NHDPlus_Flowline

U.S. Environmental Protection Agency (USEPA) and the U.S. Geological Survey (USGS). 2005 NHDPlus_Flowline_100K 1.0 vector digital data \\LAZARUS\DSW\DIVISION\SHARED\GIS\Data\Hydrologic.gdb NHDPlus_Flowline_100K This dataset is constructed from the NHDFlowline shapefiles from the NHDPlus data model for regions 04 and 05. The flowline features are included for the sub-basins (HUC8s) intersecting the State of Ohio. Attributes from the NHDFlowlineVAA, FlowlineAttributesFlow, FlowlineAttributesNLCD, and FlowlineAttributesTempPrecip tables (also of the NHDPlus data model) are joined to this data set. The stream order attribute field is updated with the SOSC table of the NHDPlus "Data Extensions". The stream order update is described below. The NHDPlus data model is described below. The NHDPlus is distributed with a stream order attribute (NHDFlowlineVAA.StreamOrder) that was built using an algorithm that contained a simple correction for the effect of divergences. While these stream order values were fairly reasonable for low order streams (1,2, and 3), in large rivers and braided area, the values became unpleasingly large. Several folks in the EPA laboratory in Corvalis, Oregon designed a more complex algorithm which was implemented by the NHDPlus team. The NHDPlus Version 1.0 is an integrated suite of application-ready geospatial data sets that incorporate many of the best features of the National Hydrography Dataset (NHD) and the National Elevation Dataset (NED). The NHDPlus includes a stream network (based on the 1:100,000-scale NHD), improved networking, naming, and "value-added attributes" (VAA's). NHDPlus also includes elevation-derived catchments (drainage areas) produced using a drainage enforcement technique first broadly applied in New England, and thus dubbed "The New-England Method". This technique involves "burning-in" the 1:100,000-scale NHD and when available building "walls" using the national Watershed Boundary Dataset (WBD). The resulting modified digital elevation model (HydroDEM) is used to produce hydrologic derivatives that agree with the NHD and WBD. An interdisciplinary team from the U. S. Geological Survey (USGS), U.S. Environmental Protection Agency (USEPA), and contractors, over the last two years has found this method to produce the best quality NHD catchments using an automated process. The VAAs include greatly enhanced capabilities for upstream and downstream navigation, analysis and modeling. Examples include: retrieve all flowlines (predominantly confluence-to-confluence stream segments) and catchments upstream of a given flowline using queries rather than by slower flowline-by-flowline navigation; retrieve flowlines by stream order; subset a stream level path sorted in hydrologic order for stream profile mapping, analysis and plotting; and, calculate cumulative catchment attributes using streamlined VAA hydrologic sequencing routing attributes. The VAAs include results from the use of these cumulative routing techniques, including cumulative drainage areas, precipitation, temperature, and land cover distributions. Several of these cumulative attributes are used to estimate mean annual flow and velocity as part of the VAAs. NHDPlus contains a snapshot (2005) of the 1:100,000-scale NHD that has been extensively improved. While these updates will eventually make their way back to the central NHD repository at USGS, this will not have happened prior to distribution of NHDPlus because the update process for the central NHD repository is still in development. Consequently, the NHDPlus will contain some temporary database keys and, as a result, NHDPlus users may not make updates to the NHD portions of NHDPlus with the intent of sending these updates back to the USGS. Once the NHDPlus updates have been posted to the central NHD repository, a fresh copy of the improved data can be downloaded from the central NHD repository and that copy will be usable for data maintenance. Note that the NHDPlus products are tightly integrated and user modifications