Assessing future risk: quantifying the effects of sea level rise on storm surge risk for the southern shores of Long Island, New York

Sea level rise threatens to increase the impacts of future storms and hurricanes on coastal communities. However, many coastal hazard mitigation plans do not consider sea level rise when assessing storm surge risk. Here we apply a GIS-based approach to quantify potential changes in storm surge risk...

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Veröffentlicht in:	Natural hazards (Dordrecht) 2012-01, Vol.60 (2), p.727-745
Hauptverfasser:	Shepard, Christine C., Agostini, Vera N., Gilmer, Ben, Allen, Tashya, Stone, Jeff, Brooks, William, Beck, Michael W.
Format:	Artikel
Sprache:	eng
Schlagworte:	Civil Engineering Climate adaptation Climate change Coastal Coastal hazards Coastal zone Communities Disasters Earth and Environmental Science Earth Sciences Earth, ocean, space Engineering and environment geology. Geothermics Environmental Management Exact sciences and technology Geophysics/Geodesy Geotechnical Engineering & Applied Earth Sciences Global warming Hazard mitigation Hazards Hurricanes Hydrogeology Islands Marine Natural Hazards Natural hazards: prediction, damages, etc Original Paper Property Risk Risk assessment Sea level Sea level rise Spatial distribution Storm surges Storms Tidal waves
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container_title	Natural hazards (Dordrecht)
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creator	Shepard, Christine C. Agostini, Vera N. Gilmer, Ben Allen, Tashya Stone, Jeff Brooks, William Beck, Michael W.
description	Sea level rise threatens to increase the impacts of future storms and hurricanes on coastal communities. However, many coastal hazard mitigation plans do not consider sea level rise when assessing storm surge risk. Here we apply a GIS-based approach to quantify potential changes in storm surge risk due to sea level rise on Long Island, New York. We demonstrate a method for combining hazard exposure and community vulnerability to spatially characterize risk for both present and future sea level conditions using commonly available national data sets. Our results show that sea level rise will likely increase risk in many coastal areas and will potentially create risk where it was not before. We find that even modest and probable sea level rise (.5 m by 2080) vastly increases the numbers of people (47% increase) and property loss (73% increase) impacted by storm surge. In addition, the resulting maps of hazard exposure and community vulnerability provide a clear and useful example of the visual representation of the spatial distribution of the components of risk that can be helpful for developing targeted hazard mitigation and climate change adaptation strategies. Our results suggest that coastal agencies tasked with managing storm surge risk must consider the effects of sea level rise if they are to ensure safe and sustainable coastal communities in the future.
doi_str_mv	10.1007/s11069-011-0046-8
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However, many coastal hazard mitigation plans do not consider sea level rise when assessing storm surge risk. Here we apply a GIS-based approach to quantify potential changes in storm surge risk due to sea level rise on Long Island, New York. We demonstrate a method for combining hazard exposure and community vulnerability to spatially characterize risk for both present and future sea level conditions using commonly available national data sets. Our results show that sea level rise will likely increase risk in many coastal areas and will potentially create risk where it was not before. We find that even modest and probable sea level rise (.5 m by 2080) vastly increases the numbers of people (47% increase) and property loss (73% increase) impacted by storm surge. 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subjects	Civil Engineering Climate adaptation Climate change Coastal Coastal hazards Coastal zone Communities Disasters Earth and Environmental Science Earth Sciences Earth, ocean, space Engineering and environment geology. Geothermics Environmental Management Exact sciences and technology Geophysics/Geodesy Geotechnical Engineering & Applied Earth Sciences Global warming Hazard mitigation Hazards Hurricanes Hydrogeology Islands Marine Natural Hazards Natural hazards: prediction, damages, etc Original Paper Property Risk Risk assessment Sea level Sea level rise Spatial distribution Storm surges Storms Tidal waves
title	Assessing future risk: quantifying the effects of sea level rise on storm surge risk for the southern shores of Long Island, New York
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