20200905 13173100 1.0 FGDC CSDGM Metadata FALSE Projects_Fellowship_SeaLevelRise_2050Scenario -13864316.460230 -13782525.543484 5160714.856820 5789353.225607 1 002 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/10.7'><WKT>PROJCS[&quot;WGS_1984_Web_Mercator_Auxiliary_Sphere&quot;,GEOGCS[&quot;GCS_WGS_1984&quot;,DATUM[&quot;D_WGS_1984&quot;,SPHEROID[&quot;WGS_1984&quot;,6378137.0,298.257223563]],PRIMEM[&quot;Greenwich&quot;,0.0],UNIT[&quot;Degree&quot;,0.0174532925199433]],PROJECTION[&quot;Mercator_Auxiliary_Sphere&quot;],PARAMETER[&quot;False_Easting&quot;,0.0],PARAMETER[&quot;False_Northing&quot;,0.0],PARAMETER[&quot;Central_Meridian&quot;,0.0],PARAMETER[&quot;Standard_Parallel_1&quot;,0.0],PARAMETER[&quot;Auxiliary_Sphere_Type&quot;,0.0],UNIT[&quot;Meter&quot;,1.0],AUTHORITY[&quot;EPSG&quot;,3857]]</WKT><XOrigin>-20037700</XOrigin><YOrigin>-30241100</YOrigin><XYScale>148923141.92838538</XYScale><ZOrigin>0</ZOrigin><ZScale>1</ZScale><MOrigin>0</MOrigin><MScale>1</MScale><XYTolerance>0.001</XYTolerance><ZTolerance>0.001</ZTolerance><MTolerance>0.001</MTolerance><HighPrecision>true</HighPrecision><WKID>102100</WKID><LatestWKID>3857</LatestWKID></ProjectedCoordinateSystem> 20200914 14234000 20200914 14361500 150000000 5000 FGDC Andy Lanier Oregon Coastal Management Program Marine Affairs Coordinator (503) 934-0072 andy.lanier@state.or.us ArcGIS Metadata 1.0 Oregon Coastal Management Program 503-934-0035 http://coastalatlas.net/downloads/shapefiles/estuaries2050MajorFlood.zip Feature Class 2017-05-15 Julie Sepanik, Oregon Coastal Management Program, NOAA Coastal Management Fellow vector digital data 2050 Sea Level Rise Plus 1% or 50% Annual Chance Coastal Flood <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>These data are polygons approximating the tidal water surface for a </SPAN><SPAN>1% annual chance or 50% annual chance coastal flood event in 2050 given a 19 inch sea level rise projection for 21 estuaries in Oregon. The water surface models are based on the combined flood height and sea level rise estimate. The flood event level was determined from water level exceedance analysis at NOAA tide gauges (the Crescent City, Charleston, South Beach, and Astoria tide stations). The sea level rise projections are from the National Research Council of the National Academies “Sea-Level Rise for the Coasts of California, Oregon, and Washington: Past, Present, and Future” (2012, pg 96). The water surface model was created using the National Oceanic and Atmospheric Administration (NOAA) VDatum tool. The land surface model is based on Lidar elevation measurements supplied by the Oregon Lidar Consortium (OLC) from 2008 and 2009. The polygon edges are the intersection of the modeled water surface and the Lidar Digital Elevation Model.</SPAN></P></DIV></DIV></DIV> To visualize possible areas of flooding from a 1% annual chance or 50% annual chance coastal flood event in 2050. Part of a sea level rise exposure inventory of assets in Oregon's estuaries. Sea level rise projections came from the National Research Council (2012). Digital Elevation model based on 2008 lidar from Oregon Lidar Consortium. Water exceedance values are from NOAA CO-OPS. Randy Dana (DLCD/OCMP) processed the data to create the modeled flooding area. Work was funded through the NOAA Coastal Management Fellowship program. Julie Sepanik Oregon Coastal Management Program NOAA Coastal Management Fellow 5039340035 julie.sepanik@state.or.us Andy Lanier Oregon Coastal Management Program Marine Affairs Coordinator (503) 934-0072 Andy.Lanier@state.or.us Randy Dana Oregon Coastal Management