 28 September 2016. The filenames for these DEMs are 20160615_LamplughDEM.tif, 20160716_LamplughDEM.tif, 20160827_LamplughDEM.tif, 20160927_LamplughDEM.tif, and 20160928_LamplughDEM.tif, respectively. We also provide a CSV file (Lamplugh_DEM_Image_Notes.csv) that contains the acquisition date, satellite platform, image identification number, resolution, off-nadir angle, and notes on image quality for each stereo pair used to generate DEMs.</abstract>\n <purpose>The purpose of this data release is to present pre- and post-event DEMs of the 28 June 2016 Lamplugh rock avalanche in Glacier Bay National Park and Preserve, Alaska. The DEMs can be used to study topographic changes resulting from rock-avalanche failure and emplacement, ablation and entrainment of glacial ice, and compaction of the rock-avalanche deposit.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20160615</begdate>\n <enddate>20160928</enddate>\n </rngdates>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>rock avalanche</themekey>\n <themekey>Worldview satellite imagery</themekey>\n <themekey>stereogrammetry</themekey>\n <themekey>digital elevation model</themekey>\n <themekey>remote sensing</themekey>\n <themekey>NASA Ames Stereo Pipeline</themekey>\n <themekey>landslide</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5a132005e4b0738ee13026be</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Alaska</placekey>\n <placekey>Glacier Bay National Park and Preserve</placekey>\n <placekey>Lamplugh Glacier</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>None. Users are advised to read the data set's metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, NORTHWEST REGION</cntorg>\n <cntper>Erin K Bessette-Kirton</cntper>\n </cntorgp>\n <cntpos>Physical Scientist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop MS 966, Box 25046</address>\n <address>Denver Federal Center</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>303-273-8604</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.3.1 (Build 4959) Service Pack N/A (Build N/A)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>DigitalGlobe, Inc.</origin>\n <pubdate>2016</pubdate>\n <title>WorldView Satellite Imagery</title>\n <geoform>Raster Digital Data (Aerial Imagery)</geoform>\n <pubinfo>\n <pubplace>https://evwhs.digitalglobe.com</pubplace>\n <publish>DigitalGlobe, Inc.</publish>\n </pubinfo>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20160615</begdate>\n <enddate>20160928</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Source Input 1</srccitea>\n <srccontr>Source information used in support of the development of the data set.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>We used NASA Ames Stereo Pipeline (ASP) to generate DEMs of a 100 square km area around the Lamplugh rock avalanche during the period from June to October, 2016. ASP is a semi-automated, open-source stereogrammetry software that is capable of generating DEMs from high-resolution satellite imagery [Beyer et al., 2016]. We used ASP Version 2.5.3 to generate high-resolution (2m) DEMs from Basic Level 1B (radiometrically and sensor-corrected) WorldView-1, 2, and 3 panchromatic stereo images, which are available from Digital Globe, Inc. The generalized workflow used to generate DEMs in ASP is described below and consists of the following steps: 1) image pre-processing and pre-alignment, 2) stereo correlation, and 3) raster conversion. \n\nDuring pre-processing we used a function in ASP that is specific to WorldView imagery to correct for offsets between the sensors that are used concurrently to produce each image tile. We also used a built-in function to mosaic two or more individual image tiles that form a single scene. To pre-align the raw stereo images we orthorectified each image to a 30-m resolution DEM from the Shuttle Radar Topography Mission (SRTM) 1 Arc-Second Global elevation dataset (entity ID: SRTM1N58W137V3, available from https://earthexplorer.usgs.gov). SRTM elevations are measured in reference to the Earth Gravitational Model 1996 (EGM96) geoid. Since the pre-alignment function in ASP requires a reference DEM with elevation values measured with respect to an ellipsoid, we used a built-in function to transform the SRTM elevation values to the WGS84 ellipsoid. ASP uses the rational polynomial coefficients (RPCs) from each image in conjunction with pre-existing elevation data to orthorectify Basic Level 1B images. This step reduces the amount of time needed to search for matching points in the source images during stereo correlation and improves the quality of results, especially in areas of steep terrain [Beyer et al., 2016]. \n\nASP uses image matching and triangulation during stereo correlation to produce a point cloud of elevation values. Several refinement algorithms (referred to as \xe2\x80\x9cmodes\xe2\x80\x9d of subpixel refinement) are available for use in ASP during image matching. We used subpixel-mode 2 to produce all DEMs since it is recommended for scientific analyses and can improve results in areas with steep topography [Shean et al., 2016]. During triangulation, the camera models associated with each stereo pair are used to calculate elevation values for points by reconstructing three-dimensional locations in space from the intersection of individual camera rays [Beyer et al., 2016]. \n\nDuring post-processing, the point cloud of elevation values created during stereo correlation is converted to a gridded DEM. Beyer et al. [2016] recommend that the output DEM resolution be at least three times coarser than that of the input imagery since the reliability of pixel matching is improved over an area larger than that of an individual cell. Since Digital Globe panchromatic images have an input resolution of approximately 0.5 meter, we produced DEMs with an output resolution of 2 m. The resulting raster elevation datasets can be used for processing and manipulation in geographic information system (GIS) platforms.\n\nBeyer, R., O., Alexandrov, S. McMichael, Z., Moratto, M.J. Broxton, A. Nefian, M. Hancher, M. Lundy, V. To, and L. Edwards (2016), The Ames Stereo Pipeline: NASA\xe2\x80\x99s Open Source Automated Stereogrammetry Software A part of the NASA NeoGeography Toolkit Version 2.5.3, Intelligent Robotics Group, NASA Ames Research Center, https://byss.arc.nasa.gov/stereopipeline/binaries/asp_book-2.5.3.pdf.\n\nShean, D.E., O. Alexandrov, Z.M. Moratto, B.E. Smith, I.R. Joughin, C. Porter, and P, Morin (2016), An automated, open-source pipeline for mass production of digital elevation models (DEMs) from very-high-resolution commercial stereo satellite imagery, ISPRS Journal of Photogrammetry and Remote Sensing, 116, 101-117, doi:10.1016/j.isprsjprs.2016.03.012.</procdesc>\n <procdate>2017</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Raster</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>7</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-141.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>row and column</plance>\n <coordrep>\n <absres>2.0</absres>\n <ordres>2.0</ordres>\n </coordrep>\n <plandu>Meter</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D_WGS_1984</horizdn>\n <ellips>WGS_1984</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Attribute Table</enttypl>\n <enttypd>Table containing attribute information associated with the data set.</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Value</attrlabl>\n <attrdef>Unknown</attrdef>\n <attrdefs>Producer defined</attrdefs>\n </attr>\n </detailed>\n <overview>\n <eaover>The entity and attribute information provided here describes the tabular data associated with the data set. Please review the detailed descriptions that are provided (the individual attribute descriptions) for information on the values that appear as fields/table entries of the data set.</eaover>\n <eadetcit>The entity and attribute information was generated by the individual and/or agency identified as the originator of the data set. Please review the rest of the metadata record for additional details and information.</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing</addrtype>\n <address>Denver Federal Center</address>\n <address>Building 810</address>\n <address>Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Although this information product, for the most part, is in the public domain, it also contains copyrighted materials as noted in the text. Permission to reproduce copyrighted items must be secured from the copyright owner whenever applicable. The data have been approved for release and publication by the U.S. Geological Survey (USGS). Although the data have been subjected to rigorous review and are substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, the data are released on the condition that neither the USGS nor the U.S. Government may be held liable for any damages resulting from authorized or unauthorized use. Although the data have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the display or utility of the data on any other system, or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The U.S. Geological Survey shall not be held liable for improper or incorrect use of the data described and/or contained herein. Users of the data are advised to read all metadata and associated documentation thoroughly to understand appropriate use and data limitations.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Raster Digital Data Set</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/F7TT4Q4B</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>GHSC Data Steward</cntper>\n <cntorg>U.S. Geological Survey, Geologic Hazards Science Center</cntorg>\n </cntperp>\n <cntpos>Open Data Policy coordinator</cntpos>\n <cntaddr>\n <addrtype>Physical</addrtype>\n <address>1711 Illinois Street</address>\n <city>Golden</city>\n <state>CO</state>\n <postal>80401</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>303-273-8500</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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## Dates
Publication Date2020-09-01Start Date2015-05-28End Date2015-10-22
## Citation
Bradley, P.M., Journey, C.A., Loftin, K.A., Rosen, B.H., and Romanok, K.M., 2020, Cyanotoxin Concentration and Phytoplankton Community Composition Data for Surface Water Samples Collected at Lake Mattamuskeet National Wildlife Refuge, North Carolina during summer 2015: U.S. Geological Survey data release, https://doi.org/10.5066/F7KK991B.
## Summary
Data release including concentrations of cyanotoxins and phytoplankton community composition data for water samples collected from the Lake Mattamuskeet National Wildlife Refuge in North Carolina during 2015.
## Summary
Data release including concentrations of cyanotoxins and phytoplankton community composition data for water samples collected from the Lake Mattamuskeet National Wildlife Refuge in North Carolina during 2015.
## Contacts
Point of Contact
:
[Celeste A Journey](/catalog/catalogParty/show?partyId=5243)
Originator
:
[Paul M Bradley](/catalog/catalogParty/show?partyId=1083),
[Celeste A Journey](/catalog/catalogParty/show?partyId=5243),
[Keith A Loftin](/catalog/catalogParty/show?partyId=6200),
[Barry H Rosen](/catalog/catalogParty/show?partyId=8791),
[Kristin M Romanok](/catalog/catalogParty/show?partyId=8768)
Metadata Contact
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[Paul M Bradley](/catalog/catalogParty/show?partyId=1083)
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| MATTAMUSKEET METADATA.xml<br>“METADATA”<br>_Original FGDC Metadata_ | View | 50.45 KB | application/fgdc+xml |
| MATTAMUSKEET CYANOBACTERIA.jpg<br>“MATTAMUSKEET CYANOBACTERIA (credit BH Rosen)” | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/58c2ce6de4b0f37a93ed8f2a?f=__disk__2b%2F79%2F69%2F2b79690bc6f5060b02c57df6a8611abaa1934c1c&width=150&height=110) | 1.43 MB | image/jpeg |
| MATTAMUSKEET DATA.csv<br>“DATA” | | 6.48 KB | text/csv |
## Purpose
Cyanotoxin Concentration and Phytoplankton Community Composition Data for Surface Water Samples Collected at Lake Mattamuskeet National Wildlife Refuge, North Carolina during summer 2015.
## Preview Image
![MATTAMUSKEET CYANOBACTERIA (credit BH Rosen)](http://sciencebase.gov/catalog/item/credit%20BH%20Rosen)
MATTAMUSKEET CYANOBACTERIA (credit BH Rosen)
## [Map](/catalog/item/imap/58c2ce6de4b0f37a93ed8f2a)
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## Communities
- USGS Data Release Products
## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
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- [Cylindrospermopsis raciborskii](/catalog/items?q=&filter=tags%3DCylindrospermopsis+raciborskii "Cylindrospermopsis raciborskii (Cylindrospermopsis raciborskii, Theme, USGS Thesaurus)")
- [cyanobacteria](/catalog/items?q=&filter=tags%3Dcyanobacteria "cyanobacteria (cyanobacteria, Theme, USGS Thesaurus)")
- [cyanotoxins](/catalog/items?q=&filter=tags%3Dcyanotoxins "cyanotoxins (cyanotoxins, Theme, USGS Thesaurus)")
- [cylindrospermopsins](/catalog/items?q=&filter=tags%3Dcylindrospermopsins "cylindrospermopsins (cylindrospermopsins, Theme, USGS Thesaurus)")
- [lake](/catalog/items?q=&filter=tags%3Dlake "lake (lake, Theme, USGS Thesaurus)")
Place
- [Lake Mattamuskeet National Wildlife Refuge](/catalog/items?q=&filter=tags%3DLake+Mattamuskeet+National+Wildlife+Refuge "Lake Mattamuskeet National Wildlife Refuge (Lake Mattamuskeet National Wildlife Refuge, Place, Geographic Names Information System)")
- [North Carolina](/catalog/items?q=&filter=tags%3DNorth+Carolina "North Carolina (North Carolina, Place, Geographic Names Information System)")
- [United States](/catalog/items?q=&filter=tags%3DUnited+States "United States (United States, Place, Geographic Names Information System)")
Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
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## Provenance
Data sourceInput directly
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/F7KK991B |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Paul M. Bradley</origin>\n <origin>Celeste A. Journey</origin>\n <origin>Keith A. Loftin</origin>\n <origin>Barry H. Rosen</origin>\n <origin>Kristin M. Romanok</origin>\n <pubdate>20200901</pubdate>\n <title>Cyanotoxin Concentration and Phytoplankton Community Composition Data for Surface Water Samples Collected at Lake Mattamuskeet National Wildlife Refuge, North Carolina during summer 2015</title>\n <geoform>Tabular</geoform>\n <pubinfo>\n <pubplace>Reston, Virginia</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7KK991B</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Data release including concentrations of cyanotoxins and phytoplankton community composition data for water samples collected from the Lake Mattamuskeet National Wildlife Refuge in North Carolina during 2015.</abstract>\n <purpose>Cyanotoxin Concentration and Phytoplankton Community Composition Data for Surface Water Samples Collected at Lake Mattamuskeet National Wildlife Refuge, North Carolina during summer 2015.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20150528</begdate>\n <enddate>20151022</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-76.327514648983</westbc>\n <eastbc>-76.052856445869</eastbc>\n <northbc>35.572092735608</northbc>\n <southbc>35.433463425344</southbc>\n </bounding>\n <descgeog>Lake Mattamuskeet National Wildlife Refuge</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>cyanotoxins</themekey>\n <themekey>cylindrospermopsins</themekey>\n <themekey>Cylindrospermopsis raciborskii</themekey>\n <themekey>lake</themekey>\n <themekey>cyanobacteria</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:58c2ce6de4b0f37a93ed8f2a</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Lake Mattamuskeet National Wildlife Refuge</placekey>\n <placekey>North Carolina</placekey>\n <placekey>United States</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Celeste A. Journey</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>720 Gracern Rd, Suite 129</address>\n <city>Columbia</city>\n <state>South Carolina</state>\n <postal>29210</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>803-750-6141</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>US Fish and Wildlife Service</datacred>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Algae</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2017</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Barry H. Rosen</origin>\n <origin>Ann St. Amand</origin>\n <pubdate>2015</pubdate>\n <title>Field and Laboratory Guide to Freshwater Cyanobacteria Harmful Algal Blooms for Native American and Alaska Native Communities</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.3133/ofr20151164</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <idref>\n <citeinfo>\n <origin>J. Komarek</origin>\n <pubdate>2013</pubdate>\n <title>S\xc3\xbcsswasserflora von Mitteleuropa. Cyanoprokaryota: 3rd part: heterocystous genera</title>\n <geoform>Tabular</geoform>\n <pubinfo>\n <pubplace>Heidelberg, Germany</pubplace>\n <publish>Springer</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <idref>\n <citeinfo>\n <origin>J. Komarek</origin>\n <origin>K. Anagnostidis</origin>\n <pubdate>1999</pubdate>\n <title>Cyanoprokaryota. 1. Chroococcales</title>\n <geoform>Tabular</geoform>\n <pubinfo>\n <pubplace>Heidelberg, Germany</pubplace>\n <publish>Spektrum, Akademischer Verlag</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <idref>\n <citeinfo>\n <origin>J. Komarek</origin>\n <origin>K. Anagnostidis</origin>\n <pubdate>2005</pubdate>\n <title>Cyanoprokaryota: 2 S\xc3\xbcsswasserflora von Mitteleuropa. Teil/2nd Part: Oscillatoriales</title>\n <geoform>Tabular</geoform>\n <pubinfo>\n <pubplace>Munchen, German</pubplace>\n <publish>Elsevier Spektrum Akademischer Verlag</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <idref>\n <citeinfo>\n <origin>J. Komarek</origin>\n <origin>J. Kastovsky</origin>\n <origin>J. Mar</origin>\n <origin>J.R. Johansen</origin>\n <pubdate>2014</pubdate>\n <title>Taxonomic classification of cyanoprokaryotes (cyanobacterial genera) using a polyphasic approach</title>\n <geoform>Tabular</geoform>\n <pubinfo>\n <pubplace>Unknown</pubplace>\n <publish>Preslia</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <idref>\n <citeinfo>\n <origin>P. Wacklin</origin>\n <origin>L. Hoffmann</origin>\n <origin>J. Komarek</origin>\n <pubdate>2009</pubdate>\n <title>Nomenclatural validation of the genetically revised cyanobacterial genus\xc2\xa0Dolichospermum\xc2\xa0(Ralfs ex Bornet et Flahault) comb. nova</title>\n <geoform>Tabular</geoform>\n <pubinfo>\n <pubplace>Unknown</pubplace>\n <publish>Fottea</publish>\n </pubinfo>\n </citeinfo>\n </idref>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Barry H Rosen</cntper>\n <cntorg>SOUTHEAST REGION</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>12703 Research Parkway Suite 200</address>\n <city>Orlando</city>\n <state>FL</state>\n <postal>32826</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>407-803-5508</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>identification keys</taxonpro>\n <taxoncom>Aphanocapsa nibilum was identified to species, but remaining Aphanocapsa were not resolved to species; these unresolved species are identified as "Aphanocapsa species"\nTwo species of Stuarastrum were distinguished but not identified; these are denoted as Stuarastrum species 1 and species 2.</taxoncom>\n <vouchers>\n <specimen>photographs</specimen>\n <reposit>\n <cntinfo>\n <cntperp>\n <cntper>Barry H Rosen</cntper>\n <cntorg>SOUTHEAST REGION</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>12703 Research Parkway Suite 200</address>\n <city>Orlando</city>\n <state>FL</state>\n <postal>32826</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>407-803-5508</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </reposit>\n </vouchers>\n </taxonsys>\n <taxongen>All phytoplankton were identified to the level of genus.</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Nostocales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Oscillatoriaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Romeria</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Nostocales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Nostocaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Cylindrospermopsis</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Cylindrospermopsis raciborskii</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Chroococcales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Chroococcaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Aphanocapsa</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>nibilum</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Ecdysozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Arthropoda</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Hexapoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Insecta</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Pterygota</taxonrv>\n <taxoncl>\n <taxonrn>Infraclass</taxonrn>\n <taxonrv>Neoptera</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Paraneoptera</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Hemiptera</taxonrv>\n <taxoncl>\n <taxonrn>Suborder</taxonrn>\n <taxonrv>Heteroptera</taxonrv>\n <taxoncl>\n <taxonrn>Infraorder</taxonrn>\n <taxonrv>Pentatomomorpha</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Coreoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Coreidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Coreinae</taxonrv>\n <taxoncl>\n <taxonrn>Tribe</taxonrn>\n <taxonrv>Mictini</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Schroederia</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Chroococcales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Chroococcaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Chroococcus</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Chroococcales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Chroococcaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Merismopedia</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Chromista</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Harosa</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Halvaria</taxonrv>\n <taxoncl>\n <taxonrn>Superdivision</taxonrn>\n <taxonrv>Heterokonta</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Ochrophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bacillariophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Fragilariophycidae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Fragilariales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Fragilariaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Synedra</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Chromista</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Harosa</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Halvaria</taxonrv>\n <taxoncl>\n <taxonrn>Superdivision</taxonrn>\n <taxonrv>Heterokonta</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Ochrophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bacillariophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Bacillariophycidae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Bacillariales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Bacillariaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Nitzschia</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Chroococcales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Chroococcaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Aphanothece</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Aphanothece stagnina</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Protozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Euglenophycota</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Euglenophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Euglenales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Euglenaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Phacus</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Fungi</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Ascomycota</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Eurotiomycetes</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Onygenales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Onygenaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Chrysosporium</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>ovalisporum</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Chromista</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Harosa</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Halvaria</taxonrv>\n <taxoncl>\n <taxonrn>Superdivision</taxonrn>\n <taxonrv>Heterokonta</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Ochrophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bacillariophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Coscinodiscophycidae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Chaetocerotales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Acanthocerataceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Acanthoceras</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Chroococcales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Chroococcaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Microcystis</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Microcystis aeruginosa</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Charophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Conjugatophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Desmidiales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Desmidiaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Cosmarium</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Nostocales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Nostocaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Cylindrospermopsis</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Charophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Conjugatophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Desmidiales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Desmidiaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Staurastrum</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>2</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Charophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Conjugatophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Desmidiales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Desmidiaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Staurastrum</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>1</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Chlorophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Chlorophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Sphaeropleales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Scenedesmaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Desmodesmus</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Chlorophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Chlorophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Sphaeropleales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Hydrodictyaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Tetraedron</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Eubacteria</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Oscillatoriales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Gomontiellaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Komvophoron</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Charophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Conjugatophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Desmidiales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Closteriaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Closterium</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Eubacteria</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Synechococcales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Leptolyngbyaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Planktolyngbya</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>contorta</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Eubacteria</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Synechococcales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Coelosphaeriaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Snowella</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Eubacteria</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Nostocophycideae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Nostocales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Nostocaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Sphaerospermopsis</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>aphanizomenoides</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Chlorophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Chlorophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Sphaeropleales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Selenastraceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Ankistrodesmus</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Nostocales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Oscillatoriaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Planktothrix</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>limnetica</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Bacteria</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Negibacteria</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Cyanobacteria</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Cyanophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Chroococcales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Chroococcaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Aphanocapsa</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Chromista</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Miozoa</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Dinophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Peridiniales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Peridiniaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Peridinium</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Chlorophyta</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Chlorophyceae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Sphaeropleales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Selenastraceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Kirchneriella</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Table 1. Phytoplankton data collected from Lake Mattamuskeet National Wildlife Refuge during summer 2015.\nPhytoplankton samples from Mattamuskeet consisted of whole water samples collected by FWS at the locations listed in column 3 (Mattamuskeet East and West), on the dates and times specified in columns 5 and 6, respectivley. These samples were preserved with Lugol\xe2\x80\x99s (5%) brought to a medium strength tea color, and kept cold and in the dark after collection, transport and storage before processing. All samples were concentrated 10-fold by settling; 100 mL of sample of water from the original sample bottle was withdrawn after vigorous shaking to homogenize the sample. The 100 mL was poured directly into a glass, 100 mL graduated cylinder. The sample was allowed to settle for a minimum of 24 hours. The upper 90 mL was removed by aspiration; the remaining 10 mL was transferred to a 15 mL screw-cap sterile centrifuge tube and refrigerated until counted. To count a sample, the centrifuge tube was shaken vigorously until all the organisms were resuspended and a sample was withdrawn with a glass Pasteur pipet to fill a depth-calibrated nannoplankton counting chamber (PhycoTech, Inc.). The same chamber, with a known depth of 0.33 mm, was used for all samples. Cells were counted at 400x. Random fields were counted. Each field diameter was 0.549 mm, measured with a stage micrometer. With the depth of the chamber and the area of the field, the volume per field is calculated. Multiplying the number of fields counted by the volume of each field, the total volume examined and counted. Since these samples were concentrated 10-fold, the final calculation is divided by 10. Samples initially were observed and photographed using differential interference contrast microscopy using an Olympus BX-51 research microscope (Center Valley, Pa., USA) at 400x, equipped with an Olympus DP-71 digital camera and associate CellSen software. A micrometer (\xc2\xb5m) scale bar was imbedded the images. The accuracy of the imbedded scale was verified with a stage micrometer. Each column of the spreadsheet has a representative image fitted to the width of a column and when an organism is encountered during a count, the number encountered is recorded in that column and in the row that represents that sample. When observing a field (circular), organisms completely within the field are counted; others hang over the \xe2\x80\x9cedge\xe2\x80\x9d of the field. The protocol followed for these counts: split in two, with those organisms from 12-6 (left side of the circle) that hang over being counted, and those that hang over on the left side are ignored. Biovolume of the dominant organisms was determined by measuring the length and width of the cells or filaments utilizing the line measuring tool associated with the camera software. The appearance of the cells or filaments are used to select the most accurate geometric shape, such as a filament being a cylinder. The measurements then provide the data for the variables in the geometric formula. With the number of cells or natural units counted and adjusted for the concentration factor, simple multiplication provides the biovolume of that organism per liter.</procdesc>\n <procdate>20170310</procdate>\n </procstep>\n <procstep>\n <procdesc>Table 1. Cyanotoxin concentration data collected from Lake Mattamuskeet National Wildlife Refuge during summer 2015. Cyanotoxin samples were collected in 500 mL high density polyethylene bottles, immediately placed on ice in the field, and shipped frozen overnight to the USGS Organic Geochemistry Research Laboratory (OGRL) in Lawrence, Kansas. Sample processing comprised 3 sequential freeze-thaw cycles to lyse cyanobacterial cells and release toxins into the dissolved phase, as described in "Graham, J.L., Loftin, K.L., Meyer, M.T., Ziegler, A.C., 2010. Cyanotoxin mixtures and taste-and-odor compounds in cyanobacterial blooms from the Midwestern United States. Environ. Sci. Technol. 44, 7361\xe2\x80\x937368". Concentrations of 14 cyanotoxins were quantified by direct injection, liquid chromatography tandem mass spectrometry mass spectrometry (LC/MS/MS), with laboratory reporting levels (LRL) ranging 0.01-0.10 \xc2\xb5g/L, as described in "Loftin, K.A., Graham, J.L., Hilborn, E.D., Lehmann, S.C., Meyer, M.T., Dietze, J.E., and Griffith, C.B., 2016, Cyanotoxins in inland lakes of the United States: Occurrence and potential recreational health risks in the EPA National Lakes Assessment 2007. Harmful Algae 56, p. 77-90. http://dx.doi.org/10.1016/j.hal.2016.04.001".</procdesc>\n <procdate>20170310</procdate>\n </procstep>\n <method>\n <methtype>Lab</methtype>\n <methdesc>Six monthly water-column phytoplankton/cyanotoxin grab samples were collected by the USFWS at Lake Mattamuskeet near the water surface of the East (USGS station number 0208458893) and West (USGS station number 0208458892) basin USGS monitoring stations from May to October 2015.</methdesc>\n </method>\n </lineage>\n </dataqual>\n <spref>\n <horizsys>\n <geograph>\n <latres>1.0E-4</latres>\n <longres>1.0E-4</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>NAD83</horizdn>\n <ellips>GRS 1980</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222101</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Mattamuskeet Data.csv</enttypl>\n <enttypd>Table 1. Phytoplankton and cyanotoxin data collected from Lake Mattamuskeet National Wildlife Refuge during summer 2015.</enttypd>\n <enttypds>USGS South Atlantic Water Science Center, Toxic Substances Hydrology Program</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Table 1. Mattamuskeet Data columns 1-6.</attrlabl>\n <attrdef>Sample information (NWIS Station Number, NWIS Station Name, Site ID, Sample Description, Collection Date (MM/DD/YY), Collection Time) for surface water samples collected from Lake Mattamuskeet National Wildlife Refuge during summer 2015.</attrdef>\n <attrdefs>USGS National Water Information System (NWIS)</attrdefs>\n <attrdomv>\n <udom>Producer defined.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Table 1. Mattamuskeet Data columns 7-36.</attrlabl>\n <attrdef>Phytoplankton community composition data (Cylindrospermopsis raciborskii (cells/mL), Cylindrospermopsis cf. catemaco (cells/mL), Total Cylindrospermospis Genus (cells/mL), Chrysosporum ovalisporum (cells/mL), Komvophoron species (cells/mL), Planktothrix limnetica (cells/mL), Planktolyngbya contorta (cells/mL), Romeria species (cells/mL), Aphanothece stagnina (cells/mL), Microcystis aeruginosa (cells/mL), Aphanocapsa nibilum (cells/mL), Aphanocapsa species (cells/mL), Chroococcus species (cells/mL), Snowella species (cells/mL), Merismopedia species (cells/mL), Sphaerospermopsis aphanizominoides (cells/mL), Acanthoscerus species (cells/mL), Nitzschia species (cells/mL), Synedra species (cells/mL), Cosmarium species (cells/mL), Desmodesmus species (cells/mL), Stuarastrum species1 (cells/mL), Tetraedron species (cells/mL), Ankistrodesmus species (cells/mL), Schroederia species (cells/mL), Stuarastrum species2 (cells/mL), Closterium species (cells/mL), Kirchneriella species (cells/mL), Phacus species (cells/mL), Peridinium species (cells/mL)) for surface water samples collected from Lake Mattamuskeet National Wildlife Refuge during summer 2015.</attrdef>\n <attrdefs>Rosen, B.H., and St. Amand, Ann, 2015, Field and laboratory guide to freshwater cyanobacteria harmful algal blooms for Native American and Alaska Native Communities: U.S. Geological Survey Open-File Report 2015\xe2\x80\x931164, 44 p., http://dx.doi.org/10.3133/ofr20151164.</attrdefs>\n <attrdomv>\n <udom>Producer defined.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Table 1. Mattamuskeet Data column 37.</attrlabl>\n <attrdef>Total cell density (cells/mL) for surface water samples collected from Lake Mattamuskeet National Wildlife Refuge during summer 2015.</attrdef>\n <attrdefs>Rosen, B.H., and St. Amand, Ann, 2015, Field and laboratory guide to freshwater cyanobacteria harmful algal blooms for Native American and Alaska Native Communities: U.S. Geological Survey Open-File Report 2015\xe2\x80\x931164, 44 p., http://dx.doi.org/10.3133/ofr20151164.</attrdefs>\n <attrdomv>\n <udom>Producer defined.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Table 1. Mattamuskeet Data columns 38-51.</attrlabl>\n <attrdef>Cyanotoxin concentration data (parameter name (P-code; units) as follows: Anatoxin-a (P68287; micrograms/L), Cylindrospermopsin (P52686; micrograms/L), Domoic acid (P52687; micrograms/L), Microcystin-LA (P52688; micrograms/L), Microcystin-RR (P52692; micrograms/L), Microcystin-LR (P63686; micrograms/L), Microcystin-LY (P52689; micrograms/L), Microcystin-LW (P52695; micrograms/L), Microcystin-LF (P52694; micrograms/L), Microcystin-HtYR (P52690; micrograms/L), Microcystin-WR (P62691; micrograms/L), Microcystin-YR (P52693; micrograms/L), Nodularin-R (P52696; micrograms/L), Okadaic acid (P52697; micrograms/L)) for surface water samples collected from Lake Mattamuskeet National Wildlife Refuge during summer 2015.</attrdef>\n <attrdefs>USGS National Water Information System (NWIS)</attrdefs>\n <attrdomv>\n <udom>Producer defined.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>United States Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Tabular Digital data</formname>\n <formvern>None</formvern>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/F7KK991B</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200901</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Paul M. Bradley</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Research Ecologist/Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>720 Gracern Road, Suite 129</address>\n <city>Columbia</city>\n <state>South Carolina</state>\n <postal>29210</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>803-750-6125</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2020-01-29Start Date2018-09-25End Date2018-10-10
## Citation
Hitt, N.P., Rogers, K.M., Snyder, C.D., and Dolloff, C.A., 2020, Video data for trout abundance estimation: U.S. Geological Survey data release, https://doi.org/10.5066/P9M8U8MN.
## Summary
Rapid advances in video technology are enabling new strategies for species abundance estimation. Here we provide estimates of fish abundance derived from video data collected in a series of stream pools in Shenandoah National Park, Virginia (n=41). Two 360-degree cameras were simultaneously used at each pool site where 15-minutes of underwater footage was collected. Environmental data are provided describing pool morphology, canopy cover, and fish cover (boulders, large woody debris, and undercut banks).
## Summary
Rapid advances in video technology are enabling new strategies for species abundance estimation. Here we provide estimates of fish abundance derived from video data collected in a series of stream pools in Shenandoah National Park, Virginia (n=41). Two 360-degree cameras were simultaneously used at each pool site where 15-minutes of underwater footage was collected. Environmental data are provided describing pool morphology, canopy cover, and fish cover (boulders, large woody debris, and undercut banks).
## Contacts
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[Nathaniel P Hitt](/catalog/catalogParty/show?partyId=12110),
[Aquatic Ecology Branch, LSC](/catalog/catalogParty/show?partyId=17187)
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[Craig D Snyder](/catalog/catalogParty/show?partyId=9695),
[C Andrew Dolloff](/catalog/catalogParty/show?partyId=C+Andrew+Dolloff)
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## Purpose
These data provide the basis for comparing video-derived estimates of fish abundance against other sampling methods (electrofishing and dive-count surveys).
