Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2030 under a low greenhouse gas emissions scenario.
Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2050 under a low greenhouse gas emissions scenario.
Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2100 under a low greenhouse gas emissions scenario.
Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW surface elevation.
Name: Inundation (Mean Higher High Water, Medium See Level Rise conditions, 2030)
Display Field:
Type: Raster Layer
Geometry Type: null
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2030 under an intermediate greenhouse gas emissions scenario.
Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Name: Inundation (Mean Higher High Water, Medium See Level Rise conditions, 2050)
Display Field:
Type: Raster Layer
Geometry Type: null
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2050 under an intermediate greenhouse gas emissions scenario.
Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Name: Inundation (Mean Higher High Water, Medium See Level Rise conditions, 2100)
Display Field:
Type: Raster Layer
Geometry Type: null
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2100 under an intermediate greenhouse gas emissions scenario. Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Name: Inundation (Mean Higher High Water, High Sea Level Rise conditions, 2030)
Display Field:
Type: Raster Layer
Geometry Type: null
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2030 under a high greenhouse gas emissions scenario.
Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Name: Inundation (Mean Higher High Water, High Sea Level Rise conditions, 2050)
Display Field:
Type: Raster Layer
Geometry Type: null
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2050 under a high greenhouse gas emissions scenario. Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Name: Inundation (Mean Higher High Water, High Sea Level Rise conditions, 2100)
Display Field:
Type: Raster Layer
Geometry Type: null
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2100 under a high greenhouse gas emissions scenario. Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2030 under an extreme sea level rise scenario. This scenario augments the high emissions model with modeled polar ice melt. Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2050 under an extreme sea level rise scenario. This scenario augments the high emissions model with modeled polar ice melt. Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.
Description: This layer shows areas inundated during projected mean higher high water (MHHW) by year 2100 under an extreme sea level rise scenario. This scenario augments the high emissions model with modeled polar ice melt. Low-lying areas are disconnected from the tidal waters but may be at risk of flooding because they are below the MHHW elevation.