Program GIS Coordinator (971) 673-0960 Randy.Dana@state.or.us Oregon future flooding ocmp sea level rise inundation dlcd exposure inventory future flooding ocmp sea level rise inundation dlcd exposure inventory Oregon See access and use constraints information. <DIV STYLE="text-align:Left;"><DIV><DIV><P><SPAN>This product is for informational purposes, and may not be suitable for legal, engineering or surveying purposes. This information or data is provided with the understanding that conclusions drawn from such information are the responsibility of the user.</SPAN></P></DIV></DIV></DIV> -124.769382 -123.623592 41.988039 46.052367 Version 6.2 (Build 9200) ; Esri ArcGIS 10.7.1.11595 1 -124.545274 -123.810533 46.056158 41.998234 This dataset includes 21 estuaries along the Oregon Coast excluding the Columbia River. unknown Randy Dana (DLCD/OCMP) processed the data to create the modeled flooding area. Technical documentation can be found at http://coastalatlas.net/index.php/tools/planners/68-slr. Sea level rise projections came from the National Research Council (2012) report "Sea-Level Rise for the Coasts of California, Oregon, and Washington: Past, Present, and Future." 3 foot Digital Elevation model based on 2008-9 lidar from Oregon Lidar Consortium ((http://www.oregongeology.org/sub/projects/olc/). Water exceedance values are from NOAA CO-OPS Crescent City, Charleston, South Beach, and Astoria tide stations (https://tidesandcurrents.noaa.gov/est/). Sea-Level Rise for the Coasts of California, Oregon, and Washington: Past, Present, and Future Sea-Level Rise for the Coasts of California, Oregon, and Washington: Past, Present, and Future 2012-12-01T00:00:00 National Research Council Projects_Fellowship_SeaLevelRise_2050Scenario Feature Class 980 OBJECTID OBJECTID OID 4 10 0 Internal feature number. Esri Sequential unique whole numbers that are automatically generated. Disconnected Disconnected SmallInteger 2 5 0 Scenario Field representing which of the six future flooding scenarios the polygon includes, i.e. 2030slr01fp is the for the projected sea level rise in the year 2030 and a 1% annual chance flood event probability. Scenario String 20 0 0 Year Year represented in the scenario. Year Integer 4 10 0 Shape Feature geometry. Esri Coordinates defining the features. Shape Geometry 4 0 0 ORIG_FID ORIG_FID Integer 4 10 0 Estuary Name of the major water body Estuary String 15 0 0 Shape.STArea() Shape.STArea() Double 0 0 0 Shape.STLength() Shape.STLength() Double 0 0 0 These data are polygons approximating the tidal water surface for a 1% yearly chance flood (major flood) or a 50% yearly chance flood (moderate flood) in 2050 given a 19 inch sea level rise projection for 21 estuaries in Oregon. The water surface models are based on the combined flood height and sea level rise estimate. The flood event level was determined from water level exceedance analysis at NOAA tide gauges (the Crescent City, Charleston, South Beach, and Astoria tide stations). The sea level rise projections are from the National Research Council of the National Academies “Sea-Level Rise for the Coasts of California, Oregon, and Washington: Past, Present, and Future” (2012, pg 96). The water surface model was created using the National Oceanic and Atmospheric Administration (NOAA) VDatum tool. The land surface model is based on Lidar elevation measurements supplied by the Oregon Lidar Consortium (OLC) from 2008 and 2009. The polygon edges are the intersection of the modeled water surface and the Lidar Digital Elevation Model. dataset EPSG 8.8(9.3.1.2) 980 Simple FALSE 980 TRUE FALSE 20200914