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Nathaniel P Hitt</origin>\n <origin>Karli M Rogers</origin>\n <origin>Craig D Snyder</origin>\n <origin>C Andrew Dolloff</origin>\n <pubdate>20200129</pubdate>\n <title>Video data for trout abundance estimation</title>\n <geoform>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</geoform>\n <pubinfo>\n <pubplace>Kearneysville, WV</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9M8U8MN</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Rapid advances in video technology are enabling new strategies for species abundance estimation. Here we provide estimates of fish abundance derived from video data collected in a series of stream pools in Shenandoah National Park, Virginia (n=41). Two 360-degree cameras were simultaneously used at each pool site where 15-minutes of underwater footage was collected. Environmental data are provided describing pool morphology, canopy cover, and fish cover (boulders, large woody debris, and undercut banks).</abstract>\n <purpose>These data provide the basis for comparing video-derived estimates of fish abundance against other sampling methods (electrofishing and dive-count surveys).</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20180925</begdate>\n <enddate>20181010</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-78.78876999</westbc>\n <eastbc>-78.37117586</eastbc>\n <northbc>38.45962254</northbc>\n <southbc>38.19398662</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>videography</themekey>\n <themekey>field sampling</themekey>\n <themekey>freshwater ecosystems</themekey>\n <themekey>aquatic biology</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5e31d5e6e4b0a79317d80454</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Shenandoah National Park</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Nathaniel P Hitt</cntper>\n <cntorg>Northeast Region: AQUATIC ECOLOGY BR</cntorg>\n </cntperp>\n <cntpos>RESEARCH FISH BIOLOGIST</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>11649 Leetown Road</address>\n <city>Kearneysville</city>\n <state>WV</state>\n <postal>25430</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>304-724-4463</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>All data except for basin area, elevation and fish abundances were collected in the field as soon as video sampling was completed. Basin area and elevation were calculated using XTools in ArcGIS Pro and fish abundances were counted indoors following field collections.</procdesc>\n <procdate>20190211</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.6096</latres>\n <longres>0.6096</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>FishVid_DataRelease</enttypl>\n <enttypd>Brook trout abundance data and contributing covariates used to explain brook trout abundance</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Watershed</attrlabl>\n <attrdef>The watershed where brook trout video samples were collected in Shenandoah National Park.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Paine</edomv>\n <edomvd>The video sample was collected in Paine Run watershed.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Staunton</edomv>\n <edomvd>The video sample was collected in Staunton River watershed.</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SiteID</attrlabl>\n <attrdef>The individual identification code given to each sample pool.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A unique code given to each sample pool.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lat</attrlabl>\n <attrdef>The latitude coordinates in decimal degrees (GCS WGS 1984)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>38.19398662</rdommin>\n <rdommax>38.45962254</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Lon</attrlabl>\n <attrdef>The longitude coordinates in decimal degrees (GCS WGS 1984)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-78.78876999</rdommin>\n <rdommax>-78.37117586</rdommax>\n <attrunit>decimal degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>A_V_mNi</attrlabl>\n <attrdef>The number of adult (Age 1+) brook trout observed within one sampled pool site using two 360-degree cameras</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>21</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>A_V_mN_SR</attrlabl>\n <attrdef>The number of adult (Age 1+) brook trout observed within one sampled pool site using one 360-degree camera from stream right (SR)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>7</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Data not available</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>A_V_mN_SL</attrlabl>\n <attrdef>The number of adult (Age 1+) brook trout observed within one sampled pool site using one 360-degree camera from stream left (SL)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>16</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Data not available</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>A_EF</attrlabl>\n <attrdef>The estimate of adult (Age 1+) brook trout within one sampled pool site using a 3-pass electrofishing removal method (Carl-Straub).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>15</rdommax>\n <attrunit>number of individuals estimated</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>A_EF_p1</attrlabl>\n <attrdef>The number of adult (Age 1+) brook trout observed within one sampled pool site using one-pass electrofishing methods.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>10</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>A_D</attrlabl>\n <attrdef>The number of adult (Age 1+) brook trout observed within one sampled pool site using snorkeling methods.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>25</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y_V_mNi</attrlabl>\n <attrdef>The number of young-of-year brook trout observed within one sampled pool site using two 360-degree cameras</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y_V_mN_SR</attrlabl>\n <attrdef>The number of young-of-year brook trout observed within one sampled pool site using one 360-degree camera from stream right (SR)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>3</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Data not available</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y_V_mN_SL</attrlabl>\n <attrdef>The number of young-of-year brook trout observed within one sampled pool site using one 360-degree camera from stream left (SL)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>5</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Data not available</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y_EF</attrlabl>\n <attrdef>The estimate of young-of-year brook trout within one sampled pool site using a 3-pass electrofishing removal method (Carl-Straub).</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>21</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y_EF_p1</attrlabl>\n <attrdef>The number of young-of-year brook trout observed within one sampled pool site using one-pass electrofishing methods.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>9</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y_D</attrlabl>\n <attrdef>The number of young-of-year brook trout observed within one sampled pool site using snorkeling methods.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>10</rdommax>\n <attrunit>number of individuals observed</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CamsVisible</attrlabl>\n <attrdef>A response to whether or not the second pool camera is visible in each video sample.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Yes</edomv>\n <edomvd>The second camera is visible</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>No</edomv>\n <edomvd>The second camera is not visible</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NA</edomv>\n <edomvd>Data not available</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CanopyPer</attrlabl>\n <attrdef>The percentage of canopy cover over a pool site collected with a spherical crown densiometer</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>70.6200</rdommin>\n <rdommax>97.2225</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BouldersPer</attrlabl>\n <attrdef>The percentage of boulders estimated within a pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>90</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>UCBanksPer</attrlabl>\n <attrdef>The percentage of undercut banks estimated within a pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>40</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>LWDPer</attrlabl>\n <attrdef>The percentage of large woody debris (LWD) estimated within a pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>35</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>StreamWetWidth_m</attrlabl>\n <attrdef>The maximum stream wetted width (in meters) of a sampled pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3.2</rdommin>\n <rdommax>10.7</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PoolMaxDepth_m</attrlabl>\n <attrdef>The maximum stream depth (in meters) of a sampled pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.19</rdommin>\n <rdommax>1.31</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PoolMaxWidth_m</attrlabl>\n <attrdef>The maximum pool width (in meters) of a sampled pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.0</rdommin>\n <rdommax>6.9</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PoolMaxLength_m</attrlabl>\n <attrdef>The maximum stream length (in meters) of a sampled pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.6</rdommin>\n <rdommax>17.7</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>RCD_cm</attrlabl>\n <attrdef>The stream riffle crest depth (in centimeters) of a sampled pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>14</rdommin>\n <rdommax>50</rdommax>\n <attrunit>centimeters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>UBA_ha</attrlabl>\n <attrdef>The upper basin area (in hectares) of a specific pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>82.8</rdommin>\n <rdommax>1068.9</rdommax>\n <attrunit>hectares</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Elev_m</attrlabl>\n <attrdef>The elevation (in meters) of a specific pool site</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>311</rdommin>\n <rdommax>546</rdommax>\n <attrunit>meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>Date of pool sampling</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>9/25/2018</rdommin>\n <rdommax>10/10/2018</rdommax>\n <attrunit>Date</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Time</attrlabl>\n <attrdef>Start time of 15-minute video sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>8:09:16 AM</rdommin>\n <rdommax>4:06:43 PM</rdommax>\n <attrunit>Eastern Standard Time</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Distributor assumes no liability for misuse of data. No warranty expressed or implied is made by the USGS regarding the use of the data on any other system, nor does the act of distribution constitute any such warranty</distliab>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Nathaniel P Hitt</cntper>\n <cntorg>Northeast Region: AQUATIC ECOLOGY BR</cntorg>\n </cntperp>\n <cntpos>RESEARCH FISH BIOLOGIST</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>11649 Leetown Road</address>\n <city>Kearneysville</city>\n <state>WV</state>\n <postal>25430</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>304-724-4463</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2021-04-02Time Period1970Time Period2020
## Citation
Andersen, A.K., Olinger, D.A., Navarra, A.M., and Howard, C.K., 2021, Lithogeochemistry and images of selected drill core samples from the Mineral Hill alkaline complex, Wyoming: U.S. Geological Survey data release, https://doi.org/10.5066/P94E59KF.
## Summary
This data release contains analytical data and images for a suite of drill core samples from the Mineral Hill alkaline complex (MHAC), northeastern Wyoming. Geochemistry data include major and trace element analytical results for 103 alkaline igneous rock samples. Images include hand sample photographs of halved core and full thin section images captured in transmitted, plane-polarized and cross-polarized light. Samples are from two core holes drilled by Humble Oil Company in 1970, and subsequently acquired and stored by Felix Mutschler at Eastern Washington University. The two skeletonized (incomplete) drill cores were acquired by the U.S. Geological Survey Geology, Minerals, Energy, and Geophysics Spokane office in 2019, through \[...\]
## Summary
This data release contains analytical data and images for a suite of drill core samples from the Mineral Hill alkaline complex (MHAC), northeastern Wyoming. Geochemistry data include major and trace element analytical results for 103 alkaline igneous rock samples. Images include hand sample photographs of halved core and full thin section images captured in transmitted, plane-polarized and cross-polarized light. Samples are from two core holes drilled by Humble Oil Company in 1970, and subsequently acquired and stored by Felix Mutschler at Eastern Washington University. The two skeletonized (incomplete) drill cores were acquired by the U.S. Geological Survey Geology, Minerals, Energy, and Geophysics Spokane office in 2019, through a co-operative agreement with Eastern Washington University. The collection contains full-core pieces from select intervals representative of the different lithologies and textures in the complex.
Mineral Hill is a Paleogene-age, ring-shaped, multi-phase alkaline (miaskitic) igneous complex that intrudes Precambrian schists and lower Paleozoic units of the Tinton uplift on the northwest flank of the broader Black Hills uplift (Welch, 1974; Ray, 1979). The outer ring of the complex is composed of foid syenite and compositionally similar rocks, whereas clinopyroxenite (jacupirangite) and other foid-bearing mafic rocks (ijolite and melteigite) form an irregular inner ring. The center of the complex is composed of a central feldspathic diatreme breccia pipe that exhibits pervasive potassic and sulfidic alteration (DeWitt and others, 1986). Alkali feldspar trachyte/latite porphyry is exposed as large masses in a steep-walled, columnar-jointed zone peripheral to foid syenite of the Mineral Hill dome and as high-angle sills within the central area (Ray, 1979). Alkalic lamprophyres throughout the complex are thought to be related to clinopyroxenite and may have formed from a volatile-rich fraction of the pyroxenite magma (Ray 1979). Pseudoleucite porphyry and melteigite/feldspathic ijolite may be variations of foid syenite and foid clinopyroxenite, respectively.
Historic mineral production in the area occurred between the 1870s and 1930s: principally alluvial gold, gold and silver at the Treadwell Mine, and gold and copper at the Interocean Mine. Exploration since 2000 has shown that gold and silver at the Treadwell Mine is related to epithermal-style mineralization and adularia-bearing potassic alteration (Eurasian Minerals Inc., 2016). Higher temperature, porphyry-style potassic alteration associated with gold and copper was identified near the Interocean Mine. Investigations of critical mineral potential in the area have focused on Precambrian pegmatites in the Tinton district which produced some cassiterite (Sn) and tantalite-columbite (Ta) ore, and the Spotted Tail and Sand Creek gold placers which produced some cassiterite (Sn) (Smith and Page, 1941; Hausel, 1990). The critical mineral potential of Paleogene intrusive rocks of the Mineral Hill complex has received comparatively little attention.
All samples were analyzed by the U.S. Geological Survey contract laboratory, AGAT Laboratories. Major and trace element concentrations were determined by wavelength dispersive X-ray fluorescence, inductively coupled plasma-optical emission spectrometry or inductively coupled plasma-mass spectrometry (ICP-MS). Additional analytical methods included determination of carbonate carbon by combustion and infrared detection (IR); gold, platinum and palladium by lead fusion fire assay and ICP-MS; fluoride by ion-selective electrode; ferrous iron by titration; non-essential and essential water by gravimetric methods; total sulfur by IR; and gold and platinum group elements by nickel sulfide fire-assay followed by instrumental neutron activation analysis. For each method outlined above, an acceptable criteria for the data has been identified based on 1) if recovery of each element is within a designated percentage at five times the lower limit of determination and 2) the calculated relative standard deviation of duplicate samples is no greater than that percentage.
Data are reported in a comma-separated values (CSV) file (Mineral\_Hill\_Drill\_Hole\_Geochemistry) that lists the samples that were analyzed, drill hole identification number, depth from drill hole collar, latitude/longitude location information, a designation for those samples with accompanying hand sample and thin section images, and brief lithologic descriptions of the samples. All column headings and abbreviations are explained in the accompanying data dictionary (Mineral\_Hill\_Drill\_Hole\_Geochemistry\_DataDictionary). Hand sample and thin section images are provided in separate folders for each drill hole.
References cited:
DeWitt, E., Redden, J.A., Wilson, A.B., Buscher, D., Dersch, J.S., 1986, Mineral resource potential and geology of the Black Hills National Forest, South Dakota and Wyoming: U.S. Geological Survey Bulletin 1580, 135 p.
Eurasian Minerals Inc., 2016, Eurasian Minerals Options Mineral Hill Property to Coeur Explorations, Inc., Eurasian Minerals Inc. News Release, October 27, 2016, Accessed January 11, 2021 at https://www.emxroyalty.com/site/assets/files/3675/2016-10-27-nr-emx-m77qyz.pdf.
Hausel, W.D., 1990, The Treadwell Gold-Silver Mine, Mineral Hill District, Crook County, Wyoming: Geological Survey of Wyoming Mineral Report 90-6, 4 p.
Holwell, D.A., Fiorentini, M., McDonald, I., Lu, Y., Giuliani, A., Smith, D.J., Keith, M., and Locmelis, M., 2019, A metasomatized lithospheric mantle control on the metallogenic signature of post-subduction magmatism: Nature Communications, v. 10, no. 3511, 10 p.
Ray, J.T., 1979, Petrology of the Cenozoic igneous rocks of the Tinton district, Black Hills, South Dakota–Wyoming: Grand Forks, University of North Dakota, M.S. Thesis, 115 p.
Smith, W.C., and Page, L.R., 1941, Tin-bearing pegmatites of the Tinton district, Lawrence County, South Dakota–a preliminary report: U.S. Geological Survey Bulletin 922-T, p. 595–630.
Welch, C.M., 1974, A preliminary report on the geology of the Mineral Hill area, Crook County, Wyoming: Rapid City, South Dakota School of Mines and Technology, M.S. Thesis, 83 p.
Werle, J.L., Ikramuddin, M., and Mutschler, F.E., 1984, Allard stock, La Plata Mountains, Colorado—an alkaline rock-hosted porphyry copper – precious metal deposit: Canadian Journal of Earth Sciences, v. 21, p. 630–641.
... show more ...
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| Mineral\_Hill\_Metadata.xml<br>_Original FGDC Metadata_ | View | 24.85 KB | application/fgdc+xml |
| Mineral\_Hill\_Drill\_Hole\_Geochemistry\_DataDictionary.csv | | 38.38 KB | text/csv |
| Mineral\_Hill\_Drill\_Hole\_Geochemistry.csv | | 65.18 KB | text/csv |
| Drillhole\_MHM\_2\_whole\_rock\_photos.zip | | 76.23 MB | application/zip |
| Drillhole\_MHM\_2\_thin\_section\_images.zip | | 18.35 MB | application/zip |
| Drillhole\_MHM\_1\_thin\_section\_images.zip | | 245.78 MB | application/zip |
| Drillhole\_MHM\_1\_whole\_rock\_photos.zip | | 548.74 MB | application/zip |
| Cross-polarized thin section image of jacupirangite cut by foid syenite vein.jpeg<br>“Cross-polarized thin section image of jacupirangite cut by foid syenite vein” | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/601b98c8d34edf5c66f0e6d1?f=__disk__e1%2F35%2Fa5%2Fe135a50fe100e11ceb32266e05d5b66f4ad07533&width=150&height=100) | 12.47 MB | image/jpeg |
| Cross-polarized thin section image of foid syenite-ijolite contact.jpeg<br>“Cross-polarized thin section image of foid syenite-ijolite contact” | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/601b98c8d34edf5c66f0e6d1?f=__disk__52%2Ffe%2Fcb%2F52fecb716189b407f82b2cb8752bc568436ce0e1&width=150&height=100) | 10.23 MB | image/jpeg |
## Purpose
The purpose of this study was to assess the critical mineral potential of Paleogene intrusive rocks of the MHAC and improve existing rock classifications based on petrography and geochemistry. The MHAC is located approximately 25 km east of the carbonatite-hosted rare-earth element (REE) deposit in the Bear Lodge alkaline complex, Wyoming. Paleogene intrusive rocks from the two complexes are similar in composition and diatreme breccia pipes are found at the center of both complexes. Drill core samples from Mineral Hill were examined for evidence of possible carbonatite intrusions and analyzed for REE content. The more mafic clinopyroxenite samples from drill hole MHM-2 were analyzed for REEs that might be hosted in the abundant apatite (~15 percent modal), and platinum-group elements that accompany copper sulfide mineralization in some alkaline porphyry-epithermal systems (Werle and others, 1984; Holwell and others, 2019). These data are made available for use in geologic, exploration, and environmental background studies.
## Preview Image
![Cross-polarized thin section image of jacupirangite cut by foid syenite vein](https://www.sciencebase.gov/catalog/file/get/601b98c8d34edf5c66f0e6d1?f=__disk__e1%2F35%2Fa5%2Fe135a50fe100e11ceb32266e05d5b66f4ad07533&width=580&height=387)
Cross-polarized thin section image of jacupirangite cut by foid syenite vein
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Allen K. Andersen</origin>\n <origin>Danielle A. Olinger</origin>\n <origin>Alexander M. Navarra</origin>\n <origin>Chelsi K. Howard</origin>\n <pubdate>20210402</pubdate>\n <title>Lithogeochemistry and images of selected drill core samples from the Mineral Hill alkaline complex, Wyoming</title>\n <geoform>spreadsheet and images</geoform>\n <pubinfo>\n <pubplace>Denver, Colorado</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <othercit>Additional information about Originators: Andersen, A.K., http://orcid.org/0000-0002-6865-2561; Olinger, D.A., http://orcid.org/0000-0001-8375-5852; Navarra, A.M., https://orcid.org/0000-0002-5948-4076; Howard, C.K., https://orcid.org/0000-0001-8278-5005.\n\nSuggested Citation: Andersen, A.K., Olinger, D.A., Navarra, A.M., and Howard, C.K., 2021, Lithogeochemistry and images of selected drill core samples from the Mineral Hill alkaline complex, Wyoming: U.S. Geological Survey data release, https://doi.org/10.5066/P94E59KF.</othercit>\n <onlink>https://doi.org/10.5066/P94E59KF</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release contains analytical data and images for a suite of drill core samples from the Mineral Hill alkaline complex (MHAC), northeastern Wyoming. Geochemistry data include major and trace element analytical results for 103 alkaline igneous rock samples. Images include hand sample photographs of halved core and full thin section images captured in transmitted, plane-polarized and cross-polarized light. Samples are from two core holes drilled by Humble Oil Company in 1970, and subsequently acquired and stored by Felix Mutschler at Eastern Washington University. The two skeletonized (incomplete) drill cores were acquired by the U.S. Geological Survey Geology, Minerals, Energy, and Geophysics Spokane office in 2019, through a co-operative agreement with Eastern Washington University. The collection contains full-core pieces from select intervals representative of the different lithologies and textures in the complex.\n\nMineral Hill is a Paleogene-age, ring-shaped, multi-phase alkaline (miaskitic) igneous complex that intrudes Precambrian schists and lower Paleozoic units of the Tinton uplift on the northwest flank of the broader Black Hills uplift (Welch, 1974; Ray, 1979). The outer ring of the complex is composed of foid syenite and compositionally similar rocks, whereas clinopyroxenite (jacupirangite) and other foid-bearing mafic rocks (ijolite and melteigite) form an irregular inner ring. The center of the complex is composed of a central feldspathic diatreme breccia pipe that exhibits pervasive potassic and sulfidic alteration (DeWitt and others, 1986). Alkali feldspar trachyte/latite porphyry is exposed as large masses in a steep-walled, columnar-jointed zone peripheral to foid syenite of the Mineral Hill dome and as high-angle sills within the central area (Ray, 1979). Alkalic lamprophyres throughout the complex are thought to be related to clinopyroxenite and may have formed from a volatile-rich fraction of the pyroxenite magma (Ray 1979). Pseudoleucite porphyry and melteigite/feldspathic ijolite may be variations of foid syenite and foid clinopyroxenite, respectively.\n\nHistoric mineral production in the area occurred between the 1870s and 1930s: principally alluvial gold, gold and silver at the Treadwell Mine, and gold and copper at the Interocean Mine. Exploration since 2000 has shown that gold and silver at the Treadwell Mine is related to epithermal-style mineralization and adularia-bearing potassic alteration (Eurasian Minerals Inc., 2016). Higher temperature, porphyry-style potassic alteration associated with gold and copper was identified near the Interocean Mine. Investigations of critical mineral potential in the area have focused on Precambrian pegmatites in the Tinton district which produced some cassiterite (Sn) and tantalite-columbite (Ta) ore, and the Spotted Tail and Sand Creek gold placers which produced some cassiterite (Sn) (Smith and Page, 1941; Hausel, 1990). The critical mineral potential of Paleogene intrusive rocks of the Mineral Hill complex has received comparatively little attention.\n\nAll samples were analyzed by the U.S. Geological Survey contract laboratory, AGAT Laboratories. Major and trace element concentrations were determined by wavelength dispersive X-ray fluorescence, inductively coupled plasma-optical emission spectrometry or inductively coupled plasma-mass spectrometry (ICP-MS). Additional analytical methods included determination of carbonate carbon by combustion and infrared detection (IR); gold, platinum and palladium by lead fusion fire assay and ICP-MS; fluoride by ion-selective electrode; ferrous iron by titration; non-essential and essential water by gravimetric methods; total sulfur by IR; and gold and platinum group elements by nickel sulfide fire-assay followed by instrumental neutron activation analysis. For each method outlined above, an acceptable criteria for the data has been identified based on 1) if recovery of each element is within a designated percentage at five times the lower limit of determination and 2) the calculated relative standard deviation of duplicate samples is no greater than that percentage. \n\nData are reported in a comma-separated values (CSV) file (Mineral_Hill_Drill_Hole_Geochemistry) that lists the samples that were analyzed, drill hole identification number, depth from drill hole collar, latitude/longitude location information, a designation for those samples with accompanying hand sample and thin section images, and brief lithologic descriptions of the samples. All column headings and abbreviations are explained in the accompanying data dictionary (Mineral_Hill_Drill_Hole_Geochemistry_DataDictionary). Hand sample and thin section images are provided in separate folders for each drill hole.\n\nReferences cited above:\n\nDeWitt, E., Redden, J.A., Wilson, A.B., Buscher, D., Dersch, J.S., 1986, Mineral resource potential and geology of the Black Hills National Forest, South Dakota and Wyoming: U.S. Geological Survey Bulletin 1580, 135 p.\n\nEurasian Minerals Inc., 2016, Eurasian Minerals Options Mineral Hill Property to Coeur Explorations, Inc., Eurasian Minerals Inc. News Release, October 27, 2016, Accessed January 11, 2021 at https://www.emxroyalty.com/site/assets/files/3675/2016-10-27-nr-emx-m77qyz.pdf.\n\nHausel, W.D., 1990, The Treadwell Gold-Silver Mine, Mineral Hill District, Crook County, Wyoming: Geological Survey of Wyoming Mineral Report 90-6, 4 p.\n\nRay, J.T., 1979, Petrology of the Cenozoic igneous rocks of the Tinton district, Black Hills, South Dakota\xe2\x80\x93Wyoming: Grand Forks, University of North Dakota, M.S. Thesis, 115 p.\n\nSmith, W.C., and Page, L.R., 1941, Tin-bearing pegmatites of the Tinton district, Lawrence County, South Dakota\xe2\x80\x93a preliminary report: U.S. Geological Survey Bulletin 922-T, p. 595\xe2\x80\x93630.\n\nWelch, C.M., 1974, A preliminary report on the geology of the Mineral Hill area, Crook County, Wyoming: Rapid City, South Dakota School of Mines and Technology, M.S. Thesis, 83 p.</abstract>\n <purpose>The purpose of this study was to assess the critical mineral potential of Paleogene intrusive rocks of the MHAC and improve existing rock classifications based on petrography and geochemistry. The MHAC is located approximately 25 km east of the carbonatite-hosted rare-earth element (REE) deposit in the Bear Lodge alkaline complex, Wyoming. Paleogene intrusive rocks from the two complexes are similar in composition and diatreme breccia pipes are found at the center of both complexes. Drill core samples from Mineral Hill were examined for evidence of possible carbonatite intrusions and analyzed for REE content. The more mafic clinopyroxenite samples from drill hole MHM-2 were analyzed for REEs that might be hosted in the abundant apatite (~15 percent modal), and platinum-group elements that accompany copper sulfide mineralization in some alkaline porphyry-epithermal systems (Werle and others, 1984; Holwell and others, 2019). These data are made available for use in geologic, exploration, and environmental background studies.\n\nReferences cited above:\n\nHolwell, D.A., Fiorentini, M., McDonald, I., Lu, Y., Giuliani, A., Smith, D.J., Keith, M., and Locmelis, M., 2019, A metasomatized lithospheric mantle control on the metallogenic signature of post-subduction magmatism: Nature Communications, v. 10, no. 3511, 10 p.\n\nWerle, J.L., Ikramuddin, M., and Mutschler, F.E., 1984, Allard stock, La Plata Mountains, Colorado\xe2\x80\x94an alkaline rock-hosted porphyry copper \xe2\x80\x93 precious metal deposit: Canadian Journal of Earth Sciences, v. 21, p. 630\xe2\x80\x93641.</purpose>\n <supplinf>Supplemental Information such as references, data structure, units, abbreviations, etc.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <mdattim>\n <sngdate>\n <caldate>1970</caldate>\n </sngdate>\n <sngdate>\n <caldate>2020</caldate>\n </sngdate>\n </mdattim>\n </timeinfo>\n <current>Drill core collection (1970), Geochemical analysis (2020)</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-104.08900</westbc>\n <eastbc>-104.06500</eastbc>\n <northbc>44.39300</northbc>\n <southbc>44.36200</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>geoscientificInformation</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>x-ray fluorescence</themekey>\n <themekey>geochemistry</themekey>\n <themekey>neutron activation analysis</themekey>\n <themekey>mass spectroscopy</themekey>\n <themekey>photography</themekey>\n <themekey>image collections</themekey>\n <themekey>core analysis</themekey>\n </theme>\n <theme>\n <themekt>none</themekt>\n <themekey>U.S. Geological Survey</themekey>\n <themekey>USGS</themekey>\n <themekey>Mineral Resource Program</themekey>\n <themekey>MRP</themekey>\n <themekey>Geology, Minerals, Energy, and Geophysics Science Center</themekey>\n <themekey>GMEG</themekey>\n <themekey>Geology, Geophysics, and Geochemistry Science Center</themekey>\n <themekey>GGGSC</themekey>\n <themekey>Inductively coupled plasma-optical emission spectrometry</themekey>\n <themekey>ICP-OES</themekey>\n <themekey>Inductively coupled plasma-mass spectrometry</themekey>\n <themekey>ICP-MS</themekey>\n <themekey>Fire assay</themekey>\n <themekey>Wavelength dispersive X-ray fluorescence</themekey>\n <themekey>WDXRF</themekey>\n <themekey>Whole-rock</themekey>\n <themekey>Major elements</themekey>\n <themekey>Trace elements</themekey>\n <themekey>Instrumental neutron activation analysis</themekey>\n <themekey>INAA</themekey>\n <themekey>Gold</themekey>\n <themekey>Au</themekey>\n <themekey>Platinum Group Elements</themekey>\n <themekey>PGEs</themekey>\n <themekey>Alkaline silicate rocks</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:601b98c8d34edf5c66f0e6d1</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Mineral Hill</placekey>\n </place>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Crook County</placekey>\n <placekey>Wyoming</placekey>\n <placekey>United States</placekey>\n </place>\n <stratum>\n <stratkt>Geolex</stratkt>\n <stratkey>Search the U.S. Geologic Names Lexicon here: https://ngmdb.usgs.gov/Geolex/search</stratkey>\n </stratum>\n <temporal>\n <tempkt>Geolex</tempkt>\n <tempkey>Search for geologic age terms here: https://ngmdb.usgs.gov/Geolex/search</tempkey>\n </temporal>\n </keywords>\n <accconst>None. Please see \'Distribution Info\' for details.</accconst>\n <useconst>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. Although these data have been processed successfully on a computer system at the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty. The USGS or the U.S. Government shall not be held liable for improper or incorrect use of the data described and/or contained herein.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Allen K. Andersen</cntper>\n <cntorg>U.S. Geological Survey, SOUTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Research Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>W 904 Riverside</address>\n <city>Spokane</city>\n <state>WA</state>\n <postal>99201</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>509-368-3115</cntvoice>\n <cntfax>509-368-3199</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>This research was funded by the U.S. Geological Survey Mineral Resources Program (MRP) and Geology, Minerals, Energy, and Geophysics Science Center (GMEG). We release this dataset in honor of the late Felix Mutschler, an Economic Geologist and faculty member at Eastern Washington University. We thank Cliff Taylor (USGS) and the Geology Department faculty at Eastern Washington University.</datacred>\n <native>tabular data, .CSV</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>The chemical data of this data set represent analyses of rock samples collected in support of mineral deposit research projects of the U.S. Geological Survey (USGS). Attribute fields and values were reviewed and checked for accuracy and consistency of terms. The geochemical data have been reviewed by the USGS MRP Analytical Chemistry Quality Assurance Specialist for accuracy and precision compared to reference materials with known concentrations.</attraccr>\n </attracc>\n <logic>Data were reviewed for consistency and analyses results were checked for validity and fidelity of relationships.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details. All data as part of this collection were included in this data release for the region and time period specified in this metadata.</complete>\n <posacc>\n <horizpa>\n <horizpar>Spatial locations for drill holes were determined from hand-held global positioning system (GPS) devices. Accuracy of reported latitude and longitude is to 0.001 decimal degrees.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted. Depths of core samples were written on each sample and initially measured from depth marker blocks present in the drill core boxes.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Core samples were retrieved from the Felix Mutschler collection housed at Eastern Washington University in Cheney, Washington. Available drill core was incomplete (skeletonized) with full-core pieces from select intervals representative of the different lithologies and textures. Samples were cut in half using a rock saw and those of sufficient size were submitted for multi-element analysis. \n\nPhotographs of hand samples were captured using a Nikon D3300 digital camera. Core halves on the left side of the images were dampened with water just before the image was captured. Core halves on the right were kept dry.\n\nStandard 27 mm x 46 mm thin sections were prepared by Spectrum Petrographics. The slides are not stained and do not have cover slips. Images of the thin sections were taken in transmitted, plane-polarized and cross-polarized light using a Canon EOS 6D DSLR camera fitted with a polarizing filter mounted above an internally illuminated Petrographic Analyzer with a polarizing filter designed by Macroscopic Solutions. Some samples have two thin sections: these are denoted using a "B" at the end of the image file name.</procdesc>\n <procdate>20200120</procdate>\n </procstep>\n <procstep>\n <procdesc>Samples were submitted to USGS MRP Analytical Chemistry Sample Control for preparation and analysis at the contract laboratory: AGAT Laboratories. Samples were analyzed via the following analytical methods: CO2 and carbonate carbon by combustion; gold, platinum, and palladium by fire assay and ICP-MS or ICP-OES; major and trace elements by ICP-OES or ICP-MS following a sodium peroxide sinter fusion; fluoride by ion-selective electrode; ferrous iron by titration; non-essential and essential water by gravimetric methods; total sulfur by infrared detection; major element oxides by wavelength dispersive X-ray fluorescence; and gold and platinum group elements by nickel sulfide fire-assay followed by INAA.\n\nResults undergo two levels of data validation: (1) the contract laboratory conducts quality control with every batch of samples sent to measure accuracy and precision and (2) all sample batches sent to the laboratory contain USGS in-house reference materials submitted at a rate of 10%, the results returned for the reference materials are compared to expected values for each element. Values must fall within the range of acceptance and relative standard deviation (RSD) at five times the lower limits of detection for the analytical methods. The acceptable accuracy and precision (RSD) is +/- 15% and 15%, respectively, for the carbonate carbon, the major and trace elements by ICP-OES and ICP-MS, the ferrous iron by titration, the non-essential and essential water, and the total sulfur methods. The acceptable accuracy and precision (RSD) is +/- 5% and 5%, respectively, for the wavelength dispersive X-ray fluorescence method. The acceptable accuracy and precision (RSD) is +/- 20% and 20%, respectively, for the fire assay and the ion-selective electrode methods.</procdesc>\n <procdate>20200120</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.001</latres>\n <longres>0.001</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>World Geodetic System 1984 (WGS 84)</horizdn>\n <ellips>WGS_84</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n <vertdef>\n <depthsys>\n <depthdn>Local surface</depthdn>\n <depthres>0.5</depthres>\n <depthdu>feet</depthdu>\n <depthem>Attribute values</depthem>\n </depthsys>\n </vertdef>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Mineral_Hill_Drill_Hole_Geochemistry.csv</enttypl>\n <enttypd>Table of descriptive attributes and geochemical analyses of rock samples\nfrom the Mineral Hill alkaline complex, northeast Wyoming.The user is referred to the data dictionary (Mineral_Hill_Drill_Hole_Geochemistry_DataDictionary.csv) for a more detailed explanation of column headings and analytical methods.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Mineral_Hill_Drill_Hole_Geochemistry_DataDictionary.csv</enttypl>\n <enttypd>Contains explanations of column headings and abbreviations for the specific methods used in geochemical analysis.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Drillhole_MHM_1_thin_section_images (.zip folder)</enttypl>\n <enttypd>Full thin section (27 x 46 mm) images (.jpg files) of select samples from drill hole MHM-1 taken in transmitted, plane-polarized and cross-polarized light. The file name of each thin section image correlates to the name and depth of the drill hole from which the thin section was sourced, and whether the photograph represents a plane-polarized (ppl) or cross-polarized (xpl) light image. For example, the " MHM-1-381_ppl.jpg" file is a plane-polarized image of the thin section sourced from drill hole MHM-1 at a depth of 381 feet.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Drillhole_MHM_1_whole_rock_photos (.zip folder)</enttypl>\n <enttypd>Photographs (.jpg files) of hand samples from drill hole MHM-1. Core halves on the left side of the images were dampened with water just before the image was captured. Core halves on the right were kept dry. The file name of each hand sample image correlates to the name of the drill hole and the depth (in feet) at which the sample was taken.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Drillhole_MHM_2_thin_section_images (.zip folder)</enttypl>\n <enttypd>Full thin section (27 x 46 mm) images (.jpg files) of select samples from drill hole MHM-2 taken in transmitted, plane-polarized and cross-polarized light. The file name of each thin section image correlates to the name and depth of the drill hole from which the thin section was sourced, and whether the photograph represents a plane-polarized (ppl) or cross-polarized (xpl) light image. For example, the " MHM-1-381_ppl.jpg" file is a plane-polarized image of the thin section sourced from drill hole MHM-1 at a depth of 381 feet.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Drillhole_MHM_2_whole_rock_photos (.zip folder)</enttypl>\n <enttypd>Photographs (.jpg files) of hand samples from drill hole MHM-2. Core halves on the left side of the images were dampened with water just before the image was captured. Core halves on the right were kept dry. The file name of each hand sample image correlates to the name of the drill hole and the depth (in feet) at which the sample was taken.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Building 810, Mail Stop 302, Denver Federal Center</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>https://www.sciencebase.gov/catalog/item/XXXXXXXXXXXXXXXX (or DOI)</resdesc>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P94E59KF</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>No fees.</fees>\n </stdorder>\n <techpreq>Describe any technical prerequisites required for reading the data</techpreq>\n </distinfo>\n <metainfo>\n <metd>20210402</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Allen K. Andersen</cntper>\n <cntorg>U.S. Geological Survey, SOUTHWEST REGION</cntorg>\n </cntperp>\n <cntpos>Research Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>W 904 Riverside</address>\n <city>Spokane</city>\n <state>WA</state>\n <postal>99201</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>509-368-3115</cntvoice>\n <cntfax>509-368-3199</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Dates
Publication Date2021-06-15Time Period2007Release Date2007
## Citation
United States Geological Survey, 2007, National Assessment of Oil and Gas Project - Illinois Basin Province (064) Assessment Units: U.S. Geological Survey data release, https://doi.org/10.5066/P97QPC2M.
## Summary
The Assessment Unit is the fundamental unit used in the National Assessment Project for the assessment of undiscovered oil and gas resources. The Assessment Unit is defined within the context of the higher-level Total Petroleum System. The Assessment Unit is shown here as a geographic boundary interpreted, defined, and mapped by the geologist responsible for the province and incorporates a set of known or postulated oil and (or) gas accumulations sharing similar geologic, geographic, and temporal properties within the Total Petroleum System, such as source rock, timing, migration pathways, trapping mechanism, and hydrocarbon type. The Assessment Unit boundary is defined geologically as the limits of the geologic elements that define \[...\]
## Summary
The Assessment Unit is the fundamental unit used in the National Assessment Project for the assessment of undiscovered oil and gas resources. The Assessment Unit is defined within the context of the higher-level Total Petroleum System. The Assessment Unit is shown here as a geographic boundary interpreted, defined, and mapped by the geologist responsible for the province and incorporates a set of known or postulated oil and (or) gas accumulations sharing similar geologic, geographic, and temporal properties within the Total Petroleum System, such as source rock, timing, migration pathways, trapping mechanism, and hydrocarbon type. The Assessment Unit boundary is defined geologically as the limits of the geologic elements that define the Assessment Unit, such as limits of reservoir rock, geologic structures, source rock, and seal lithologies. The only exceptions to this are Assessment Units that border the Federal-State water boundary. In these cases, the Federal-State water boundary forms part of the Assessment Unit boundary.
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## Purpose
The purpose of these files is to define and illustrate the geographic limit and geologic boundaries of the Assessment Units within the defined Total Petroleum Systems, as required for the USGS National Assessment of Oil and Gas Project. The Assessment Units were used as the fundamental units for the assessment of undiscovered oil and gas. The assessment unit boundaries define the combined geologic limits of each Assessment Unit and are described and defined in the text portions of this assessment publication.
