<?xml version="1.0" encoding="UTF-8"?><metadata xml:lang="en">
<Esri>
<CreaDate>20260625</CreaDate>
<CreaTime>11242100</CreaTime>
<SyncOnce>FALSE</SyncOnce>
<SyncDate>20130723</SyncDate>
<SyncTime>10393700</SyncTime>
<ModDate>20130723</ModDate>
<ModTime>10393700</ModTime>
<ArcGISFormat>1.0</ArcGISFormat>
<ArcGISstyle>FGDC CSDGM Metadata</ArcGISstyle>
<DataProperties>
<itemProps>
<itemName Sync="TRUE">GLB_salstreams_dissolve</itemName>
<imsContentType Sync="TRUE">002</imsContentType>
<nativeExtBox>
<westBL Sync="TRUE">485274.300652</westBL>
<eastBL Sync="TRUE">576303.216740</eastBL>
<southBL Sync="TRUE">4584878.786127</southBL>
<northBL Sync="TRUE">4623987.656218</northBL>
<exTypeCode Sync="TRUE">1</exTypeCode>
</nativeExtBox>
<itemSize Sync="TRUE">0.000</itemSize>
</itemProps>
<coordRef>
<type Sync="TRUE">Projected</type>
<geogcsn Sync="TRUE">GCS_North_American_1983</geogcsn>
<csUnits Sync="TRUE">Linear Unit: Meter (1.000000)</csUnits>
<projcsn Sync="TRUE">NAD_1983_UTM_Zone_16N</projcsn>
<peXml Sync="TRUE">&lt;ProjectedCoordinateSystem xsi:type='typens:ProjectedCoordinateSystem' xmlns:xsi='http://www.w3.org/2001/XMLSchema-instance' xmlns:xs='http://www.w3.org/2001/XMLSchema' xmlns:typens='http://www.esri.com/schemas/ArcGIS/10.1'&gt;&lt;WKT&gt;PROJCS[&amp;quot;NAD_1983_UTM_Zone_16N&amp;quot;,GEOGCS[&amp;quot;GCS_North_American_1983&amp;quot;,DATUM[&amp;quot;D_North_American_1983&amp;quot;,SPHEROID[&amp;quot;GRS_1980&amp;quot;,6378137.0,298.257222101]],PRIMEM[&amp;quot;Greenwich&amp;quot;,0.0],UNIT[&amp;quot;Degree&amp;quot;,0.0174532925199433]],PROJECTION[&amp;quot;Transverse_Mercator&amp;quot;],PARAMETER[&amp;quot;False_Easting&amp;quot;,500000.0],PARAMETER[&amp;quot;False_Northing&amp;quot;,0.0],PARAMETER[&amp;quot;Central_Meridian&amp;quot;,-87.0],PARAMETER[&amp;quot;Scale_Factor&amp;quot;,0.9996],PARAMETER[&amp;quot;Latitude_Of_Origin&amp;quot;,0.0],UNIT[&amp;quot;Meter&amp;quot;,1.0],AUTHORITY[&amp;quot;EPSG&amp;quot;,26916]]&lt;/WKT&gt;&lt;XOrigin&gt;-5120900&lt;/XOrigin&gt;&lt;YOrigin&gt;-9998100&lt;/YOrigin&gt;&lt;XYScale&gt;450445547.3910538&lt;/XYScale&gt;&lt;ZOrigin&gt;-100000&lt;/ZOrigin&gt;&lt;ZScale&gt;10000&lt;/ZScale&gt;&lt;MOrigin&gt;-100000&lt;/MOrigin&gt;&lt;MScale&gt;10000&lt;/MScale&gt;&lt;XYTolerance&gt;0.001&lt;/XYTolerance&gt;&lt;ZTolerance&gt;0.001&lt;/ZTolerance&gt;&lt;MTolerance&gt;0.001&lt;/MTolerance&gt;&lt;HighPrecision&gt;true&lt;/HighPrecision&gt;&lt;WKID&gt;26916&lt;/WKID&gt;&lt;LatestWKID&gt;26916&lt;/LatestWKID&gt;&lt;/ProjectedCoordinateSystem&gt;</peXml>
</coordRef>
</DataProperties>
<ArcGISProfile>FGDC</ArcGISProfile>
</Esri>
<idinfo>
<native Sync="FALSE">ESRI ArcCatalog 9.2.2.1350</native>
<descript>
<langdata Sync="TRUE">en</langdata>
<abstract>The rivers and tributaries in this feature class are as specifically designated in 327 IAC 2-1.5-5 Section 5(a)(3), :(A) Trail Creek and its tributaries downstream to Lake Michigan.(B) East Branch of the Little Calumet River and its tributaries downstream to Lake Michigan via Burns Ditch.(C) Salt Creek above its confluence with the Little Calumet River.(D) Kintzele Ditch (Black Ditch) from Beverly Drive downstream to Lake Michigan.(E) The Galena River and its tributaries in LaPorte County.(F) The St. Joseph River and its tributaries in St. Joseph County from the Twin Branch Dam in Mishawaka downstream to the Indiana/Michigan state line."The spatial data originated from the National Hydrography Dataset high resolution flowlines. Data were selected by using the Utility Network Analyst trace upstream tool, then copied and pasted into this dataset.</abstract>
