Description: This future rainfall scenario for 2040 (Near-Term) was developed to support Gulf countywide vulnerability assessments and climate resilience planning. The scenario (2040-Near-Term raster dataset in this case) represents a statistically derived 100-year, 24-hour rainfall event for 2040 (Near-Term Scenario) as a future time horizon.This raster dataset simulates rainfall-driven inundation under changing climate conditions and is intended for use in identifying flood-prone areas, supporting infrastructure adaptation planning, and enhancing community flood resilience strategies.The flood type is this dataset was modeled as Ponding to represent localized pooling in low-lying terrain due to rainfall accumulation.Projection / Coordinate System / Datums: Horizontal Datum: NAD83/2011 and Vertical Datum: NAVD88 Raster Type: Continuous surface (ponding depth measured in inches)
Service Item Id: bf26a534dfb64112a0773e241bd91a45
Copyright Text: The model was developed by using Inundate! tool designed by FlynnMetrics LLC in coordination with Regional Planning Councils in Florida (ARPC, CFRPC, ECFRPC, ECRC, NCFRPC, NEFRC, SFRPC, SWFRPC, TBRPC, TCRPC).
Description: This future rainfall scenario for 2070 (Far-Term) was developed to support Gulf countywide vulnerability assessments and climate resilience planning. The scenario (2070-Far-Term raster dataset in this case) represents a statistically derived 100-year, 24-hour rainfall event for 2070 (Far-Term Scenario) as a future time horizon.This raster dataset simulates rainfall-driven inundation under changing climate conditions and is intended for use in identifying flood-prone areas, supporting infrastructure adaptation planning, and enhancing community flood resilience strategies.The flood type is this dataset was modeled as Ponding to represent overland and fluvial flow from extreme precipitation.Projection / Coordinate System / Datums: Horizontal Datum: NAD83/2011 and Vertical Datum: NAVD88 Raster Type: Continuous surface (ponding depth measured in inches)
Service Item Id: bf26a534dfb64112a0773e241bd91a45
Copyright Text: The model was developed by using Inundate! tool designed by FlynnMetrics LLC in coordination with Regional Planning Councils in Florida (ARPC, CFRPC, ECFRPC, ECRC, NCFRPC, NEFRC, SFRPC, SWFRPC, TBRPC, TCRPC).
Description: This future rainfall scenario for 2040 (Near-Term) was developed to support Gulf countywide vulnerability assessments and climate resilience planning. The scenario (2040-Near-Term raster dataset in this case) represents a statistically derived 100-year, 24-hour rainfall event for 2040 (Near-Term Scenario) as a future time horizon.This raster dataset simulates rainfall-driven inundation under changing climate conditions and is intended for use in identifying flood-prone areas, supporting infrastructure adaptation planning, and enhancing community flood resilience strategies.The flood type is this dataset was modeled as Drainflow to represent overland and fluvial flow from extreme precipitation.Projection / Coordinate System / Datums: Horizontal Datum: NAD83/2011 and Vertical Datum: NAVD88 Raster Type: Continuous surface (flood depth measured in inches)
Service Item Id: bf26a534dfb64112a0773e241bd91a45
Copyright Text: The model was developed by using Inundate! tool designed by FlynnMetrics LLC in coordination with Regional Planning Councils in Florida (ARPC, CFRPC, ECFRPC, ECRC, NCFRPC, NEFRC, SFRPC, SWFRPC, TBRPC, TCRPC).
Description: This future rainfall scenario for 2070 (Far-Term) was developed to support Gulf countywide vulnerability assessments and climate resilience planning. The scenario (2070-Far-Term raster dataset in this case) represents a statistically derived 100-year, 24-hour rainfall event for 2070 (Far-Term Scenario) as a future time horizon.This raster dataset simulates rainfall-driven inundation under changing climate conditions and is intended for use in identifying flood-prone areas, supporting infrastructure adaptation planning, and enhancing community flood resilience strategies.The flood type is this dataset was modeled as Drainflow to represent overland and fluvial flow from extreme precipitation.Projection / Coordinate System / Datums: Horizontal Datum: NAD83/2011 and Vertical Datum: NAVD88 Raster Type: Continuous surface (flood depth measured in inches)
Service Item Id: bf26a534dfb64112a0773e241bd91a45
Copyright Text: The model was developed by using Inundate! tool designed by FlynnMetrics LLC in coordination with Regional Planning Councils in Florida (ARPC, CFRPC, ECFRPC, ECRC, NCFRPC, NEFRC, SFRPC, SWFRPC, TBRPC, TCRPC).