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- [50640308 = Lower Mississippian Carbonates](/catalog/items?q=&filter=tags%3D50640308+%3D+Lower+Mississippian+Carbonates "50640308 = Lower Mississippian Carbonates (50640308 = Lower Mississippian Carbonates, Place, USGS Oil and Gas Assessment Units (NOGA-2000))")
- [50640309 = Upper Mississippian Sandstones](/catalog/items?q=&filter=tags%3D50640309+%3D+Upper+Mississippian+Sandstones "50640309 = Upper Mississippian Sandstones (50640309 = Upper Mississippian Sandstones, Place, USGS Oil and Gas Assessment Units (NOGA-2000))")
- [50640310 = Pennsylvanian Sandstones](/catalog/items?q=&filter=tags%3D50640310+%3D+Pennsylvanian+Sandstones "50640310 = Pennsylvanian Sandstones (50640310 = Pennsylvanian Sandstones, Place, USGS Oil and Gas Assessment Units (NOGA-2000))")
- [50640311 = Upper Silurian Calcareous Siltstones](/catalog/items?q=&filter=tags%3D50640311+%3D+Upper+Silurian+Calcareous+Siltstones "50640311 = Upper Silurian Calcareous Siltstones (50640311 = Upper Silurian Calcareous Siltstones, Place, USGS Oil and Gas Assessment Units (NOGA-2000))")
- [50640361 = Devonian to Mississippian New Albany Continuous Gas](/catalog/items?q=&filter=tags%3D50640361+%3D+Devonian+to+Mississippian+New+Albany+Continuous+Gas "50640361 = Devonian to Mississippian New Albany Continuous Gas (50640361 = Devonian to Mississippian New Albany Continuous Gas, Place, USGS Oil and Gas Assessment Units (NOGA-2000))")
- [506404 = Pennsylvanian Coal and Shale](/catalog/items?q=&filter=tags%3D506404+%3D+Pennsylvanian+Coal+and+Shale "506404 = Pennsylvanian Coal and Shale (506404 = Pennsylvanian Coal and Shale, Place, USGS Oil and Gas Total Petroleum Systems (NOGA-2000))")
- [50640481 = Desmoinesian-Virgilian Coalbed Gas](/catalog/items?q=&filter=tags%3D50640481+%3D+Desmoinesian-Virgilian+Coalbed+Gas "50640481 = Desmoinesian-Virgilian Coalbed Gas (50640481 = Desmoinesian-Virgilian Coalbed Gas, Place, USGS Oil and Gas Assessment Units (NOGA-2000))")
- [IL](/catalog/items?q=&filter=tags%3DIL "IL (IL, Place, none)")
- [IN](/catalog/items?q=&filter=tags%3DIN "IN (IN, Place, none)")
- [Illinois Basin](/catalog/items?q=&filter=tags%3DIllinois+Basin "Illinois Basin (Illinois Basin, Place, USGS Oil and Gas Provinces (NOGA-95))")
- [Illinois Basin](/catalog/items?q=&filter=tags%3DIllinois+Basin "Illinois Basin (Illinois Basin, Place, none)")
- [KY](/catalog/items?q=&filter=tags%3DKY "KY (KY, Place, none)")
- [MO](/catalog/items?q=&filter=tags%3DMO "MO (MO, Place, none)")
- [TN](/catalog/items?q=&filter=tags%3DTN "TN (TN, Place, none)")
- [US17 = Illinois](/catalog/items?q=&filter=tags%3DUS17+%3D+Illinois "US17 = Illinois (US17 = Illinois, Place, Augmented FIPS 10-4 and FIPS 6-4, version 1.0)")
- [US18 = Indiana](/catalog/items?q=&filter=tags%3DUS18+%3D+Indiana "US18 = Indiana (US18 = Indiana, Place, Augmented FIPS 10-4 and FIPS 6-4, version 1.0)")
- [US21 = Kentucky](/catalog/items?q=&filter=tags%3DUS21+%3D+Kentucky "US21 = Kentucky (US21 = Kentucky, Place, Augmented FIPS 10-4 and FIPS 6-4, version 1.0)")
- [US29 = Missouri](/catalog/items?q=&filter=tags%3DUS29+%3D+Missouri "US29 = Missouri (US29 = Missouri, Place, Augmented FIPS 10-4 and FIPS 6-4, version 1.0)")
- [US47 = Tennessee](/catalog/items?q=&filter=tags%3DUS47+%3D+Tennessee "US47 = Tennessee (US47 = Tennessee, Place, Augmented FIPS 10-4 and FIPS 6-4, version 1.0)")
- [USGS World Energy Region 5](/catalog/items?q=&filter=tags%3DUSGS+World+Energy+Region+5 "USGS World Energy Region 5 (USGS World Energy Region 5, Place, none)")
- [United States](/catalog/items?q=&filter=tags%3DUnited+States "United States (United States, Place, none)")
## Provenance
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| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P97QPC2M |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>United States Geological Survey</origin>\n <pubdate>2007</pubdate>\n <title>National Assessment of Oil and Gas Project - Illinois Basin Province (064) Assessment Units</title>\n <geoform>Downloadable GIS Data</geoform>\n <pubinfo>\n <pubplace>Reston,VA</pubplace>\n <publish>U. S. Geological Survey, Central Energy Resources Team</publish>\n </pubinfo>\n <lworkcit>\n <citeinfo>\n <origin>Swezey, C.S.</origin>\n <pubdate>2007</pubdate>\n <title>Petroleum Systems and Geologic Assessment of Oil and Gas in the Illinois Basin Province, Kentucky, Illinois, Indiana, Missouri, and Tennessee</title>\n <serinfo>\n <sername>USGS Digital Data Series</sername>\n <issue>DDS-69</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Denver, Colorado</pubplace>\n <publish>U.S. Geological Survey, Central Energy Resources Team</publish>\n </pubinfo>\n <onlink>https://pubs.usgs.gov/fs/2007/3058/</onlink>\n </citeinfo>\n </lworkcit>\n <onlink>https://doi.org/10.5066/P97QPC2M</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The Assessment Unit is the fundamental unit used in the National Assessment Project for the assessment of undiscovered oil and gas resources. The Assessment Unit is defined within the context of the higher-level Total Petroleum System. The Assessment Unit is shown here as a geographic boundary interpreted, defined, and mapped by the geologist responsible for the province and incorporates a set of known or postulated oil and (or) gas accumulations sharing similar geologic, geographic, and temporal properties within the Total Petroleum System, such as source rock, timing, migration pathways, trapping mechanism, and hydrocarbon type. The Assessment Unit boundary is defined geologically as the limits of the geologic elements that define the Assessment Unit, such as limits of reservoir rock, geologic structures, source rock, and seal lithologies. The only exceptions to this are Assessment Units that border the Federal-State water boundary. In these cases, the Federal-State water boundary forms part of the Assessment Unit boundary.</abstract>\n <purpose>The purpose of these files is to define and illustrate the geographic limit and geologic boundaries of the Assessment Units within the defined Total Petroleum Systems, as required for the USGS National Assessment of Oil and Gas Project. The Assessment Units were used as the fundamental units for the assessment of undiscovered oil and gas. The assessment unit boundaries define the combined geologic limits of each Assessment Unit and are described and defined in the text portions of this assessment publication.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2007</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>As needed</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-93.00</westbc>\n <eastbc>-83.00</eastbc>\n <northbc>42.50</northbc>\n <southbc>34.50</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>Central Energy Resources Team Keyword Thesaurus</themekt>\n <themekey>National Assessment of Oil and Gas</themekey>\n <themekey>USGS World Energy Region 5</themekey>\n <themekey>Energy Resources</themekey>\n <themekey>Oil</themekey>\n <themekey>Natural Gas</themekey>\n <themekey>Resource Assessment</themekey>\n <themekey>Earth Science</themekey>\n <themekey>Natural Resources</themekey>\n <themekey>U.S. Geological Survey</themekey>\n <themekey>USGS</themekey>\n <themekey>Geology</themekey>\n <themekey>Assessment Unit</themekey>\n <themekey>Swezey, C.S.</themekey>\n </theme>\n <theme>\n <themekt>ArcIMS Metadata Server Theme Codes</themekt>\n <themekey>geoscientificInformation</themekey>\n </theme>\n <theme>\n <themekt>Gateway to the Earth draft 9 28-Jun-2002</themekt>\n <themekey>Oil shale resources</themekey>\n <themekey>Oil sand resources</themekey>\n <themekey>Natural gas resources</themekey>\n <themekey>Economic geology</themekey>\n </theme>\n <theme>\n <themekt>EnergyResourceActivities</themekt>\n <themekey>oilgas</themekey>\n <themekey>noga2000</themekey>\n <themekey>nogaillinois</themekey>\n </theme>\n <place>\n <placekt>none</placekt>\n <placekey>United States</placekey>\n <placekey>USGS World Energy Region 5</placekey>\n <placekey>Illinois Basin</placekey>\n <placekey>KY</placekey>\n <placekey>MO</placekey>\n <placekey>IL</placekey>\n <placekey>IN</placekey>\n <placekey>TN</placekey>\n </place>\n <place>\n <placekt>Augmented FIPS 10-4 and FIPS 6-4, version 1.0</placekt>\n <placekey>US17 = Illinois</placekey>\n <placekey>US18 = Indiana</placekey>\n <placekey>US21 = Kentucky</placekey>\n <placekey>US29 = Missouri</placekey>\n <placekey>US47 = Tennessee</placekey>\n </place>\n <place>\n <placekt>USGS Oil and Gas Provinces (NOGA-95)</placekt>\n <placekey>Illinois Basin</placekey>\n </place>\n <place>\n <placekt>USGS Oil and Gas Total Petroleum Systems (NOGA-2000)</placekt>\n <placekey>506401 = Precambrian to Cambrian</placekey>\n <placekey>506402 = Ordovician Ancell Maquoketa</placekey>\n <placekey>506403 = Devonian to Mississippian New Albany</placekey>\n <placekey>506404 = Pennsylvanian Coal and Shale</placekey>\n </place>\n <place>\n <placekt>USGS Oil and Gas Assessment Units (NOGA-2000)</placekt>\n <placekey>50640101 = Precambrian to Cambrian Rift-Fill</placekey>\n <placekey>50640102 = Cambrian Mount Simon to Eau Claire</placekey>\n <placekey>50640103 = Cambrian to Ordovician Knox Group</placekey>\n <placekey>50640201 = Ordovician Saint Peter/Everton</placekey>\n <placekey>50640202 = Ordovician Dutchtown to Galena</placekey>\n <placekey>50640261 = Ordovician Maquoketa Continuous</placekey>\n <placekey>50640301 = Cambrian to Ordovician Carbonates, Cumberland Saddle</placekey>\n <placekey>50640302 = Lower Silurian Carbonates</placekey>\n <placekey>50640303 = Upper Silurian Carbonates (Reef)</placekey>\n <placekey>50640304 = Lower Devonian Carbonates</placekey>\n <placekey>50640305 = Middle Devonian Dutch Creek Sandstone</placekey>\n <placekey>50640306 = Middle Devonian Carbonates</placekey>\n <placekey>50640307 = Lower Mississippian Borden</placekey>\n <placekey>50640308 = Lower Mississippian Carbonates</placekey>\n <placekey>50640309 = Upper Mississippian Sandstones</placekey>\n <placekey>50640310 = Pennsylvanian Sandstones</placekey>\n <placekey>50640311 = Upper Silurian Calcareous Siltstones</placekey>\n <placekey>50640361 = Devonian to Mississippian New Albany Continuous Gas</placekey>\n <placekey>50640481 = Desmoinesian-Virgilian Coalbed Gas</placekey>\n </place>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:60c8d4efd34e86b9389dcaba</themekey>\n </theme>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - CERSC Data Management Services Project</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 25, Mail Stop 939</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://www.sciencebase.gov/catalog/file/get/60c8d4efd34e86b9389dcaba?f=__disk__f8%2Ffa%2F3a%2Ff8fa3a0e983419daafa492422c95a33a65fafab0</browsen>\n <browsed>Graphical representation of assessment units in Illinois Basin</browsed>\n <browset>JPEG</browset>\n </browse>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>For the Assessment Unit coverage, the eight digit number identifies the USGS-specific Assessment Unit. The first digit of the code indicates the World region number (5), the following three digits (064) are the North America province number, the following two digits (5064xx) are the Total Petroleum System number, and the last two digits (506401xx) are the Assessment Unit number of that particular Total Petroleum System. For more detailed assessment results data, refer to the CD_ROM publication information for the Illinois Basin Province that is available at the URLs listed in the Online Linkages. The fractile estimates for the largest oil or gas accumulations are calculated for conventional accumulations and are defined as character fields because they may be blank (not zero) if the accumulation is less than the minimum undiscovered field size used in the assessment. Assessment units that contain no assessment results attributes are those that were not quantitatively assessed.</attraccr>\n </attracc>\n <logic>The Assessment Unit boundary was defined on the basis of the surface and subsurface geology of the petroleum system elements, and oil and gas production, shows, and seeps related to the Assessment Unit. The province geologist was required to defend the geologic boundaries of each Assessment Unit in a formal geologic and petroleum system review meeting.</logic>\n <complete>The Assessment Unit was mapped in part on the data contained in the IHS Energy Group, WHCS data base for wells (2004 update), and the Nehring Significant Oil and Gas Field File (2003 update).</complete>\n <posacc>\n <horizpa>\n <horizpar>The Assessment Unit boundary represents the gross boundary of the combined geologic elements that comprise the Total Petroleum System. The Assessment Unit boundary represents the gross boundary of the combined geologic elements that comprise the Total Petroleum System. The boundaries of the assessment units were determined by Illinois Basin Province project geologists, and were drawn on the basis of geologic characteristics and conditions favorable for hydrocarbon generation and accumulation-such as source, reservoir, and seal rocks; burial, thermal, and migration histories; and trapping mechanisms-that combine to distinguish them from each other.</horizpar>\n </horizpa>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>The attributes were added from the assessment output data file for the Illinois Basin Province. This output file is available at the NOGA Online Homepage (see Online Linkage). The fractile estimates for the largest expected oil or gas accumulations are calculated for conventional accumulations and are defined as character fields because they may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment.</procdesc>\n <procdate>2007</procdate>\n </procstep>\n <procstep>\n <procdesc>Dataset copied.</procdesc>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Vector</direct>\n <ptvctinf>\n <sdtsterm>\n <sdtstype>Complete chain</sdtstype>\n </sdtsterm>\n <sdtsterm>\n <sdtstype>Entity point</sdtstype>\n </sdtsterm>\n <sdtsterm>\n <sdtstype>GT-polygon composed of chains</sdtstype>\n </sdtsterm>\n </ptvctinf>\n </spdoinfo>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.000001</latres>\n <longres>0.000001</longres>\n <geogunit>Decimal degrees</geogunit>\n </geograph>\n <geodetic>\n <horizdn>North American Datum of 1983</horizdn>\n <ellips>Geodetic Reference System 80</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257222</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>au"assessunitnum"g.pat or au"assessunitnum"g.dbf</enttypl>\n <enttypd>Polygon Attribute Table. For each assessment unit, "assessunitnum" is replaced with the assessment unit. To keep the size of filenames less than 10 characters, "assessunitnum" does not include the first 2 characters of the region/province number.</enttypd>\n <enttypds>U.S. Geological Survey</enttypds>\n </enttyp>\n <attr>\n <attrlabl>REG_NUM</attrlabl>\n <attrdef>Region Number</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource World Regions</attrdefs>\n <attrdomv>\n <edom>\n <edomv>5</edomv>\n <edomvd>North America</edomvd>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>REG_NAME</attrlabl>\n <attrdef>Region Name</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource World Regions</attrdefs>\n <attrdomv>\n <edom>\n <edomv>North America</edomv>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PROVCODE</attrlabl>\n <attrdef>Province Code</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource Provinces</attrdefs>\n <attrdomv>\n <edom>\n <edomv>5064</edomv>\n <edomvd>Illinois Basin</edomvd>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PROV_NAME</attrlabl>\n <attrdef>Province Name</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource Provinces</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Illinois Basin</edomv>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TPSCODE</attrlabl>\n <attrdef>Total Petroleum System Code</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource Total Petroleum Systems</attrdefs>\n <attrdomv>\n <edom>\n <edomv>506401</edomv>\n <edomvd>Precambrian to Cambrian</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>506402</edomv>\n <edomvd>Ordovician Ancell Maquoketa</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>506403</edomv>\n <edomvd>Devonian to Mississippian New Albany</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>506404</edomv>\n <edomvd>Pennsylvanian Coal and Shale</edomvd>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TPSNAME</attrlabl>\n <attrdef>Total Petroleum System Name</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource Total Petroleum Systems</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Precambrian to Cambrian</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Ordovician Ancell Maquoketa</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Devonian to Mississippian New Albany</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Pennsylvanian Coal and Shale</edomv>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ASSESSCODE</attrlabl>\n <attrdef>Assessment Unit Code</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource Assessment Units</attrdefs>\n <attrdomv>\n <edom>\n <edomv>50640101</edomv>\n <edomvd>Precambrian to Cambrian Rift-Fill</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640102</edomv>\n <edomvd>Cambrian Mount Simon to Eau Claire</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640103</edomv>\n <edomvd>Cambrian to Ordovician Knox Group</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640201</edomv>\n <edomvd>Ordovician Saint Peter/Everton</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640202</edomv>\n <edomvd>Ordovician Dutchtown to Galena</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640261</edomv>\n <edomvd>Ordovician Maquoketa Continuous</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640301</edomv>\n <edomvd>Cambrian to Ordovician Carbonates, Cumberland Saddle</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640302</edomv>\n <edomvd>Lower Silurian Carbonates</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640303</edomv>\n <edomvd>Upper Silurian Carbonates (Reef)</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640304</edomv>\n <edomvd>Lower Devonian Carbonates</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640305</edomv>\n <edomvd>Middle Devonian Dutch Creek Sandstone</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640306</edomv>\n <edomvd>Middle Devonian Carbonates</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640307</edomv>\n <edomvd>Lower Mississippian Borden</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640308</edomv>\n <edomvd>Lower Mississippian Carbonates</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640309</edomv>\n <edomvd>Upper Mississippian Sandstones</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640310</edomv>\n <edomvd>Pennsylvanian Sandstones</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640311</edomv>\n <edomvd>Upper Silurian Calcareous Siltstones</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640361</edomv>\n <edomvd>Devonian to Mississippian New Albany Continuous Gas</edomvd>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50640481</edomv>\n <edomvd>Desmoinesian-Virgilian Coalbed Gas</edomvd>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ASSESSNAME</attrlabl>\n <attrdef>Assessment Unit Name</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource Assessment Units</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Precambrian to Cambrian Rift-Fill</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Cambrian Mount Simon to Eau Claire</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Cambrian to Ordovician Knox Group</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Ordovician Saint Peter/Everton</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Ordovician Dutchtown to Galena</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Ordovician Maquoketa Continuous</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Cambrian to Ordovician Carbonates, Cumberland Saddle</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Lower Silurian Carbonates</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Upper Silurian Carbonates (Reef)</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Lower Devonian Carbonates</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Middle Devonian Dutch Creek Sandstone</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Middle Devonian Carbonates</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Lower Mississippian Borden</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Lower Mississippian Carbonates</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Upper Mississippian Sandstones</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Pennsylvanian Sandstones</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Upper Silurian Calcareous Siltstones</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Devonian to Mississippian New Albany Continuous Gas</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Desmoinesian-Virgilian Coalbed Gas</edomv>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ASSESSTYPE</attrlabl>\n <attrdef>Assessment Unit Type</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource Assessment Unit Types. Both conventional and continuous accumulations are assessed</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Conventional</edomv>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Continuous</edomv>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ASSESSPROB</attrlabl>\n <attrdef>Assessment Unit Probability</attrdef>\n <attrdefs>U.S. Geological Survey Energy Resource Assessment Unit Probabilities</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OIL_F95</attrlabl>\n <attrdef>95% probability of greater than this volume of undiscovered oil in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OIL_F50</attrlabl>\n <attrdef>50% probability of greater than this volume of undiscovered oil in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OIL_F5</attrlabl>\n <attrdef>5% probability of greater than this volume of undiscovered oil in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OILMEAN</attrlabl>\n <attrdef>The mean estimate of volume of undiscovered oil in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OILSTDEV</attrlabl>\n <attrdef>The standard deviation of the distribution of volume of undiscovered oil in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ADGAS_F95</attrlabl>\n <attrdef>95% probability of greater than this volume of undiscovered gas (associated/dissolved gas) in oil accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ADGAS_F50</attrlabl>\n <attrdef>50% probability of greater than this volume of undiscovered gas (associated/dissolved gas) in oil accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ADGAS_F5</attrlabl>\n <attrdef>5% probability of greater than this volume of undiscovered gas (associated/dissolved gas) in oil accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ADGASMEAN</attrlabl>\n <attrdef>The mean estimate of volume of undiscovered gas (associated/dissolved gas) in oil accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ADGASSTDEV</attrlabl>\n <attrdef>The standard deviation of the distribution of volume of undiscovered gas (associated/dissolved gas) in oil accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NGL_F95</attrlabl>\n <attrdef>95% probability of greater than this volume of undiscovered natural gas liquids (NGL) in oil accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NGL_F50</attrlabl>\n <attrdef>50% probability of greater than this volume of undiscovered natural gas liquids (NGL) in oil accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NGL_F5</attrlabl>\n <attrdef>5% probability of greater than this volume of undiscovered natural gas liquids (NGL) in oil accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NGLMEAN</attrlabl>\n <attrdef>The mean estimate of volume of undiscovered natural gas liquids (NGL) in oil accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NGLSTDEV</attrlabl>\n <attrdef>The standard deviation of the distribution of volume of undiscovered natural gas liquids (NGL) in oil accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGAS_F95</attrlabl>\n <attrdef>95% probability of greater than this volume of undiscovered gas (non-associated gas) in gas accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGAS_F50</attrlabl>\n <attrdef>50% probability of greater than this volume of undiscovered gas (non-associated gas) in gas accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGAS_F5</attrlabl>\n <attrdef>5% probability of greater than this volume of undiscovered gas (non-associated gas) in gas accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGASMEAN</attrlabl>\n <attrdef>The mean estimate of volume of undiscovered gas (non-associated gas) in gas accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGASSTDEV</attrlabl>\n <attrdef>The standard deviation of the distribution of volume of undiscovered gas (non-associated gas) in gas accumulations in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGL_F95</attrlabl>\n <attrdef>95% probability of greater than this volume of undiscovered liquids in gas accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGL_F50</attrlabl>\n <attrdef>50% probability of greater than this volume of undiscovered liquids in gas accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGL_F5</attrlabl>\n <attrdef>5% probability of greater than this volume of undiscovered liquids in gas accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGLMEAN</attrlabl>\n <attrdef>The mean estimate of volume of undiscovered liquids in gas accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>NAGLSTDEV</attrlabl>\n <attrdef>The standard deviation of the distribution of volume of undiscovered liquids in gas accumulations in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>stored as a floating-point value</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OILLG_F95</attrlabl>\n <attrdef>95% probability of greater than this volume for the largest expected undiscovered conventional oil accumulation in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OILLG_F50</attrlabl>\n <attrdef>50% probability of greater than this volume for the largest expected undiscovered conventional oil accumulation in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OILLG_F5</attrlabl>\n <attrdef>5% probability of greater than this volume for the largest expected undiscovered conventional oil accumulation in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OILLGMEAN</attrlabl>\n <attrdef>The mean estimate of volume of the largest expected undiscovered conventional oil accumulation in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OILLGSTDEV</attrlabl>\n <attrdef>The standard deviation of the distribution of volume of the largest expected undiscovered conventional oil accumulation in the assessment unit (in millions of barrels)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GASLG_F95</attrlabl>\n <attrdef>95% probability of greater than this volume for the largest expected undiscovered conventional gas accumulation in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GASLG_F50</attrlabl>\n <attrdef>50% probability of greater than this volume for the largest expected undiscovered conventional gas accumulation in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GASLG_F5</attrlabl>\n <attrdef>5% probability of greater than this volume for the largest expected undiscovered conventional gas accumulation in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GASLGMEAN</attrlabl>\n <attrdef>The mean estimate of volume of the largest expected undiscovered conventional gas accumulation in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>GASLGSTDEV</attrlabl>\n <attrdef>The standard deviation of the distribution of volume of the largest expected undiscovered conventional gas accumulation in the assessment unit (in billions of cubic feet)</attrdef>\n <attrdefs>USGS DDS-69; USGS DDS-60, Chpt. AM; USGS Bulletin 2165</attrdefs>\n <attrdomv>\n <udom>defined as character field; may be blank (not zero) if the accumulation is less than the minumum undiscovered field size used in the assessment</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>Downloadable Data</resdesc>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Shapefile</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P97QPC2M</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20210615</metd>\n <metrd>20070914</metrd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - CERSC Data Management Services Project</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 25, Mail Stop 939</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standards for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
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4. [Histopathology of American kestrels (Falco sparverius) exposed to brodifacoum](/catalog/folder/5d279019e4b0941bde650f17)
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## Dates
Publication Date2019-07-18Start Date2015-08-12End Date2015-08-31
## Citation
Lankton, J.S., 2019, Histopathology of American kestrels (Falco sparverius) exposed to brodifacoum: U.S. Geological Survey data release, https://doi.org/10.5066/P9503Y4X.
## Summary
This dataset describes histopathological changes in liver, kidney, heart, skeletal muscle and intestine of captive American kestrels exposed to the second-generation anticoagulant rodenticide brodifacoum (BROD). The goal of the study was to determine the toxic range of brodifacoum by feeding birds a diet containing 0.3, 1.0, or 3.0 ug BROD/g wet weight. Birds were necropsied and examined grossly for hemorrhages or anemia, and liver, kidney, heart, pectoral muscle, and intestine was collected for histopathological evaluation. Tissues were scanned at least 100x magnification and all lesions, including hemorrhage, inflammation, and degenerative changes, were described and assigned a morphologic diagnosis with severity, chronicity, and \[...\]
## Summary
This dataset describes histopathological changes in liver, kidney, heart, skeletal muscle and intestine of captive American kestrels exposed to the second-generation anticoagulant rodenticide brodifacoum (BROD). The goal of the study was to determine the toxic range of brodifacoum by feeding birds a diet containing 0.3, 1.0, or 3.0 ug BROD/g wet weight. Birds were necropsied and examined grossly for hemorrhages or anemia, and liver, kidney, heart, pectoral muscle, and intestine was collected for histopathological evaluation. Tissues were scanned at least 100x magnification and all lesions, including hemorrhage, inflammation, and degenerative changes, were described and assigned a morphologic diagnosis with severity, chronicity, and distribution as appropriate.
## Contacts
Point of Contact
:
[Julia S Lankton](/catalog/catalogParty/show?partyId=64179),
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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:
[Julia S Lankton](/catalog/catalogParty/show?partyId=64179)
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:
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[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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:
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:
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USGS Mission Area
:
[Environmental Health](/catalog/catalogParty/show?partyId=Environmental+Health)
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## Purpose
The data were collected to help determine the toxic range of brodifacoum to American kestrels. The results will be included in the publication of the exposure trials.
## Communities
- National Wildlife Health Center
- USGS Data Release Products
## Tags
Categories
- [Data](/catalog/items?q=&filter=browseCategory%3DData "Data")
Harvest Set
- [USGS Science Data Catalog (SDC)](/catalog/items?q=&filter=tags%3DUSGS+Science+Data+Catalog+%28SDC%29 "USGS Science Data Catalog (SDC) (USGS Science Data Catalog (SDC), Harvest Set, )")
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- [American kestrel](/catalog/items?q=&filter=tags%3DAmerican+kestrel "American kestrel (American kestrel, Theme, None)")
- [anticoagulant rodenticide](/catalog/items?q=&filter=tags%3Danticoagulant+rodenticide "anticoagulant rodenticide (anticoagulant rodenticide, Theme, None)")
- [biota](/catalog/items?q=&filter=tags%3Dbiota "biota (biota, Theme, ISO 19115 Topic Category)")
- [brodifacoum](/catalog/items?q=&filter=tags%3Dbrodifacoum "brodifacoum (brodifacoum, Theme, None)")
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- [Environmental Health](/catalog/items?q=&filter=tags%3DEnvironmental+Health "Environmental Health (Environmental Health, USGS Scientific Topic Keyword, )")
- [Wildlife Disease](/catalog/items?q=&filter=tags%3DWildlife+Disease "Wildlife Disease (Wildlife Disease, USGS Scientific Topic Keyword, )")
## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9503Y4X |
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Julia S. Lankton</origin>\n <pubdate>20190716</pubdate>\n <title>Histopathology of American kestrels (Falco sparverius) exposed to brodifacoum</title>\n <geoform>spreadsheet</geoform>\n <onlink>https://doi.org/10.5066/P9503Y4X</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset describes histopathological changes in liver, kidney, heart, skeletal muscle and intestine of captive American kestrels exposed to the second-generation anticoagulant rodenticide brodifacoum (BROD). The goal of the study was to determine the toxic range of brodifacoum by feeding birds a diet containing 0.3, 1.0, or 3.0 ug BROD/g wet weight. Birds were necropsied and examined grossly for hemorrhages or anemia, and liver, kidney, heart, pectoral muscle, and intestine was collected for histopathological evaluation. Tissues were scanned at least 100x magnification and all lesions, including hemorrhage, inflammation, and degenerative changes, were described and assigned a morphologic diagnosis with severity, chronicity, and distribution as appropriate.</abstract>\n <purpose>The data were collected to help determine the toxic range of brodifacoum to American kestrels. The results will be included in the publication of the exposure trials.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20150812</begdate>\n <enddate>20150831</enddate>\n </rngdates>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-89.484555</westbc>\n <eastbc>-89.483331</eastbc>\n <northbc>43.050082</northbc>\n <southbc>43.048577</southbc>\n </bounding>\n <descgeog>USGS National Wildlife Health Center</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>brodifacoum</themekey>\n <themekey>anticoagulant rodenticide</themekey>\n <themekey>American kestrel</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5d279019e4b0941bde650f17</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>USGS National WIldlife Health Center</placekey>\n <placekey>USGS Patuxent Wildlife Research Center</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>None. Users are advised to read the data set's metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Julia S Lankton</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Wildlife Pathologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>6006 Schroeder Road</address>\n <city>Madison</city>\n <state>WI</state>\n <postal>53711</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>608-270-2459</cntvoice>\n <cntfax>608-270-2415</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Barnett Rattner, USGS Environmental Health Mission Area</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>The amount of tissue and the criteria for evaluating tissues by light microscopy were kept consistent between animals.</attraccr>\n </attracc>\n <logic>None.</logic>\n <complete>The data set is complete.</complete>\n <lineage>\n <procstep>\n <procdesc>Hematoxylin and eosin-stained slides received from PI were examined by light microscopy at a magnification of at least 100x.</procdesc>\n <procdate>20150801</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>AMKE data release_2015 study.csv</enttypl>\n <enttypd>Spreadsheet</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Species exposed</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>American kestrel</edomv>\n <edomvd>American kestrel</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Bird ID</attrlabl>\n <attrdef>Unique ID number for each bird</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Unique ID number for each bird</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Treatment group (ug brodifacoum/g feed)</attrlabl>\n <attrdef>Treatment received</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>3.0 ug brodificoum/g wet weight diet daily</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>0.3</edomv>\n <edomvd>0.3 ug brodificoum/g wet weight diet daily</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>No brodificoum exposure</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>1.0 ug brodificoum/g wet weight diet daily</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tissue</attrlabl>\n <attrdef>Tissue examined microscopically</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Liver</edomv>\n <edomvd>One section of liver</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Kidney</edomv>\n <edomvd>One section of kidney</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Heart</edomv>\n <edomvd>One section of heart</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Skeletal muscle</edomv>\n <edomvd>One section of pectoral muscle</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Intestine</edomv>\n <edomvd>Three sections of small intestine</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Description</attrlabl>\n <attrdef>Microscopic description of tissue</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Free text microscopic description of tissue.\nMild= Process affects few small areas \nModerate= Process affects several small areas or few large areas \nSevere= Process affects many large areas \nWNL= Within normal limits</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Morphologic Diagnoses</attrlabl>\n <attrdef>Microscopic diagnoses</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Free text microscopic diagnoses.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Hemorrhage score</attrlabl>\n <attrdef>Score assigned to hemorrhage.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>0</edomv>\n <edomvd>No hemorrhage seen</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>4</edomv>\n <edomvd>Severe: Large numbers of erythrocytes multifocally seen; considered likely to represent true antemortem hemorrhage</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1</edomv>\n <edomvd>Minimal: Low numbers of erythrocytes rarely seen; difficult to distinguish from artifactual or incidental extravasation during dissection and trimming process</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>Mild: Low numbers of erythrocytes focally or multifocally seen; considered likely to represent true antemortem hemorrhage</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Moderate: Moderate numbers of erythrocytes focally or multifocally seen; considered likely to represent true antemortem hemorrhage</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey</cntorg>\n <cntper>GS ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9503Y4X</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Julia S Lankton</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Wildlife Pathologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>6006 Schroeder Road</address>\n <city>Madison</city>\n <state>WI</state>\n <postal>53711</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>608-270-2459</cntvoice>\n <cntfax>608-270-2415</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>" |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Data Release Products](/catalog/item/5474ec49e4b04d7459a7eab2)
3. [Geochemical and Geophysical Characteristics of the Conterminous United States](/catalog/item/53481333e4b06f6ce034aae7)
4. [Lithology - Nutrient Source Data](/catalog/folder/56e47c89e4b0f59b85d4a69a)
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## Dates
Publication Date2014-07-23Time Period2014-07-23
## Citation
Olson, J.R. and Hawkins, C.P., 2014, Geochemical Characteristics of the Conterminous United States: U.S. Geological Survey data release, http://dx.doi.org/10.5066/F7X0653P.
## Summary
This workbook summarizes geochemical data for each lithology contained within the USGS Preliminary Integrated Geologic Map Databases for the United States (Open File Reports 2004-1355, 2005-1305, 2005-1323, 2005-1324, 2005-1325, 2005-1351, and 2006-1272). The summarized geochemical data contained in the “Lith Summary” spreadsheet (tab) is used to translate lithologies in state geologic maps into maps of continuous chemical characteristics (see Geochemical and Geophysical Characteristics of the Conterminous United States, http://dx.doi.org/10.5066/F7X0653P). Full details of the data are provided in the “ReadMe” spreadsheet at the beginning of the workbook.
## Summary
This workbook summarizes geochemical data for each lithology contained within the USGS Preliminary Integrated Geologic Map Databases for the United States (Open File Reports 2004-1355, 2005-1305, 2005-1323, 2005-1324, 2005-1325, 2005-1351, and 2006-1272). The summarized geochemical data contained in the “Lith Summary” spreadsheet (tab) is used to translate lithologies in state geologic maps into maps of continuous chemical characteristics (see Geochemical and Geophysical Characteristics of the Conterminous United States, [http://dx.doi.org/10.5066/F7X0653P](http://dx.doi.org/10.5066/F7X0653P)). Full details of the data are provided in the “ReadMe” spreadsheet at the beginning of the workbook.
## Contacts
Point of Contact
:
[Desert Research Institute](/catalog/catalogParty/show?partyId=65433)
Originator
:
[John Olson](/catalog/catalogParty/show?partyId=62467),
[Charles P Hawkins](/catalog/catalogParty/show?partyId=50412)
Metadata Contact
:
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[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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| Lith-Nutrient\_FGDC.xml<br>_Original FGDC Metadata_ | View | 4.78 KB | application/fgdc+xml |
| Lith-Nutrient.xlsx | | 2.25 MB | application/vnd.openxmlformats-officedocument.spreadsheetml.sheet |
## Purpose
These workbooks were created to summarize published geochemical data, and are provided here to establish linkage back to original source data or to support development of future geochemical maps.
