{ "culture": "en-US", "name": "CSMW_Sea_Level_Rise", "guid": "0455D2AB-38E0-4A93-9D2D-499C3E3016E3", "catalogPath": "", "snippet": "The impacts of sea-level rise on the California Coast. Service updated on 02/08/2015.", "description": "This dataset includes:\nThe locations of EPA listed sites that are vulnerable to a 100-year coastal flood with a 1.4 meter sea-level rise. \nExtents of dune and bluff erosion given a 1.4 meter (approx. 55\") sea-level rise for the entire California coast.\nHazard zone maps for 2050 and 2100 SLR scenarios for the San Francisco Littoral Cell, created by ESA/PWA.\nExtent of a 100-year coastal flood, based on FEMA 100-year flood elevations, with a sea-level rise of 1.4 meters (55 inches) (year 2100). \nExtent of inundation due to Mean Higher High Water (MHHW), after a 1.4 meter sea-level rise (scenario for year 2100), for the California coast (excluding the San Francisco Bay). The current inundation due to MHHW was based on NOAA tide stations elevation data (mhhw_2000 raster), to which 140 centimeters were added to the Z-value to generate this data.\nFor details concerning methods, see the OPC SEA LEVEL RISE COASTAL EROSION MAPPING document from Philip Williams and Associates, LTD, from December 18th, 2008.", "summary": "The impacts of sea-level rise on the California Coast. Service updated on 02/08/2015.", "title": "CSMW_Sea_Level_Rise", "tags": [ "climate change", "hazard zone", "sea level rise", "coastal flood", "100 year coastal flood", "oceans and coastal", "100 year flood", "BFE", "Base Flood Elevation", "Coastal Erosion", "Erosion", "Bluff erosion", "Bluff", "Mean Higher High Water", "MHHW", "inundation" ], "type": "Map Service", "typeKeywords": [ "Data", "Service", "Map Service", "ArcGIS Server" ], "thumbnail": "thumbnail/thumbnail.png", "url": "", "extent": [ [ -124.440483808223, 32.4997622941257 ], [ -117.000735874611, 42.046585107681 ] ], "minScale": 0, "maxScale": 1.7976931348623157E308, "spatialReference": "WGS_1984_Web_Mercator_Auxiliary_Sphere", "accessInformation": "Pacific Institute, ESA, Philip Williams & Associates, LTD", "licenseInfo": "" }