<purpose>Streams_Salmonid_DNR_IN is a graphical representation of streams identified under rule (327 IAC 2) that can support trout and salmon (salmonids)” This dataset is is not complete, as it does not currently include put and take trout streams. It is not to be used for legal determination of a stream's inclusion.</purpose>
</descript>
<citation>
<citeinfo>
<origin>U.S. Geological Survey in cooperation with U.S. Environmental Protection Agency, USDA Forest Service, and other Federal, State and local partners (see dataset specific metadata under Data_Set_Credit for details).</origin>
<pubdate>See dataset specific metadata.</pubdate>
<title Sync="TRUE">Streams_Salmonid_DNR_IN</title>
<ftname Sync="TRUE">NHDFlowline</ftname>
<geoform Sync="TRUE">vector digital data</geoform>
<onlink Sync="FALSE">withheld</onlink>
<pubtime>Unknown</pubtime>
<pubinfo>
<pubplace>Reston, Virginia</pubplace>
<publish>U.S. Geological Survey</publish>
</pubinfo>
</citeinfo>
</citation>
<timeperd>
<current>See dataset specific metadata.</current>
<timeinfo>
<sngdate>
<caldate>REQUIRED: The year (and optionally month, or month and day) for which the data set corresponds to the ground.</caldate>
</sngdate>
</timeinfo>
</timeperd>
<status>
<progress>In work</progress>
<update>Irregular</update>
</status>
<spdom>
<bounding>
<westbc>-200</westbc>
<eastbc>-56.8344239</eastbc>
<northbc>143.165576</northbc>
<southbc>0</southbc>
</bounding>
</spdom>
<keywords>
<theme>
<themekt>U.S. Department of the Interior, U.S. Geological Survey, 1999, Standards for National Hydrography Dataset (http://mapping.usgs.gov/standards/)</themekt>
<themekey>FWHydrography</themekey>
<themekey>Hydrography</themekey>
<themekey>Stream / River</themekey>
<themekey>Lake / Pond</themekey>
<themekey>Canal / Ditch</themekey>
<themekey>Reservoir</themekey>
<themekey>Spring / Seep</themekey>
<themekey>Swamp / Marsh</themekey>
<themekey>Artificial Path</themekey>
<themekey>Reach Code</themekey>
</theme>
<place>
<placekey>US</placekey>
<placekt>U.S. Department of Commerce, 1977, Countries, dependencies, areas of special sovereignty, and their principal administrative divisions (Federal Information Processing Standards 10-3): Washington, D.C., National Institute of Standards and Technology.</placekt>
</place>
</keywords>
<accconst>None.</accconst>
<useconst>None. Acknowledgment of the originating agencies would
be appreciated in products derived from these data.</useconst>
<natvform Sync="TRUE">File Geodatabase Feature Class</natvform>
<ptcontac>
<cntinfo>
<cntorgp>
<cntorg>Earth Science Information Center, U.S. Geological Survey</cntorg>
</cntorgp>
<cntvoice>1 888 ASK USGS</cntvoice>
<cntemail>ask@usgs.gov</cntemail>
<hours>0800-1600 Eastern Time</hours>
<cntinst>In addition to the address above there are other ESIC offices throughout the country. A full list of these offices is at URL: http://mapping.usgs.gov/esic/esic_index.html</cntinst>
</cntinfo>
</ptcontac>
<datacred>Indiana Department of Natural Resources, US Geological Survey.</datacred>
</idinfo>
<dataIdInfo>
<envirDesc Sync="FALSE">Esri ArcGIS 10.1.1.3143</envirDesc>
<dataLang>
<languageCode Sync="FALSE" value="eng"/>
<countryCode Sync="TRUE" value="US"/>
</dataLang>
<idCitation>
<resTitle Sync="FALSE">Streams_Salmonid_DNR_IN</resTitle>
<presForm>
<PresFormCd Sync="TRUE" value="005"/>
</presForm>
<date>
<createDate>2013-01-16T00:00:00</createDate>
<pubDate>2013-01-16T00:00:00</pubDate>
</date>
<citRespParty>
<rpIndName>Mike Martin</rpIndName>
<rpOrgName>Indiana Department of Natural Resources</rpOrgName>