## Communities
- USGS Data Release Products
## Tags
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## Provenance
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>J. R. Olson</origin>\n <origin>C. P. Hawkins</origin>\n <pubdate>20140723</pubdate>\n <title>Geophysical Characteristics of the Conterminous United States: Lithology - Nutrient Source Data</title>\n <onlink>http://dx.doi.org/10.5066/F7X0653P</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This workbook summarizes nutrient geochemical data for each lithology contained within the USGS Preliminary Integrated Geologic Map Databases for the United States (Open File Reports 2004-1355, 2005-1305, 2005-1323, 2005-1324, 2005-1325, 2005-1351, and 2006-1272). The geochemical attributes in the \xe2\x80\x9cLith Summary\xe2\x80\x9d spreadsheet (tab) are measures of central tendency for all whole rock analyses publically available at the time of creation for 284 lithologies, reported as percent sulfur and nitrogen. Further details on how data were summarized and sources for geochemical data are contained in the \xe2\x80\x9cReadMe\xe2\x80\x9d spreadsheet (tab).</abstract>\n <purpose>The summarized geochemical data contained in the \xe2\x80\x9cLith Summary\xe2\x80\x9d spreadsheet (tab) is used to translate lithologies in state geologic maps into maps of continuous chemical characteristics (see Geochemical and Geophysical Characteristics of the Conterminous United States, http://dx.doi.org/10.5066/F7X0653P).</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>20140723</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>Bedrock</themekey>\n <themekey>Geology</themekey>\n <themekey>Geochemical</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:56e47c89e4b0f59b85d4a69a</themekey>\n </theme>\n </keywords>\n <accconst>None</accconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>Desert Research Institute</cntorg>\n <cntper>John Olson</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>755 E. Flamingo Rd.</address>\n <city>Las Vegas</city>\n <state>NV</state>\n <postal>89119</postal>\n </cntaddr>\n <cntvoice>435-770-4533</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Olson, J.R. and C.P. Hawkins</datacred>\n <native>Environment as of Metadata Creation: Microsoft Windows 7 Version 6.1 (Build 7601) Service Pack 1; Esri ArcGIS 10.1 (Build 3143) Service Pack 1 (Build 10.1.1.3143)</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n </dataqual>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Distributor assumes no liability for misuse of data.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Excel Workbook</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F7X0653P</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20220805</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>J.R. Olson</cntper>\n </cntperp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>755 E. Flamingo Road</address>\n <city>Las Vegas</city>\n <state>NV</state>\n <postal>89119</postal>\n </cntaddr>\n <cntvoice>435-770-4533</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Data Release Products](/catalog/item/5474ec49e4b04d7459a7eab2)
3. [Field observations of ground failure triggered by the 2020 Puerto Rico earthquake sequence](/catalog/folder/5eb5b9dc82ce25b5135ae83a)
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## Dates
Publication Date2020-07-20Start Date2020-01-12End Date2020-02-28
## Citation
Allstadt, K.E., Thompson, E.M., Bayouth García, D., Irizarry Brugman, E., Hernandez, J.L., Schmitt, R.G., Hughes, K.S., Fuentes, Z., Martinez, S.N., Cerovski-Darriau, C., Perkins, J.P., Grant, A.R., and Slaughter, S.L., 2020, Field observations of ground failure triggered by the 2020 Puerto Rico earthquake sequence: U.S. Geological Survey data release, https://doi.org/10.5066/P96QNFMB.
## Summary
This dataset consists of over 800 field observations of ground failure (landslides, lateral spreading, and liquefaction) and other damage triggered by the 2019-2020 Puerto Rico earthquake sequence. The sequence started with a M4.7 earthquake on 28 December 2019, followed by many more earthquakes, including 15 larger than M5 (as of 7 July 2020). The M6.4 mainshock, which is thought to have triggered much of the observed ground failure, occurred on 7 January 2020. Most field reconnaissance efforts documented here took place as soon as possible after the mainshock, from 12-18 January 2020, to attempt to capture ephemeral data before evidence was destroyed by natural forces or repairs, but observations continued to be made through the \[...\]
## Summary
This dataset consists of over 800 field observations of ground failure (landslides, lateral spreading, and liquefaction) and other damage triggered by the 2019-2020 Puerto Rico earthquake sequence. The sequence started with a M4.7 earthquake on 28 December 2019, followed by many more earthquakes, including 15 larger than M5 (as of 7 July 2020). The M6.4 mainshock, which is thought to have triggered much of the observed ground failure, occurred on 7 January 2020. Most field reconnaissance efforts documented here took place as soon as possible after the mainshock, from 12-18 January 2020, to attempt to capture ephemeral data before evidence was destroyed by natural forces or repairs, but observations continued to be made through the end of February 2020. To organize the data, we have assigned each of the ~800 observations to a single ground failure type category that best describes the observation. The observations are symbolized by this main category in the accompanying [ArcGIS Online Dashboard](https://doi.org/10.5066/P99N4Q6W) to make it easy to visualize and browse the observations. Main categories include lateral spreading, liquefaction, disrupted slides and falls, soil landslides, ground cracks, subsidence, damage, null (no ground failure) and other. We provide specific descriptions of these categories subsequently. The geotagged photos associated with most observation points include additional tags to more completely describe the observation. Many observations are also accompanied by text descriptions made during the field work by the observer. The location of the majority of the points represents the location of the observer/photographer because the coordinates come from geotagged photos and waypoints, but in a few cases, the locations of a distant occurrence of ground failure were estimated by the observer; these cases are noted in the comments. For inventories of landslides and liquefaction where the features are in the location of the occurrence, refer to the [landslide inventory](https://doi.org/10.5066/P9U0IXLP) and [liquefaction inventory](https://doi.org/10.5066/P9JEN3H2) that were derived in part from these field observations.
The data is available in several file formats. The geodatabase (PR\_observations\_gdb.zip) includes the point locations along with a relationship class for relating attachments to the points. In the PR2020\_observation\_data.zip zip file, we also include a stand-alone shapefile (Shapefile/PR\_observation\_pts.shp) of the point locations. This can be used with the folder of photos (Photos) along with the photo table (Table/photo\_table.csv) to relate photos to the shapefile.
We were not able to investigate the entirety of the potentially affected area due to access and time restrictions as well as dense vegetation. Instead, the areas we investigated were guided by 1) the [USGS ground failure models for the mainshock](https://earthquake.usgs.gov/earthquakes/eventpage/us70006vll/ground-failure/summary), 2) early satellite mappings of ground failures by colleagues, 3) reports of ground failure in the news, social media, and from emergency managers passed on to us by colleagues, and 4) reports from local residents and emergency managers in the field. In addition to documenting where ground failure did occur, another primary objective of our work was to document where ground failure did not occur even though susceptible conditions were present (null observations).
An observation is categorized as a “Lateral spread” if there was displacement on gentle slopes, (commonly towards a water body and a result of liquefaction) regardless of whether there was sand ejecta or other direct evidence of liquefaction. Liquefaction is reserved for sand boils, fissures with ejecta, and other features that indicate liquefaction occurred but without obvious horizontal displacements towards bodies of water. Ground cracks without any obvious ties to liquefaction or lateral spreading are simply categorized as “Cracks.” Cracks are extensional except when otherwise noted in the “General notes” field. Ambiguous observations, such as crab burrows that were difficult to differentiate from sand boils, are categorized under “Other.” Water main damage and uplifted utility covers and pipes are generally categorized as “Damage” even though they are commonly related to liquefaction or lateral spreading. We only labeled such cases as liquefaction if direct evidence was present. Though documenting structural damage was not the primary objective of these field campaigns, we did collect some observations of building damage and these are included and categorized as “Damage”, but they are not comprehensive. “Subsidence” observations are based on observations of flooding and are likely due to tectonic deformation.
We use the general term “disrupted slides and falls,” following Keefer (1984) for all landslides with high degrees of internal disruption. The majority of disrupted landslides were rock falls, but some were rock slides or involved debris and soil. We only noted one area that is classified as “Coherent slides” where there was a cut and fill slope failure.
... show more ...
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## Purpose
The purpose of this work is to document ground failure and other damage caused by the 2020 Puerto Rico earthquake sequence as completely as possible. This compilation of observations combines data collected during several different field investigations, as indicated by the date associated with each observation point.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Allstadt, Kate E.</origin>\n <origin>Thompson, Eric M.</origin>\n <origin>Bayouth Garc\xc3\xada, Desire\xc3\xa9</origin>\n <origin>Irizarry Brugman, Edwin</origin>\n <origin>Hernandez, Janis</origin>\n <origin>Schmitt, Robert G.</origin>\n <origin>Hughes, Stephen</origin>\n <origin>Fuentes, Zamara</origin>\n <origin>Martinez, Sabrina</origin>\n <origin>Cerovski-Darriau, Corina</origin>\n <origin>Perkins, Jonathan</origin>\n <origin>Grant, Alex</origin>\n <origin>Slaughter, Stephen</origin>\n <pubdate>20200720</pubdate>\n <title>Field observations of ground failure triggered by the 2020 Puerto Rico earthquake sequence</title>\n <geoform>Electronic</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P96QNFMB</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This dataset consists of over 800 field observations of ground failure (landslides, lateral spreading, and liquefaction) and other damage triggered by the 2019-2020 Puerto Rico earthquake sequence. The sequence started with a M4.7 earthquake on 28 December 2019, followed by many more earthquakes, including 15 larger than M5 (as of 7 July 2020). The M6.4 mainshock, which is thought to have triggered much of the observed ground failure, occurred on 7 January 2020. Most field reconnaissance efforts documented here took place as soon as possible after the mainshock, from 12-18 January 2020, to attempt to capture ephemeral data before evidence was destroyed by natural forces or repairs, but observations continued to be made through the end of February 2020. To organize the data, we have assigned each of the ~800 observations to a single ground failure type category that best describes the observation. The observations are symbolized by this main category in the accompanying ArcGIS Online Dashboard to make it easy to visualize and browse the observations. Main categories include lateral spreading, liquefaction, disrupted slides and falls, soil landslides, ground cracks, subsidence, damage, null (no ground failure) and other. We provide specific descriptions of these categories subsequently. The geotagged photos associated with most observation points include additional tags to more completely describe the observation. Many observations are also accompanied by text descriptions made during the field work by the observer. The location of the majority of the points represents the location of the observer/photographer because the coordinates come from geotagged photos and waypoints, but in a few cases, the locations of a distant occurrence of ground failure were estimated by the observer; these cases are noted in the comments. For inventories of landslides and liquefaction where the features are in the location of the occurrence, refer to the landslide inventory and liquefaction inventory that were derived in part from these field observations.\n\nThe data is available in several file formats. The geodatabase (PR_observations_gdb.zip) includes the point locations along with a relationship class for relating attachments to the points. In the PR2020_observation_data.zip zip file, we also include a stand-alone shapefile (Shapefile/PR_observation_pts.shp) of the point locations. This can be used with the folder of photos (Photos) along with the photo table (Table/photo_table.csv) to relate photos to the shapefile.\n\nWe were not able to investigate the entirety of the potentially affected area due to access and time restrictions as well as dense vegetation. Instead, the areas we investigated were guided by 1) the USGS ground failure models for the mainshock, 2) early satellite mappings of ground failures by colleagues, 3) reports of ground failure in the news, social media, and from emergency managers passed on to us by colleagues, and 4) reports from local residents and emergency managers in the field. In addition to documenting where ground failure did occur, another primary objective of our work was to document where ground failure did not occur even though susceptible conditions were present (null observations). \n\nAn observation is categorized as a \xe2\x80\x9cLateral spread\xe2\x80\x9d if there was displacement on gentle slopes, (commonly towards a water body and a result of liquefaction) regardless of whether there was sand ejecta or other direct evidence of liquefaction. Liquefaction is reserved for sand boils, fissures with ejecta, and other features that indicate liquefaction occurred but without obvious horizontal displacements towards bodies of water. Ground cracks without any obvious ties to liquefaction or lateral spreading are simply categorized as \xe2\x80\x9cCracks.\xe2\x80\x9d Cracks are extensional except when otherwise noted in the \xe2\x80\x9cGeneral notes\xe2\x80\x9d field. Ambiguous observations, such as crab burrows that were difficult to differentiate from sand boils, are categorized under \xe2\x80\x9cOther.\xe2\x80\x9d Water main damage and uplifted utility covers and pipes are generally categorized as \xe2\x80\x9cDamage\xe2\x80\x9d even though they are commonly related to liquefaction or lateral spreading. We only labeled such cases as liquefaction if direct evidence was present. Though documenting structural damage was not the primary objective of these field campaigns, we did collect some observations of building damage and these are included and categorized as \xe2\x80\x9cDamage\xe2\x80\x9d, but they are not comprehensive. \xe2\x80\x9cSubsidence\xe2\x80\x9d observations are based on observations of flooding and are likely due to tectonic deformation.\n\nWe use the general term \xe2\x80\x9cdisrupted slides and falls,\xe2\x80\x9d following Keefer (1984) for all landslides with high degrees of internal disruption. The majority of disrupted landslides were rock falls, but some were rock slides or involved debris and soil. We only noted one area that is classified as \xe2\x80\x9cCoherent slides\xe2\x80\x9d where there was a cut and fill slope failure.</abstract>\n <purpose>The purpose of this work is to document ground failure and other damage caused by the 2020 Puerto Rico earthquake sequence as completely as possible. This compilation of observations combines data collected during several different field investigations, as indicated by the date associated with each observation point.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20200112</begdate>\n <enddate>20200228</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-67.2000</westbc>\n <eastbc>-66.3094</eastbc>\n <northbc>18.4567</northbc>\n <southbc>17.9328</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>USGS</themekey>\n <themekey>Geologic Hazards Science Center</themekey>\n <themekey>GHSC</themekey>\n <themekey>Earthquake Hazards Program</themekey>\n <themekey>earthquake hazard</themekey>\n <themekey>seismology</themekey>\n <themekey>seismic hazard</themekey>\n <themekey>earth science</themekey>\n <themekey>geophysics</themekey>\n <themekey>Landslide Hazards Program</themekey>\n <themekey>rock fall</themekey>\n <themekey>liquefaction</themekey>\n <themekey>lateral spread</themekey>\n <themekey>landslides</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5eb5b9dc82ce25b5135ae83a</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>United States</placekey>\n <placekey>Puerto Rico</placekey>\n <placekey>Guayanilla</placekey>\n <placekey>Ponce</placekey>\n <placekey>Pe\xc3\xb1uelas</placekey>\n <placekey>Gu\xc3\xa1nica</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Kate Allstadt</cntper>\n <cntorg>U.S. Geological Survey, Earthquake Hazards Program</cntorg>\n </cntperp>\n <cntpos>Research Geophysicist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1711 Illinois Street</address>\n <city>Golden</city>\n <state>Colorado</state>\n <postal>80401</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-273-8570</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>University of Puerto Rico, Mayaguez; California Geological Survey</datacred>\n <crossref>\n <citeinfo>\n <origin>Knoper, Logan</origin>\n <origin>Allstadt, Kate E.</origin>\n <origin>Clark, Marin K.</origin>\n <origin>Thompson, Eric M.</origin>\n <origin>Schmitt, Robert G.</origin>\n <pubdate>202006</pubdate>\n <title>Inventory of landslides triggered by the 2020 Puerto Rico earthquake sequence</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9U0IXLP</onlink>\n </citeinfo>\n </crossref>\n <crossref>\n <citeinfo>\n <origin>Allstadt, Kate E.</origin>\n <origin>Thompson, Eric M.</origin>\n <origin>Schmitt, Robert G.</origin>\n <pubdate>2020</pubdate>\n <title>Inventory of liquefaction triggered by the 2020 Puerto Rico earthquake sequence</title>\n <geoform>vector digital data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9JEN3H2</onlink>\n </citeinfo>\n </crossref>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Field observations were collected by a variety of modes over several field campaigns. The \xe2\x80\x9ccollection_source\xe2\x80\x9d field indicates the origin of the data point. Most points were collected directly using the Arc Collector app on mobile devices (collection_source=Arc Collector or CGS). In these cases, more than one photo can be attached to a single observation and the \xe2\x80\x9cGeneral Notes\xe2\x80\x9d field was filled in while in the field and edited later only for spelling and clarity. The Arc Collector data was originally an ArcGIS Online Feature Layer to which we added additional observations that were included from geotagged photos (collection_source=GPS Camera). These observations include just one photo per observation and the photo tags and \xe2\x80\x9cGeneral Notes\xe2\x80\x9d were added after returning from the field. All other observations were noted with way points in the field and manually added to the set of observations. The \xe2\x80\x9cgf_type(ground failure type)\xe2\x80\x9d was assigned after combining these datasets together based on the notes, photos, and photo tags accompanying each observation.</procdesc>\n <procdate>2020</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Robert G Schmitt</cntper>\n <cntorg>U.S. Geological Survey, ROCKY MOUNTAIN REGION</cntorg>\n </cntperp>\n <cntpos>GEOGRAPHER</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Mail Stop MS 966, 1711 Illinois St</address>\n <city>Golden</city>\n <state>CO</state>\n <postal>80401</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>303-273-8583</cntvoice>\n <cntfax>303-273-8452</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <spref>\n <horizsys>\n <geograph>\n <latres>0.0198254998</latres>\n <longres>0.0207068927</longres>\n <geogunit>Decimal seconds</geogunit>\n </geograph>\n <geodetic>\n <horizdn>WGS_1984</horizdn>\n <ellips>WGS_84</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <overview>\n <eaover>Observation point attributes</eaover>\n <eadetcit>http://earthquake.usgs.gov</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>"Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P96QNFMB</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>none</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200821</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>GHSC Data Steward</cntper>\n <cntorg>U.S. Geological Survey, Geologic Hazards Science Center</cntorg>\n </cntperp>\n <cntpos>Open Data Policy coordinator</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>1711 Illinois Street</address>\n <city>Golden</city>\n <state>Colorado</state>\n <postal>80401</postal>\n <country>USA</country>\n </cntaddr>\n <cntvoice>303-273-8500</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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## Citation
Croke, M.R., 2019, Data release for Organic geochemistry and petrology of Devonian shale in eastern Ohio: implications for petroleum systems assessment (2018): U.S. Geological Survey data release, https://doi.org/10.5066/P90AGOY5.
## Summary
Recent production of light sweet oil from shallow (~2,000 ft) horizontal wells in the Upper Devonian Berea Sandstone of eastern Kentucky and historical oil production from conventional wells in the Berea of adjoining southern Ohio has prompted re-evaluation of Devonian petroleum systems in the central Appalachian Basin. Herein, we examined Upper Devonian Ohio Shale (lower Huron Member) and Middle Devonian Marcellus Shale organic-rich source rocks from eastern Ohio and nearby areas using organic petrography and geochemical analyses of solvent extracts. The data indicate the organic matter in the Ohio and Marcellus Shales was primarily derived from marine algae and its degradation products including bacterial biomass. Absence of odd-over-even \[...\]
## Summary
Recent production of light sweet oil from shallow (~2,000 ft) horizontal wells in the Upper Devonian Berea Sandstone of eastern Kentucky and historical oil production from conventional wells in the Berea of adjoining southern Ohio has prompted re-evaluation of Devonian petroleum systems in the central Appalachian Basin. Herein, we examined Upper Devonian Ohio Shale (lower Huron Member) and Middle Devonian Marcellus Shale organic-rich source rocks from eastern Ohio and nearby areas using organic petrography and geochemical analyses of solvent extracts. The data indicate the organic matter in the Ohio and Marcellus Shales was primarily derived from marine algae and its degradation products including bacterial biomass. Absence of odd-over-even n-alkane distributions in gas chromatograms and low gammacerane index values in Devonian source rocks are similar to properties reported for Devonian-reservoired oils in eastern Ohio, suggesting a strong oil-source rock correlation. However, petrographic and geochemical parameters presented here were unable to discriminate specific shale source rocks (e.g., Ohio Shale vs. Marcellus Shale) for the Devonian oils. Lower Paleozoic oils from eastern Ohio, in contrast, are characterized by the presence of odd-over-even n-alkane distributions and higher gammacerane values which clearly discriminate them from Devonian shale-derived oils. Measurements of solid bitumen reflectance (BRo) at the thermal maturity range of the samples (immature to peak oil conditions) tend to underestimate ‘true’ thermal maturity because solid bitumen has lower reflectance than co-occurring vitrinite. Because solid bitumen dominates the organic matter in Devonian shale and vitrinite is sparse, the value of reflectance as a thermal proxy is questionable and its use may lead to reports of ‘vitrinite reflectance suppression’ in early mature to oil window mature areas. For example, thermal maturity estimates from equilibrium(?) biomarker isomerization ratios may suggest some of the Devonian source rock samples are at middle to peak oil window conditions e.g., approximate vitrinite reflectance values of 0.8-0.9%, whereas solid bitumen reflectance is approximately 0.52-0.54% in the same samples. If correct, this observation may require that the predicted onset of oil generation from Devonian shale source rocks in eastern Ohio is moved farther westward. As a consequence, only local to short-distance (30-50 mi) migration would be necessary for emplacement of Devonian-sourced oils into Devonian reservoirs of eastern Ohio, rather than long-distance migration (>50 mi) from ‘deep in the Appalachian basin’, as suggested by previous workers, potentially impacting exploration and future assessments of undiscovered petroleum resources in the Berea Sandstone. However, biomarker isomerization ratios do not show consistent relationships to other thermal maturity parameters (BRo, Tmax), thereby preventing development of robust empirical calibrations for these thermal proxies in the Devonian of eastern Ohio.
## Contacts
Point of Contact
:
[Paul C Hackley](/catalog/catalogParty/show?partyId=4060),
[Midwest Region](/catalog/catalogParty/show?partyId=17260)
Originator
:
[Mary R Croke](/catalog/catalogParty/show?partyId=76748)
Metadata Contact
:
[Eric A Morrissey](/catalog/catalogParty/show?partyId=7209)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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:
[Energy Resources Program](/catalog/catalogParty/show?partyId=17164)
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:
[Energy and Minerals](/catalog/catalogParty/show?partyId=Energy+and+Minerals)
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| Product\_10.5066P90AGOY5\_METADATA.xml<br>_Original FGDC Metadata_ | View | 48.97 KB | application/fgdc+xml |
| Index.csv | | 759 Bytes | text/csv |
| Table 1 Samples.csv | | 2.2 KB | text/csv |
| Table 2 Prog. Pyrolysis.csv | | 2.67 KB | text/csv |
| Table 3 XRD.csv | | 1.16 KB | text/csv |
| Table 4 SARA.csv | | 1.54 KB | text/csv |
| Table 5 GC-FID.csv | | 2.02 KB | text/csv |
| Table 6 GC-MS.csv | | 3.28 KB | text/csv |
## Purpose
Data were collected on the geochemistry in various shale samples in order to assess petroleum systems.
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## Provenance
Please see attached metadata record for full dataset provenance.
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| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P90AGOY5 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Mary R Croke</origin>\n <pubdate>20190321</pubdate>\n <title>Data release for Organic geochemistry and petrology of Devonian shale in eastern Ohio: implications for petroleum systems assessment (2018)</title>\n <geoform>Tabular</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P90AGOY5</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Recent production of light sweet oil from shallow (~2,000 ft) horizontal wells in the Upper Devonian Berea Sandstone of eastern Kentucky and historical oil production from conventional wells in the Berea of adjoining southern Ohio has prompted re-evaluation of Devonian petroleum systems in the central Appalachian Basin. Herein, we examined Upper Devonian Ohio Shale (lower Huron Member) and Middle Devonian Marcellus Shale organic-rich source rocks from eastern Ohio and nearby areas using organic petrography and geochemical \nanalyses of solvent extracts. The data indicate the organic matter in the Ohio and Marcellus Shales was primarily derived from marine algae and its degradation products including bacterial biomass. Absence of odd-over-even n-alkane distributions in gas chromatograms and low gammacerane index values in Devonian source rocks are similar to properties reported for Devonian-reservoired oils in eastern Ohio, suggesting a strong oil-source rock correlation. However, petrographic and geochemical parameters presented here were unable to \ndiscriminate specific shale source rocks (e.g., Ohio Shale vs. Marcellus Shale) for the Devonian oils. Lower Paleozoic oils from eastern Ohio, in contrast, are characterized by the presence of odd-over-even n-alkane distributions and higher gammacerane values which clearly discriminate them from Devonian shale-derived oils. Measurements of solid bitumen reflectance (BRo) at the thermal maturity range of the samples (immature to peak oil conditions) tend to underestimate \xe2\x80\x98true\xe2\x80\x99 thermal maturity because solid bitumen has lower reflectance than co-occurring vitrinite. Because solid bitumen dominates the organic matter in Devonian shale and vitrinite is sparse, the value of reflectance as a thermal proxy is questionable and its use may lead to reports of \xe2\x80\x98vitrinite reflectance suppression\xe2\x80\x99 in early mature to oil window mature areas. For example, thermal maturity estimates from equilibrium(?) biomarker isomerization ratios may suggest some of the Devonian source rock samples are at middle to peak oil window conditions e.g., approximate vitrinite reflectance values of 0.8-0.9%, whereas solid bitumen reflectance is approximately 0.52-0.54% in the same samples. If correct, this observation may require that the predicted onset of oil generation from Devonian shale source rocks in eastern Ohio is moved farther westward. As a consequence, only local to short-distance (30-50 mi) migration would be necessary for emplacement of Devonian-sourced oils into Devonian reservoirs of eastern Ohio, rather than long-distance migration (>50 mi) from \xe2\x80\x98deep in the Appalachian basin\xe2\x80\x99, as suggested by previous workers, potentially impacting exploration and future assessments of undiscovered petroleum resources in the Berea Sandstone. However, biomarker isomerization ratios do not show consistent relationships to other thermal maturity parameters (BRo, Tmax), thereby preventing development of robust empirical calibrations for these thermal proxies in the Devonian of eastern Ohio.</abstract>\n <purpose>Data were collected on the geochemistry in various shale samples in order to assess petroleum systems.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <sngdate>\n <caldate>2018</caldate>\n </sngdate>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-83.94463</westbc>\n <eastbc>-80.91298</eastbc>\n <northbc>41.7549</northbc>\n <southbc>36.8874</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus (https://www2.usgs.gov/science/tab-term.html)</themekt>\n <themekey>Ohio Shale</themekey>\n <themekey>Huron Member</themekey>\n <themekey>Marcellus Shale</themekey>\n <themekey>Berea Sandstone</themekey>\n <themekey>thermal maturity</themekey>\n <themekey>petroleum geochemistry</themekey>\n <themekey>biomarkers</themekey>\n <themekey>organic petrography</themekey>\n <themekey>petroleum system</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5bcde5b8e4b0f0758fc174fa</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS) (https://geonames.usgs.gov/apex/f?p=138:1:0:::::)</placekt>\n <placekey>Ohio</placekey>\n <placekey>West Virginia</placekey>\n <placekey>Virginia</placekey>\n <placekey>Kentucky</placekey>\n </place>\n <stratum>\n <stratkt>Geolex (https://ngmdb.usgs.gov/lex-bin/search.pl)</stratkt>\n <stratkey>Ohio Shale</stratkey>\n <stratkey>Huron Member</stratkey>\n <stratkey>Marcellus Shale</stratkey>\n </stratum>\n <temporal>\n <tempkt>USGS Thesaurus: Time Periods (https://www2.usgs.gov/science/tab-term.html)</tempkt>\n <tempkey>Devonian Period</tempkey>\n <tempkey>Paleozoic Era</tempkey>\n </temporal>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Paul C Hackley</cntper>\n <cntorg>Midwest Region: EASTERN ENERGY RESOURCES SC</cntorg>\n </cntperp>\n <cntpos>Research Geologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 956, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-6458</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Paul C Hackley and Robert T Ryder</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Samples were selected based on results from previous studies (Ryder et al., 2013), focusing on organic-rich samples from immature (BRo <0.6%) to peak oil window (BRo ~1.0%) thermal conditions. The selection included 13 core samples, 2 cuttings samples and 2 outcrop samples</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Samples were cast into thermoplastic briquettes, ground and polished to a final stage of 0.05 micron abrasive per ASTM D2797 (ASTM, 2015a) at USGS Reston \n\nASTM, 2015, D2797 Standard practice for preparing coal samples for microscopical analysis by reflected light, Petroleum products, lubricants, and fossil fuels; Gaseous fuels; coal and coke, sec. 5, v. 05.06, West Conshohocken, PA, ASTM International.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Pellets were imaged under oil immersion on a Zeiss AxioImager microscope in white and blue incident light. Solid bitumen reflectance analyses were conducted on Leica DMRX pol and Leica DM4000 microscopes following ASTM D7708 (ASTM, 2015b) \n\nASTM, 2015, D7708 Standard test method for microscopical determination of the reflectance of vitrinite dispersed in sedimentary rocks, Petroleum products, lubricants, and fossil fuels; Gaseous fuels; coal and coke, sec. 5, v. 05.06, West Conshohocken, PA, ASTM International.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Analyses of total organic carbon via LECO and programmed pyrolysis followed conventional methods (Espitalie et al., 1985) \n\nEspitalie, J., G. Deroo, and F. Marquis, 1985, Rock-Eval pyrolysis and its applications: Revue De L Institut Francais Du Petrole, v. 40, p. 563-579.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>A subset of select Huron samples was analyzed for mineralogy via X-ray diffraction of low temperature ash residues following Hosterman and Dulong (1989) \n\nHosterman, J. W., and F. T. Dulong, 1989, A computer program for semi-quantitative mineral analysis by X-ray powder diffraction, in D. R. Pevear, and F. A. Mumpton, eds., Quantitative mineral analysis of clays, v. 1, Clay Minerals Society Workshop Lectures, p. \n38-50.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Stable carbon isotope ratios of extract fractions were measured in duplicate at Weatherford Laboratories by continuous flow IR-MS analysis and are reported against NBS22 with an accepted value of -29.73 per mil (Silverman, 1964). \n\nSilverman, S. R., 1964, Investigations of petroleum origin and evolution mechanisms by carbon isotope studies, in H. Craig, S. L. Miller, and G. J. Wasserburg, eds., Isotopic and Cosmic Chemistry, North Holland Publishing Co., p. 92-102.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>At USGS-Lakewood (Table 1), rock powders (~10-40 g) were solvent extracted with chloroform in a Soxhlet apparatus for about 48 hours in the presence of solvent cleaned copper strips for removal of elemental sulfur. Extracts were concentrated in rotary vacuum and filtered. A known extract volume fraction was dried and weighed to determine extractable organic matter (EOM) concentrations of the original rock samples.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Weight fractions of C15+ saturates, aromatic, resins, and asphaltenes (SARA) and total C15-volatiles (V) were determined at USGS-Lakewood by using 100 mg of extract that was deasphaltened in 2 mL of iso-octane stored overnight at -20\xc2\xb0C. Maltenes were separated with a 0.45-\xce\xbcm PTFE syringe filter and reduced to 0.5 mL by evaporation under nitrogen. Asphaltenes were rinsed with chloroform and dried under nitrogen before weighing. Maltenes were fractionated by column chromatography using 5-mL serological pipettes filled with activated silica gel (grades 923 and 62) and activated alumina. Saturate, aromatic, and resin fractions were eluted with iso-octane, benzene and a benzene/methanol azeotrope (60/40 w/w), respectively, and the solvent evaporated under nitrogen, followed by centrifugal vacuum. C15- content of each extract was determined by evaporating 100 mg aliquots under nitrogen until dry, followed by centrifugal vacuum evaporation for 15 min intervals and re-weighing until a weight difference of <0.3 mg was observed for three consecutive measurements.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Chromatograms from whole extracts, saturate and aromatic fractions at USGS-Lakewood were determined using an Agilent Model 6890 Gas Chromatograph with a 60 m \xc3\x97 0.32 mm \xc3\x97 0.25 \xce\xbcm ZB-1 dimethyl-polysiloxane capillary column and flame ionization detector (GC-FID).</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Biomarker ratios at USGS-Lakewood were determined on the maltene fraction using a Jeol GC Mate II GC-MS.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n <procstep>\n <procdesc>Stable carbon isotopic composition of oil C15+ saturate and aromatic fractions were determined at USGS-Lakewood using a Thermo Flash 2000 elemental analyzer coupled to a Thermo MAT253 isotope ratio mass spectrometer (EA-IR-MS) via a Thermo Conflo IV. Samples were flash combusted at 1020\xc2\xb0C in a chromium oxide-filled quartz reactor and combustion gases passed over copper at 600\xc2\xb0C to reduce NOx components and remove excess oxygen. Water was removed by Mg(ClO4)2 and CO2 and N2 separated at 90\xc2\xb0C by GC (CarboSieve-G, 1 m \xc3\x97 5 mm).</procdesc>\n <procdate>2018</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Geographic Names Index System (GNIS) place names (https://geonames.usgs.gov/apex/f?p=138:1:0:::::)</indspref>\n <direct>Point</direct>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Index</enttypl>\n <enttypd>An index of the tables in the dataset</enttypd>\n <enttypds>Hackley, P.C. and Ryder, R.T</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Tables</attrlabl>\n <attrdef>The titles of the tables in the dataset</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Table 1 Samples</edomv>\n <edomvd>Sample information and laboratory used for geochemical analyses.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Table 2 Prog. Pyrolysis</edomv>\n <edomvd>Solid bitumen reflectance, LECO total organic carbon (TOC) and programmed pyrolysis values.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Table 3 XRD</edomv>\n <edomvd>X-ray diffraction mineralogy for select Huron samples.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Table 4 SARA</edomv>\n <edomvd>Soxhlet extraction and saturate, aromatic, resin and asphaltene (SARA) fractionation results for bitumen extracts.</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Table 5 GC-FID</edomv>\n <edomvd>Bitumen extract (whole) properties from gas chromatography-flame ionization detector (GC_FID) and carbon isotopic values (on fractions) from isotope-ratio mass spectrometry(IR_MS).</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Table 6 GC-MS</edomv>\n <edomvd>Sterane and hopane biomarker ratios for oil and bitumen extract samples from gas chromatograph\xe2\x80\x93mass spectrometer (GC-MS).</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Description</attrlabl>\n <attrdef>A descriptor of the data contained in the table</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Sample information and laboratory used for geochemical analyses.</edomv>\n <edomvd>Information on each sample used in the experiment</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Solid bitumen reflectance, LECO total organic carbon (TOC) and programmed pyrolysis values.</edomv>\n <edomvd>Measures of reflectance, total organic carbon in the samples as well as the results of programmed pyrolysis experiments</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>X-ray diffraction mineralogy for select Huron samples.</edomv>\n <edomvd>Mineral concentrations found in samples via XRD</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Soxhlet extraction and saturate, aromatic, resin and asphaltene (SARA) fractionation results for bitumen extracts.</edomv>\n <edomvd>Results of soxhlet extraction and saturate, aromatic, resin and asphaltene (SARA) fractionation for bitumen extracts</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Bitumen extract (whole) properties from gas chromatography-flame ionization detector (GC_FID) and carbon isotopic values (on fractions) from isotope-ratio mass spectrometry(IR_MS).</edomv>\n <edomvd>Values determined from gas chromatography-flame ionization detector (GC_FID) and carbon isotopic values (on fractions) from isotope-ratio mass spectrometry(IR_MS)</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Sterane and hopane biomarker ratios for oil and bitumen extract samples from gas chromatograph\xe2\x80\x93mass spectrometer (GC-MS).</edomv>\n <edomvd>Values of sterane and hopane biomarker ratios determined by gas chromatograph\xe2\x80\x93mass spectrometer (GC-MS).</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 1 Samples</enttypl>\n <enttypd>Sample information and laboratory used for geochemical analyses</enttypd>\n <enttypds>Hackley, P.C. and Ryder, R.T.