to the underlying NHD can compromise this synchronization. The geospatial data sets included in NHDPlus are intended to support a variety of water-related applications. They already have been used in an application to develop estimates of mean annual streamflow and velocity for each NHD flowline in the conterminous United States. The results of these analyses are included with the NHDPlus data. A water-quality model developed by the U.S. Geological Survey (USGS) called SPARROW (Spatially Referenced Regressions on Watershed Attributes), can utilize the NHDPlus network functionality to track the downstream transport of nutrients, sediments, or other substances. NHDPlus water bodies and estimates of streamflow and velocity are used in SPARROW to identify reservoir retention and in-stream loss factors. NHDPlus climatic and land surface attributes can be used in SPARROW to identify potential factors in the delivery of nutrients from the land surface to streams. NHDPlus land cover information is useful for SPARROW in determining potential sources of nutrients. NHDPlus data is also being used in select areas for a USGS Web-based application, called StreamStats. StreamStats provides tools to interactively select any point on the NHDPlus to obtain streamflow and watershed characteristics for the selected point. NHDPlus has been designed to accommodate many users needs for future applications. NHDPlus provides the framework and tools necessary to customize the behavior of the network relationships as well as building upon the attribute database, for which the user can assign its own data to the network. For more information, refer to the NHDPlus Users Guide. en 2005 publication date Complete Irregular -86.477419 -79.041207 42.616017 38.135066 895498.417119 2901442.881217 71365.961141 1682213.003130 0.000000 0.000000 none Stream / River Lake / Pond Canal / Ditch Reservoir Spring / Seep Swamp / Marsh Artificial Path Reach Watershed Catchment EARTH SCIENCE Land Surface Topography Cartography GEODATA GIS USGS EPA Elevation Land Cover National Land Cover Dataset NLCD National Elevation Dataset NED National Hydrography Dataset NHD NHDPlus Stream flow Stream velocity Spatially Referenced Regressions on Watershed Attributes SPARROW StreamStats Water-quality Hydrologic modeling River Coding Systems Hydrography ISO 19115 Topic Category inlandWaters Ohio None. None. Acknowledgement of the originating agencies (USEPA and USGS) would be appreciated in products derived from these data. U.S. Environmental Protection Agency waters_support@epa.gov Microsoft Windows XP Version 5.1 (Build 2600) Service Pack 2; ESRI ArcCatalog 9.3.1.3500 File Geodatabase Feature Class U.S. Geological Survey (USGS) and the U.S. Environmental Protection Agency (USEPA) none National Hydrography Dataset (NHD) Medium Resolution none vector digital data http://nhd.usgs.gov 1:100,000 2005 The source NHD is a snapshot of the dataset accessed on 1/31/2004 and updated throughout 2004 and 2005. NHD A snapshot of the NHD was used as the baseline framework from which enhancements to the network were built upon. Enhancements include feature names, network connectivity and network flow relationships. This enhanced NHD version was then used in conjunction with the NED, and WBD (where applicable) to create a HydroDEM, for generation of the catchment Grid/shapefile, and flow direction/accumulation Grids. The enhanced NHD was used to compute and assign flowline Value Added Attributes (VAAs) to this network. U.S. Geological Survey (USGS), EROS Data Center 1999 National Elevation Dataset (NED) raster digital data Sioux Falls, SD U.S. Geological Survey http://ned.usgs.gov/ June 10, 2004 Date data was accessed NED NED data used in combination with NHD, WBD (where applicable) to create a HydroDEM, to generate NHDPlus Catchments, surface flow direction and accumulation Grids. Stream elevations from NED which were used to help derive stream slope and stream velocity. U.S. Geological Survey (USGS) 19990525 National Land Cover Dataset 1992 (NLCD 1992) 1 raster digital data Sioux Falls, SD U.S. Geological Survey http://landcover.usgs.gov/natllandcover.php early 1990's mid 1990's ground condition NLCD 1992 Source dataset used to assign catchment and flowline land cover attributes. Chris Daly and George Taylor of the Spatial Climate Analysis Service at Oregon State University. 