Description: This raster data layer represents the potential depth (in inches) of flooding from sea level rise (SLR). Flooding was modeled using a modified bathtub approach that assesses inundated areas for hydrologic connectivity. Two sets of SLR scenarios were mapped: USACE (2013): U.S. Army Corps of Engineers Sea Level Rise Projections ER 1100-2-8162. Three projections: Low (historic rate), Intermediate, and HighNOAA (2017): Global and Regional Sea Level Rise Scenarios for the United States, NOAA Technical Report NOS CO-OPS 083. Six projections: Low, Intermediate-Low, Intermediate, Intermediate-High, High, and Extreme.Relative sea level rise values for nine future SLR projections were generated using the USACE Sea-Level Change Curve Calculator (“USACE Calculator”) 2019.21 (http://www.corpsclimate.us/ccaceslcurves.cfm). Additional data inputs include a tidal surface representing Mean Higher High Water (MHHW) developed by NOAA and a 5-meter horizontal resolution Digital Elevation Model (DEM) dataset (compiled by the UF GeoPlan Center).SLR scenarios are unique for each county, year, and projection; the scenario is specified in this data's DESCRIPT field and the amount of SLR (in feet) is specified in the RSLR_FT field. Nine SLR projection curves were mapped on top of MHHW at decadal intervals (2040 - 2100). The key in parenthesis following the projection name was added by the GeoPlan Center for shorthand notation of the projection curve. Please refer to the Data Lineage section for description of the mapping methods.Projection Name (Key)- USACE 2013 Low (C1)- USACE 2013 Intermediate (C2)- USACE 2013 High (C4)- NOAA 2017 Low (N1) - NOAA 2017 Intermediate-Low (N2) - NOAA 2017 Intermediate (N3)- NOAA 2017 Intermediate-High (N4)- NOAA 2017 High (N5)- NOAA 2017 Extreme (N6)
Copyright Text: University of Florida GeoPlan Center
Description: This raster data layer represents the potential depth (in inches) of flooding from sea level rise (SLR). Flooding was modeled using a modified bathtub approach that assesses inundated areas for hydrologic connectivity. Two sets of SLR scenarios were mapped: USACE (2013): U.S. Army Corps of Engineers Sea Level Rise Projections ER 1100-2-8162. Three projections: Low (historic rate), Intermediate, and HighNOAA (2017): Global and Regional Sea Level Rise Scenarios for the United States, NOAA Technical Report NOS CO-OPS 083. Six projections: Low, Intermediate-Low, Intermediate, Intermediate-High, High, and Extreme.Relative sea level rise values for nine future SLR projections were generated using the USACE Sea-Level Change Curve Calculator (“USACE Calculator”) 2019.21 (http://www.corpsclimate.us/ccaceslcurves.cfm). Additional data inputs include a tidal surface representing Mean Higher High Water (MHHW) developed by NOAA and a 5-meter horizontal resolution Digital Elevation Model (DEM) dataset (compiled by the UF GeoPlan Center).SLR scenarios are unique for each county, year, and projection; the scenario is specified in this data's DESCRIPT field and the amount of SLR (in feet) is specified in the RSLR_FT field. Nine SLR projection curves were mapped on top of MHHW at decadal intervals (2040 - 2100). The key in parenthesis following the projection name was added by the GeoPlan Center for shorthand notation of the projection curve. Please refer to the Data Lineage section for description of the mapping methods.Projection Name (Key)- USACE 2013 Low (C1)- USACE 2013 Intermediate (C2)- USACE 2013 High (C4)- NOAA 2017 Low (N1) - NOAA 2017 Intermediate-Low (N2) - NOAA 2017 Intermediate (N3)- NOAA 2017 Intermediate-High (N4)- NOAA 2017 High (N5)- NOAA 2017 Extreme (N6)
Copyright Text: University of Florida GeoPlan Center
Description: This raster data layer represents the potential depth (in inches) of flooding from sea level rise (SLR). Flooding was modeled using a modified bathtub approach that assesses inundated areas for hydrologic connectivity. Two sets of SLR scenarios were mapped: USACE (2013): U.S. Army Corps of Engineers Sea Level Rise Projections ER 1100-2-8162. Three projections: Low (historic rate), Intermediate, and HighNOAA (2017): Global and Regional Sea Level Rise Scenarios for the United States, NOAA Technical Report NOS CO-OPS 083. Six projections: Low, Intermediate-Low, Intermediate, Intermediate-High, High, and Extreme.Relative sea level rise values for nine future SLR projections were generated using the USACE Sea-Level Change Curve Calculator (“USACE Calculator”) 2019.21 (http://www.corpsclimate.us/ccaceslcurves.cfm). Additional data inputs include a tidal surface representing Mean Higher High Water (MHHW) developed by NOAA and a 5-meter horizontal resolution Digital Elevation Model (DEM) dataset (compiled by the UF GeoPlan Center).SLR scenarios are unique for each county, year, and projection; the scenario is specified in this data's DESCRIPT field and the amount of SLR (in feet) is specified in the RSLR_FT field. Nine SLR projection curves were mapped on top of MHHW at decadal intervals (2040 - 2100). The key in parenthesis following the projection name was added by the GeoPlan Center for shorthand notation of the projection curve. Please refer to the Data Lineage section for description of the mapping methods.Projection Name (Key)- USACE 2013 Low (C1)- USACE 2013 Intermediate (C2)- USACE 2013 High (C4)- NOAA 2017 Low (N1) - NOAA 2017 Intermediate-Low (N2) - NOAA 2017 Intermediate (N3)- NOAA 2017 Intermediate-High (N4)- NOAA 2017 High (N5)- NOAA 2017 Extreme (N6)
Copyright Text: University of Florida GeoPlan Center