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>An identifier of shale sample, based on well location and collection depth</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A name and numerical identifier, based on well location and depth of collection</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>API</attrlabl>\n <attrdef>A numeric identifier of the well where the sample was collected</attrdef>\n <attrdefs>American Petroleum Institute, State regulatory agencies, and Professional Petroleum Data Management</attrdefs>\n <attrdomv>\n <codesetd>\n <codesetn>American Petroleum Institute</codesetn>\n <codesets>Kentucky: http://www.uky.edu/KGS/emsweb/data/kyogshape.html, Ohio: http://oilandgas.ohiodnr.gov/well-information/oil-gas-well-database, Virginia: https://www.dmme.virginia.gov/dgoinquiry/frmmain.aspx, West Virginia: https://dep.wv.gov/oil-and-gas/databaseinfo/pages/ogd.aspx</codesets>\n </codesetd>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Latitude</attrlabl>\n <attrdef>The latitude of the collection site</attrdef>\n <attrdefs>The National Map, https://nationalmap.gov/</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-90</rdommin>\n <rdommax>90</rdommax>\n <attrunit>Degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Longitude</attrlabl>\n <attrdef>The longitude of the collection site</attrdef>\n <attrdefs>The National Map, https://nationalmap.gov/</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-180</rdommin>\n <rdommax>180</rdommax>\n <attrunit>Degrees</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Type</attrlabl>\n <attrdef>The type of sample collected</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>outcrop</edomv>\n <edomvd>A sample taken from a rock outcropping</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>core</edomv>\n <edomvd>A stone core collected by drilling</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>cuttings</edomv>\n <edomvd>Stone pieces collected as a byproduct of drilling</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Fm. or Mbr.</attrlabl>\n <attrdef>The formation or member from which a sample was collected</attrdef>\n <attrdefs>Geolex, https://ngmdb.usgs.gov/lex-bin/search.pl</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Huron</edomv>\n <edomvd>a sample collected from the Huron member of the Ohio Shale formation</edomvd>\n <edomvds>Geolex, https://ngmdb.usgs.gov/lex-bin/search.pl</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Marcellus</edomv>\n <edomvd>A sample collected from the Marcellus Shale formation</edomvd>\n <edomvds>Geolex, https://ngmdb.usgs.gov/lex-bin/search.pl</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>State</attrlabl>\n <attrdef>The state in which a sample was collected</attrdef>\n <attrdefs>The National Map, https://nationalmap.gov/</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Kentucky</edomv>\n <edomvd>Sample was collected in the state of Kentucky</edomvd>\n <edomvds>The National Map, https://nationalmap.gov/</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Ohio</edomv>\n <edomvd>Sample was collected in the state of Ohio</edomvd>\n <edomvds>The National Map, https://nationalmap.gov/</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Virginia</edomv>\n <edomvd>Sample was collected in the state of Virginia</edomvd>\n <edomvds>The National Map, https://nationalmap.gov/</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>West Virginia</edomv>\n <edomvd>Sample was collected in the state of West Virginia</edomvd>\n <edomvds>The National Map, https://nationalmap.gov/</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Laboratory</attrlabl>\n <attrdef>The laboratory at which samples were analyzed via organic petrography at USGS-Reston and via solvent extraction and geochemical characterization</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>USGS - Lakewood</edomv>\n <edomvd>Sample was analyzed at the Lakewood laboratory</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Weatherford</edomv>\n <edomvd>Sample was analyzed at the Weatherford laboratory</edomvd>\n <edomvds>Producer-defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Previous Work</attrlabl>\n <attrdef>Previous publications using the same samples</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The names of researchers and dates representing a previous study using the same samples.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Footnotes and additional information on the samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Additional information on samples as well as notes describing the table.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 2 Prog. Pyrolysis</enttypl>\n <enttypd>Solid bitumen reflectance, LECO total organic carbon (TOC) and programmed pyrolysis values.</enttypd>\n <enttypds>Hackley, P.C. and Ryder, R.T.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>An identifier of shale sample, based on well location and collection depth</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A name and numerical identifier, based on well location and depth of collection</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>BRo</attrlabl>\n <attrdef>Solid bitumen reflectance of each sample, measured in percent of light reflected</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.35</rdommin>\n <rdommax>0.96</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TOC</attrlabl>\n <attrdef>Total organic carbon per sample, measured in weight percentage</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.02</rdommin>\n <rdommax>21.66</rdommax>\n <attrunit>percent weight</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>S1</attrlabl>\n <attrdef>Hydrocarbon concentration in the sample before pyrolysis, measured in milligrams of hydrocarbons per gram of rock, \xc2\xb110</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.99</rdommin>\n <rdommax>11.97</rdommax>\n <attrunit>Miligrams hydrocarbon per gram of rock (mg/g)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>S2</attrlabl>\n <attrdef>Hydrocarbon concentration after completion of pyrolysis, measured in milligrams of hydrocarbons per gram of rock, \xc2\xb110%</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10.95</rdommin>\n <rdommax>101.34</rdommax>\n <attrunit>Milligrams hydrocarbon per gram of rock (mg/g)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>S3</attrlabl>\n <attrdef>CO2 generated during hydrous pyrolysis, measured in milligrams of CO2 per gram of rock, \xc2\xb110%</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.14</rdommin>\n <rdommax>1.42</rdommax>\n <attrunit>Miligrams per gram (mg/g)</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>HI</attrlabl>\n <attrdef>Hydrogen index, calculated by the formula S2*100/TOC</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>249</rdommin>\n <rdommax>601</rdommax>\n <attrunit>mg HC/g TOC</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OI</attrlabl>\n <attrdef>Oxygen index, calculated by the formula CO2 generated during pyrolysis*100/TOC</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4</rdommin>\n <rdommax>28</rdommax>\n <attrunit>mg CO2/g TOC</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PI</attrlabl>\n <attrdef>Production Index, as calculated by the formula S1/(S1 + S2)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.05</rdommin>\n <rdommax>0.2</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tmax</attrlabl>\n <attrdef>The temperature at which maximum hydrocarbon production occurred, \xc2\xb1 3\xc2\xb0C</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>426</rdommin>\n <rdommax>448</rdommax>\n <attrunit>degrees Celsius</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Footnotes and additional information on the samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Additional information on samples as well as notes describing the table.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 3 XRD</enttypl>\n <enttypd>X-ray diffraction mineralogy for select Huron samples.</enttypd>\n <enttypds>Hackley, P.C. and Ryder, R.T.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>A sample identifier referencing collection location and depth</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>An identifier containing names, location and collection depth</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>LOI</attrlabl>\n <attrdef>Material lost on ignition of sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>4.1</rdommin>\n <rdommax>21.6</rdommax>\n <attrunit>Percent weight</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>QTZ</attrlabl>\n <attrdef>Percentage weight of quartz in sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>33</rdommin>\n <rdommax>55</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>FLD</attrlabl>\n <attrdef>Percent weight feldspar in sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>4</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CARB</attrlabl>\n <attrdef>Percent weight of carbonate in sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>24</rdommin>\n <rdommax>24</rdommax>\n <attrunit>percent weight</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>n.d. - No amount of carbonate was detected</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ILLITE</attrlabl>\n <attrdef>percent weight illite in sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>22</rdommin>\n <rdommax>48</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>KAOL</attrlabl>\n <attrdef>Percent weight kaolinite in sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>2</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>n.d. - No amount of kaolinite was detected</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CHLR</attrlabl>\n <attrdef>percent weight chlorite in sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>13</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>PY</attrlabl>\n <attrdef>percent weight pyrite in a sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>3</rdommin>\n <rdommax>5</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>OTHER</attrlabl>\n <attrdef>percent weight of other minerals in the sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>4</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>\xc6\xa9CLAY</attrlabl>\n <attrdef>the summation of all clay minerals in the sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>28</rdommin>\n <rdommax>59</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Footnotes and additional information on the samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Additional information on samples as well as notes describing the table.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 4 SARA</enttypl>\n <enttypd>Soxhlet extraction and saturate, aromatic, resin and asphaltene (SARA) fractionation results for bitumen extracts.</enttypd>\n <enttypds>Hackley, P.C. and Ryder, R.T.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>An identifier of shale sample, based on well location and collection depth</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A name and numerical identifier, based on well location and depth of collection</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>EOM</attrlabl>\n <attrdef>Extractable organic material in parts per million</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2464</rdommin>\n <rdommax>13788</rdommax>\n <attrunit>parts per million</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>EOM/TOC*0.01</attrlabl>\n <attrdef>Extractable organic material divided by percent weight of total organic carbon</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>.25</rdommin>\n <rdommax>19.4</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>%SAT</attrlabl>\n <attrdef>Percentage of saturate present in sample by weight</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10.6</rdommin>\n <rdommax>55.6</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>%ARO</attrlabl>\n <attrdef>Percent of aromatic present in sample by weight</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.8</rdommin>\n <rdommax>35.4</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>%NSO</attrlabl>\n <attrdef>Percent of nitrogen-sulfur-oxygen resin by weight</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>11.2</rdommin>\n <rdommax>61.3</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>%ASPH</attrlabl>\n <attrdef>Percent asphaltene in sample by weight</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2.2</rdommin>\n <rdommax>34.8</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>%Rec</attrlabl>\n <attrdef>Percent recovery</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>34.5</rdommin>\n <rdommax>98.1</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>%SAT/%ARO</attrlabl>\n <attrdef>Ratio of saturate to aromatic</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.6</rdommin>\n <rdommax>6</rdommax>\n <attrunit>percent of saturate to percent of aromatic recovered</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Footnotes and additional information on the samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Additional information on samples as well as notes describing the table.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 5 GC-FID</enttypl>\n <enttypd>Bitumen extract (whole) properties from gas chromatography-flame ionization detector (GC_FID) and carbon isotopic values (on fractions) from isotope-ratio mass spectrometry(IR_MS).</enttypd>\n <enttypds>Hackley, P.C. and Ryder, R.T.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>An identifier of shale sample, based on well location and collection depth</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A name and numerical identifier, based on well location and depth of collection</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pr/Ph</attrlabl>\n <attrdef>Ratio of pristane to phytane</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1.18</rdommin>\n <rdommax>2.27</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pr/n-C17</attrlabl>\n <attrdef>Ratio of pristane to C17 n-alkane</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>.34</rdommin>\n <rdommax>1.84</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ph/n-C18</attrlabl>\n <attrdef>Ratio of phytane to C18 n-alkane</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18</rdommin>\n <rdommax>1</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CPI</attrlabl>\n <attrdef>Carbon Preference Index</attrdef>\n <attrdefs>Hunt (1996)</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.46</rdommin>\n <rdommax>1.07</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>TAR</attrlabl>\n <attrdef>Terrestrial to aquatic ratio. The ratio of original organic material coming from aquatic sources in relation to original organic material of terrestrial origin in samples.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.04</rdommin>\n <rdommax>1.57</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>\xce\xb413C Sat</attrlabl>\n <attrdef>A measure of stable carbon isotopes, reported in parts per thousand, in saturate</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-31</rdommin>\n <rdommax>-28.4</rdommax>\n <attrunit>parts per thousand (\xe2\x80\xb0)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>Blank entries indicate no data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>\xce\xb413C Aro</attrlabl>\n <attrdef>A measure of stable carbon isotopes, reported in parts per thousand, in aromatic</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>-30.1</rdommin>\n <rdommax>-28.3</rdommax>\n <attrunit>parts per thousand (\xe2\x80\xb0)</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>Blank entries indicate no data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Footnotes and additional information on the samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Additional information on samples as well as notes describing the table.</udom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 6 GC-MS</enttypl>\n <enttypd>Sterane and hopane biomarker ratios for oil and bitumen extract samples from gas chromatograph\xe2\x80\x93mass spectrometer (GC-MS).</enttypd>\n <enttypds>Hackley, P.C. and Ryder, R.T.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Sample ID</attrlabl>\n <attrdef>An identifier of shale sample, based on well location and collection depth</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>A name and numerical identifier, based on well location and depth of collection</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>%C27 \xce\xb1\xce\xb2\xce\xb2S</attrlabl>\n <attrdef>percentage of C27 \xce\xb1\xce\xb2\xce\xb2 20S steranes in each sample</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>27.7</rdommin>\n <rdommax>35.9</rdommax>\n <attrunit>percent</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>Blank entries indicate no data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>%C28 \xce\xb1\xce\xb2\xce\xb2S</attrlabl>\n <attrdef>Percentage of C28 \xce\xb1\xce\xb2\xce\xb2 20S steranes in each sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>20.2</rdommin>\n <rdommax>35.4</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>Blank entries indicate no data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>%C29 \xce\xb1\xce\xb2\xce\xb2S</attrlabl>\n <attrdef>Percentage C29 \xce\xb1\xce\xb2\xce\xb2 20S steranes in each sample</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>35.7</rdommin>\n <rdommax>48</rdommax>\n <attrunit>percentage</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>Blank entries indicate no data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>C29 \xce\xb1\xce\xb1\xce\xb1 S/(S+R)</attrlabl>\n <attrdef>Calculated by 5\xce\xb1-stigmastane (20S) / 5\xce\xb1-stigmastane (20S+20R)</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.30</rdommin>\n <rdommax>0.53</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>\xce\xb2\xce\xb2S/\xce\xb2\xce\xb2S+\xce\xb1\xce\xb1R</attrlabl>\n <attrdef>5\xce\xb1, 14\xce\xb2, 17\xce\xb2-stigmastane (20S) / 5\xce\xb1, 14\xce\xb2, 17\xce\xb2-stigmastane (20S) + 5\xce\xb1-stigmastane (20R)</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.18</rdommin>\n <rdommax>0.6</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>C27 Dia/\xce\xb1\xce\xb1\xce\xb1 Ster</attrlabl>\n <attrdef>13\xce\xb2, 17\xce\xb1-diacholestane (20S) / 5\xce\xb1-cholestane (20R); Ga/Hop-gammacerane to 17\xce\xb1, 21\xce\xb2-30-homohopane (22S) ratio</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.55</rdommin>\n <rdommax>2.62</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Ga/Hop</attrlabl>\n <attrdef>gammacerane to 17\xce\xb1, 21\xce\xb2-30-homohopane (22S) ratio</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.05</rdommin>\n <rdommax>.17</rdommax>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>Blank entries indicate no data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>norhop/hop</attrlabl>\n <attrdef>norhopane (17\xce\xb1, 21\xce\xb2-30-norhopane) to hopane (17\xce\xb1, 21\xce\xb2-hopane) ratio</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.34</rdommin>\n <rdommax>3</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>C27 Ts/(Ts+Tm)</attrlabl>\n <attrdef>18\xce\xb1, 21\xce\xb2-22,29,30-trisnorhopane / Ts + 17\xce\xb1, 21\xce\xb2-22,29,30-trisnorhopane</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.26</rdommin>\n <rdommax>.78</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>C31R/H</attrlabl>\n <attrdef>17\xce\xb1, 21\xce\xb2-30-homohopane (22R)/17\xce\xb1, 21\xce\xb2-hopane</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.24</rdommin>\n <rdommax>.51</rdommax>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>Blank entries indicate no data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>C26/C25</attrlabl>\n <attrdef>C26(R+S)/C25(R+S) homohopanes</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.79</rdommin>\n <rdommax>1.42</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>C35/C34</attrlabl>\n <attrdef>C35S/C34S homohopane ratio</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.36</rdommin>\n <rdommax>.73</rdommax>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>Blank entries indicate no data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>C24/C23</attrlabl>\n <attrdef>C24/C23 tricyclic terpane ratio</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.25</rdommin>\n <rdommax>.78</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>C22/C21</attrlabl>\n <attrdef>C22/C21 tricyclic terpane ratio</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.27</rdommin>\n <rdommax>.69</rdommax>\n </rdom>\n </attrdomv>\n <attrdomv>\n <udom>Blank entries indicate no data</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Comments</attrlabl>\n <attrdef>Footnotes and additional information on the samples</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Additional information on samples as well as notes describing the table.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>US Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n <techpreq>The file contains data available in comma separated value (.csv) file format. The user must have software capable of opening and viewing a .csv file</techpreq>\n </distinfo>\n <metainfo>\n <metd>20200819</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Eric A Morrissey</cntper>\n <cntorg>Midwest Region: EASTERN ENERGY RESOURCES SC</cntorg>\n </cntperp>\n <cntpos>Info Tech Spec (Internet)</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 956, 12201 Sunrise Valley Dr</address>\n <city>Reston</city>\n <state>VA</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-6409</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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1. [ScienceBase Catalog](/catalog/item/4f4e4760e4b07f02db47df9c)
2. [USGS Colorado Water Science Center](/catalog/item/5d64186fe4b01d82ce986fe6)
3. [Acoustic, Spatial, and Sediment Size Data Collected on the Upper Colorado River to Estimate the Flushing Flows, Colorado, 2019](/catalog/item/5e29d861e4b0a79317cf7f95)
4. [Sediment Size Data from Two Sites on the Upper Colorado River, Colorado, 2019](/catalog/folder/5e4c4ae8e4b0ff554f6c66ee)
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## Dates
Publication Date2020-07-30Start Date2019-04-23End Date2019-04-24
## Citation
Kohn, M.S., and Hempel, L.A., 2020, Acoustic, spatial, and sediment size data collected on the upper Colorado River to estimate the flushing flows, Colorado, 2019: U.S. Geological Survey data release, https://doi.org/10.5066/P9J5L78O.
## Summary
In 2019, the U.S. Geological Survey, in cooperation with the Upper Colorado River Wild and Scenic Stakeholder Group, studied the magnitude and recurrence interval of streamflow needed to initiate bed movement of gravel-sized and finer sediment in a segment of the Colorado River in Colorado to better understand sediment movement and its relation to flow regimes of the river. Two stationary hydrophone systems were installed on April 23, 2019 at the above Catamount Bridge stationary hydrophone site (above Catamount Bridge site), and two were installed on April 24, 2019 at the Radium stationary hydrophone site (Radium site). Pebble counts of coarse surface particles (greater than 2 millimeters \[mm; 0.00656 foot\]) were performed in the \[...\]
## Summary
In 2019, the U.S. Geological Survey, in cooperation with the Upper Colorado River Wild and Scenic Stakeholder Group, studied the magnitude and recurrence interval of streamflow needed to initiate bed movement of gravel-sized and finer sediment in a segment of the Colorado River in Colorado to better understand sediment movement and its relation to flow regimes of the river. Two stationary hydrophone systems were installed on April 23, 2019 at the above Catamount Bridge stationary hydrophone site (above Catamount Bridge site), and two were installed on April 24, 2019 at the Radium stationary hydrophone site (Radium site). Pebble counts of coarse surface particles (greater than 2 millimeters \[mm; 0.00656 foot\]) were performed in the wadeable areas adjacent to the stationary hydrophones to provide general estimates of the size of the material that could be mobilized and recorded near the hydrophones. The particle size of the intermediate axis (B-axis) was measured with a gravelometer, and the largest bin size the particle did not pass through (the retaining sieve size) was recorded. Particles smaller than 2 mm (0.00656 foot) were recorded as less than 2 mm (0.00656 foot). Those particle size measurements are presented in this child item.
## Contacts
Point of Contact
:
[Michael S Kohn](/catalog/catalogParty/show?partyId=65852)
Originator
:
[Michael S Kohn](/catalog/catalogParty/show?partyId=65852),
[Laura A Hempel](/catalog/catalogParty/show?partyId=14780)
Metadata Contact
:
[Michael S Kohn](/catalog/catalogParty/show?partyId=65852)
Publisher
:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
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| UCOR\_pebble\_count.xml<br>“Metadata”<br>_Original FGDC Metadata_ | View | 17.66 KB | application/fgdc+xml |
| UCOR\_pebble\_count.csv<br>“Pebble count data file” | | 16.37 KB | text/csv |
## Related External Resources
Type: Online Link
| | |
| --- | --- |
| Web Link | [https://doi.org/10.3133/sir20205069](https://doi.org/10.3133/sir20205069 "https://doi.org/10.3133/sir20205069") |
## Purpose
Pebble counts of coarse surface particles (greater than 2 millimeters \[mm; 0.00656 foot\]) were collected in the wadeable areas adjacent to stationary hydrophones to provide general estimates of the size of the material that could be mobilized and recorded near the hydrophones.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Laura A. Hempel</origin>\n <origin>Michael S Kohn</origin>\n <pubdate>20200730</pubdate>\n <title>Sediment Size Data from Two Sites on the Upper Colorado River, Colorado, 2019</title>\n <geoform>CSV</geoform>\n <pubinfo>\n <pubplace>ScienceBase</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9J5L78O</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Michael S. Kohn</origin>\n <origin>Mathieu D. Marineau</origin>\n <origin>Laura A. Hempel</origin>\n <origin>Richard R. McDonald</origin>\n <pubdate>2020</pubdate>\n <title>Incipient Bed Movement and Flood-Frequency Analysis using Hydrophones to estimate Flushing Flows on the Upper Colorado River, 2019</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Scientific Investigations Report</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.3133/sir20205069</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>In 2019, the U.S. Geological Survey, in cooperation with the Upper Colorado River Wild and Scenic Stakeholder Group, studied the magnitude and recurrence interval of streamflow needed to initiate bed movement of gravel-sized and finer sediment in a segment of the Colorado River in Colorado to better understand sediment movement and its relation to flow regimes of the river. Two stationary hydrophone systems were installed on April 23, 2019 at the above Catamount Bridge stationary hydrophone site (above Catamount Bridge site), and two were installed on April 24, 2019 at the Radium stationary hydrophone site (Radium site). Pebble counts of coarse surface particles (greater than 2 millimeters [mm; 0.00656 foot]) were performed in the wadeable areas adjacent to the stationary hydrophones to provide general estimates of the size of the material that could be mobilized and recorded near the hydrophones. The particle size of the intermediate axis (B-axis) was measured with a gravelometer, and the largest bin size the particle did not pass through (the retaining sieve size) was recorded. Particles smaller than 2 mm (0.00656 foot) were recorded as less than 2 mm (0.00656 foot). Those particle size measurements are presented in this child item.</abstract>\n <purpose>Pebble counts of coarse surface particles (greater than 2 millimeters [mm; 0.00656 foot]) were collected in the wadeable areas adjacent to stationary hydrophones to provide general estimates of the size of the material that could be mobilized and recorded near the hydrophones.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20190423</begdate>\n <enddate>20190424</enddate>\n </rngdates>\n </timeinfo>\n <current>observed</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-106.7912</westbc>\n <eastbc>-106.5533</eastbc>\n <northbc>39.9565</northbc>\n <southbc>39.8486</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>biota</themekey>\n </theme>\n <theme>\n <themekt>USGS</themekt>\n <themekey>geomorphology</themekey>\n <themekey>hydrology</themekey>\n <themekey>sediment transport</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5e4c4ae8e4b0ff554f6c66ee</themekey>\n </theme>\n <place>\n <placekt>Common geographic areas</placekt>\n <placekey>Colorado</placekey>\n <placekey>Catamount</placekey>\n <placekey>Radium</placekey>\n </place>\n </keywords>\n <accconst>None.</accconst>\n <useconst>None. Users are advised to read the dataset\'s metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Laura A. Hempel</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>201 E. 9th St.</address>\n <city>Pueblo</city>\n <state>CO</state>\n <postal>81003</postal>\n </cntaddr>\n <cntvoice>719-562-2842</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Prepared in cooperation with the Upper Colorado River Wild and Scenic Stakeholder Group and the Colorado River Water Conservation District.</datacred>\n <native>Windows 10 Enterprise operating system; Microsoft Excel used to create spreadsheet and save to comma-separated values file.</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Tests to assess the accuracy of values were not applied to this dataset; however, at least 100 particles per sample were measured following Wolman (1954), such that eliminating a small number of particles from the sample should not substantially alter the particle size distribution.</attraccr>\n </attracc>\n <logic>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. No formal logical accuracy tests were conducted.</logic>\n <complete>Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>The coordinates of the stationary hydrophones and their horizontal accuracies, which served as the centroid of the sample area for each pebble count, are presented in Kohn and others (2020).</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>The coordinates of the stationary hydrophones and their vertical accuracies, which served as the centroid of the sample area for each pebble count, are presented in Kohn and others (2020).</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>M. Gordon Wolman</origin>\n <pubdate>1954</pubdate>\n <title>A method of sampling coarse river-bed material</title>\n <geoform>publication</geoform>\n <serinfo>\n <sername>Transactions, American Geophysical Union</sername>\n <issue>vol. 35, no. 6</issue>\n </serinfo>\n <pubinfo>\n <pubplace>n/a</pubplace>\n <publish>American Geophysical Union (AGU)</publish>\n </pubinfo>\n <othercit>p. 951-956</othercit>\n <onlink>https://doi.org/10.1029/TR035i006p00951</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>1954</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Wolman, 1954</srccitea>\n <srccontr>Method for data collection.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>Kristin Bunte</origin>\n <origin>Steven R. Abt</origin>\n <pubdate>2001</pubdate>\n <title>Sampling surface and subsurface particle-size distributions in wadable gravel-and cobble-bed streams for analyses in sediment transport, hydraulics, and streambed monitoring</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace>Ft. Collins, CO</pubplace>\n <publish>U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station</publish>\n </pubinfo>\n <onlink>https://doi.org/10.2737/RMRS-GTR-74</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>2001</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Bunte and Abt, 2001</srccitea>\n <srccontr>Method for data collection.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>Pebble counts of coarse surface particles (greater than 2 millimeters [mm; 0.00656 foot]) were performed in the wadeable areas adjacent to stationary hydrophones to provide general estimates of the size of the material that could be mobilized and recorded near the hydrophones. At each sampling location, 100 particles were selected from underneath the toe of the sampler\xe2\x80\x99s boot during a random walk and were measured using a gravelometer, in accordance with protocols established by Wolman (1954) and Bunte and Abt (2001). Because the pebble counts were intended to explore general differences in surface particle sizes and potential bedload material at stationary hydrophone sites, more precise sampling approaches, such as a systematic grid pattern or increasing the number of pebbles sampled to 400, were not adopted (Bunte and Abt, 2001). Furthermore, because of high and sustained streamflows during the study, the sampling area was constrained to wadeable areas adjacent to the stationary hydrophones, which precluded more robust and spatially distributed sampling methods. Two pebble count samples were collected at the Radium stationary hydrophone site on April 24, 2019 and were located (1) within a 150-foot, wadeable radius surrounding the upstream Radium stationary hydrophone system, on an eddy bar; and (2) on the sub-aerially exposed gravel island located approximately 220 feet northwest of the downstream Radium stationary hydrophone system, on a detached point bar. Two additional pebble count samples were collected at the above Catamount Bridge stationary hydrophone site on April 23, 2019 and were located (1) within a 150-foot, wadeable radius surrounding the upstream above Catamount Bridge stationary hydrophone system, adjacent to a riffle; and (2) within a 150-foot, wadeable radius surrounding the downstream above Catamount Bridge stationary hydrophone system, adjacent to a riffle. The particle size of the intermediate axis (B-axis) was measured with a gravelometer, and the largest bin size the particle did not pass through (the retaining sieve size) was recorded. Particles smaller than 2 mm (0.00656 foot) were recorded as less than 2 mm (0.00656 foot ). Please refer to the associated Scientific Investigations Report entitled \xe2\x80\x9cIncipient Bed-Movement and Flood-Frequency Analysis using Hydrophones to Estimate Flushing Flows on the Upper Colorado River, Colorado, 2019\xe2\x80\x9d (Kohn and others, 2020) for more details.</procdesc>\n <procdate>20190808</procdate>\n <proccont>\n <cntinfo>\n <cntperp>\n <cntper>Laura A Hempel</cntper>\n <cntorg>U.S. Geological Survey, ROCKY MOUNTAIN REGION</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>201 9th Street East</address>\n <city>Pueblo</city>\n <state>CO</state>\n <postal>81003</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>719-562-2842</cntvoice>\n <cntfax>719-544-2463</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </proccont>\n </procstep>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>UCOR_pebble_count.csv</enttypl>\n <enttypd>Comma Separated Value (CSV) file containing individual particle sizes measured during pebble count surveys at the four stationary hydrophone systems on the Upper Colorado River in 2019.</enttypd>\n <enttypds>Producer Defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Particle_Number</attrlabl>\n <attrdef>An identifier for each particle measured along a cross section at each sample location.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>105</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Recorded_Sieve_Size_mm</attrlabl>\n <attrdef>The particle size of the intermediate axis (B-axis) was measured with a gravelometer, and the largest bin size the particle did not pass through (the retaining sieve size) was recorded. Particles smaller than 2 millimeters (mm) were recorded as "<2 mm".</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Sieve sizes on the gravelometer are square and ranged from 2 to 180 millimeters. Pebbles that fit through the 2 mm sieve were recorded as < 2 mm. The B-axis of pebbles that were too large to fit through the 180 mm sieve were estimated using the ruler on the gravelometer.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sample_Location</attrlabl>\n <attrdef>Name of stationary hydrophone system that served as the centroid of the sample area for the four pebble counts</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Pebble counts of coarse surface particles (greater than 2 millimeters [mm; 0.00656 ft]) were collected in the wadeable areas adjacent to stationary hydrophones to provide general estimates of the size of the material that could be mobilized and recorded near the hydrophones.\n\nTwo pebble count samples were collected at the Radium stationary hydrophone site on April 24, 2019 and were located (1) within a 150-foot, wadeable radius surrounding the upstream Radium stationary hydrophone system (Radium_upstream_hydrophone), on an eddy bar; and (2) on the sub-aerially exposed gravel island located approximately 220 feet northwest of the downstream Radium stationary hydrophone system (Radium_downstream_hydrophone), on a detached point bar. Two additional pebble count samples were collected at the above Catamount Bridge stationary hydrophone site on April 23, 2019 and were located (1) within a 150-foot, wadeable radius surrounding the upstream above Catamount Bridge stationary hydrophone system (Above_Catamount_upstream_hydrophone), adjacent to a riffle; and (2) within a 150-foot, wadeable radius surrounding the downstream above Catamount Bridge stationary hydrophone system (Above_Catamount_downstream_hydrophone), adjacent to a riffle.</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>This database has been approved for release by the U.S. Geological Survey (USGS). Although this database has been subjected to rigorous review and is substantially complete, the USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, it is released on condition that neither the USGS nor the U.S. Government may be held liable for any damages resulting from its authorized or unauthorized use. Although these data have been processed successfully on a computer system at the USGS, no warranty, expressed or implied is made regarding the display or utility of the data on any other system, or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The USGS or the U.S. Government shall not be held liable for improper or incorrect use of the data described and/or contained herein. Although this information product, for the most part, is in the public domain, it also may contain copyrighted material as noted in the text. Permission to reproduce copyrighted items must be secured from the copyright owner. Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>Digital Data</formname>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9J5L78O</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200814</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Laura A Hempel</cntper>\n <cntorg>U.S. Geological Survey, ROCKY MOUNTAIN REGION</cntorg>\n </cntperp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>mailing address</addrtype>\n <address>201 9th Street East</address>\n <city>Pueblo</city>\n <state>CO</state>\n <postal>81001</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>719-562-2842</cntvoice>\n <cntfax>719-544-2463</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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3. [Potential Effects of Climate Change on Streamflow in Eastern and Central Montana (2013-2014 Analyses) - PRMS Model Input and Output](/catalog/item/5522bdf7e4b027f0aee3d039)
4. [Appendix 2. Simulated monthly mean streamflows for the seven study watersheds in eastern and central Montana, for the baseline period (WY 1982 – 1999) and future periods (WYs 2021 – 2038, 2046 – 2063 and 2071 – 2088) for the three General Circulation Models used in the regional climate model.](/catalog/folder/55b69c6ae4b09a3b01b5f653)
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## Dates
Publication Date2016Start Date1981-10-01End Date2088-09-30
## Citation
Chase, K.J. Haj, A.E. Regan, R.S. and Viger, R.J., 2016, Potential Effects of Climate Change on Streamflow in Eastern and Central Montana (2013-2014 Analyses) - PRMS Input and Output Data: U.S. Geological Survey data release, http://dx.doi.org/doi:10.5066/F7P26W5S.
## Summary
The Precipitation-Runoff Modeling System (PRMS) was used to produce simulations of streamflow for seven watersheds in eastern and central Montana for a baseline period (water years 1982-1999) and three future periods (water years 2021-2038, 2046–2063, and 2071-2038). The seven areas that were modeled are the O'Fallon, Redwater, Little Dry, Middle Musselshell, Judith, Cottonwood Creek, and Belt watersheds. Appendix 2 is provided as supplementary information to accompany the forthcoming journal article Potential Effects of Climate Change on Streamflow for Seven Watersheds in Eastern and Central Montana. These data document the monthly streamflow (in cubic meters per second) at the downstream end of each stream segment for PRMS \[...\]
## Summary
The Precipitation-Runoff Modeling System (PRMS) was used to produce simulations of streamflow for seven watersheds in eastern and central Montana for a baseline period (water years 1982-1999) and three future periods (water years 2021-2038, 2046–2063, and 2071-2038). The seven areas that were modeled are the O'Fallon, Redwater, Little Dry, Middle Musselshell, Judith, Cottonwood Creek, and Belt watersheds.
Appendix 2 is provided as supplementary information to accompany the forthcoming journal article Potential Effects of Climate Change on Streamflow for Seven Watersheds in Eastern and Central Montana. These data document the monthly streamflow (in cubic meters per second) at the downstream end of each stream segment for PRMS simulations of streamflow for the O'Fallon, Redwater, Little Dry, Middle Musselshell, Judith, Cottonwood Creek, and Belt watersheds in eastern and central Montana for a baseline period and selected future periods.
