Dataset Identification:
Resource Abstract:
- description: The mapped area boundary, flood inundation extents, and depth rasters were created to provide an estimated extent
of flood inundation along the Meadow River and Sewell Creek within the community of Rainelle, West Virginia. These geospatial
data include the following items: 1. meadow_sewell_bnd; shapefile containing the polygon showing the mapped area boundary
for the Meadow River and Sewell Creek flood maps, 2. meadow_sewell_hwm; shapefile containing high-water mark points, 3. polygon_meadow_sewell_hwm;
shapefile containing mapped extent of flood inundation, derived from the water-surface elevation surveyed at high-water marks,
4. depth_hwm; raster file for the flood depths derived from the water-surface elevation surveyed at high-water marks, 5. polygon_meadow_sewell_dem;
shapefile containing mapped extent of flood inundation, derived from the height above ground recorded at high-water marks
and the digital elevation model (DEM) raster, 6. depth_dem; raster file for the flood depths derived from the height above
ground recorded at high-water marks and the digital elevation model raster. The upstream and downstream mapped area extent
is limited to the upstream-most and downstream-most high-water mark locations. In areas of uncertainty of flood extent, the
mapped area boundary is lined up with the flood inundation polygon extent. The mapped area boundary polygon was used to extract
the final flood inundation polygon and depth raster from the water-surface elevation raster file. Depth raster files were
created using the "Topo to Raster" tool in ArcMap (ESRI, 2012). For this study two sets of inundation layers were
generated for each reach. One raster file showing flood depths, "depth_hwm", was created by using high-water mark
water-surface elevation values on the land surface and a digital elevation model. However, differences in elevation between
the surveyed water-surface elevation values at HWMs and the land-surface elevation from the digital elevation model data provided
uncertainty in the inundation extent of the generated layers. Often times elevation differences of +/- 20 feet were noticed
between the surveyed elevation from a HWM on the land surface and the digital elevation model land-surface elevation. Due
to these elevation differences, we incorporated a second method of interpolating the water-surface layer. The recorded height
above ground value from the surveyed HWM was added to the digital elevation model land-surface elevation at that point. This
created a new water-surface elevation value to be used with the Topo to Raster interpolation method to create a second depth
raster, "depth_dem". Both sets of inundation layers are provided.; abstract: The mapped area boundary, flood inundation
extents, and depth rasters were created to provide an estimated extent of flood inundation along the Meadow River and Sewell
Creek within the community of Rainelle, West Virginia. These geospatial data include the following items: 1. meadow_sewell_bnd;
shapefile containing the polygon showing the mapped area boundary for the Meadow River and Sewell Creek flood maps, 2. meadow_sewell_hwm;
shapefile containing high-water mark points, 3. polygon_meadow_sewell_hwm; shapefile containing mapped extent of flood inundation,
derived from the water-surface elevation surveyed at high-water marks, 4. depth_hwm; raster file for the flood depths derived
from the water-surface elevation surveyed at high-water marks, 5. polygon_meadow_sewell_dem; shapefile containing mapped extent
of flood inundation, derived from the height above ground recorded at high-water marks and the digital elevation model (DEM)
raster, 6. depth_dem; raster file for the flood depths derived from the height above ground recorded at high-water marks and
the digital elevation model raster. The upstream and downstream mapped area extent is limited to the upstream-most and downstream-most
high-water mark locations. In areas of uncertainty of flood extent, the mapped area boundary is lined up with the flood inundation
polygon extent. The mapped area boundary polygon was used to extract the final flood inundation polygon and depth raster from
the water-surface elevation raster file. Depth raster files were created using the "Topo to Raster" tool in ArcMap
(ESRI, 2012). For this study two sets of inundation layers were generated for each reach. One raster file showing flood depths,
"depth_hwm", was created by using high-water mark water-surface elevation values on the land surface and a digital
elevation model. However, differences in elevation between the surveyed water-surface elevation values at HWMs and the land-surface
elevation from the digital elevation model data provided uncertainty in the inundation extent of the generated layers. Often
times elevation differences of +/- 20 feet were noticed between the surveyed elevation from a HWM on the land surface and
the digital elevation model land-surface elevation. Due to these elevation differences, we incorporated a second method of
interpolating the water-surface layer. The recorded height above ground value from the surveyed HWM was added to the digital
elevation model land-surface elevation at that point. This created a new water-surface elevation value to be used with the
Topo to Raster interpolation method to create a second depth raster, "depth_dem". Both sets of inundation layers
are provided.
Citation
- Title Meadow River and Sewell Creek in Rainelle, West Virginia, Flood Map Files from June 2016.
-
- creation Date
2018-06-08T17:49:58.452329
Resource language:
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Digital Transfer Options
-
- Linkage for online resource
-
- name Dublin Core references URL
- URL: https://doi.org/10.5066/F76T0K4K
- protocol WWW:LINK-1.0-http--link
- link function information
- Description URL provided in Dublin Core references element.
Linkage for online resource
- name Dublin Core references URL
- URL: https://doi.org/10.3133/ofr20171140
- protocol WWW:LINK-1.0-http--link
- link function information
- Description URL provided in Dublin Core references element.
Metadata data stamp:
2018-08-06T21:47:50Z
Resource Maintenance Information
- maintenance or update frequency:
- notes: This metadata record was generated by an xslt transformation from a dc metadata record; Transform by Stephen M. Richard, based
on a transform by Damian Ulbricht. Run on 2018-08-06T21:47:50Z
Metadata contact
-
pointOfContact
- organisation Name
CINERGI Metadata catalog
-
- Contact information
-
-
- Address
-
- electronic Mail Address cinergi@sdsc.edu
Metadata language
eng
Metadata character set encoding:
utf8
Metadata standard for this record:
ISO 19139 Geographic Information - Metadata - Implementation Specification
standard version:
2007
Metadata record identifier:
urn:dciso:metadataabout:d3347e50-e388-4407-8850-716d63c21da9
Metadata record format is ISO19139 XML (MD_Metadata)