Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a storm like Nor’Ida (a November, 2009 Mid-Atlantic nor'easter) under current conditions. Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a storm like Nor’Ida (a November, 2009 Mid-Atlantic nor'easter) under sea-level conditions expected in 2040 (based on the “high” scenario, which is a sea-level rise of 1.35 ft.). Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a storm like Nor’Ida (a November, 2009 Mid-Atlantic nor'easter) under sea-level conditions expected in 2065 (based on the “high” scenario, which is a sea-level rise of 2.58 ft.). Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a low intensity hurricane under current conditions. Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a low intensity hurricane under sea-level conditions expected in 2040 (based on the “high” scenario, which is a sea-level rise of 1.35 ft.). Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a low intensity hurricane under sea-level conditions expected in 2065 (based on the “high” scenario, which is a sea-level rise of 2.58 ft.). Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Name: Moderate Intensity Hurricane, Current Condition
Display Field: GEOID10
Type: Feature Layer
Geometry Type: esriGeometryPolygon
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a moderate intensity hurricane under current conditions. Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a moderate intensity hurricane under sea-level conditions expected in 2040 (based on the “high” scenario, which is a sea-level rise of 1.35 ft.). Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a moderate intensity hurricane under sea-level conditions expected in 2065 (based on the “high” scenario, which is a sea-level rise of 2.58 ft.). Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a high intensity hurricane under current conditions. Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a high intensity hurricane under sea-level conditions expected in 2040 (based on the “high” scenario, which is a sea-level rise of 1.35 ft.). Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This layer shows estimated total economic losses by Census block for storm surge flooding from a high intensity hurricane under sea-level conditions expected in 2065 (based on the “high” scenario, which is a sea-level rise of 2.58 ft.). Economic loss data were developed using FEMA's HAZUS-MH risk analysis software. This software is based on current scientific and engineering knowledge, however there are uncertainties inherent in any loss estimation. Therefore, there may be significant differences between the modeled results and the actual economic losses following a specific flood event. Data shown here do not represent any single flood or event, rather they are derived from the maximum extent of modeled flooding at all locations across the entire Eastern Shore. As such, these data should only be used for planning purposes.
Copyright Text: FEMA, UVA Long-Term Ecological Research project, The Nature Conservancy
Description: This shows projected inundation for the "Low" sea level rise scenario in year 2100. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "Low" sea level rise scenario in year 2065. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "Low" sea level rise scenario in year 2040. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "Low" sea level rise scenario in year 2025. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "High" sea level rise scenario in year 2100. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "High" sea level rise scenario in year 2065. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "High" sea level rise scenario in year 2040. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "High" sea level rise scenario in year 2025. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "Highest" sea level rise scenario in year 2100. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "Highest" sea level rise scenario in year 2065. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "Highest" sea level rise scenario in year 2040. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.
Description: This shows projected inundation for the "Highest" sea level rise scenario in year 2025. Projected inundation on top of mean higher high water (MHHW) for various sea level rise scenarios was developed using a modified bathtup approach that accounts for local and regional tidal variability. This method was developed by the NOAA Coastal Services Center and used in the NOAA Sea Level Rise and Coastal Flooding Impacts Viewer.