Appendix 2 contains seven tables:
Table 2.1. Simulated monthly mean streamflows for O’Fallon Creek watershed
Table 2.2. Simulated monthly mean streamflows for Redwater River watershed
Table 2.3. Simulated monthly mean streamflows for Little Dry Creek watershed
Table 2.4. Simulated monthly mean streamflows for Middle Musselshell watershed
Table 2.5. Simulated monthly mean streamflows for Judith River watershed
Table 2.6. Simulated monthly mean streamflows for Cottonwood Cree watershed
Table 2.7. Simulated monthly mean streamflows for Belt Creek watershed
## Contacts
Point of Contact
:
[Katherine J. Chase](/catalog/catalogParty/show?partyId=Katherine+J.+Chase),
[USGS Wyoming-Montana Water Science Center](/catalog/catalogParty/show?partyId=USGS+Wyoming-Montana+Water+Science+Center)
Metadata Contact
:
[Katherine J. Chase](/catalog/catalogParty/show?partyId=Katherine+J.+Chase),
[USGS Wyoming-Montana Water Science Center](/catalog/catalogParty/show?partyId=USGS+Wyoming-Montana+Water+Science+Center)
Originator
:
[Katherine J Chase](/catalog/catalogParty/show?partyId=1728),
[Adel E Haj](/catalog/catalogParty/show?partyId=58375),
[Robert Steven Regan](/catalog/catalogParty/show?partyId=40010),
[Roland J Viger](/catalog/catalogParty/show?partyId=54961)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=U.S.+Geological+Survey)
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| | | | |
| --- | --- | --- | --- |
| App 2\_FINAL.xml<br>_Original FGDC Metadata_ | View | 15.25 KB | application/fgdc+xml |
| Appendix\_2.1\_OF\_1982\_BASELINE.csv | | 46.4 KB | text/csv |
| Appendix\_2.1\_OF\_2030\_ECHAM5.csv | | 46.41 KB | text/csv |
| Appendix\_2.1\_OF\_2030\_GENMOM.csv | | 46.38 KB | text/csv |
| Appendix\_2.1\_OF\_2055\_ECHAM5.csv | | 46.4 KB | text/csv |
| Appendix\_2.1\_OF\_2055\_GENMOM.csv | | 46.42 KB | text/csv |
| Appendix\_2.1\_OF\_2055\_GFDL.csv | | 46.39 KB | text/csv |
| Appendix\_2.1\_OF\_2080\_ECHAM5.csv | | 46.39 KB | text/csv |
| Appendix\_2.1\_OF\_2080\_GENMOM.csv | | 46.38 KB | text/csv |
| Appendix\_2.2\_RW\_1982\_BASELINE.csv | | 59.98 KB | text/csv |
| Appendix\_2.2\_RW\_2030\_ECHAM5.csv | | 59.94 KB | text/csv |
| Appendix\_2.2\_RW\_2030\_GENMOM.csv | | 59.98 KB | text/csv |
| Appendix\_2.2\_RW\_2055\_ECHAM5.csv | | 59.94 KB | text/csv |
| Appendix\_2.2\_RW\_2055\_GENMOM.csv | | 59.94 KB | text/csv |
| Appendix\_2.2\_RW\_2055\_GFDL.csv | | 59.93 KB | text/csv |
| Appendix\_2.2\_RW\_2080\_ECHAM5.csv | | 59.92 KB | text/csv |
| Appendix\_2.2\_RW\_2080\_GENMOM.csv | | 59.92 KB | text/csv |
| Appendix\_2.3\_LD\_1982\_BASELINE.csv | | 43.03 KB | text/csv |
| Appendix\_2.3\_LD\_2030\_ECHAM5.csv | | 43.02 KB | text/csv |
| Appendix\_2.3\_LD\_2030\_GENMOM.csv | | 43.03 KB | text/csv |
| Appendix\_2.3\_LD\_2055\_ECHAM5.csv | | 43.02 KB | text/csv |
| Appendix\_2.3\_LD\_2055\_GENMOM.csv | | 43.02 KB | text/csv |
| Appendix\_2.3\_LD\_2055\_GFDL.csv | | 43.02 KB | text/csv |
| Appendix\_2.3\_LD\_2080\_ECHAM5.csv | | 43.02 KB | text/csv |
| Appendix\_2.3\_LD\_2080\_GENMOM.csv | | 43.01 KB | text/csv |
| Appendix\_2.4\_MM\_1982\_BASELINE.csv | | 93.81 KB | text/csv |
| Appendix\_2.4\_MM\_2030\_ECHAM5.csv | | 93.81 KB | text/csv |
| Appendix\_2.4\_MM\_2030\_GENMOM.csv | | 93.81 KB | text/csv |
| Appendix\_2.4\_MM\_2055\_ECHAM5.csv | | 93.81 KB | text/csv |
| Appendix\_2.4\_MM\_2055\_GENMOM.csv | | 93.81 KB | text/csv |
| Appendix\_2.4\_MM\_2055\_GFDL.csv | | 93.81 KB | text/csv |
| Appendix\_2.4\_MM\_2080\_ECHAM5.csv | | 93.81 KB | text/csv |
| Appendix\_2.4\_MM\_2080\_GENMOM.csv | | 93.81 KB | text/csv |
| Appendix\_2.5\_JD\_1982\_BASELINE.csv | | 63.64 KB | text/csv |
| Appendix\_2.5\_JD\_2030\_ECHAM5.csv | | 63.65 KB | text/csv |
| Appendix\_2.5\_JD\_2030\_GENMOM.csv | | 63.65 KB | text/csv |
| Appendix\_2.5\_JD\_2055\_ECHAM5.csv | | 63.49 KB | text/csv |
| Appendix\_2.5\_JD\_2055\_GENMOM.csv | | 63.62 KB | text/csv |
| Appendix\_2.5\_JD\_2055\_GFDL.csv | | 63.48 KB | text/csv |
| Appendix\_2.5\_JD\_2080\_ECHAM5.csv | | 63.45 KB | text/csv |
| Appendix\_2.5\_JD\_2080\_GENMOM.csv | | 63.52 KB | text/csv |
| Appendix\_2.6\_CD\_1982\_BASELINE.csv | | 10.79 KB | text/csv |
| Appendix\_2.6\_CD\_2030\_ECHAM5.csv | | 10.79 KB | text/csv |
| Appendix\_2.6\_CD\_2030\_GENMOM.csv | | 10.79 KB | text/csv |
| Appendix\_2.6\_CD\_2055\_ECHAM5.csv | | 10.79 KB | text/csv |
| Appendix\_2.6\_CD\_2055\_GENMOM.csv | | 10.79 KB | text/csv |
| Appendix\_2.6\_CD\_2055\_GFDL.csv | | 10.79 KB | text/csv |
| Appendix\_2.6\_CD\_2080\_ECHAM5.csv | | 10.79 KB | text/csv |
| Appendix\_2.6\_CD\_2080\_GENMOM.csv | | 10.79 KB | text/csv |
| Appendix\_2.7\_BT\_1982\_BASELINE.csv | | 16.05 KB | text/csv |
| Appendix\_2.7\_BT\_2030\_ECHAM5.csv | | 16.05 KB | text/csv |
| Appendix\_2.7\_BT\_2030\_GENMOM.csv | | 16.03 KB | text/csv |
| Appendix\_2.7\_BT\_2055\_ECHAM5.csv | | 16.02 KB | text/csv |
| Appendix\_2.7\_BT\_2055\_GENMOM.csv | | 16.03 KB | text/csv |
| Appendix\_2.7\_BT\_2055\_GFDL.csv | | 15.99 KB | text/csv |
| Appendix\_2.7\_BT\_2080\_ECHAM5.csv | | 16.01 KB | text/csv |
| Appendix\_2.7\_BT\_2080\_GENMOM.csv | | 16.02 KB | text/csv |
... show more ... (Attached Files)
## Purpose
This appendix is provided as supplementary information to accompany a forthcoming journal article. These data document the output from the PRMS model.
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Build Version: 2.184.0-630-gc5d79ac-0
(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Katherine Chase</origin>\n <pubdate>2016</pubdate>\n <title>Appendix 2. Simulated monthly mean streamflows for the O\'Fallon, Redwater, Little Dry, Middle Musselshell, Judith, Cottonwood Creek, and Belt watersheds in eastern and central Montana, for a baseline period (water years 1982\xe2\x80\x931999) and three future periods (water years 2021\xe2\x80\x932038, 2046\xe2\x80\x932063, and 2071\xe2\x80\x932038).</title>\n <geoform>csv</geoform>\n <pubinfo>\n <pubplace>Helena, MT</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F7P26W5S</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The Precipitation-Runoff Modeling System (PRMS) was used to produce simulations of streamflow for seven watersheds in eastern and central Montana for a baseline period (water years 1982-1999) and three future periods (water years 2021-2038, 2046\xe2\x80\x932063, and 2071-2038). The seven areas that were modeled are the O\'Fallon, Redwater, Little Dry, Middle Musselshell, Judith, Cottonwood Creek, and Belt watersheds.\n\nAppendix 2 contains seven tables to accompany the forthcoming journal article Potential Effects of Climate Change on Streamflow for Seven Watersheds in Eastern and Central Montana.</abstract>\n <purpose>Appendix 2 is provided as supplementary information to accompany the forthcoming journal article Potential Effects of Climate Change on Streamflow for Seven Watersheds in Eastern and Central Montana. These data document the monthly streamflow (in cubic meters per second) at the downstream end of each stream segment for PRMS simulations of streamflow for the O\'Fallon, Redwater, Little Dry, Middle Musselshell, Judith, Cottonwood Creek, and Belt watersheds in eastern and central Montana for a baseline period and selected future periods.</purpose>\n <supplinf>Please note limitations described in the text before using or referring to the input/output\ndata.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>19811001</begdate>\n <enddate>20880930</enddate>\n </rngdates>\n </timeinfo>\n <current>publication date</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-112.65380859285</westbc>\n <eastbc>-104.0405273432</eastbc>\n <northbc>48.951079143295</northbc>\n <southbc>45.011109321615</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>streamflow</themekey>\n <themekey>climate change</themekey>\n <themekey>streamflow modeling</themekey>\n <themekey>fish</themekey>\n <themekey>model</themekey>\n <themekey>effects of climate change</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:55b69c6ae4b09a3b01b5f653</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System</placekt>\n <placekey>Montana</placekey>\n <placekey>Great Plains</placekey>\n </place>\n </keywords>\n <accconst>No access constraints as all data is open and non-proprietary</accconst>\n <useconst>Please note limitations as noted in text.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>USGS Wyoming-Montana Water Science Center</cntorg>\n <cntper>Katherine J. Chase</cntper>\n </cntorgp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>3162 Bozeman Ave</address>\n <city>Helena</city>\n <state>MT</state>\n <postal>59601</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>406-457-5957</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>Plains and Prairie Potholes Landscape Conservation Cooperative, Bureau of Land Management, USGS Northern Rockies Mountain Science Center, Montana State University</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted.</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>The Oak Ridge National Laboratory Distributed Active Archive Center (ORNL DAAC) for\nbiogeochemical dynamics</origin>\n <pubdate>20130101</pubdate>\n <title>Daymet gridded meteorologic data for the United States</title>\n <geoform>Raster Digital Data Set</geoform>\n <pubinfo>\n <pubplace>http://daac.ornl.gov/</pubplace>\n <publish>The Oak Ridge National Laboratory Distributed Active Archive Center (ORNL DAAC) for\nbiogeochemical dynamics</publish>\n </pubinfo>\n <onlink>http://daymet.ornl.gov/</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19800101</begdate>\n <enddate>20110930</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>Daymet</srccitea>\n <srccontr>Used for driving PRMS simulation for baseline conditions and for deriving changes in temperature and precipitation added to baseline to drive PRMS simulations of future conditions.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>U.S. Geological Survey, Viger, Roland J., Research Geographer</origin>\n <pubdate>20140428</pubdate>\n <title>Preliminary spatial parameters for PRMS based on the Geospatial Fabric, NLCD2001 and SSURGO, U.S. Geological Survey</title>\n <geoform>Vector Digital Data Set</geoform>\n <pubinfo>\n <pubplace>ScienceBase</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/doi:10.5066/F7WM1BF7</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20140428</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>PRMS initial parameters</srccitea>\n <srccontr>Provides Initial (pre-calibration) parameters for PRMS</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>USGS/Oregon State University</origin>\n <pubdate>20110101</pubdate>\n <title>RegCM3 regional climate model</title>\n <geoform>Other</geoform>\n <pubinfo>\n <pubplace>http://regclim.coas.oregonstate.edu/dynamical-downscaling/index.html</pubplace>\n <publish>USGS/Oregon State University</publish>\n </pubinfo>\n <onlink>http://regclim.coas.oregonstate.edu/dynamical-downscaling/index.html</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Digital and/or Hardcopy Resources</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>20201001</begdate>\n <enddate>20880930</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>RegCM3</srccitea>\n <srccontr>Used to calculate changes in precipitation and temperature; changes were added to baseline Daymet data to drive PRMS simulations to estimate changes in streamflow.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>USGS modeling of watershed systems</origin>\n <pubdate>20130424</pubdate>\n <title>Precipitation-Runoff Modeling System (PRMS)</title>\n <pubinfo>\n <pubplace>Online</pubplace>\n <publish>USGS modeling of watershed systems</publish>\n </pubinfo>\n <onlink>http://wwwbrr.cr.usgs.gov/projects/SW_MoWS/PRMS.html</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Computer Program</typesrc>\n <srctime>\n <timeinfo>\n <sngdate>\n <caldate>20130424</caldate>\n </sngdate>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>PRMS version 3.13_devel</srccitea>\n <srccontr>Modeling system used to produce the simulations future streamflow for seven watersheds in eastern and central Montana.</srccontr>\n </srcinfo>\n <srcinfo>\n <srccite>\n <citeinfo>\n <origin>USGS GeoData Portal Team</origin>\n <pubdate>20130101</pubdate>\n <title>USGS Geo Data Portal</title>\n <pubinfo>\n <pubplace>Online</pubplace>\n <publish>USGS GeoData Portal Team</publish>\n </pubinfo>\n <onlink>http://cida.usgs.gov/gdp</onlink>\n </citeinfo>\n </srccite>\n <typesrc>Computer Program</typesrc>\n <srctime>\n <timeinfo>\n <rngdates>\n <begdate>19821001</begdate>\n <enddate>20880930</enddate>\n </rngdates>\n </timeinfo>\n <srccurr>publication date</srccurr>\n </srctime>\n <srccitea>GDP</srccitea>\n <srccontr>Provided processing services to transform PRISM and RegCM3 gridded data sets to PRMS modeling domains.</srccontr>\n </srcinfo>\n <procstep>\n <procdesc>PRMS models were developed for the O\'Fallon, Redwater, Little Dry, Middle Musselshell, Judith, Cottonwood Creek, and Belt watersheds, calibrated to streamflow, potential evapotranspiration, and solar radiation data. Streamflow was simulated for a baseline period (water years 1982-1999) and three future periods: water years 2021-2038, 2046-2063, and 2071-2088.</procdesc>\n <procdate>20150406</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Model output data are referenced to watershed name.</indspref>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>"name".csv where "name" is a filename of the form "Appendix_2.#_AA_YYYY_BB", where "#" is the table number (1-7), "AA" is the 2-letter designation for the watershed (OF for O\'Fallon, RW for Redwater, LD for Little Dry, MM for Middle Musselshell, JD for Judith, CD for Cottonwood, or BT for Belt), "BB" is the experiment (one of BASELINE, ECHAM5, GENMOM, or GFDL), and "YYYY" is the simulation period (one of 1982 for BASELINE, 2030 for ECHAM5 or GENMOM, 2055 for ECHAM5, GENMOM, or GFDL, or 2080 for ECHAM5 or GENMOM.</enttypl>\n <enttypd>csv files containing simulated monthly streamflows from PRMS watersheds.</enttypd>\n <enttypds>Katherine J. Chase</enttypds>\n </enttyp>\n <attr>\n <attrlabl>date</attrlabl>\n <attrdef>The time interval in this file is monthly. The format for this field is YYYY-MM-DD and each month is denoted at the 1st of the month.</attrdef>\n <attrdefs>Output from PRMS</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>19811001</rdommin>\n <rdommax>20880901</rdommax>\n </rdom>\n </attrdomv>\n <begdatea>19811001</begdatea>\n <enddatea>20880901</enddatea>\n </attr>\n <attr>\n <attrlabl>seg #</attrlabl>\n <attrdef>Sequentially numbered stream segment columns that correspond to the stream segment designations in the PRMS model input parameter file.</attrdef>\n <attrdefs>Output from PRMS</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0</rdommin>\n <rdommax>3036.0</rdommax>\n <attrunit>cubic meters per second</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n <cntper>U.S. Geological Survey - ScienceBase</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>Denver Federal Center, Bldg 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Any use of trade, firm, or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government.\n\nThe USGS reserves the right to revise the data pursuant to further analysis and review. Furthermore, it is released on condition that neither the USGS nor the U.S. Government may be held liable for any damages resulting from its authorized or unauthorized use.\n\nAlthough these data have been processed successfully on a computer system at the U.S. Geological Survey, no warranty expressed or implied is made regarding the display or utility of the data on any other system, or for general or scientific purposes, nor shall the act of distribution constitute any such warranty. The U.S. Geological Survey shall not be held liable for improper or incorrect use of the data described and/or contained herein.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>csv</formname>\n <formvern>csv</formvern>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>http://dx.doi.org/10.5066/F7P26W5S</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None. No fees are applicable for obtaining the data set.</fees>\n </stdorder>\n </distinfo>\n <metainfo>\n <metd>20200831</metd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>Wyoming-Montana Water Science Center</cntorg>\n <cntper>Katherine J. Chase</cntper>\n </cntorgp>\n <cntpos>Hydrologist</cntpos>\n <cntaddr>\n <addrtype>Mailing and Physical</addrtype>\n <address>3162 Bozeman Avenue</address>\n <city>Helena</city>\n <state>MT</state>\n <postal>59601</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>406-457-5957</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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4. [Physical, chemical and bioassay data from an evaluation of metal-contaminated sediments and pore water from the Upper Columbia River, Washington, 2013-2014](/catalog/item/58ed1362e4b0b4d95d3353da)
5. [Sediment bioassay toxicity data from the Upper Columbia River, Washington, 2013-2014](/catalog/folder/59020dd6e4b0c2e071a99c69)
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## Dates
Publication Date2017-05-22Start Date2013-09-05End Date2013-10-24
## Citation
Besser, J.M., Kunz, J.L., Cox, S.E., Ingersoll, C.G., and Brumbaugh, W.G., 2017, Sediment bioassay toxicity data from the Upper Columbia River, Washington, 2013-2014: U.S. Geological Survey data release, https://doi.org/10.5066/F72F7KPC.
## Summary
This data release contains bioassay data from sediment toxicity tests conducted by the USGS Columbia Environmental Research Center (CERC) with 66 sediment samples collected from in and around the Upper Columbia River in the fall of 2013. Toxicity testing was conducted from fall 2013 through summer 2014 with the amphipod, Hyalella azteca, the midge Chironomus dilutus, and the mussel Lampsilis siliquoidea. Short-term toxicity endpoints (10-28 d) included survival, weight, and biomass of all test organisms. Long-term tests with amphipods (42 d) and midges (about 50 d) included reproduction endpoint. These data are intended to be used to characterize concentration-response relationships between metals concentrations and toxicity endpoints \[...\]
## Summary
This data release contains bioassay data from sediment toxicity tests conducted by the USGS Columbia Environmental Research Center (CERC) with 66 sediment samples collected from in and around the Upper Columbia River in the fall of 2013. Toxicity testing was conducted from fall 2013 through summer 2014 with the amphipod, Hyalella azteca, the midge Chironomus dilutus, and the mussel Lampsilis siliquoidea. Short-term toxicity endpoints (10-28 d) included survival, weight, and biomass of all test organisms. Long-term tests with amphipods (42 d) and midges (about 50 d) included reproduction endpoint. These data are intended to be used to characterize concentration-response relationships between metals concentrations and toxicity endpoints and to estimate site-specific toxicity thresholds for select metals or metal mixtures. These thresholds will be used to evaluate risks or injuries to the benthic invertebrate community associated with exposure to contaminated sediments and to develop goals for remediation of sediments of the Upper Columbia River.
## Contacts
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[John M Besser](/catalog/catalogParty/show?partyId=801)
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[John M Besser](/catalog/catalogParty/show?partyId=801),
[James L Kunz](/catalog/catalogParty/show?partyId=5747),
[Stephen E Cox](/catalog/catalogParty/show?partyId=2133),
[Christopher G Ingersoll](/catalog/catalogParty/show?partyId=4904),
[William G Brumbaugh](/catalog/catalogParty/show?partyId=1278)
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| Sediment\_bioassay\_toxicity\_data\_from\_the\_Upper\_Columbia\_River\_Washington\_2013-2014-semi final.xml<br>_Original FGDC Metadata_ | View | 111.78 KB | application/fgdc+xml |
| Table 7. Toxicity data from sediment bioassay-Number of females endpoint.csv | | 4.53 KB | text/csv |
| Table 8. Toxicity data from sediment bioassay-Number of males endpoint.csv | | 4.53 KB | text/csv |
| Table 9. Toxicity data from sediment bioassay-Biomass endpoint.csv | | 35.82 KB | text/csv |
| Table 10. Toxicity data from sediment bioassay-Percent females with egg cases endpoint.csv | | 4.47 KB | text/csv |
| Table 11. Toxicity data from sediment bioassay-Eggs per case endpoint.csv | | 4.45 KB | text/csv |
| Table 12. Toxicity data from sediment bioassay-Emerged females endpoint.csv | | 4.43 KB | text/csv |
| Table 13. Toxicity data from sediment bioassay-Percent emergence endpoint.csv | | 9.77 KB | text/csv |
| Table 14. Toxicity data from sediment bioassay-Growth (weight) endpoint.csv | | 36.33 KB | text/csv |
| Table 15. Toxicity data from sediment bioassay-Percent hatch endpoint.csv | | 4.42 KB | text/csv |
| Table 16. Toxicity data from sediment bioassay-Larvae per female endpoint.csv | | 4.44 KB | text/csv |
| Table 17. Toxicity data from sediment bioassay-Percent survival endpoint.csv | | 49.83 KB | text/csv |
| Table 18. Toxicity data from sediment bioassay-Days to emergence endpint.csv | | 11.63 KB | text/csv |
| Table 19. Toxicity data from sediment bioassay-Total larvae endpoint.csv | | 4.46 KB | text/csv |
| Table 20. Toxicity data from sediment bioassay-Total young endpoint.csv | | 4.65 KB | text/csv |
| Table 21. Toxicity data from sediment bioassay-Young per female endpoint.csv | | 4.5 KB | text/csv |
## Purpose
To support a NRDAR claim of injury to benthic communities caused by toxic metals associated with waste released from a smelter
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## Communities
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## Tags
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- [Upper Columbia River](/catalog/items?q=&filter=tags%3DUpper+Columbia+River "Upper Columbia River (Upper Columbia River, Place, None)")
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## Provenance
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(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Besser, John M.</origin>\n <origin>Kunz, James L.</origin>\n <origin>Cox, Stephen E.</origin>\n <origin>Ingersoll, Christopher G.</origin>\n <origin>Brumbaugh, William G.</origin>\n <pubdate>20170412</pubdate>\n <title>Sediment bioassay toxicity data from the Upper Columbia River, Washington, 2013-2014</title>\n <geoform>Tabular Digital Data</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/F72F7KPC</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>This data release contains bioassay data from sediment toxicity tests conducted by the USGS Columbia Environmental Research Center (CERC) with 66 sediment samples collected from in and around the Upper Columbia River in the fall of 2013. Toxicity testing was conducted from fall 2013 through summer 2014 with the amphipod, Hyalella azteca, the midge Chironomus dilutus, and the mussel Lampsilis siliquoidea. Short-term toxicity endpoints (10-28 d) included survival, weight, and biomass of all test organisms. Long-term tests with amphipods (42 d) and midges (about 50 d) included reproduction endpoint. Sediments were analyzed for physical and chemical characteristics, including particle size distribution, total organic carbon, acid volatile sulfide, slag content, and concentrations of metals in total-recoverable and simultaneously-extracted fractions. Porewaters were separated by centrifugation and by peepers (diffusion samplers) and were analyzed for filterable metals, dissolved organic carbon, and major ions. These data are intended to be used to characterize concentration-response relationships between metals concentrations and toxicity endpoints and to estimate site-specific toxicity thresholds for select metals or metal mixtures. These thresholds will be used to evaluate risks or injuries to the benthic invertebrate community associated with exposure to contaminated sediments and to develop goals for remediation of sediments of the Upper Columbia River.</abstract>\n <purpose>To support a NRDAR claim of injury to benthic communities caused by toxic metals associated with waste released from a smelter</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20130905</begdate>\n <enddate>20131024</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>Not planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-118.92069</westbc>\n <eastbc>-117.638975</eastbc>\n <northbc>48.996919</northbc>\n <southbc>47.839559</southbc>\n </bounding>\n <descgeog>Columbia River, Washington</descgeog>\n </spdom>\n <keywords>\n <theme>\n <themekt>None</themekt>\n <themekey>Sediment toxicity</themekey>\n <themekey>toxic metals</themekey>\n <themekey>natural resource damage assessment</themekey>\n <themekey>benthic invertebrates</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>chemical analysis</themekey>\n <themekey>environmental health</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:59020dd6e4b0c2e071a99c69</themekey>\n </theme>\n <place>\n <placekt>None</placekt>\n <placekey>Columbia Environmental Research Center</placekey>\n <placekey>Upper Columbia River</placekey>\n <placekey>Washington Water Science Center</placekey>\n <placekey>State of Washington</placekey>\n </place>\n </keywords>\n <accconst>None. Please see 'Distribution Info' for details.</accconst>\n <useconst>None. Users are advised to read the data set's metadata thoroughly to understand appropriate use and data limitations.</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>John Besser</cntper>\n <cntorg>U.S. Geological Survey, Columbia Environmental Research Center</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>4200 New Haven Road</address>\n <city>Columbia</city>\n <state>MO</state>\n <postal>65201</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>573-876-1818</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>U.S. Department of the Interior, National Park Service</datacred>\n <native>Environment as of Metadata Creation: Microsoft [Unknown] Version 6.2 (Build 9200) ; Esri ArcGIS 10.4.1 (Build 5686) Service Pack N/A (Build N/A)</native>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Crustaceans</taxonkey>\n <taxonkey>Insects</taxonkey>\n <taxonkey>Bivalves</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2017</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>John M Besser</cntper>\n <cntorg>Midwest Region</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>4200 New Haven Road</address>\n <city>Columbia</city>\n <state>MO</state>\n <postal>65201</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>573-876-1818</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>expert advice</taxonpro>\n <taxoncom>Laboratory specimens cultured at Columbia Environmental Research Center</taxoncom>\n </taxonsys>\n <taxongen>Amphipods, midges and mussels were identified to species</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Lophozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Mollusca</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Bivalvia</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Palaeoheterodonta</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Unionoida</taxonrv>\n <taxoncl>\n <taxonrn>Superfamily</taxonrn>\n <taxonrv>Unionoidea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Unionidae</taxonrv>\n <taxoncl>\n <taxonrn>Subfamily</taxonrn>\n <taxonrv>Ambleminae</taxonrv>\n <taxoncl>\n <taxonrn>Tribe</taxonrn>\n <taxonrv>Lampsilini</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Lampsilis</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Lampsilis siliquoidea</taxonrv>\n <common>fatmucket</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Bilateria</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Protostomia</taxonrv>\n <taxoncl>\n <taxonrn>Superphylum</taxonrn>\n <taxonrv>Ecdysozoa</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Arthropoda</taxonrv>\n <taxoncl>\n <taxonrn>Subphylum</taxonrn>\n <taxonrv>Crustacea</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Malacostraca</taxonrv>\n <taxoncl>\n <taxonrn>Subclass</taxonrn>\n <taxonrv>Eumalacostraca</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Peracarida</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Amphipoda</taxonrv>\n <taxoncl>\n <taxonrn>Suborder</taxonrn>\n <taxonrv>Gammaridea</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Hyalellidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Hyalella</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Hyalella azteca</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Animalia</taxonrv>\n <taxoncl>\n <taxonrn>Phylum</taxonrn>\n <taxonrv>Arthropoda</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Insecta</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Diptera</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Chironomidae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Chironomus</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Chironomus dilutus</taxonrv>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Test acceptability criteria (TAC) for response of test organisms in control sediment included: (a) Amphipods: Starting mean dry weight of about 0.02-0.035 mg/individual. Minimum Day 28 mean control survival of 80% and mean dry weight of about 0.40 mg/individual. Minimum Day 42 mean control survival of about 80%, mean dry weight of about 0.50 mg/individual, and mean reproduction of about 5.0 young/female; (b) Midges: Mean starting weight of less than 0.12 mg Ash Free Dry Weight (AFDW)/individual. Minimum Day 10 mean control survival of 70% and minimum mean control dry weight of 0.48 mg AFDW/individual. Minimum mean adult emergence of 50%; and, (c) Mussels: Minimum Day 28 mean control survival of about 80%. \nAmphipod tests in all three cycles exceeded all TAC. Mean starting weight of amphipods was 0.034 mg/individual in Cycle 1, 0.016 mg/individual in Cycle 2 and 0.024 mg/individual in Cycle 3. Day 28 survival in all three cycles 3 was greater than 96% in all three control sediments (Spring River, Sand or West Bearskin). Day 42 survival in Cycle 2 and 3 was greater than 88% in all three control sediments. Day 28 weight in Cycle 1a, 2, and 3 was less than 0.55 mg/individual in all three control sediments. Day 42 weight in Cycle 2 and 3 was greater than 0.68 mg/individual in all three control sediments. Day 42 reproduction in Cycles 2 and 3 was greater than 7.5 young/female all three control sediments. Reproduction of amphipods was lower in the West Bearksin Control compared to the Spring River or Sand controls. Variation of amphipod performance in the Spring River control among test cycles was minimal for survival, low for reproduction in (12.3 and 12.8 young/female in cycles 2 and 3, respectively) and higher for growth (range, 0.55 to 0.73 mg/individual). \nMidge tests in all three cycles exceeded all test acceptability criteria. Mean starting weight of midges was 0.12, 0.077, and 0.076 mg AFDW/individual in Cycles 1, 2, and 3, respectively. Day 10 survival in Cycle 1a and 2 was greater than 92% in all three control sediments. Day 10 weight in Cycle 1a and 2 was greater than 1.4 mg AFDW/individual in all three control sediments. Emergence of adults in Cycle 2 and 3 was greater than 71% in all three 3 control sediments. No consistent pattern was observed in the survival, weight, or emergence of midges across the three control sediments. Day-10 survival of midge larvae in the Spring River control sediment was 100% in both cycles 1a and 2, whereas dry weight at day 10 averaged 1.89 and 1.53 mg/individual and adult emergence averaged 81% and 73%, in cycles 1a and 2 respectively. \nMussel tests in cycle 1b met all applicable TAC. Starting weight of mussels in Cycle 1b was 0.06 mg/individual. Day 28 survival was 100% in the 3 control sediments and Day 28 weight was 0.37 mg/individual in the Spring River Control, 0.42 mg/individual in the Sand Control, and 0.29 mg/individual in the West Bearskin Control.</attraccr>\n </attracc>\n <logic>Data were checked for ommisions and duplications. All values were within expected ranges.</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>A formal accuracy assessment of the horizontal positional information in the data set has not been conducted.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has either not been conducted, or is not applicable.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Toxicity tests with amphipods, midges, and mussels (Tables 7-21) were conducted in basic accordance with standard methods for conducting acute and chronic whole-sediment toxicity tests with freshwater invertebrates (e.g., ASTM 2015a,b; USEPA 2000) with modifications based on successful testing in our laboratory (Besser et al. 2008, 2009, 2013, 2015; Wang et al. 2007, 2013; Ingersoll et al. 2015). Among the modifications used for these tests were: (1) Amphipods were provided a ramped diet of Tetramin (flake fish food) and diatoms (written communication; Dave Mount, USEPA, Duluth MN, June 2013); (2) Long-term midge exposures started with 7-day-old organisms fed 6 mg Tetramin daily (rather than starting with 4-day-old organisms fed a ramped diet of Tetramin; based on studies conducted by CERC in 2012 and 2013 and by Ivey et al. (2016); and (3) Larval survival and AFDW sampled on Day 10 (rather than on Day 16) of the long-term midge exposures to provide a comparable endpoint to the short-term 10-day midge exposures; Test acceptability criteria (TAC) for amphipod testing were updated based on guidance from Dave Mount, USEPA, Duluth MN and by Ivey et al. (2016) to be minimum Day 28 mean control dry weight of about 0.35 mg/individual and minimum mean control reproduction of about 6.0 young/female. These updated TACs reflect the greater growth and reproduction expected in sediment toxicity tests with improved diets. \nAmphipods and midges were cultured at CERC. Juvenile mussels were transformed under the direction of Chris Barnhart at Missouri State University and subsequently cultured at CERC. Test organisms were tested in well water diluted with deionized water to a hardness of about 100 mg/L (as CaCO3), alkalinity 85 mg/L (as CaCO3), and pH about 8.2. Historic concentrations of major ions and Dissolved Organic Carbon (DOC) (expressed as mg/L) are about: Ca, 28; Mg, 10; K, 1.; Na, 10; chloride, 12; sulfate, 19; and DOC, 0.4. At the start of the sediment exposures, samples of each species (4 replicates of 10 organisms/replicate) were collected and archived for measurements of starting size: (1) amphipod length and dry weight estimated from length-weight regression; Kemble et al. (2013); (2) midge dry weight and Ash Free Dry Weight (AFDW) (dry weight determined after 24 hours at about 60 \xc2\xb0C, followed by AFDW determined at about 550 \xc2\xb0C for 2 hours; USEPA 2000, ASTM 2015a); and (3) mussel dry weight. Amphipod samples were archived in a solution of 12% sugar and 8% formalin (80 mL concentrated formalin and 120 g sucrose brought to 1 L with water) to preserve body dimensions before length measurements (ASTM 2015a). Mussel samples were archived in 8% formalin without sugar to remove attached microfauna and debris before weighing. \nAbout one week before the start of the sediment toxicity tests (i.e., about Day -7), each sediment sample was homogenized and placed into exposure beakers with overlying water. Beakers were held under static conditions to allow sediments to equilibrate with oxygenated overlying water before the start of the exposures (Wang et al. 2013; Besser et al. 2013, 2015; Ingersoll et al. 2015). Water delivery started on the exposure beakers on Day -1 and test organisms were impartially transferred to the exposure beakers on Day 0. Midge toxicity tests were started with 7-day-old larvae rather than starting tests with less than 24-hour-old larvae (as described in USEPA 2000 and ASTM 2015ab). This decision was based on previously observed problems with control acceptability with tests started with larvae less than 24-hours old at CERC and at other laboratories. Specifically, poor survival of C. dilutus larvae has been observed at Day 20 of the sediment exposures before midges pupate and emerge as adults. Low or variable survival of tests started with midges less than 24-hour-old in control sediment may result from difficulties in handling these young larvae. \nThe short-term sediment tests were ended by recovering live test organisms on a U.S. standard size #40 mesh sieve (425-\xc2\xb5m opening). Surviving midge larvae or mussels collected from each replicate at the end of the exposures were placed in pre-weighed aluminum weigh pans for subsequent measurement of dry weight (mussels) and AFDW (midges). Surviving amphipods on Day 28 were preserved in sugar-formalin for subsequent length measurements. The biomass of surviving amphipods from each replicate at the end of the exposures was estimated as the sum of individual amphipod weights calculated from the regression: Weight (mg) = ((0.177 * Length (mm)) \xe2\x80\x93 0.0292)3 (Kemble et al. 2013). Day 28 weight of amphipods was not determined at the end of the sediment exposures. Control normalized Day 28 weight and biomass for Cycle 3 were estimated using control normalized Day 42 weight and Day 28 survival of amphipods in Cycle 3. \nMussels isolated from sediment in each replicate beaker on Day 28 were transferred into 200-mL glass dishes containing about 100 mL of test water, examined under a dissecting microscope, and recorded as: (1) movement (e.g., foot or shell movement within a 5-minute observation period); (2) closed shell (no movement, intact tissues); (3) gaped shell (swollen tissue); or (4) empty shell (little or no tissue observed). Larger mussels (e.g., greater than 5-mm shell length) tend not to move their foot out of the shell and have a thick and nontransparent shell which makes it difficult to observe foot movement within the shell. Dead mussels begin to gape within 24 hours of death. Therefore, mussels were classified as surviving when exhibiting either movement of the foot or shell within a 5-minute observation period or a closed shell with no movement, but with intact tissues. Mussels were classified as dead when exhibiting either an empty shell or a gaped shell with swollen tissue and no movement. Surviving mussels from each replicate were preserved in 8% formalin solution for subsequent dry weight measurements. Mussels were preserved in formalin before measuring weight in order to remove debris associated with the mussels before weighing. Biomass of midges and mussels was determined from the summed weight of the surviving organisms in each replicate. \nReproduction of amphipods in the long-term exposures was evaluated by sieving sediment to isolate surviving amphipods on Day 28 and placing survivors from each replicate into water-only beakers containing test water and 5 mL of quartz sand. On Day 35 and 42, the number of young and surviving adult amphipods was recorded for each replicate and young amphipods were removed. Surviving adult amphipods on Day 42 were preserved in sugar-formalin for length measurement and for determination of the number of males and females in each replicate. The number of adult males in each beaker was determined from this archived sample. \nThe primary reproduction endpoint for amphipods was the average number of young per female, (young/female), which was calculated for each replicate by dividing the total young produced (i.e., the sum of young recovered at Day 28, 35, and 42) by the number of female organisms surviving on Day 42. Young/female data are reported for all replicates when the organisms survived to Day 42 were at least 20% female and at least 20% male. Data from replicates with sex ratios outside this range were excluded for analysis of reproduction data. The following data processing rules were followed: (1) if 6 or more adults in a replicate survived to Day 42, the replicate was analyzed for the reproduction endpoint if there were at least 2 females and 2 males; and (2) if 5 or fewer adults survived to Day 42, the data from that replicate was included in the reproduction endpoint if there was at least 1 male and 1 female. \nFor the midge testing, percent emergence and emergence time of adult midges (Cycle 2 and Cycle 3) and reproduction of adult midges (Cycle 2) in the long-term exposures were determined from daily collection of emerged adult males and females, starting on about Day 18. In Cycle 2, emerged adults from each replicate were transferred daily to a reproduction/oviposition (R/O) chamber. Egg cases produced in the R/O chamber were transferred to Petri dishes to monitor incubation and hatch. For each egg case, a record was made of the number of eggs produced and the number of hatched eggs. The emergence and reproduction portion of the long-term midge exposure was ended after 7 days of no recorded emergence in the control treatment. The sediment in each beaker was sieved to recover larvae or pupae. See USEPA (2000) and ASTM (2015a) for additional detail on monitoring emergence and reproduction of adult midges.</procdesc>\n <procdate>2014</procdate>\n </procstep>\n <method>\n <methtype>both</methtype>\n <methdesc>Methods are described in detail in citations and process inputs</methdesc>\n <methcite>\n <citeinfo>\n <origin>Besser JM</origin>\n <origin>Brumbaugh WG</origin>\n <origin>Ivey CD</origin>\n <origin>Ingersoll CG</origin>\n <origin>Moran PW</origin>\n <pubdate>2008</pubdate>\n <title>Biological and chemical characterization of metal bioavailability in sediments from Lake Roosevelt, Columbia River, Washington USA. Arch Environ Toxicol Chem 54:557-570.</title>\n <geoform>Journal publication</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>ASTM International (ASTM). 2015a</origin>\n <pubdate>2015</pubdate>\n <title>Standard test method for measuring the toxicity of sediment-associated contaminants with freshwater invertebrates (E1706-05 (2010)). In 2015 Annual Book of ASTM Standards, Volume 11.06, West Conshohocken, PA.</title>\n <geoform>Text</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>ASTM International (ASTM) 2015b</origin>\n <pubdate>2015</pubdate>\n <title>Standard guide for conducting laboratory toxicity tests with freshwater mussels (E2455-06 (2013)). In 2015 Annual Book of ASTM Standards, Volume 11.06. ASTM International, West Conshohocken, PA.