<rpPosName>Agency GIS Coordinator</rpPosName>
<role>
<RoleCd value="010"/>
</role>
<rpCntInfo>
<cntAddress addressType="both">
<delPoint>402 W Washington St. Rm. 280</delPoint>
<city>Indianapolis</city>
<adminArea>IN</adminArea>
<postCode>46204</postCode>
<eMailAdd>mmartin@dnr.in.gov</eMailAdd>
<country>UNITED STATES</country>
</cntAddress>
</rpCntInfo>
</citRespParty>
</idCitation>
<spatRpType>
<SpatRepTypCd Sync="TRUE" value="001"/>
</spatRpType>
<dataExt>
<vertEle>
<vertMinVal Sync="TRUE">0.000000</vertMinVal>
<vertMaxVal Sync="TRUE">0.000000</vertMaxVal>
</vertEle>
<geoEle>
<GeoBndBox esriExtentType="search"/>
</geoEle>
</dataExt>
<dataExt>
<geoEle>
<GeoBndBox esriExtentType="search">
<exTypeCode Sync="TRUE">1</exTypeCode>
<westBL Sync="TRUE">-87.177166</westBL>
<eastBL Sync="TRUE">-86.082047</eastBL>
<northBL Sync="TRUE">41.767726</northBL>
<southBL Sync="TRUE">41.411838</southBL>
</GeoBndBox>
</geoEle>
</dataExt>
<idPurp>Streams_Salmonid_DNR_IN is a graphical representation of streams identified under rule (327 IAC 2) that can support trout and salmon (salmonids)” This dataset is is not complete, as it does not currently include put and take trout streams. It is not to be used for legal determination of a stream's inclusion.</idPurp>
<idCredit>Indiana Department of Natural Resources, US Geological Survey.</idCredit>
<searchKeys>
<keyword>FWHydrography</keyword>
<keyword>Hydrography</keyword>
<keyword>Streams</keyword>
<keyword>Rivers</keyword>
<keyword>Salmonid</keyword>
<keyword>Trout</keyword>
</searchKeys>
<resConst>
<Consts>
<useLimit>&lt;DIV STYLE="text-align:Left;"&gt;&lt;DIV&gt;&lt;DIV&gt;&lt;P&gt;&lt;SPAN&gt;&lt;SPAN&gt;Acknowledgement of the Indiana Department of Natural Resources (IDNR) as the source of the digital data must be cited on any graphic reproduction of the data. DATA DISCLAIMER The Department of Natural Resources (IDNR) provides these geographic data “as is” and the user accepts the data “as is”, and assumes all risks associated with its use. IDNR believes the data to be accurate, but cannot and does not warranty it to be so. IDNR further makes no warranties, either expressed or implied as to any other matter whatsoever, including, without limitation, the condition of any product, or its fitness for any particular purpose. The burden for determining fitness for use lies entirely with the user. Although these data have been processed successfully using the data processing technology of IDNR, no warranty, expressed or implied, is made by IDNR regarding any capability to use these data on any other system, nor does the fact of distribution constitute or imply any such warranty. In no event shall IDNR have any liability whatsoever for payment of any consequential, incidental, indirect, special, or tort damages of any kind, including, but not limited to, any loss of profits arising out of or reliance on the geographic data or arising out of the delivery, installation, operation, or support by IDNR. This dataset should not to be used for legal determination of a stream's inclusion.&lt;/SPAN&gt;&lt;/SPAN&gt;&lt;/P&gt;&lt;P&gt;&lt;SPAN /&gt;&lt;/P&gt;&lt;/DIV&gt;&lt;/DIV&gt;&lt;/DIV&gt;</useLimit>
</Consts>
</resConst>
<dataChar>
<CharSetCd value="004"/>
</dataChar>