200008 United States Average Annual Precipitation, 1961-90 raster digital data Corvallis, Oregon, USA Spatial Climate Analysis Service at Oregon State University (SCAS/OSU) This dataset from the PRISM model, developed by Chris Daly of SCAS/OSU. http://www.ocs.orst.edu/prism/ 19610101 19901231 Climatological period from which the point observations were taken. Source dataset used to compute mean annual precipitation for each catchment and area weighted precipitation for each flowline. Weighted precipitation values for each flowline was used as a variable in a Vogel equation for estimating mean annual streamflow. The Vogel estimates of mean annual flow were used as a source variable in a Jobson equation to compute mean annual stream velocity estimates. Chris Daly and George Taylor of the Spatial Climate Analysis Service at Oregon State University. 200008 United States Annual Mean Temperature, 1961-90 1 raster digital data Corvallis, Oregon, USA Spatial Climate Analysis Service at Oregon State University (SCAS/OSU) This dataset from the PRISM model, developed by Chris Daly of SCAS/OSU. http://www.ocs.orst.edu/prism/ 19610101 19901231 Climatological period from which the point observations were taken. Source dataset used to compute mean annual temperature for each catchment and area weighted mean annual temperature for each flowline. Weighted mean annual temperature values for each flowline was used as a variable in a Vogel equation for estimating mean annual streamflow. The Vogel estimates of mean annual flow were used as a source variable in a Jobson equation to compute mean annual stream velocity estimates. U.S. Department of Agriculture, Natural Resources Conservation Service (NRCS) and the U.S. Geological Survey (USGS) multiple dates Watershed Boundary Dataset (WBD) vector digital data Only certified WBD was included for use in HydroDEM production. These data are tiled by U.S. State, therefore only selected states with full certification were used. The publication date for each state's WBD varies. (See Source Time Period of Content) http://www.ncgc.nrcs.usda.gov/products/datasets/watershed/ 1:24,000 Alabama, 2004 Connecticut, 2001 Georgia, 2003 Illinois, 2002 Massachusetts, 2001 Maryland, 2003 New Hampshire, 2001 Utah, 2003 Vermont, 2003 Wyoming, 2002 publication dates WBD 12-digit subwatershed divides from the Watershed Boundary Dataset (WBD) were used (for states where certified WBD was available) as a ridgeline enforcment factor in a process called "walling" in the production of HydroDEMs. The HydroDEMs are the source data from which NHD Catchments are delineated from. Catchments with coincident boundaries with the WBD are in conformance with the WBD. NHDPlus Flow Direction and Accumulation Grids are hydrologic derivative products of the HydroDEMs. David W. Stewart, Alan Rea and David M. Wolock April 2006 USGS Streamgages Linked to the Medium Resolution NHD vector digital data Data Series DS-195 Reston, Va U.S. Geological Survey http://water.usgs.gov/GIS/metadata/usgswrd/XML/streamgages.xml April 20, 2004 Date of data extract from NWIS Location of gages were spatially referenced to the NHDPlus flowlines to create a gaging station point event table, where for each gage in the database, the corresponding NHD Reachcode and measure are recorded. An early version of the dataset was also used for the QA/QC of NHDPlus cumulative drainage areas and estimates of mean annual stream flow. Metadata imported. C:\nhdplus\NHDPlus05\metadata.xml 20100701 13092900 Dataset copied. \\Lazarus\DSW\Division\Shared\GIS\Data\Hydrologic.gdb 20110912 09442100 Dataset copied. 