</title>\n <geoform>text</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Besser JM</origin>\n <origin>Brumbaugh WG</origin>\n <origin>Hardesty DK</origin>\n <origin>Hughes JP</origin>\n <origin>Ingersoll CG</origin>\n <pubdate>2009</pubdate>\n <title>Assessment of metal-contaminated sediments from the Southeast Missouri (SEMO) mining district using sediment toxicity tests with amphipods and freshwater mussels. Report submitted to Dave Mosby, US Fish and Wildlife Service, Columbia, MO.</title>\n <geoform>Report</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Ivey CD</origin>\n <origin>Ingersoll CG</origin>\n <origin>Brumbaugh WG</origin>\n <origin>Hammer E</origin>\n <origin>Mount DR</origin>\n <origin>Hockett JR</origin>\n <origin>Norberg-King TJ</origin>\n <origin>Soucek D</origin>\n <origin>Taylor L</origin>\n <pubdate>2016</pubdate>\n <title>Using an Inter-laboratory study to revise methods for conducting 10- to 42-d water or sediment toxicity tests with Hyalella azteca. Environ Toxicol Chem: Vol. 35, No. 10, pp. 2439\xe2\x80\x932447, 2016 # 2016 SETAC</title>\n <geoform>Journal publication</geoform>\n <onlink>https://doi.org/10.1002/etc.3417</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Kemble NE</origin>\n <origin>Hardesty DK</origin>\n <origin>Ingersoll CG</origin>\n <origin>Kunz JL</origin>\n <origin>Sibley PK</origin>\n <origin>Calhoun DL</origin>\n <origin>Gilliom RJ</origin>\n <origin>Kuivila KM</origin>\n <origin>Nowell LH</origin>\n <origin>Moran PW</origin>\n <pubdate>2013</pubdate>\n <title>Contaminants in stream sediments from seven U.S. metropolitan areas: II. Sediment toxicity to the amphipod Hyalella azteca and the midge Chironomus dilutus. Arch Environ Contam Toxicol 64:52-64.</title>\n <geoform>Journal publication</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Wang N</origin>\n <origin>Ingersoll CG</origin>\n <origin>Greer IE</origin>\n <origin>Hardesty DK</origin>\n <origin>Ivey CD</origin>\n <origin>Kunz JL</origin>\n <origin>Brumbaugh WG</origin>\n <origin>Dwyer FJ</origin>\n <origin>Roberts AD</origin>\n <origin>Augspurger T</origin>\n <origin>Kane CM</origin>\n <origin>Neves RJ</origin>\n <origin>Barnhart MC</origin>\n <pubdate>2007</pubdate>\n <title>Chronic toxicity of copper and ammonia to juvenile freshwater mussels (Unionidae). Environ Toxicol Chem 26:2048-2056.</title>\n <geoform>Journal publication</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>U.S. Environmental Protection Agency</origin>\n <pubdate>2000</pubdate>\n <title>Methods for measuring the toxicity and bioaccumulation of sediment-associated contaminants with freshwater invertebrates, second edition. EPA 600/R-99/064, Duluth, MN and Washington, DC.</title>\n <geoform>Text</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Wang N</origin>\n <origin>Ingersoll CG</origin>\n <origin>Kunz JL</origin>\n <origin>Brumbaugh WG</origin>\n <origin>Kane CM</origin>\n <origin>Evans RB</origin>\n <origin>Alexander S</origin>\n <origin>Walker C</origin>\n <origin>Bakaletz S</origin>\n <origin>Lott RC</origin>\n <pubdate>2013</pubdate>\n <title>Toxicity of sediments potentially contaminated by coal or natural gas mining-related activities to unionid mussels and commonly tested benthic invertebrates. Environ Toxicol Chem 32:207\xe2\x80\x93221.</title>\n <geoform>Journal publication</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Ingersoll CG</origin>\n <origin>Brunson EL</origin>\n <origin>Dwyer FJ</origin>\n <origin>Hardesty DK</origin>\n <origin>Kemble NE</origin>\n <pubdate>1998</pubdate>\n <title>Use of sublethal endpoints in sediment toxicity tests with the amphipod Hyalella azteca. Environ Toxicol Chem 17:1508-1523.</title>\n <geoform>Journal publication</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Besser JM</origin>\n <origin>Brumbaugh WG</origin>\n <origin>Ingersoll CG</origin>\n <origin>Ivey CD</origin>\n <origin>Kunz JL</origin>\n <origin>Kemble NE</origin>\n <origin>Schlekat CE</origin>\n <origin>Rogevich-Garman E</origin>\n <pubdate>2013</pubdate>\n <title>Chronic toxicity of nickel-spiked freshwater sediments: Variation in toxicity among eight invertebrate taxa and eight sediments. Environ Toxicol Chem 32:2495-2506</title>\n <geoform>Journal publication</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Ingersoll CG</origin>\n <origin>Kunz JL</origin>\n <origin>Hughes JP</origin>\n <origin>Wang N</origin>\n <origin>Ireland DS</origin>\n <origin>Mount DR</origin>\n <origin>Valenti TW</origin>\n <origin>Hockett RJ</origin>\n <pubdate>2015</pubdate>\n <title>Relative sensitivity of an amphipod Hyalella azteca, a midge Chironomus dilutus, and a unionid mussel Lampsilis siliquoidea to a toxic sediment. Environ Toxicol Chem 34:1134-1144.</title>\n <geoform>Journal publication</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Ingersoll CG</origin>\n <origin>Wainwright ME</origin>\n <origin>Schein A</origin>\n <origin>Orazio CE</origin>\n <origin>Brumbaugh WG</origin>\n <origin>Prencipe HJ</origin>\n <origin>Sinclair JA</origin>\n <origin>Haines ML</origin>\n <pubdate>2013</pubdate>\n <title>Quality assurance project plan (QAPP) for evaluation of the toxicity of Upper Columbia River sediments to freshwater mussels. Prepared for U.S. Department of the Interior, Spokane WA. Prepared by MacDonald Environmental Sciences Ltd., Nanaimo BC, and USGS Columbia Environmental Research Center, Columbia MO.</title>\n <geoform>Document</geoform>\n <onlink>Internal document, not publicly available</onlink>\n </citeinfo>\n </methcite>\n <methcite>\n <citeinfo>\n <origin>Besser JM</origin>\n <origin>Ingersoll CG</origin>\n <origin>Brumbaugh WG</origin>\n <origin>Kemble NE</origin>\n <origin>May TW</origin>\n <origin>Wang N</origin>\n <origin>MacDonald DD</origin>\n <origin>Roberts AD</origin>\n <pubdate>2015</pubdate>\n <title>Toxicity of sediments from lead-zinc mining areas to juvenile freshwater mussels (Lampsilis siliquoidea) compared to standard test organisms. Environ Toxicol Chem 34:626-639.</title>\n <geoform>Manuscript</geoform>\n <onlink>Not electronically available</onlink>\n </citeinfo>\n </methcite>\n </method>\n </lineage>\n </dataqual>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Table 7. Toxicity data from sediment bioassay-number of females endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and number surviving females from a 42 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>42</rdommin>\n <rdommax>42</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Number of females</attrlabl>\n <attrdef>Number of females surviving at the end of the test</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Individual test organisms</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 8. Toxicity data from sediment bioassay-Number of males endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and number surviving males from a 42 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>42</rdommin>\n <rdommax>42</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Number of males</attrlabl>\n <attrdef>Number of males surviving at the end of the test</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Individual test organisms</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 9. Toxicity data from sediment bioassay-Biomass endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and biomass of surviving test organisms from various duration toxicity bioassays of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>42</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>12</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AFDW biomass (mg)</attrlabl>\n <attrdef>Ash free dry weight of the surviving test organisms measured at the end of the test</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.537</rdommin>\n <rdommax>21.808</rdommax>\n <attrunit>Milligrams</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>Attribute not measured in sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DW biomass (mg)</attrlabl>\n <attrdef>Dry weight of the surviving test organisms measured at the end of the test</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>13.081</rdommax>\n <attrunit>Milligrams</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>Attribute not measured in sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 10. Toxicity data from sediment bioassay-Percent females with egg cases endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and percent females with egg cases from a 50 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>50</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pct Females w Cases</attrlabl>\n <attrdef>Percent female test organims with egg cases at the end of the test</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 11. Toxicity data from sediment bioassay-Eggs per case endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and eggs per case from a 50 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>50</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Eggs per case</attrlabl>\n <attrdef>Average number of eggs per case, rounded to whole numbers</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>744</rdommin>\n <rdommax>2095</rdommax>\n <attrunit>egg</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 12. Toxicity data from sediment bioassay-Emerged females endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and number of emerged females from a 50 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>50</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Emerged females</attrlabl>\n <attrdef>Number of adult females emerging successfully by the end of test</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>10</rdommax>\n <attrunit>Individual females</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 13. Toxicity data from sediment bioassay-Percent emergence endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and percent of emerged test organisms from a 50 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>50</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pct emergence</attrlabl>\n <attrdef>Percent of adult test organims emerging successfully by the end of test</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 14. Toxicity data from sediment bioassay-Growth (weight)endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and growth of surviving test organisms from various duration toxicity bioassays of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>42</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>12</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>AFDW Growth (mg weight)</attrlabl>\n <attrdef>Ash free dry weight of the surviving test organisms measured at the end of the test to represent growth</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0537</rdommin>\n <rdommax>2.713</rdommax>\n <attrunit>Milligrams</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>Attribute not measured in sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DW Growth (mg weight)</attrlabl>\n <attrdef>Dry weight of the surviving test organisms measured at the end of the test to represent growth</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0.0485</rdommin>\n <rdommax>1.6042</rdommax>\n <attrunit>Milligrams</attrunit>\n </rdom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>--</edomv>\n <edomvd>Attribute not measured in sample</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 15. Toxicity data from sediment bioassay-Percent hatch endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and percent hatch from a 50 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>50</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pct Hatch</attrlabl>\n <attrdef>Average percent egg hatch</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>19.7</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 16. Toxicity data from sediment bioassay-Larvae per female endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and larvae per female from a 50 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>50</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Larvae per female</attrlabl>\n <attrdef>Number of female with cases multiplied by eggs per case multiplied by percent hatch</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>189</rdommin>\n <rdommax>1877</rdommax>\n <attrunit>Larvae per female</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 17. Toxicity data from sediment bioassay-Percent survival endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and percent survival from various duration toxicity bioassays of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>10</rdommin>\n <rdommax>42</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>12</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Pct Survival</attrlabl>\n <attrdef>Percent of the stocked test organisms alive at the end of the trial</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>100</rdommax>\n <attrunit>Percent</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 18. Toxicity data from sediment bioassay-Days to emergence endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and days to emergence from a 50 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>50</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Days to emergence</attrlabl>\n <attrdef>Average number of 24 hour days to successful adult emergence.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>15.5</rdommin>\n <rdommax>40.5</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 19. Toxicity data from sediment bioassay-Total larvae endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and total larvae from a 50 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>50</rdommin>\n <rdommax>50</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Total larvae</attrlabl>\n <attrdef>Number of emerged females multiplied by larvae per female, whole numbers.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>377</rdommin>\n <rdommax>12255</rdommax>\n <attrunit>Larvae</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 20. Toxicity data from sediment bioassay-Total young endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and total young from a 42 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>42</rdommin>\n <rdommax>42</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Total young</attrlabl>\n <attrdef>Total number of young Hyalella produced</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>119</rdommax>\n <attrunit>Young</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Table 21. Toxicity data from sediment bioassay-Young per female endpoint</enttypl>\n <enttypd>Table containing sediment sampling ids, test organism and total young from a 42 day toxicity bioassay of sediment collected from the Columbia River, Washington, USA</enttypd>\n <enttypds>Producer defined</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Lab_ID</attrlabl>\n <attrdef>Unique sample identifier assigned by the laboratory</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>Numeric code (#) assigned when samples were received at CERC</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Test organism</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>CD</edomv>\n <edomvd>Chironomus dilutus (midge)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>HA</edomv>\n <edomvd>Hyalella azteca (amphipod)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>LS</edomv>\n <edomvd>Lampsilis siliquoidea (mussel)</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Cycle</attrlabl>\n <attrdef>Cycle or batch of sediment bioassays</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>1A</edomv>\n <edomvd>Short-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>1B</edomv>\n <edomvd>Short-term tests with Lampsilis siliquoidea</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>First round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>3</edomv>\n <edomvd>Second round of long-term tests with hyalella azteca and Chironomus dilutus</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Duration</attrlabl>\n <attrdef>Duration of test (number of 24 hour days), duration ranged from 10 to 50 days</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>10-d</edomv>\n <edomvd>10 day short-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>28-d</edomv>\n <edomvd>28 day short term amphipod or mussel test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>42-d</edomv>\n <edomvd>42 day long-term amphipod test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>50-d</edomv>\n <edomvd>Approximate 50 day long-term midge test</edomvd>\n <edomvds>Producer defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Day</attrlabl>\n <attrdef>Day the endpoint data was collected, value indicates the number of 24 hour days that have elapsed since the test began</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>42</rdommin>\n <rdommax>42</rdommax>\n <attrunit>Days</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rep</attrlabl>\n <attrdef>A numerical identifier (whole numbers) used to distinguish the replicate testing chambers tested under identical conditions. Replicate measurements capture random biological variation.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>8</rdommax>\n <attrunit>Unkown</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Young per female</attrlabl>\n <attrdef>Total young per Hylella female</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>0</rdommin>\n <rdommax>119</rdommax>\n <attrunit>Young</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>Science Base</cntper>\n <cntorg>U.S. Geological Survey</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n </distinfo>\n <metainfo>\n <metd>20200817</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Chris D Ivey</cntper>\n <cntorg>U.S. Geological Survey, Midwest Region</cntorg>\n </cntperp>\n <cntpos>Fish Biologist</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>4200 New Haven Road</address>\n <city>Columbia</city>\n <state>MO</state>\n <postal>65201</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>573-441-2962</cntvoice>\n <cntfax>573-876-1896</cntfax>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>" |
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## Dates
Publication Date2021-06-04Start Date2014-02-23End Date2014-02-24
## Citation
Romine, J.G., Perry, R.W., Stumpner, P.R., Blake, A.R., and Burau, J.R., 2021, Tidal flow dynamics at Sutter and Steamboat Sloughs in the Sacramento-San Joaquin Delta, CA in 2014: U.S. Geological Survey data release, https://doi.org/10.5066/P9HSLFRE.
## Summary
The video shows a short animation of river flow dynamics (flow velocity vectors) over multiple tidal cycles.
## Summary
The video shows a short animation of river flow dynamics (flow velocity vectors) over multiple tidal cycles.
## Contacts
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[Russell W Perry](/catalog/catalogParty/show?partyId=8012)
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[Jason G Romine](/catalog/catalogParty/show?partyId=15458),
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[Aaron R Blake](/catalog/catalogParty/show?partyId=878),
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| SUT-STM\_interp\_2D.avi<br>“Animation showing tidal velocities as Sutter and Steamboat Sloughs” | | 20.31 MB | video/x-msvideo |
## Related External Resources
Type: Related Primary Publication
| | |
| --- | --- |
| Romine, J.G., R.W. Perry, P.R. Stumpner, A.R. Blake, and J.R. Burau. 2021. Effects of tidally varying river flow on entrainment of juvenile salmon into Sutter and Steamboat Sloughs. San Francisco Estuary and Watershed Science 19(2): 1-17. DOI: https://doi.org/10.15447/sfews.2021v19iss2art4 | [https://doi.org/10.15447/sfews.2021v19iss2art4](https://doi.org/10.15447/sfews.2021v19iss2art4 "https://doi.org/10.15447/sfews.2021v19iss2art4") |
## Purpose
Data were obtained to evaluate the effects of tidally varying river flow on route selection by juvenile Chinook Salmon.
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Romine, Jason G.</origin>\n <origin>Perry, Russell W.</origin>\n <origin>Stumpner, Paul R.</origin>\n <origin>Blake, Aaron R.</origin>\n <origin>Burau, Jon R.</origin>\n <pubdate>20210604</pubdate>\n <title>Tidal flow dynamics at Sutter and Steamboat Sloughs in the Sacramento-San Joaquin Delta, CA in 2014</title>\n <geoform>MPI format (MPEG4 video format)</geoform>\n <pubinfo>\n <pubplace>Cook, WA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9HSLFRE</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Romine, Jason G.</origin>\n <origin>Perry, Russell W.</origin>\n <origin>Stumpner, Paul R.</origin>\n <origin>Blake, Aaron R.</origin>\n <origin>Burau, John R.</origin>\n <pubdate>2021</pubdate>\n <title>Effects of Tidally Varying River Flow on Entrainment of Juvenile Salmon into Sutter and Steamboat Sloughs</title>\n <geoform>publication</geoform>\n <pubinfo>\n <pubplace />\n <publish>San Francisco Estuary and Watershed Science</publish>\n </pubinfo>\n <onlink>http://dx.doi.org/10.15447/sfews.2021v19iss2art4</onlink>\n\t </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>The video shows a short animation of river flow dynamics (flow velocity vectors) over multiple tidal cycles.</abstract>\n <purpose>Data were obtained to evaluate the effects of tidally varying river flow on route selection by juvenile Chinook Salmon.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20140223</begdate>\n <enddate>20140224</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-121.61315917835</westbc>\n <eastbc>-121.49780273305</eastbc>\n <northbc>38.373858117921</northbc>\n <southbc>38.274740540703</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>stream-gage measurement</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:60b7bb38d34e86b938872762</themekey>\n </theme>\n <place>\n <placekt>GNIS</placekt>\n <placekey>Sacramento-San Joaquin Delta</placekey>\n </place>\n </keywords>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Russell W Perry</cntper>\n <cntorg>NW-PACIFIC ISLAND REG: COLUMBIA RIVER RES LAB</cntorg>\n </cntperp>\n <cntpos>RESEARCH FISHERY BIOLOGIST</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>5501 Cook Underwood Road</address>\n <city>Cook</city>\n <state>WA</state>\n <postal>98605</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>509-538-2942</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <datacred>California Department of Water Resources</datacred>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>Data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Acoustic Doppler Current Profilers where used to record water velocity data, which was then interpolated to estimate water velocity vectors.</procdesc>\n <procdate>20150101</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>GNIS</indspref>\n </spdoinfo>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>SUT-STM_interp_2D.avi</enttypl>\n <enttypd>Video animation of water velocity data</enttypd>\n <enttypds>Stumpner, Paul R.</enttypds>\n </enttyp>\n <attr>\n <attrlabl>None</attrlabl>\n <attrdef>NA</attrdef>\n <attrdefs>NA</attrdefs>\n <attrdomv>\n <udom>NA</udom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>Russell W Perry</cntper>\n <cntorg>NW-PACIFIC ISLAND REG: COLUMBIA RIVER RES LAB</cntorg>\n </cntperp>\n <cntpos>RESEARCH FISHERY BIOLOGIST</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>5501 Cook Underwood Road</address>\n <city>Cook</city>\n <state>WA</state>\n <postal>98605</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>509-538-2942</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>None</distliab>\n </distinfo>\n <metainfo>\n <metd>20210604</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Russell W Perry</cntper>\n <cntorg>NW-PACIFIC ISLAND REG: COLUMBIA RIVER RES LAB</cntorg>\n </cntperp>\n <cntpos>RESEARCH FISHERY BIOLOGIST</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>5501 Cook Underwood Road</address>\n <city>Cook</city>\n <state>WA</state>\n <postal>98605</postal>\n <country>US</country>\n </cntaddr>\n <cntvoice>509-538-2942</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>' |
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3. [Multichannel minisparker, multichannel boomer, and chirp seismic-reflection data of USGS field activity 2017-612-FA collected in Puget Sound and Lake Washington in February of 2017](/catalog/item/5f74e0ed82cef8d1839a04bb)
4. [Chirp sub-bottom data of USGS field activity 2017-612-FA collected in Puget Sound and Lake Washington, Washington in February of 2017](/catalog/folder/5f9aed21d34e198cb78b8880)
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## Dates
Publication Date2021-01-22Start Date2017-02-18End Date2017-02-28
## Citation
Balster-Gee, A.F., Watt, J.T., Roland, E.C., Kluesner, J.W, Brothers, D.S., Bennett, S., Hart, P.E., Myers, E.K., Pszczola, K., Walton, M.A.L., and Sherrod, B., 2021, Multichannel minisparker, multichannel boomer, and chirp seismic-reflection data of USGS field activity 2017-612-FA collected in Puget Sound and Lake Washington in February of 2017: U.S. Geological Survey data release, https://doi.org/10.5066/P9GWF28U.
## Summary
High-resolution chirp sub-bottom data were collected by the U.S. Geological Survey and the University of Washington in February of 2017 west of Seattle in Puget Sound and in Lake Washington, Washington. Data were collected aboard the University of Washington’s R/V Clifford A. Barnes during USGS field activity 2017-612-FA using an Edgetech SB-512i sub-bottom profiler. Sub-bottom acoustic penetration spans several tens of meters and is variable by location.
## Summary
High-resolution chirp sub-bottom data were collected by the U.S. Geological Survey and the University of Washington in February of 2017 west of Seattle in Puget Sound and in Lake Washington, Washington. Data were collected aboard the University of Washington’s R/V Clifford A. Barnes during USGS field activity 2017-612-FA using an Edgetech SB-512i sub-bottom profiler. Sub-bottom acoustic penetration spans several tens of meters and is variable by location.
## Contacts
Point of Contact
:
[PCMSC Science Data Coordinator](/catalog/catalogParty/show?partyId=76583)
Originator
:
[Alicia F Balster-gee](/catalog/catalogParty/show?partyId=64593),
[Janet T Watt](/catalog/catalogParty/show?partyId=10991),
[Roland, Emily](/catalog/catalogParty/show?partyId=Roland%2C+Emily),
[Jared W Kluesner](/catalog/catalogParty/show?partyId=68937),
[Daniel Brothers](/catalog/catalogParty/show?partyId=15826),
[Bennett, Scott](/catalog/catalogParty/show?partyId=Bennett%2C+Scott),
[Patrick E Hart](/catalog/catalogParty/show?partyId=4291),
[Myers, Emma K](/catalog/catalogParty/show?partyId=Myers%2C+Emma+K),
[Pszczola, Kevin](/catalog/catalogParty/show?partyId=Pszczola%2C+Kevin),
[Maureen A Walton](/catalog/catalogParty/show?partyId=71243),
[Brian Sherrod](/catalog/catalogParty/show?partyId=9392)
Metadata Contact
:
[PCMSC Science Data Coordinator](/catalog/catalogParty/show?partyId=76583)
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[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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USGS Mission Area
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[Natural Hazards](/catalog/catalogParty/show?partyId=Natural+Hazards)
## Attached Files - sorting - [Metadata First](/catalog/item/get/5f9aed21d34e198cb78b8880?files.metadataFirst=true\#attached-files-section "Sort files with metadata files first") - [Recent First](/catalog/item/get/5f9aed21d34e198cb78b8880?files.sort=dateUploaded&files.order=desc&files.metadataFirst=false\#attached-files-section "Sort files with most recent first") - [Alphabetical](/catalog/item/get/5f9aed21d34e198cb78b8880?files.sort=name&files.order=asc&files.metadataFirst=false\#attached-files-section "Sort files alphabetically")
Click on title to download individual files attached to this item.
| | | | |
| --- | --- | --- | --- |
| 2017-612-FA\_chirp\_metadata.xml<br>_Original FGDC Metadata_ | View | 15.38 KB | application/fgdc+xml |
| 2017-612-FA\_Chirp\_Trackline\_Map.png<br>“Map of chirp tracklines collected during USGS field activity 2017-612-FA.” | ![thumbnail](https://www.sciencebase.gov/catalog/file/get/5f9aed21d34e198cb78b8880?f=__disk__8c%2F6f%2Ff0%2F8c6ff0b7afa6ebeaa5bfffe4bd676de5557ae4d5&width=80&height=113) | 5.88 MB | image/png |
| 2017-612-FA\_LakeWashington\_chirp.zip | | 3.06 GB | application/zip |
| 2017-612-FA\_PugetSound\_chirp.zip | | 8.07 GB | application/zip |
## Purpose
Data were acquired to support the USGS Coastal and Marine Hazards and Resources Program’s earthquake, tsunami, and landslide active margin field studies to aide hazard assessment of the Seattle Fault zone in central Puget Sound and Lake Washington. Data were collected to characterize recent deformation and estimate earthquake recurrence on the Seattle Fault zone. These data and information are intended for science researchers, students from elementary through college, policy makers, and general public.
## Preview Image
![Map of chirp tracklines collected during USGS field activity 2017-612-FA.](https://www.sciencebase.gov/catalog/file/get/5f9aed21d34e198cb78b8880?f=__disk__8c%2F6f%2Ff0%2F8c6ff0b7afa6ebeaa5bfffe4bd676de5557ae4d5&width=308&height=435)
Map of chirp tracklines collected during USGS field activity 2017-612-FA.
## [Map](/catalog/item/imap/5f9aed21d34e198cb78b8880)
[![](https://basemap.nationalmap.gov/ArcGIS/rest/services/USGSTopo/MapServer/export?size=360%2C220&bbox=-1.3768417761602744E7%2C5968792.087504554%2C-1.350201132656648E7%2C6131596.020023097&f=image&format=png24&transparent=true)![](https://www.sciencebase.gov/catalogMaps/mapping/ows/5f9aed21d34e198cb78b8880?service=wms&layers=footprint&format=image/png&height=220&width=360&request=getmap&transparent=true&srs=EPSG:900913&styles=&version=1.1.1&bbox=-1.3768417761602744E7,5968792.087504554,-1.350201132656648E7,6131596.020023097)](/catalog/item/imap/5f9aed21d34e198cb78b8880)
## Communities
- Pacific Coastal and Marine Science Center
## Tags
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- [CMHRP](/catalog/items?q=&filter=tags%3DCMHRP "CMHRP (CMHRP, Theme, None)")
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Build Version: 2.184.0-630-gc5d79ac-0
(2024-08-29 17:07) | b"<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Alicia F. Balster-Gee</origin>\n <origin>Janet T. Watt</origin>\n <origin>Emily C. Roland</origin>\n <origin>Jared W. Kluesner</origin>\n <origin>Daniel S. Brothers</origin>\n <origin>Scott Bennett</origin>\n <origin>Patrick E. Hart</origin>\n <origin>Emma K. Myers</origin>\n <origin>Maureen A.L. Walton</origin>\n <origin>Brian Sherrod</origin>\n <pubdate>20210122</pubdate>\n <title>Chirp sub-bottom data of USGS field activity 2017-612-FA collected in Puget Sound and Lake Washington, Washington in February of 2017</title>\n <geoform>seismic-reflection data in SEG-Y format</geoform>\n <serinfo>\n <sername>data release</sername>\n <issue>DOI:10.5066/P9GWF28U</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Pacific Coastal and Marine Science Center, Santa Cruz, California</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9GWF28U</onlink>\n <onlink>https://www.sciencebase.gov/catalog/item/5f9aed21d34e198cb78b8880</onlink>\n <lworkcit>\n <citeinfo>\n <origin>Alicia F. Balster-Gee</origin>\n <origin>Janet T. Watt</origin>\n <origin>Emily C. Roland</origin>\n <origin>Jared W. Kluesner</origin>\n <origin>Daniel S. Brothers</origin>\n <origin>Scott Bennett</origin>\n <origin>Patrick E. Hart</origin>\n <origin>Emma K. Myers</origin>\n <origin>Kevin Pszczola</origin>\n <origin>Maureen A.L. Walton</origin>\n <origin>Brian Sherrod</origin>\n <pubdate>2020</pubdate>\n <title>Multichannel minisparker, multichannel boomer, and chirp seismic-reflection data of USGS field activity 2017-612-FA collected in Puget Sound and Lake Washington in February of 2017</title>\n <serinfo>\n <sername>data release</sername>\n <issue>DOI:10.5066/P9GWF28U</issue>\n </serinfo>\n <pubinfo>\n <pubplace>Pacific Coastal and Marine Science Center, Santa Cruz, CA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9GWF28U</onlink>\n </citeinfo>\n </lworkcit>\n </citeinfo>\n </citation>\n <descript>\n <abstract>High-resolution chirp sub-bottom data were collected by the U.S. Geological Survey and the University of Washington in February of 2017 west of Seattle in Puget Sound and in Lake Washington, Washington. Data were collected aboard the University of Washington\xe2\x80\x99s R/V Clifford A. Barnes during USGS field activity 2017-612-FA using an Edgetech SB-512i sub-bottom profiler. Sub-bottom acoustic penetration spans several tens of meters and is variable by location.</abstract>\n <purpose>Data were acquired to support the USGS Coastal and Marine Hazards and Resources Program\xe2\x80\x99s earthquake, tsunami, and landslide active margin field studies to aide hazard assessment of the Seattle Fault zone in central Puget Sound and Lake Washington. Data were collected to characterize recent deformation and estimate earthquake recurrence on the Seattle Fault zone. These data and information are intended for science researchers, students from elementary through college, policy makers, and general public.</purpose>\n <supplinf>Additional information about the field activities from which these data were derived is available online at:\n\nhttp://cmgds.marine.usgs.gov/fan_info.php?fan=2017-612-FA\n\nAny use of trade, product, or firm names is for descriptive purposes only and does not imply endorsement by the U.S. Government.</supplinf>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20170218</begdate>\n <enddate>20170228</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition at time data were collected</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <bounding>\n <westbc>-122.857306084</westbc>\n <eastbc>-122.11712646</eastbc>\n <northbc>48.10412981</northbc>\n <southbc>47.20861616</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>ISO 19115 Topic Category</themekt>\n <themekey>geoscientificinformation</themekey>\n <themekey>oceans</themekey>\n </theme>\n <theme>\n <themekt>Data Categories for Marine Planning</themekt>\n <themekey>Substrate</themekey>\n <themekey>Distributions</themekey>\n </theme>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>sub-bottom profiling</themekey>\n <themekey>geospatial datasets</themekey>\n <themekey>marine geophysics</themekey>\n </theme>\n <theme>\n <themekt>Marine Realms Information Bank (MRIB) keywords</themekt>\n <themekey>seismic reflection profiling</themekey>\n <themekey>seabed</themekey>\n <themekey>acoustic methods</themekey>\n <themekey>mapping</themekey>\n <themekey>geophysics</themekey>\n </theme>\n <theme>\n <themekt>None</themekt>\n <themekey>U.S. Geological Survey</themekey>\n <themekey>USGS</themekey>\n <themekey>Coastal and Marine Hazards and Resources Program</themekey>\n <themekey>CMHRP</themekey>\n <themekey>Pacific Coastal and Marine Science Center</themekey>\n <themekey>PCMSC</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5f9aed21d34e198cb78b8880</themekey>\n </theme>\n <place>\n <placekt>Geographic Names Information System (GNIS)</placekt>\n <placekey>Puget Sound</placekey>\n <placekey>State of Washington</placekey>\n <placekey>Bainbridge Island</placekey>\n <placekey>Vashon Island</placekey>\n <placekey>Blake Island</placekey>\n <placekey>Harbor Island</placekey>\n <placekey>West Seattle</placekey>\n <placekey>Manchester</placekey>\n <placekey>Colby</placekey>\n <placekey>Bellevue</placekey>\n <placekey>Ballard</placekey>\n <placekey>Whidbey Island</placekey>\n <placekey>Mercer Island</placekey>\n <placekey>Ohlers Island</placekey>\n <placekey>Baby Island</placekey>\n <placekey>Gedney Island</placekey>\n <placekey>Camano Island</placekey>\n <placekey>Freeland</placekey>\n <placekey>Greenbank</placekey>\n <placekey>Clinton</placekey>\n <placekey>Mukilteo</placekey>\n <placekey>Edmonds</placekey>\n <placekey>Lake Washington</placekey>\n </place>\n <place>\n <placekt>NGA GEOnet Names Server (GNS)</placekt>\n <placekey>Puget Sound</placekey>\n <placekey>Lake Washington</placekey>\n </place>\n </keywords>\n <accconst>None</accconst>\n <useconst>USGS-authored or produced data and information are in the public domain from the U.S. Government and are freely redistributable with proper metadata and source attribution. Please recognize and acknowledge the U.S. Geological Survey as the originator of the dataset and in products derived from these data. This information is not intended for navigation purposes.</useconst>\n <ptcontac>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n <cntper>PCMSC Science Data Coordinator</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n </cntaddr>\n <cntvoice>831-427-4747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n <browse>\n <browsen>https://www.sciencebase.gov/catalog/file/get/5f9aed21d34e198cb78b8880?name=2017-612-FA_Chirp_Trackline_Map.png&allowOpen=true</browsen>\n <browsed>Map of chirp tracklines collected during USGS field activity 2017-612-FA.</browsed>\n <browset>PNG</browset>\n </browse>\n <native>SEG-Y rev 1</native>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>Quality control was conducted during data acquisition and quality was assured during data processing</attraccr>\n </attracc>\n <logic>No formal logical consistency tests were conducted, but quality control was conducted during acquisition.</logic>\n <complete>Dataset is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>Estimated to be no less than 3 m due to total propagated uncertainties of navigation as well as data processing.</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>A formal accuracy assessment of the vertical positional information in the data set has not been conducted.</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <procstep>\n <procdesc>Chirp sub-bottom data were collected using an Edgetech-512i sub-bottom profiler. Because file sizes were limited to 200 MB during acquisition, there may be several line parts per navigation line. Turn lines are denoted with a \xe2\x80\x98t\xe2\x80\x99 following the line number, are generally low quality. Data were corrected for sub-bottom profiler tow depth, and converted to envelope. Navigation was converted from seconds of arc to UTM zone 10N. Dataset is divided into two data zip files based on geographic location: 2017-612-FA_LakeWashington_chirp.zip and 2017-612-FA_PugetSound_chirp.zip.</procdesc>\n <procdate>20170620</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <indspref>Horizontal X and Y locations for each seismic profile location are stored in the SEG-Y data trace headers in header bytes 81 and 85.</indspref>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <mapproj>\n <mapprojn>WGS 1984 UTM Zone 10N</mapprojn>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-123.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </mapproj>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.0001</absres>\n <ordres>0.0001</ordres>\n </coordrep>\n <plandu>Meter</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D WGS 1984</horizdn>\n <ellips>WGS 1984</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n <vertdef>\n <depthsys>\n <depthdn>local surface</depthdn>\n <depthres>0.1</depthres>\n <depthdu>two-way travel time</depthdu>\n <depthem>attribute values</depthem>\n </depthsys>\n </vertdef>\n </spref>\n <eainfo>\n <overview>\n <eaover>Seismic shots with time stamp in standard SEG-Y file format</eaover>\n <eadetcit>Society of Exploration Geophysicists (SEG) Technical Standards, available for download at http://seg.org/Publications/SEG-Technical-Standards</eadetcit>\n </overview>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <resdesc>Dataset is divided into two data zip files based on geographic location: 2017-612-FA_LakeWashington_chirp.zip and 2017-612-FA_PugetSound_chirp.zip. Zip files contain chirp sub-bottom (SEG-Y) data collected during USGS field activity 2017-612-FA. The data are divided up and presented by navigation line, as reflected in the individual file names. Chirp file sizes are limited to 200 MB so there may be several line parts per navigation line.</resdesc>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data on any other system or for general or scientific purposes, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>SEG-Y</formname>\n <formvern>SEG-Y rev 1</formvern>\n <formcont>Zip files contains the processed seismic data per navigation line and are divided based on geographic location.</formcont>\n <filedec>Winzip, 7-zip, or Winrar are free software that will open .zip files</filedec>\n <transize>11330</transize>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://www.sciencebase.gov/catalog/file/get/5f9aed21d34e198cb78b8880</networkr>\n <networkr>https://www.sciencebase.gov/catalog/item/5f9aed21d34e198cb78b8880</networkr>\n <networkr>https://doi.org/10.5066/P9GWF28U</networkr>\n </networka>\n </computer>\n <accinstr>Data can be downloaded using the Network_Resource_Name links. The first link is a direct link to download a zipped file of all chirp data, metadata, and a map. The second link points to a landing page with the chirp data separated by geographic location (2017-612-FA_LakeWashington_chirp.zip and 2017-612-FA_PugetSound_chirp.zip). The third link points to the landing page for the entire data release including links to other data types. To download the chirp data, it's recommended that you go to the chirp landing page (second link) and take advantage of the large file handler.</accinstr>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None.</fees>\n </stdorder>\n <techpreq>Use of SEG-Y data requires specialized software, such as Reveal by Shearwater Geophysical; ProMax and Seisworks by Landmark Geophysical; FOCUS and SeisX by Paradigm Geophysical; SPW by Parallel Geoscience; VISTA by Seismic Image Software; SeiSee by Dalmorneftegeophysica (DMNG); amongst others.</techpreq>\n </distinfo>\n <metainfo>\n <metd>20210122</metd>\n <metc>\n <cntinfo>\n <cntorgp>\n <cntorg>U.S. Geological Survey, Pacific Coastal and Marine Science Center</cntorg>\n <cntper>PCMSC Science Data Coordinator</cntper>\n </cntorgp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>2885 Mission Street</address>\n <city>Santa Cruz</city>\n <state>CA</state>\n <postal>95060</postal>\n </cntaddr>\n <cntvoice>831-427-4747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001-1998</metstdv>\n </metainfo>\n</metadata>" |
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## Dates
Publication Date2019-06-25Start Date2016-05-23End Date2017-07-13
## Citation
Peneva-Reed, E.I., and Zhu, Z., 2019, Mangrove Data Collected from J.N. "Ding" Darling National Wildlife Refuge, Sanibel Island, Florida, United States: U.S. Geological Survey data release, https://doi.org/10.5066/P9P2PHU3.
