20150922 10103700 1.0 ISO 19139 Metadata Implementation Specification FALSE GEO_suss_elev 002 -8429419.127300 -8354389.127300 4643339.329600 4716209.329600 1 file://\\DTIFS01\users\Kim.Cloud\My Documents\ArcGIS\Depth_to_Water\p20\fm2_test_fmentert_firstmap_viewer.gdb Local Area Network Projected GCS_WGS_1984 Linear Unit: Meter (1.000000) WGS_1984_Web_Mercator_Auxiliary_Sphere <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/2.7.0'><WKT>PROJCS["WGS_1984_Web_Mercator_Auxiliary_Sphere",GEOGCS["GCS_WGS_1984",DATUM["D_WGS_1984",SPHEROID["WGS_1984",6378137.0,298.257223563]],PRIMEM["Greenwich",0.0],UNIT["Degree",0.0174532925199433]],PROJECTION["Mercator_Auxiliary_Sphere"],PARAMETER["False_Easting",0.0],PARAMETER["False_Northing",0.0],PARAMETER["Central_Meridian",0.0],PARAMETER["Standard_Parallel_1",0.0],PARAMETER["Auxiliary_Sphere_Type",0.0],UNIT["Meter",1.0],AUTHORITY["EPSG",3857]]</WKT><XOrigin>-20037700</XOrigin><YOrigin>-30241100</YOrigin><XYScale>148923141.92838538</XYScale><ZOrigin>-100000</ZOrigin><ZScale>10000</ZScale><MOrigin>-100000</MOrigin><MScale>10000</MScale><XYTolerance>0.001</XYTolerance><ZTolerance>0.001</ZTolerance><MTolerance>0.001</MTolerance><HighPrecision>true</HighPrecision><WKID>102100</WKID><LatestWKID>3857</LatestWKID></ProjectedCoordinateSystem> Rename \\Dtifs01\apd\GIS\current\DepthToWater.gdb\GEO_suss_elev \\Dtifs01\apd\GIS\current\DepthToWater.gdb\GEO_SUSS_ELEVsuss_elev RasterDataset Rename \\Dtifs01\apd\GIS\current\DepthToWater.gdb\GEO_SUSS_ELEVsuss_elev \\Dtifs01\apd\GIS\current\DepthToWater.gdb\GEO_SUSS_ELEV RasterDataset 20210225 15334300 20210225 15334300 150000000 5000 ISO19139 Delaware Geological Survey (302)-831-2833 University of Delaware Delaware Geological Survey Building Newark DE 19716 ArcGIS Metadata 1.0 (302)-831-2833 University of Delaware Delaware Geological Survey Building Newark DE 19716 http://www.udel.edu/dgs File Geodatabase Raster Dataset 2006-01-01T00:00:00 Delaware Geological Survey Klingbeil, A. D., and Andres, A. S. DGS_UnconfinedAquifer_BaseElev <div style='text-align:Left;'><div><div><p><span>This digital product contains gridded estimates of the elevation of the base of the unconfined portion of the Columbia aquifer for Sussex County, Delaware. Mapping was supported by the Delaware Department of Natural Resources and Environmental Control and the Delaware Geological Survey. These grids were produced with the methods described in Andres and Klingbeil (2006). Additional analyses of the hydrogeologic framework and grids are also contained in that report. Briefly, the method to determine the elevation of the base of the aquifer includes assessing the elevation of subsurface materials in descriptive and geophysical logs and using computer-based interpolation to estimate elevation across the study area. Separate grids were determined for eastern and western Sussex County and were merged and smoothed to minimize edge effects. The elevation grids has 30-m horizontal and 1-ft vertical resolutions. REFERENCES CITED Andres, A. S., and Klingbeil, A. D., 2006, Thickness and transmissivity of the unconfined aquifer, eastern Sussex County, Delaware: Delaware Geological Survey Report of Investigations No. 70, 19 p., 1 plate.</span></p></div></div></div> (302)-831-2833 University of Delaware Delaware Geological Survey Building Newark DE 19716 Mon - Fri; 8:00am to 4:30pm Delaware Sussex County Bethany Beach Bethel Blades Bridgeville Dagsboro Delmar Ellendale Fenwick Island Frankford Georgetown Greenwood Henlopen Acres Laurel Lewes Milford Millsboro Millville Milton Ocean View Rehoboth Beach Seaford Selbyville Slaughter Beach South Bethany transmissivity aquifer water table ground water geoscientificInformation DGS_UnconfinedAquifer_BaseElev ImageServer true -75.723979 -75.048776 38.44904 38.962475 publication date 2006-01-01T00:00:00 Microsoft Windows 8 Version 6.2 (Build 9200) ; Esri ArcGIS 12.7.0.26828 1 -75.722760 -75.048754 38.961857 38.451035 30-meter resolution based on the grid cell. The raster cell represents elevation of the base of the unconfined aquifer in feet. +/- 5 feet EPSG 6.18.3(9.3.1.2) VAT_suss_elev1 Table 294 Elevation of base of aquifer ObjectID OBJECTID OID 4 0 0 Internal Attribute ESRI Sequential unique whole numbers that are automatically generated. Value Value Integer 4 0 0 Elevation of base of aquifer in ft NAVD 1988 +/- 5 ft Count Count Double 8 0 0 Number of raster cells dataset Pixel 2429 2501 30.000000 30.000000 32 1 Upper Left FALSE LZ77 1 pixel codes FGDBR TRUE row and column 30.000000 30.000000 20210225 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