<idAbs>&lt;DIV STYLE="text-align:Left;"&gt;&lt;DIV&gt;&lt;DIV&gt;&lt;P&gt;&lt;SPAN&gt;The rivers and tributaries in this feature class are as specifically designated in 327 IAC 2-1.5-5 Section 5(a)(3), :&lt;/SPAN&gt;&lt;/P&gt;&lt;P&gt;&lt;SPAN&gt;(A) Trail Creek and its tributaries downstream to Lake Michigan.&lt;/SPAN&gt;&lt;/P&gt;&lt;P&gt;&lt;SPAN&gt;(B) East Branch of the Little Calumet River and its tributaries downstream to Lake Michigan via Burns Ditch.&lt;/SPAN&gt;&lt;/P&gt;&lt;P&gt;&lt;SPAN&gt;(C) Salt Creek above its confluence with the Little Calumet River.&lt;/SPAN&gt;&lt;/P&gt;&lt;P&gt;&lt;SPAN&gt;(D) Kintzele Ditch (Black Ditch) from Beverly Drive downstream to Lake Michigan.&lt;/SPAN&gt;&lt;/P&gt;&lt;P&gt;&lt;SPAN&gt;(E) The Galena River and its tributaries in LaPorte County.&lt;/SPAN&gt;&lt;/P&gt;&lt;P&gt;&lt;SPAN&gt;(F) The St. Joseph River and its tributaries in St. Joseph County from the Twin Branch Dam in Mishawaka downstream to the Indiana/Michigan state line."&lt;/SPAN&gt;&lt;/P&gt;&lt;P&gt;&lt;SPAN&gt;The spatial data originated from the National Hydrography Dataset high resolution flowlines. Data were selected by using the Utility Network Analyst trace upstream tool, then copied and pasted into this dataset.&lt;/SPAN&gt;&lt;/P&gt;&lt;/DIV&gt;&lt;/DIV&gt;&lt;/DIV&gt;</idAbs>
</dataIdInfo>
<metainfo>
<langmeta Sync="TRUE">en</langmeta>
<metstdn Sync="TRUE">FGDC Content Standards for Digital Geospatial Metadata</metstdn>
<metstdv Sync="TRUE">FGDC-STD-001-1998</metstdv>
<mettc Sync="TRUE">local time</mettc>
<metc>
<cntinfo>
<cntorgp>
<cntper>REQUIRED: The person responsible for the metadata information.</cntper>
<cntorg>Earth Science Information Center, U.S. Geological Survey</cntorg>
</cntorgp>
<cntaddr>
<addrtype>mailing address</addrtype>
<city>Reston</city>
<state>VA</state>
<postal>20192</postal>
<address>507 National Center</address>
<country>USA</country>
</cntaddr>
<cntvoice>1 888 ASK USGS.</cntvoice>
<cntemail>nhd@usgs.gov</cntemail>
<cntinst>In addition to the address above there are other ESIC offices throughout the country. A full list of these offices is at URL: http://mapping.usgs.gov/esic/esic_index.html</cntinst>
</cntinfo>
</metc>
<metd Sync="TRUE">20080604</metd>
</metainfo>
<mdLang>
<languageCode Sync="TRUE" value="en"/>
<countryCode Sync="TRUE" value="US"/>
</mdLang>
<mdStanName Sync="TRUE">ISO 19115 Geographic Information - Metadata</mdStanName>
<mdStanVer Sync="TRUE">DIS_ESRI1.0</mdStanVer>
<mdChar>
<CharSetCd Sync="TRUE" value="004"/>
</mdChar>
<mdHrLv>
<ScopeCd Sync="TRUE" value="005"/>
</mdHrLv>
<mdHrLvName Sync="TRUE">dataset</mdHrLvName>
<distinfo>
<resdesc Sync="TRUE">Downloadable Data</resdesc>
<stdorder>
<digform>
<digtinfo>
<formname>ArcGIS Geodatabase</formname>
<formvern>8.3</formvern>
<filedec>tar and uncompress</filedec>
</digtinfo>
</digform>
</stdorder>
</distinfo>
<distInfo>
<distributor>
<distorTran>
<onLineSrc>
<orDesc Sync="TRUE">002</orDesc>
<linkage Sync="FALSE">withheld</linkage>
<protocol Sync="TRUE">Local Area Network</protocol>
</onLineSrc>
</distorTran>
<distorFormat>
<formatName Sync="TRUE">File Geodatabase Feature Class</formatName>
</distorFormat>
</distributor>
<distFormat>
<formatName Sync="FALSE">Feature Class</formatName>
</distFormat>
<distTranOps>
<transSize Sync="TRUE">0.000</transSize>
</distTranOps>
</distInfo>
<spdoinfo>
<direct Sync="TRUE">Vector</direct>
<ptvctinf>
<esriterm Name="GLB_salstreams_dissolve">
<efeatyp Sync="TRUE">Simple</efeatyp>
<efeageom Sync="TRUE" code="4"/>
<esritopo Sync="TRUE">FALSE</esritopo>
<efeacnt Sync="TRUE">0</efeacnt>
<spindex Sync="TRUE">FALSE</spindex>
<linrefer Sync="TRUE">FALSE</linrefer>
</esriterm>
</ptvctinf>
</spdoinfo>
<spref>
<horizsys>
<cordsysn>
<geogcsn Sync="TRUE">GCS_North_American_1983</geogcsn>
</cordsysn>
<geodetic>
<horizdn Sync="TRUE">North American Datum of 1983</horizdn>