## Summary
Mangrove inventory data from J.N. Ding Darling National Wildlife Refuge, Sanibel Island, Florida, USA collected in 2016 and 2017. Plot data includes X and Y downed dead wood count, mangrove species information and site descriptions. Tree data includes the three species found on the refuge: Avicennia germinans (Black mangroves), Laguncularia racemosa (White mangroves) and Rhizophora mangle (Red mangroves). They were inventoried for diameter at breast height (DBH), height, and dead status.
## Summary
Mangrove inventory data from J.N. Ding Darling National Wildlife Refuge, Sanibel Island, Florida, USA collected in 2016 and 2017. Plot data includes X and Y downed dead wood count, mangrove species information and site descriptions. Tree data includes the three species found on the refuge: Avicennia germinans (Black mangroves), Laguncularia racemosa (White mangroves) and Rhizophora mangle (Red mangroves). They were inventoried for diameter at breast height (DBH), height, and dead status.
## Contacts
Originator
:
[Elitsa I Peneva-Reed](/catalog/catalogParty/show?partyId=62315),
[Zhiliang Zhu](/catalog/catalogParty/show?partyId=12955)
Metadata Contact
:
[Elitsa I Peneva-Reed](/catalog/catalogParty/show?partyId=62315)
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:
[U.S. Geological Survey](/catalog/catalogParty/show?partyId=18139)
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:
[U.S. Geological Survey - ScienceBase](/catalog/catalogParty/show?partyId=70157)
SDC Data Owner
:
[Land Change Science Program](/catalog/catalogParty/show?partyId=64217)
USGS Mission Area
:
[Land Resources](/catalog/catalogParty/show?partyId=Land+Resources)
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| | | | |
| --- | --- | --- | --- |
| MangroveMetadata.xml<br>_Original FGDC Metadata_ | View | 41.35 KB | application/fgdc+xml |
| Plots.csv | | 34.59 KB | text/csv |
| Trees.csv | | 1.25 MB | text/csv |
| DING\_FieldData.gdb.zip | | 2.04 GB | application/zip |
## Purpose
These data were collected to analyze carbon stocks of and hurricane impacts on mangrove forests and to inform conservation and management decisions.
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## Communities
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- Southeast CASC
- USGS Data Release Products
## Tags
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- [Florida](/catalog/items?q=&filter=tags%3DFlorida "Florida (Florida, Place, Common Geographic areas)")
- [Sanibel](/catalog/items?q=&filter=tags%3DSanibel "Sanibel (Sanibel, Place, Common Geographic areas)")
- [United States](/catalog/items?q=&filter=tags%3DUnited+States "United States (United States, Place, Common Geographic areas)")
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- [Climatology](/catalog/items?q=&filter=tags%3DClimatology "Climatology (Climatology, USGS Scientific Topic Keyword, )")
- [Ecology](/catalog/items?q=&filter=tags%3DEcology "Ecology (Ecology, USGS Scientific Topic Keyword, )")
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## Provenance
## Additional Information
### Identifiers
| Type | Scheme | Key |
| --- | --- | --- |
| DOI | https://www.sciencebase.gov/vocab/category/item/identifier | doi:10.5066/P9P2PHU3 |
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(2024-08-29 17:07) | b'<metadata>\n <idinfo>\n <citation>\n <citeinfo>\n <origin>Elitsa Peneva-Reed, PhD</origin>\n <origin>Zhiliang Zhu, PhD</origin>\n <pubdate>2019</pubdate>\n <title>Mangrove Data Collected from J.N. "Ding" Darling National Wildlife Refuge, Sanibel Island, Florida, United States</title>\n <geoform>The user has the option of downloading two .csv files and/or one .zip file containing a geodatabase (.gdb). The zipped database contains all information including photos, the csv contains all information except the photos.</geoform>\n <pubinfo>\n <pubplace>Reston, VA</pubplace>\n <publish>U.S. Geological Survey</publish>\n </pubinfo>\n <onlink>https://doi.org/10.5066/P9P2PHU3</onlink>\n <onlink>P9P2PHU3</onlink>\n </citeinfo>\n </citation>\n <descript>\n <abstract>Mangrove inventory data from J.N. Ding Darling National Wildlife Refuge, Sanibel Island, Florida, USA collected in 2016 and 2017. Plot data includes X and Y downed dead wood count, mangrove species information and site descriptions. Tree data includes the three species found on the refuge: Avicennia germinans (Black mangroves), Laguncularia racemosa (White mangroves) and Rhizophora mangle (Red mangroves). They were inventoried for diameter at breast height (DBH), height, and dead status.</abstract>\n <purpose>These data were collected to analyze carbon stocks of and hurricane impacts on mangrove forests and to inform conservation and management decisions.</purpose>\n </descript>\n <timeperd>\n <timeinfo>\n <rngdates>\n <begdate>20160523</begdate>\n <enddate>20170713</enddate>\n </rngdates>\n </timeinfo>\n <current>ground condition</current>\n </timeperd>\n <status>\n <progress>Complete</progress>\n <update>None planned</update>\n </status>\n <spdom>\n <descgeog>J.N. "Ding" Darling National Wildlife Refuge, Sanibel Island, Florida, USA</descgeog>\n <bounding>\n <westbc>-82.220807035152</westbc>\n <eastbc>-82.012066800785</eastbc>\n <northbc>26.565250360335</northbc>\n <southbc>26.402999334778</southbc>\n </bounding>\n </spdom>\n <keywords>\n <theme>\n <themekt>USGS Thesaurus</themekt>\n <themekey>Field Inventory and Monitoring</themekey>\n <themekey>Ecosystem Management</themekey>\n </theme>\n <theme>\n <themekt>NASA Global change master directory</themekt>\n <themekey>Mangroves</themekey>\n </theme>\n <theme>\n <themekt>Biocomplexity thesaurus</themekt>\n <themekey>Carbon Sinks</themekey>\n <themekey>Biomass</themekey>\n <themekey>Allometry</themekey>\n </theme>\n <theme>\n <themekt>USGS Metadata Identifier</themekt>\n <themekey>USGS:5cfa89bde4b0bb6e113636ff</themekey>\n </theme>\n <place>\n <placekt>Common Geographic areas</placekt>\n <placekey>United States</placekey>\n <placekey>Florida</placekey>\n <placekey>Sanibel</placekey>\n </place>\n </keywords>\n <taxonomy>\n <keywtax>\n <taxonkt>USGS Biocomplexity Thesaurus</taxonkt>\n <taxonkey>Trees</taxonkey>\n </keywtax>\n <taxonsys>\n <classsys>\n <classcit>\n <citeinfo>\n <origin>Integrated Taxonomic Information System (ITIS)</origin>\n <pubdate>2019</pubdate>\n <title>Integrated Taxonomic Information System (ITIS)</title>\n <geoform>ONLINE_REFERENCE</geoform>\n <pubinfo>\n <pubplace>Washington, D.C.</pubplace>\n <publish>Integrated Taxonomic Information System (ITIS)</publish>\n </pubinfo>\n <onlink>http://itis.gov</onlink>\n </citeinfo>\n </classcit>\n </classsys>\n <ider>\n <cntinfo>\n <cntperp>\n <cntper>Elitsa Peneva-Reed, PhD</cntper>\n <cntorg>CLIMATE & LAND-USE: OFFC OF ASSOC DIR FOR CLIMATE</cntorg>\n </cntperp>\n <cntpos>Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 516, 12201 Sunrise Valley Dr.</address>\n <city>Reston</city>\n <state>Virginia</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-5132</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ider>\n <taxonpro>expert advice</taxonpro>\n <taxoncom>All mangroves within the plots are identified to the species level in the field except for 4 trees. These individuals were kept in the data set because they were tagged trees. All individuals without DBH recorded in the field (4 trees) were removed from the dataset. Two mangroves did not have their height recorded in the field. Height was estimated for these 2 trees by calculating the average height of other trees of the same DBH and species. The removal or height estimation of these few individuals does not impact the integrity of this data as 17,496 stems were inventoried.</taxoncom>\n </taxonsys>\n <taxongen>All trees were described to species level.</taxongen>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Viridiplantae</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Streptophyta</taxonrv>\n <taxoncl>\n <taxonrn>Superdivision</taxonrn>\n <taxonrv>Embryophyta</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Tracheophyta</taxonrv>\n <taxoncl>\n <taxonrn>Subdivision</taxonrn>\n <taxonrv>Spermatophytina</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Magnoliopsida</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Asteranae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Lamiales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Acanthaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Avicennia</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Avicennia germinans</taxonrv>\n <common>black mangrove</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Viridiplantae</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Streptophyta</taxonrv>\n <taxoncl>\n <taxonrn>Superdivision</taxonrn>\n <taxonrv>Embryophyta</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Tracheophyta</taxonrv>\n <taxoncl>\n <taxonrn>Subdivision</taxonrn>\n <taxonrv>Spermatophytina</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Magnoliopsida</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Rosanae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Myrtales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Combretaceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Laguncularia</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Laguncularia racemosa</taxonrv>\n <common>white mangrove</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n <taxoncl>\n <taxonrn>Kingdom</taxonrn>\n <taxonrv>Plantae</taxonrv>\n <taxoncl>\n <taxonrn>Subkingdom</taxonrn>\n <taxonrv>Viridiplantae</taxonrv>\n <taxoncl>\n <taxonrn>Infrakingdom</taxonrn>\n <taxonrv>Streptophyta</taxonrv>\n <taxoncl>\n <taxonrn>Superdivision</taxonrn>\n <taxonrv>Embryophyta</taxonrv>\n <taxoncl>\n <taxonrn>Division</taxonrn>\n <taxonrv>Tracheophyta</taxonrv>\n <taxoncl>\n <taxonrn>Subdivision</taxonrn>\n <taxonrv>Spermatophytina</taxonrv>\n <taxoncl>\n <taxonrn>Class</taxonrn>\n <taxonrv>Magnoliopsida</taxonrv>\n <taxoncl>\n <taxonrn>Superorder</taxonrn>\n <taxonrv>Rosanae</taxonrv>\n <taxoncl>\n <taxonrn>Order</taxonrn>\n <taxonrv>Malpighiales</taxonrv>\n <taxoncl>\n <taxonrn>Family</taxonrn>\n <taxonrv>Rhizophoraceae</taxonrv>\n <taxoncl>\n <taxonrn>Genus</taxonrn>\n <taxonrv>Rhizophora</taxonrv>\n <taxoncl>\n <taxonrn>Species</taxonrn>\n <taxonrv>Rhizophora mangle</taxonrv>\n <common>American mangrove</common>\n <common>red mangrove</common>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxoncl>\n </taxonomy>\n <accconst>none</accconst>\n <useconst>none</useconst>\n <ptcontac>\n <cntinfo>\n <cntperp>\n <cntper>Elitsa Peneva-Reed, PhD</cntper>\n <cntorg>CLIMATE & LAND-USE: OFFC OF ASSOC DIR FOR CLIMATE</cntorg>\n </cntperp>\n <cntpos>Research Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 516, 12201 Sunrise Valley Dr.</address>\n <city>Reston</city>\n <state>Virginia</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-5132</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </ptcontac>\n </idinfo>\n <dataqual>\n <attracc>\n <attraccr>No formal attribute accuracy tests were conducted</attraccr>\n </attracc>\n <logic>No formal logical accuracy tests were conducted</logic>\n <complete>All transects are complete accept for Z2, which only has four out of five plots. Otherwise, the data set is considered complete for the information presented, as described in the abstract. Users are advised to read the rest of the metadata record carefully for additional details.</complete>\n <posacc>\n <horizpa>\n <horizpar>No formal positional accuracy tests were conducted</horizpar>\n </horizpa>\n <vertacc>\n <vertaccr>No formal positional accuracy tests were conducted</vertaccr>\n </vertacc>\n </posacc>\n <lineage>\n <method>\n <methtype>Field</methtype>\n <methdesc>Data was collected from 39 transects, each 114 meters long. Transects were arranged perpendicular to the marine ecotone and consisted of five 7 meter fixed-radius plots as well as 2 meter fixed-radius subplots. Mangrove species in the plots were inventoried, species included Avicennia germinans (Black mangroves), Laguncularia racemosa (White mangroves) and Rhizophora mangle (Red mangroves). The large and medium trees (\xe2\x89\xa5 5 cm DBH) were measured in the 7 m radius circular plots, and saplings (< 5 cm DBH) were measured in the smaller 2 m circular subplots. Diameter at breast height (DBH) measurements were taken at 1.3 m, or in the case of Rhizophora mangle, just above the highest stilt root. Height was measured with TruPulse 200X, TruPulse 360R or a tape measurer. Standing dead trees were assigned to one of three classes: Status 1 (recently dead trees without leaves); Status 2 (dead trees without secondary branches); and Status 3 (dead trees without primary and secondary branches; missing part of their main stem). Downed dead wood \xe2\x89\xa5 5 cm in diameter were counted in each plot along four 7 m sampling lines extending from plot center outwards in the four cardinal directions. Diameter of the individual downed woody debris pieces were not measured but can be estimated per plot as the average diameter of trees in that plot with diameter \xe2\x89\xa5 5 cm.</methdesc>\n <methcite>\n <citeinfo>\n <origin>Kauffman, J.B.</origin>\n <origin>Donato, D.C.</origin>\n <pubdate>2012</pubdate>\n <title>Protocols for the measurement, monitoring and reporting of structure, biomass and carbon stocks in mangrove forests</title>\n <geoform>PDF</geoform>\n <onlink>http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.382.7768&rep=rep1&type=pdf</onlink>\n </citeinfo>\n </methcite>\n </method>\n <procstep>\n <procdesc>During three field trips (May 23rd, 2016 through May 26th, 2016; October 24th, 2016 through October 28th, 2016; and July 9th, 2017 through July 13th, 2017) X and Y locations of plots and trees were recorded in a Garmin GPS. All other data was recorded by hand in a notebook. Field notes were transcribed into excel files shortly after the field trips. In August 2018, data from all three field trips was combined.</procdesc>\n <procdate>2018</procdate>\n </procstep>\n </lineage>\n </dataqual>\n <spdoinfo>\n <direct>Point</direct>\n </spdoinfo>\n <spref>\n <horizsys>\n <planar>\n <gridsys>\n <gridsysn>Universal Transverse Mercator</gridsysn>\n <utm>\n <utmzone>17N</utmzone>\n <transmer>\n <sfctrmer>0.9996</sfctrmer>\n <longcm>-81.0</longcm>\n <latprjo>0.0</latprjo>\n <feast>500000.0</feast>\n <fnorth>0.0</fnorth>\n </transmer>\n </utm>\n </gridsys>\n <planci>\n <plance>coordinate pair</plance>\n <coordrep>\n <absres>0.372799999953713</absres>\n <ordres>1.32500000018626</ordres>\n </coordrep>\n <plandu>METERS</plandu>\n </planci>\n </planar>\n <geodetic>\n <horizdn>D_WGS_1984</horizdn>\n <ellips>Spheroid: GCS_WGS_1984</ellips>\n <semiaxis>6378137.0</semiaxis>\n <denflat>298.257223563</denflat>\n </geodetic>\n </horizsys>\n </spref>\n <eainfo>\n <detailed>\n <enttyp>\n <enttypl>Plots</enttypl>\n <enttypd>Plots is the title of 1) a CSV file and 2) the layer in the zipped .gdb (DING_FieldData) that contain information collected about the plots. The CSV and the layer have the same contents.</enttypd>\n <enttypds>Elitsa Peneva-Reed, PhD</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The date that the data was collected in the form DD-three letter month abbreviation-YYYY.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>23-May-2016</rdommin>\n <rdommax>13-Jul-2017</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tran</attrlabl>\n <attrdef>This column contains the unique name given to each transect. Each transect was 114 meters long and arranged roughly perpendicular to the marine ecotone.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Numbers and/or letters used to name the transect.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plot</attrlabl>\n <attrdef>Plots were placed at even intervals along the transect with plots numbered 1 being closer to the water ecotone and plots 5 being farther away.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>5</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>X</attrlabl>\n <attrdef>The X of plot center in the projected coordinate system WGS_1984_UTM_Zone_17N (WKID: 32617). Data was collected using Garmin GPS.</attrdef>\n <attrdefs>European Petroleum Survey Group (EPSG)</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>382451.977100</rdommin>\n <rdommax>394453.294500</rdommax>\n <attrunit>Meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y</attrlabl>\n <attrdef>The Y of plot center in the projected coordinate system WGS_1984_UTM_Zone_17N (WKID: 32617). Data was collected using Garmin GPS.</attrdef>\n <attrdefs>European Petroleum Survey Group (EPSG)</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2925324.963000</rdommin>\n <rdommax>2932089.251000</rdommax>\n <attrunit>Meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>SiteDescrip</attrlabl>\n <attrdef>A brief description of the plot. This description includes the dominant trees and saplings. Trees are defined as having DBH \xe2\x89\xa5 5 cm and saplings are defined as having DBH < 5 cm. Here dominance is defined as being most numerous.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>A brief description of the plot.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>HabType</attrlabl>\n <attrdef>The habitat type (fringe, transition area, or basin) was described for most plots by experts while in the field. All plots missing habitat type descriptions or that were described as transitional were analyzed in ArcMap. If these plots were < 30 meters from the water ecotone they were defined as fringe and if they were \xe2\x89\xa5 30 meters from the water ecotone they were defined as basin.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Fringe</edomv>\n <edomvd>There are typical mangrove zonation patterns. Mangroves in the fringe are exposed to tide and waves.</edomvd>\n <edomvds>Snedaker, S. C. (1982). Mangrove species zonation: why?. In Contributions to the Ecology of Halophytes (pp. 111-125). Springer, Dordrecht.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Basin</edomv>\n <edomvd>The basin is inland from the water\'s edge. Mangroves here live in soils that are less saline and less saturated because they are on higher elevation than fringe habitats.</edomvd>\n <edomvds>Snedaker, S. C. (1982). Mangrove species zonation: why?. In Contributions to the Ecology of Halophytes (pp. 111-125). Springer, Dordrecht.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Avicennia germinans trees</attrlabl>\n <attrdef>The number of Avicennia germinans trees. Trees are defined as being \xe2\x89\xa5 5 cm DBH.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of Avicennia germinans trees. Trees are defined as being \xe2\x89\xa5 5 cm DBH.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Avicennia germinans saplings</attrlabl>\n <attrdef>The number of Avicennia germinans saplings. Saplings are defined as being < 5 cm DBH.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of Avicennia germinans saplings. Saplings are defined as being < 5 cm DBH.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rhizophora mangle trees</attrlabl>\n <attrdef>The number of Rhizophora mangle trees. Trees are defined as being \xe2\x89\xa5 5 cm DBH.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of Rhizophora mangle trees. Trees are defined as being \xe2\x89\xa5 5 cm DBH.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Rhizophora mangle saplings</attrlabl>\n <attrdef>The number of Rhizophora mangle saplings. Saplings are defined as being < 5 cm DBH.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of Rhizophora mangle saplings. Saplings are defined as being < 5 cm DBH.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Laguncularia racemosa trees</attrlabl>\n <attrdef>The number of Laguncularia racemosa trees. Trees are defined as being \xe2\x89\xa5 5 cm DBH.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of Laguncularia racemosa trees. Trees are defined as being \xe2\x89\xa5 5 cm DBH.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Laguncularia racemosa saplings</attrlabl>\n <attrdef>The number of Laguncularia racemosa saplings. Saplings are defined as being < 5 cm DBH.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of Laguncularia racemosa saplings. Saplings are defined as being < 5 cm DBH.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DDW_N</attrlabl>\n <attrdef>Downed dead wood (DDW) \xe2\x89\xa5 5 cm in diameter were counted in each plot along four 7-meter sampling lines extending from plot center outwards in the four cardinal directions. Diameter of the individual DDW pieces were not measured, but diameter of the DDW can be estimated per plot as the average diameter of trees in that plot with diameter \xe2\x89\xa5 5 cm. This column contains the count of DDW on the sampling line that extended north. Any cell containing NR means these values were not recorded.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of DDW pieces \xe2\x89\xa5 5 cm in diameter that were counted on the north sampling line.</udom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NR</edomv>\n <edomvd>NR means not recorded. DDW were not counted on these transects.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DDW_E</attrlabl>\n <attrdef>This column contains the number of DDW on the sampling line that extended east.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of DDW pieces \xe2\x89\xa5 5 cm in diameter that were counted on the east sampling line.</udom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NR</edomv>\n <edomvd>NR means not recorded. DDW were not counted on these transects.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DDW_S</attrlabl>\n <attrdef>This column contains the number of DDW on the sampling line that extended south.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of DDW pieces \xe2\x89\xa5 5 cm in diameter that were counted on the south sampling line.</udom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NR</edomv>\n <edomvd>NR means not recorded. DDW were not counted on these transects.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DDW_W</attrlabl>\n <attrdef>This column contains the number of DDW on the sampling line that extended west.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The number of DDW pieces \xe2\x89\xa5 5 cm in diameter that were counted on the west sampling line.</udom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NR</edomv>\n <edomvd>NR means not recorded. DDW were not counted on these transects.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Photos</attrlabl>\n <attrdef>This column indicates whether photos were taken of the plot. Photos are attached to the Plots layer in the geodatabase and can be viewed in the database. To view the attached photo in ArcMap click on the plot with the identity tool. From the identify window you will be able to click on and open the attachment. The photos are only available in the database but both the .csv and .gdb list if there are photos taken at a plot.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Yes</edomv>\n <edomvd>Photos were taken at the plot.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>No</edomv>\n <edomvd>Photos were not taken at the plot.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Trees</enttypl>\n <enttypd>Trees is the title of 1) a CSV file and 2) a layer in the zipped gdb that contain information collected about the trees. Both the CSV and layer contain the same information.</enttypd>\n <enttypds>Elitsa Peneva-Reed, PhD</enttypds>\n </enttyp>\n <attr>\n <attrlabl>Date</attrlabl>\n <attrdef>The date that the data was collected in the form DD-month abbreviation-YYYY.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>23-May-2016</rdommin>\n <rdommax>13-Jul-2017</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tran</attrlabl>\n <attrdef>This column contains the unique name given to each transect. Each transect was 114 meters long and arranged roughly perpendicular to the marine ecotone.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>Numbers and/or letters used to name the transect.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Plot</attrlabl>\n <attrdef>Plots were placed at even intervals along the transect with plots numbered 1 being closer to the mangrove ecotone and plots 5 being farther away.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>5</rdommax>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Sub</attrlabl>\n <attrdef>Nested plots were designed such that the large and medium trees (\xe2\x89\xa5 5 cm DBH) were measured in the 7 meter radius circular plots (154 m^2), and saplings (< 5 cm DBH) were measured in the smaller 2 meter circular subplots (13 m^2).</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>2</edomv>\n <edomvd>The 2 meter radius subplots where saplings (< 5 cm DBH) were inventoried.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>7</edomv>\n <edomvd>The 7 meter radius plots where large and medium trees (\xe2\x89\xa5 5 cm DBH) were inventoried.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>X</attrlabl>\n <attrdef>The X of plot center in the projected coordinate system WGS_1984_UTM_Zone_17N (WKID: 32617). Data was collected using Garmin GPS.</attrdef>\n <attrdefs>European Petroleum Survey Group (EPSG)</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>382451.977100</rdommin>\n <rdommax>394453.294500</rdommax>\n <attrunit>Meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Y</attrlabl>\n <attrdef>The Y of plot center in the projected coordinate system WGS_1984_UTM_Zone_17N (WKID: 32617). Data was collected using Garmin GPS.</attrdef>\n <attrdefs>European Petroleum Survey Group (EPSG)</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>2925324.963000</rdommin>\n <rdommax>2932089.251000</rdommax>\n <attrunit>Meters</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Species</attrlabl>\n <attrdef>Each row contains information about one individual tree. Species are Avicennia germinans (Black mangrove), Laguncularia racemosa (White mangrove), and Rhizophora mangle (Red mangrove).</attrdef>\n <attrdefs>Integrated Taxonomic Information System</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Avicennia germinans</edomv>\n <edomvd>Scientific name: Avicennia germinans, Common name: Black Mangrove</edomvd>\n <edomvds>Integrated Taxonomic Information System</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Rhizophora mangle</edomv>\n <edomvd>Scientific name: Rhizophora mangle, Common name: Red Mangrove</edomvd>\n <edomvds>Integrated Taxonomic Information System</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>Laguncularia racemosa</edomv>\n <edomvd>Scientific name: Laguncularia racemosa, Common name: White Mangrove</edomvd>\n <edomvds>Integrated Taxonomic Information System</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>NR</edomv>\n <edomvd>NR stands for not recorded. There are four trees in the data set that were tagged but are without species information.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DBH</attrlabl>\n <attrdef>The diameter in centimeters at breast height (1.3 meters), or right above the highest stilt root in the case of Rhizophora species.</attrdef>\n <attrdefs>Kauffman, J.B., and D.C. Donato. 2012. Protocols for the measurement, monitoring and reporting of structure, biomass and carbon stocks in mangrove forests In. Working Paper 86, CIFOR.</attrdefs>\n <attrdomv>\n <udom>The diameter in centimeters at breast height (1.3 meters) for Black and White Mangroves, or right above the highest stilt root in the case of Red Mangroves.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Height</attrlabl>\n <attrdef>The height of the tree in meters as measured by laser range finder TruPulse 200X, TruPulse 360R or a tape measure.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The height in meters of each tree.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DS</attrlabl>\n <attrdef>The dead status (DS) indicates whether the tree was live or dead at the time of the inventory. Dead trees were broken into three classes depending on how much of their biomass had been lost.</attrdef>\n <attrdefs>Kauffman, J.B., and D.C. Donato. 2012. Protocols for the measurement, monitoring and reporting of structure, biomass and carbon stocks in mangrove forests In. Working Paper 86, CIFOR.</attrdefs>\n <attrdomv>\n <edom>\n <edomv>D0</edomv>\n <edomvd>Live trees.</edomvd>\n <edomvds>Kauffman, J.B., and D.C. Donato. 2012. Protocols for the measurement, monitoring and reporting of structure, biomass and carbon stocks in mangrove forests In. Working Paper 86, CIFOR.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D1</edomv>\n <edomvd>D1 means dead stage one. These trees died recently and have lost leaves but maintain branches and twigs.</edomvd>\n <edomvds>Kauffman, J.B., and D.C. Donato. 2012. Protocols for the measurement, monitoring and reporting of structure, biomass and carbon stocks in mangrove forests In. Working Paper 86, CIFOR.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D2</edomv>\n <edomvd>D2 is dead stage two. These trees lost small branches and twigs and portion of their large branches.</edomvd>\n <edomvds>Kauffman, J.B., and D.C. Donato. 2012. Protocols for the measurement, monitoring and reporting of structure, biomass and carbon stocks in mangrove forests In. Working Paper 86, CIFOR.</edomvds>\n </edom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>D3</edomv>\n <edomvd>D3 is dead stage three. These trees lost most branches and only the main trunk remains, which is often broken.</edomvd>\n <edomvds>Kauffman, J.B., and D.C. Donato. 2012. Protocols for the measurement, monitoring and reporting of structure, biomass and carbon stocks in mangrove forests In. Working Paper 86, CIFOR.</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>Tag</attrlabl>\n <attrdef>Approximately five live large trees were tagged per plot. Tags are numbered and face plot center with the nail exactly at the trees point of measurement of DBH.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The unique number on the tag nailed into the tree.</udom>\n </attrdomv>\n <attrdomv>\n <edom>\n <edomv>No</edomv>\n <edomvd>This tree was not tagged.</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n <detailed>\n <enttyp>\n <enttypl>Plots_ATTACH</enttypl>\n <enttypd>This is a table within the geodatabase that contains the photos taken while at the plot.</enttypd>\n <enttypds>Elitsa Reed, PhD</enttypds>\n </enttyp>\n <attr>\n <attrlabl>ATTACHMENTID</attrlabl>\n <attrdef>A unique number for each photo attachment.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>662</rdommax>\n <attrunit>The number of the photo.</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>REL_OBJECTID</attrlabl>\n <attrdef>This column tells the user which plot the photo is attached to. The column contains the unique plot id located in the OBJECTID column of the Plots table in the geodatabase.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <rdom>\n <rdommin>1</rdommin>\n <rdommax>194</rdommax>\n <attrunit>The number of plots</attrunit>\n </rdom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>CONTENT_TYPE</attrlabl>\n <attrdef>The type of attachment (all are photos).</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <edom>\n <edomv>image/jpeg</edomv>\n <edomvd>The photo attached is file type .jpeg</edomvd>\n <edomvds>Producer Defined</edomvds>\n </edom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>ATT_NAME</attrlabl>\n <attrdef>The name of the attached photo.</attrdef>\n <attrdefs>Producer defined</attrdefs>\n <attrdomv>\n <udom>The name of the photo is in the format transect_plot_direction. The photos were taken at plot center facing north (N), south (S), east (E), west (W) and up at the canopy (C). \nFor example a photo labeled "L2_4_N" means the photo was taken in transect L2 at plot 4 standing at plot center facing north. \nThe photo name "L2_5_C2" means the photo was taken in transect L2 at plot 5 looking at the canopy. This photo is labeled C2 because it is the second photo of the canopy.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DATA_SIZE</attrlabl>\n <attrdef>The size of the attachment.</attrdef>\n <attrdefs>Producer Defined</attrdefs>\n <attrdomv>\n <udom>The size of the attachment in units bytes.</udom>\n </attrdomv>\n </attr>\n <attr>\n <attrlabl>DATA</attrlabl>\n <attrdef>All values in this column are blob, which stands for binary large object.</attrdef>\n <attrdefs>ESRI</attrdefs>\n <attrdomv>\n <edom>\n <edomv>Blob</edomv>\n <edomvd>This field is where the image is stored. The blob field holds binary information about that make the photo.</edomvd>\n <edomvds>ESRI</edomvds>\n </edom>\n </attrdomv>\n </attr>\n </detailed>\n </eainfo>\n <distinfo>\n <distrib>\n <cntinfo>\n <cntperp>\n <cntper>GS ScienceBase</cntper>\n <cntorg>U.S. Geological Survey - ScienceBase</cntorg>\n </cntperp>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Denver Federal Center, Building 810, Mail Stop 302</address>\n <city>Denver</city>\n <state>CO</state>\n <postal>80225</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>1-888-275-8747</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </distrib>\n <distliab>Unless otherwise stated, all data, metadata and related materials are considered to satisfy the quality standards relative to the purpose for which the data were collected. Although these data and associated metadata have been reviewed for accuracy and completeness and approved for release by the U.S. Geological Survey (USGS), no warranty expressed or implied is made regarding the display or utility of the data for other purposes, nor on all computer systems, nor shall the act of distribution constitute any such warranty.</distliab>\n <stdorder>\n <digform>\n <digtinfo>\n <formname>7-ZIP</formname>\n <formvern>none</formvern>\n </digtinfo>\n <digtopt>\n <onlinopt>\n <computer>\n <networka>\n <networkr>https://doi.org/10.5066/P9P2PHU3</networkr>\n </networka>\n </computer>\n </onlinopt>\n </digtopt>\n </digform>\n <fees>None</fees>\n </stdorder>\n <techpreq>The data can be downloaded as either two .csv files or as one .zip file. The user must be able to download and work with CSV files or they must know how to unzip/uncompress the .zip file containing a geodatabase. If the user downloads the zipped geodatabase (.gbd) they must be able to use ArcGIS to open the uncompressed database. (The CSV files contain all data except for the plot photos, which are contained in the database.)</techpreq>\n </distinfo>\n <metainfo>\n <metd>20190618</metd>\n <metc>\n <cntinfo>\n <cntperp>\n <cntper>Elitsa Peneva-Reed, PhD</cntper>\n <cntorg>CLIMATE & LAND-USE: OFFC OF ASSOC DIR FOR CLIMATE</cntorg>\n </cntperp>\n <cntpos>Research Geographer</cntpos>\n <cntaddr>\n <addrtype>mailing and physical</addrtype>\n <address>Mail Stop 516, 12201 Sunrise Valley Drive</address>\n <city>Reston</city>\n <state>Virginia</state>\n <postal>20192</postal>\n <country>United States</country>\n </cntaddr>\n <cntvoice>703-648-5132</cntvoice>\n <cntemail>[email protected]</cntemail>\n </cntinfo>\n </metc>\n <metstdn>FGDC Biological Data Profile of the Content Standard for Digital Geospatial Metadata</metstdn>\n <metstdv>FGDC-STD-001.1-1999</metstdv>\n </metainfo>\n</metadata>' |