20111026 13570900 20100701 FGDC Content Standards for Digital Geospatial Metadata FGDC-STD-001-1998 local time en REQUIRED: The person responsible for the metadata information. REQUIRED: The organization responsible for the metadata information. REQUIRED: The mailing and/or physical address for the organization or individual. REQUIRED: The city of the address. REQUIRED: The state or province of the address. REQUIRED: The ZIP or other postal code of the address. REQUIRED: The telephone number by which individuals can speak to the organization or individual. Microsoft Windows XP Version 5.1 (Build 2600) Service Pack 2; ESRI ArcCatalog 9.3.1.3500 Stream Order Stream Order 895498.417119 2901442.881217 1682213.00313 71365.961141 1 0.000000 0.000000 -86.477419 -79.041207 42.616017 38.135066 1 1 -86.477419 -79.041207 42.616017 38.135066 HYDRAULIC ENGINEERING HYDROLOGY NHD NHDPlus STREAMS RIVERS EPA ISO 19115 Geographic Information - Metadata DIS_ESRI1.0 dataset 002 file://\\LAZARUS\DSW\DIVISION\SHARED\GIS\Data\Hydrologic.gdb Local Area Network File Geodatabase Feature Class SDE Feature Class Vector Simple FALSE 68056 TRUE TRUE coordinate pair survey feet 0.000001 0.000001 North American Datum of 1983 Geodetic Reference System 80 6378137.000000 298.257222 GCS_North_American_1983 NAD_1983_StatePlane_Ohio_South_FIPS_3402_Feet Explicit elevation coordinate included with horizontal coordinates 0.000100 NAD_1983_StatePlane_Ohio_South_FIPS_3402_Feet EPSG 8.2.6 68056 NHDPlus_Flowline_100K Feature Class 68056 COMID Common identifier of the NHD feature COMID Integer 4 10 0 FDATE Date of last feature modification. FDATE Date 36 0 0 RESOLUTION Code for source resolution: local, high, medium. Always "Medium" (i.e., 1:100K scale) RESOLUTION String 7 0 0 GNIS_ID Unique identifier assigned by Geographic Names Information System. GNIS_ID String 10 0 0 GNIS_NAME Proper name, specific term, or expression by which a particular geographic entity is known. GNIS_NAME String 65 0 0 LENGTHKM Length of linear feature, Albers Equal Area Conic. LENGTHKM Double 8 38 8 REACHCODE Unique identifier composed of two parts. The first eight digits are the subbasin code defines by FIPS 103, next six digits is a randomly assigned sequential number unique within a Cataloging Unit. REACHCODE String 14 0 0 FLOWDIR Direction of flow relative to coordinate order. FLOWDIR String 15 0 0 WBAREACOMI ComID of an NHD polygonal water feature through which an NHD "Artificial Path" flowline flows WBAREACOMI Integer 4 10 0 FTYPE Three-digit integer value, unique identifier of a feature type. FTYPE String 24 0 0 FCODE Five-digit integer value comprised of the feature type and combinations of characteristics and values. FCODE Integer 4 10 0 ENABLED Always "True" ENABLED String 6 0 0 STREAMLEVE Drain_level of the downstream mainstem drain STREAMLEVE Integer 4 10 0 STREAMORDE Strahler stream order number for the drain. STREAMORDE Integer 4 10 0 FROMNODE Nationally unique ID for the "from" node endpoint of the drain. FROMNODE Double 8 38 8 TONODE Nationally unique ID for the "to" node endpoint of the drain. TONODE Double 8 38 8 HYDROSEQ Hydrologic sequence number HYDROSEQ Double 8 38 8 LEVELPATHI Hydrologic sequence number of most downstream flowline in level path LEVELPATHI Double 8 38 8 PATHLENGTH Distance to terminal flowline downstream along the mainpath (kilometers) PATHLENGTH Double 8 38 8 TERMINALPA Hydrologic sequence number of terminal flowline TERMINALPA Double 8 38 8 ARBOLATESU An estimate of miles of stream upstream of a flowline. ARBOLATESU Double 8 38 8 DIVERGENCE 0 not part of a divergence 1 main path of a divergence 2 minor path of a divergence Stream divergence coded value DIVERGENCE Integer 4 10 0 STARTFLAG 0 not a headwater flowline 1 a headwater flowline Headwater coded value STARTFLAG Integer 4 10 0 TERMINALFL 0 not a terminal flowline 1 a terminal flowline Terminal flowline coded value TERMINALFL Integer 4 10 0 DNLEVEL Streamlevel of mainstem downstream flowline DNLEVEL Integer 4 10 0 THINNERCOD Ordinal value used to display various network densities THINNERCOD Integer 4 10 0 UPLEVELPAT Upstream mainstem level path identifier