<ellips Sync="TRUE">Geodetic Reference System 80</ellips>
<semiaxis Sync="TRUE">6378137.000000</semiaxis>
<denflat Sync="TRUE">298.257222</denflat>
</geodetic>
</horizsys>
<vertdef>
<altsys>
<altenc Sync="TRUE">Explicit elevation coordinate included with horizontal coordinates</altenc>
<altres Sync="TRUE">0.000025</altres>
<altdatum>National Geodetic Vertical Datum of 1929</altdatum>
<altunits>meters</altunits>
</altsys>
</vertdef>
</spref>
<refSysInfo>
<RefSystem>
<refSysID>
<identCode Sync="TRUE" code="26916" value="26916">GCS_North_American_1983</identCode>
<idCodeSpace Sync="TRUE">EPSG</idCodeSpace>
<idVersion Sync="TRUE">7.11.2</idVersion>
</refSysID>
</RefSystem>
</refSysInfo>
<spatRepInfo>
<VectSpatRep>
<geometObjs Name="GLB_salstreams_dissolve">
<geoObjTyp>
<GeoObjTypCd Sync="TRUE" value="002"/>
</geoObjTyp>
<geoObjCnt Sync="TRUE">0</geoObjCnt>
</geometObjs>
<topLvl>
<TopoLevCd Sync="TRUE" value="001"/>
</topLvl>
</VectSpatRep>
</spatRepInfo>
<eainfo>
<detailed Name="GLB_salstreams_dissolve">
<enttyp>
<enttypl Sync="TRUE">GLB_salstreams_dissolve</enttypl>
<enttypt Sync="TRUE">Feature Class</enttypt>
<enttypc Sync="TRUE">0</enttypc>
</enttyp>
<attr>
<attrlabl Sync="TRUE">Shape</attrlabl>
<attalias Sync="TRUE">Shape</attalias>
<attrtype Sync="TRUE">Geometry</attrtype>
<attwidth Sync="TRUE">0</attwidth>
<atprecis Sync="TRUE">0</atprecis>
<attscale Sync="TRUE">0</attscale>
<attrdef Sync="TRUE">Feature geometry.</attrdef>
<attrdefs Sync="TRUE">ESRI</attrdefs>
<attrdomv>
<udom Sync="TRUE">Coordinates defining the features.</udom>
</attrdomv>
</attr>
<attr>
<attrlabl Sync="TRUE">FID</attrlabl>
<attalias Sync="TRUE">FID</attalias>
<attrtype Sync="TRUE">OID</attrtype>
<attwidth Sync="TRUE">4</attwidth>
<atprecis Sync="TRUE">0</atprecis>
<attscale Sync="TRUE">0</attscale>
<attrdef Sync="TRUE">Internal feature number.</attrdef>
<attrdefs Sync="TRUE">Esri</attrdefs>
<attrdomv>
<udom Sync="TRUE">Sequential unique whole numbers that are automatically generated.</udom>
</attrdomv>
</attr>
<subtype>
<stname Sync="TRUE">Underground Conduit</stname>
<stcode Sync="TRUE">420</stcode>
<stfield>
<stfldnm Sync="TRUE">ComID</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">Resolution</stfldnm>
<stflddd>
<domname Sync="TRUE">Resolution</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FlowDir</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
<stflddd>
<domname Sync="TRUE">HydroFlowDirections</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FType</stfldnm>
<stflddv Sync="TRUE">420</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FCode</stfldnm>
<stflddv Sync="TRUE">42000</stflddv>
<stflddd>
<domname Sync="TRUE">Underground Conduit FCode</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
</subtype>
<subtype>
<stname Sync="TRUE">StreamRiver</stname>
<stcode Sync="TRUE">460</stcode>
<stfield>
<stfldnm Sync="TRUE">ComID</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">Resolution</stfldnm>
<stflddd>
<domname Sync="TRUE">Resolution</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FlowDir</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
<stflddd>
<domname Sync="TRUE">HydroFlowDirections</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FType</stfldnm>
<stflddv Sync="TRUE">460</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FCode</stfldnm>
<stflddv Sync="TRUE">46006</stflddv>
<stflddd>
<domname Sync="TRUE">StreamRiver FCode</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
</subtype>
<subtype>
<stname Sync="TRUE">Pipeline</stname>
<stcode Sync="TRUE">428</stcode>
<stfield>
<stfldnm Sync="TRUE">ComID</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">Resolution</stfldnm>
<stflddd>
<domname Sync="TRUE">Resolution</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FlowDir</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
<stflddd>
<domname Sync="TRUE">HydroFlowDirections</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FType</stfldnm>
<stflddv Sync="TRUE">428</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FCode</stfldnm>
<stflddv Sync="TRUE">42805</stflddv>
<stflddd>
<domname Sync="TRUE">Pipeline FCode</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
</subtype>
<subtype>
<stname Sync="TRUE">ArtificialPath</stname>
<stcode Sync="TRUE">558</stcode>
<stfield>
<stfldnm Sync="TRUE">ComID</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">Resolution</stfldnm>
<stflddd>
<domname Sync="TRUE">Resolution</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FlowDir</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
<stflddd>
<domname Sync="TRUE">HydroFlowDirections</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FType</stfldnm>
<stflddv Sync="TRUE">558</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FCode</stfldnm>
<stflddv Sync="TRUE">55800</stflddv>
<stflddd>
<domname Sync="TRUE">ArtificialPath FCode</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
</subtype>
<subtype>
<stname Sync="TRUE">CanalDitch</stname>
<stcode Sync="TRUE">336</stcode>
<stfield>
<stfldnm Sync="TRUE">ComID</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">Resolution</stfldnm>
<stflddd>
<domname Sync="TRUE">Resolution</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FlowDir</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
<stflddd>
<domname Sync="TRUE">HydroFlowDirections</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FType</stfldnm>
<stflddv Sync="TRUE">336</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FCode</stfldnm>
<stflddv Sync="TRUE">33600</stflddv>
<stflddd>
<domname Sync="TRUE">CanalDitch FCode</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
</subtype>
<subtype>
<stname Sync="TRUE">Connector</stname>
<stcode Sync="TRUE">334</stcode>
<stfield>
<stfldnm Sync="TRUE">ComID</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">Resolution</stfldnm>
<stflddd>
<domname Sync="TRUE">Resolution</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FlowDir</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
<stflddd>
<domname Sync="TRUE">HydroFlowDirections</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FType</stfldnm>
<stflddv Sync="TRUE">334</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FCode</stfldnm>
<stflddv Sync="TRUE">33400</stflddv>
<stflddd>
<domname Sync="TRUE">Connector FCode</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
</subtype>
<subtype>
<stname Sync="TRUE">Coastline</stname>
<stcode Sync="TRUE">566</stcode>
<stfield>
<stfldnm Sync="TRUE">ComID</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">Resolution</stfldnm>
<stflddd>
<domname Sync="TRUE">Resolution</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FlowDir</stfldnm>
<stflddv Sync="TRUE">0</stflddv>
<stflddd>
<domname Sync="TRUE">HydroFlowDirections</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FType</stfldnm>
<stflddv Sync="TRUE">566</stflddv>
</stfield>
<stfield>
<stfldnm Sync="TRUE">FCode</stfldnm>
<stflddv Sync="TRUE">56600</stflddv>
<stflddd>
<domname Sync="TRUE">Coastline FCode</domname>
<domdesc Sync="TRUE"/>
<domtype Sync="TRUE">Coded Value</domtype>
<mrgtype Sync="TRUE">Default value</mrgtype>
<splttype Sync="TRUE">Duplicate</splttype>