UPLEVELPAT Double 8 38 8 UPHYDROSEQ Upstream mainstem hydrologic sequence number UPHYDROSEQ Double 8 38 8 UPMINHYDRO Upstream minimum hydrologic sequence number UPMINHYDRO Double 8 38 8 DNLEVELPAT Downstream mainstem level path identifier DNLEVELPAT Double 8 38 8 DNMINHYDRO Downstream minor path hydrologic sequence number DNMINHYDRO Double 8 38 8 DNDRAINCOU Number of flowlines immediately downstream DNDRAINCOU Integer 4 10 0 CUMDRAINAG Cumulative drainage area in square kilometers(sq km) at bottom of flowline CUMDRAINAG Double 8 38 8 MAFLOWU Mean Annual Flow in cubic feet per second (cfs) at bottom of flowline as computed by Unit Runoff Method MAFLOWU Double 8 38 8 MAFLOWV Mean Annual Flow (cfs) at bottom of flowline as computed by Vogel Method. MAFLOWV Double 8 38 8 MAVELU Mean Annual Velocity (fps) at bottom of flowline as computed by Jobson Method (1996) using the flow in MAFlowU. MAVELU Double 8 38 8 MAVELV Mean Annual Velocity (fps) at bottom of flowline as computed by Jobson Method (1996) using the flow in MAFlowV. MAVELV Double 8 38 8 INCRFLOWU Incremental Flow (cfs) for Flowline as computed by the Unit Runoff Method INCRFLOWU Double 8 38 8 MAXELEVRAW Maximum elevation (unsmoothed) in meters MAXELEVRAW Double 8 38 8 MINELEVRAW Minimum elevation (unsmoothed) in meters MINELEVRAW Double 8 38 8 MAXELEVSMO Maximum elevation (smoothed) in meters MAXELEVSMO Double 8 38 8 MINELEVSMO Minimum elevation (smoothed) in meters MINELEVSMO Double 8 38 8 SLOPE Slope of flowline (m/m) SLOPE Double 8 38 8 CUMNLCD_11 % of cumulative drainage area classified as Open Water in NLCD CUMNLCD_11 Double 8 38 8 CUMNLCD_12 % of cumulative drainage area classified as Perennial Ice/Snow in NLCD CUMNLCD_12 Double 8 38 8 CUMNLCD_21 % of cumulative drainage area classified as Low Intensity Residential in NLCD CUMNLCD_21 Double 8 38 8 CUMNLCD_22 % of cumulative drainage area classified as High Intensity Residential in NLCD CUMNLCD_22 Double 8 38 8 CUMNLCD_23 % of cumulative drainage area classified as Commercial/Industrial/Transportation in NLCD CUMNLCD_23 Double 8 38 8 CUMNLCD_31 % of cumulative drainage area classified as Bare Rock/Sand/Clay in NLCD CUMNLCD_31 Double 8 38 8 CUMNLCD_32 % of cumulative drainage area classified as Quarries/Strip Mines/Gravel Pits in NLCD CUMNLCD_32 Double 8 38 8 CUMNLCD_33 % of cumulative drainage area classified as Transitional in NLCD CUMNLCD_33 Double 8 38 8 CUMNLCD_41 % of cumulative drainage area classified as Deciduous Forest in NLCD CUMNLCD_41 Double 8 38 8 CUMNLCD_42 % of cumulative drainage area classified as Evergreen Forest in NLCD CUMNLCD_42 Double 8 38 8 CUMNLCD_43 % of cumulative drainage area classified as Mixed Forest in NLCD CUMNLCD_43 Double 8 38 8 CUMNLCD_51 % of cumulative drainage area classified as Shrubland in NLCD CUMNLCD_51 Double 8 38 8 CUMNLCD_61 % of cumulative drainage area classified as Orchards/Vineyards/Other in NLCD CUMNLCD_61 Double 8 38 8 CUMNLCD_71 % of cumulative drainage area classified as Grasslands/Herbaceous in NLCD CUMNLCD_71 Double 8 38 8 CUMNLCD_81 % of cumulative drainage area classified as Pasture/Hay in NLCD CUMNLCD_81 Double 8 38 8 CUMNLCD_82 % of cumulative drainage area classified as Row Crops in NLCD CUMNLCD_82 Double 8 38 8 CUMNLCD_83 % of cumulative drainage area classified as Small Grains in NLCD CUMNLCD_83 Double 8 38 8 CUMNLCD_84 % of cumulative drainage area classified as Fallow in NLCD CUMNLCD_84 Double 8 38 8 CUMNLCD_85 % of cumulative drainage area classified as Urban/Recreational Grasses in NLCD CUMNLCD_85 Double 8 38 8 CUMNLCD_91 % of cumulative drainage area classified as Woody Wetlands in NLCD CUMNLCD_91 Double 8 38 8 CUMNLCD_92 % of cumulative drainage area classified as Emergent Herbaceous Wetlands in NLCD CUMNLCD_92 Double 8 38 8 TEMP_ TEMP_ Double 8 38 8 PRECIP Area Weighted Mean Annual Precipitation at bottom of flowline in mm PRECIP Double 8 38 8 HUC8 8-Digit Hydrolgic Unit Code (sub-basin) HUC8 String 8 0 0 LDI LDI Double 8 38 8 LDI_2 LDI_2 Double 8 38 8 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