<domowner Sync="TRUE"/>
<domfldtp Sync="TRUE">Integer</domfldtp>
</stflddd>
</stfield>
</subtype>
<attr>
<attrlabl Sync="TRUE">Id</attrlabl>
<attalias Sync="TRUE">Id</attalias>
<attrtype Sync="TRUE">Integer</attrtype>
<attwidth Sync="TRUE">6</attwidth>
<atprecis Sync="TRUE">6</atprecis>
<attscale Sync="TRUE">0</attscale>
</attr>
</detailed>
<detailed Name="NHDFlowlineToMeta">
<enttyp>
<enttypl Sync="TRUE">NHDFlowlineToMeta</enttypl>
<enttypt Sync="TRUE">Relationship</enttypt>
</enttyp>
</detailed>
<overview>
<eaover>The National Hydrography Dataset is a comprehensive set of digital spatial data that encodes information about naturally occurring and constructed bodies of water, paths through which water flows, and related entities. The information encoded about features includes a feature date, classification by type, other characteristics, a unique common identifier, the feature length or area, and (rarely) elevation of the surface of water pools and a description of the stage of the elevation. For reaches, encoded information includes a reach code. Names and their identifiers in the Geographic Names Information System, are assigned to most feature types. The direction of flow is encoded for networked features. The data also contains relations that encode metadata, and information that supports the exchange of future updates and improvements to the data. The names and definitions of all feature types, characteristics, and values are in the Standards for National Hydrography Dataset: Reston, Virginia, U.S. Geological Survey, 1999. The document is available online through http://mapping.usgs.gov/standards/.</eaover>
<eadetcit>The names and definitions of all feature types, characteristics, and values are in U.S. Geological Survey, 1999, Standards for National Hydrography Dataset High Resolution: Reston, Virginia, U.S. Geological Survey. The document is available online through http://mapping.usgs.gov/standards/. Information about tables and fields in the data are available from the user documentation for the National Hydrography Dataset at http://nhd.usgs.gov. The National Map - Hydrography Fact Sheet is also available at: http://erg.usgs.gov/isb/pubs/factsheets/fs06002.html.</eadetcit>
</overview>
</eainfo>
<mdDateSt Sync="TRUE">20130723</mdDateSt>
<dataqual>
<attracc>
<attraccr>Statements of attribute accuracy are based on accuracy statements made for U.S. Geological Survey Digital Line Graph (DLG) data, which is estimated to be 98.5 percent. One or more of the following methods were used to test attribute accuracy: manual comparison of the source with hardcopy plots; symbolized display of the DLG on an interactive computer graphic system; selected attributes that could not be visually verified on plots or on screen were interactively queried and verified on screen. In addition, software validated feature types and characteristics against a master set of types and characteristics, checked that combinations of types and characteristics were valid, and that types and characteristics were valid for the delineation of the feature. Feature types, characteristics, and other attributes conform to the Standards for National Hydrography Dataset (USGS, 1999) as of the date they were loaded into the database. All names were validated against a current extract from the Geographic Names Information System (GNIS). The entry and identifier for the names match those in the GNIS. The association of each name to reaches has been interactively checked, however, operator error could in some cases apply a name to a wrong reach.
This statement is generally true for the most common sources of NHD data. Other sources and methods may have been used to create or update NHD data. In some cases, additional information may be found in the NHDMetadata table.</attraccr>
</attracc>
<logic>Points, nodes, lines, and areas conform to topological rules. Lines intersect only at nodes, and all nodes anchor the ends of lines. Lines do not overshoot or undershoot other lines where they are supposed to meet. There are no duplicate lines. Lines bound areas and lines identify the areas to the left and right of the lines. Gaps and overlaps among areas do not exist. All areas close.</logic>
<complete>The completeness of the data reflects the content of the sources, which most often are the published USGS topographic quadrangle and/or the USDA Forest Service Primary Base Series (PBS) map. The USGS topographic quadrangle is usually supplemented by Digital Orthophoto Quadrangles (DOQs). Features found on the ground may have been eliminated or generalized on the source map because of scale and legibility constraints. In general, streams longer than one mile (approximately 1.6 kilometers) were collected. Most streams that flow from a lake were collected regardless of their length. Only definite channels were collected so not all swamp/marsh features have stream/rivers delineated through them. Lake/ponds having an area greater than 6 acres were collected. Note, however, that these general rules were applied unevenly among maps during compilation. Reaches codes are defined on all features of type stream/river, canal/ditch, artificial path, coastline, and connector. Waterbody reach codes are defined on all lake/pond and most reservoir features. Names were applied from the GNIS database. Detailed capture conditions are provided for every feature type in the Standards for National Hydrography Dataset available online through http://mapping.usgs.gov/standards/.
This statement is generally true for the most common sources of NHD data. Other sources and methods may have been used to create or update NHD data. In some cases, additional information may be found in the NHDMetadata table.</complete>
<posacc>
<horizpa>
<horizpar>Statements of horizontal positional accuracy are based on accuracy statements made for U.S. Geological Survey topographic quadrangle maps. These maps were compiled to meet National Map Accuracy Standards. For horizontal accuracy, this standard is met if at least 90 percent of points tested are within 0.02 inch (at map scale) of the true position. Additional offsets to positions may have been introduced where feature density is high to improve the legibility of map symbols. In addition, the digitizing of maps is estimated to contain a horizontal positional error of less than or equal to 0.003 inch standard error (at map scale) in the two component directions relative to the source maps. Visual comparison between the map graphic (including digital scans of the graphic) and plots or digital displays of points, lines, and areas, is used as control to assess the positional accuracy of digital data. Digital map elements along the adjoining edges of data sets are aligned if they are within a 0.02 inch tolerance (at map scale). Features with like dimensionality (for example, features that all are delineated with lines), with or without like characteristics, that are within the tolerance are aligned by moving the features equally to a common point. Features outside the tolerance are not moved; instead, a feature of type connector is added to join the features.
This statement is generally true for the most common sources of NHD data. Other sources and methods may have been used to create or update NHD data. In some cases, additional information may be found in the NHDMetadata table.</horizpar>
</horizpa>
<vertacc>
<vertaccr>Statements of vertical positional accuracy for elevation of water surfaces are based on accuracy statements made for U.S. Geological Survey topographic quadrangle maps. These maps were compiled to meet National Map Accuracy Standards. For vertical accuracy, this standard is met if at least 90 percent of well-defined points tested are within one-half contour interval of the correct value. Elevations of water surface printed on the published map meet this standard; the contour intervals of the maps vary. These elevations were transcribed into the digital data; the accuracy of this transcription was checked by visual comparison between the data and the map.
This statement is generally true for the most common sources of NHD data. Other sources and methods may have been used to create or update NHD data. In some cases, additional information may be found in the NHDMetadata table.</vertaccr>
</vertacc>
</posacc>
<lineage>
<procstep>
<procdesc>The processes used to create and maintain high-resolution NHD data can be found in the table called "NHDMetadata". Because NHD data can be downloaded using several user-defined areas, the process descriptions can vary for each download. The NHDMetadata table contains a list of all the process descriptions that apply to a particular download. These process descriptions are linked using the DuuID to the NHDFeatureToMetadata table which contains the com_ids of all the features within the download. In addition, another table, the NHDSourceCitation, can also be linked through the DuuID to determine the sources used to create or update NHD data.</procdesc>
<procdate>Unknown</procdate>
</procstep>
<procstep>
<procdesc Sync="TRUE">Dataset copied.</procdesc>
<srcused Sync="FALSE">withheld</srcused>
<date Sync="TRUE">20071130</date>
<time Sync="TRUE">14444000</time>
</procstep>
</lineage>
</dataqual>
<dqInfo>
<dataLineage>
<statement>The data originated from the National Hydrography Dataset high resolution flowlines. Data were selected by using the Utility Network Analyst trace upstream tool, then copied and pasted into this dataset.</statement>
</dataLineage>
</dqInfo>
</metadata>
