Impact of Changing Climate and Land Cover on Flood Magnitudes in the Delaware River Basin, USA

Changing climate and land cover are expected to impact flood hydrology in the Delaware River Basin over the 21st Century. HEC‐HMS models (U.S. Army Corps of Engineers Hydrologic Engineering Center‐Hydrologic Modeling System) were developed for five case study watersheds selected to represent a range...

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Veröffentlicht in:	Journal of the American Water Resources Association 2020-06, Vol.56 (3), p.507-527
Hauptverfasser:	Woltemade, Christopher J., Hawkins, Timothy W., Jantz, Claire, Drzyzga, Scott
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Sprache:	eng
Schlagworte:	Atmospheric precipitations Climate change climate variability/change Delaware River Basin Discharge Environmental impact Flood frequency flooding Floods Frequency analysis Geographical variations HEC‐HMS Hydrologic models Hydrology Land cover land use/land cover change Peak floods Precipitation Rain Rainfall rainfall‐runoff modeling Regional variations River basins River discharge Rivers Runoff Snowmelt Soil Soil conditions Soil types Soils Urbanization Watersheds
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container_title	Journal of the American Water Resources Association
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creator	Woltemade, Christopher J. Hawkins, Timothy W. Jantz, Claire Drzyzga, Scott
description	Changing climate and land cover are expected to impact flood hydrology in the Delaware River Basin over the 21st Century. HEC‐HMS models (U.S. Army Corps of Engineers Hydrologic Engineering Center‐Hydrologic Modeling System) were developed for five case study watersheds selected to represent a range of scale, soil types, climate, and land cover. Model results indicate that climate change alone could affect peak flood discharges by −6% to +58% a wide range that reflects regional variation in projected rainfall and snowmelt and local watershed conditions. Land cover changes could increase peak flood discharges up to 10% in four of the five watersheds. In those watersheds, the combination of climate and land cover change increase modeled peak flood discharges by up to 66% and runoff volumes by up to 44%. Precipitation projections are a key source of uncertainty, but there is a high likelihood of greater precipitation falling on a more urbanized landscape that produces larger floods. The influence of climate and land cover changes on flood hydrology for the modeled watersheds varies according to future time period, climate scenario, watershed land cover and soil conditions, and flood frequency. The impacts of climate change alone are typically greater than land cover change but there is substantial geographic variation, with urbanization the greater influence on some small, developing watersheds. Research Impact Statement: Flood magnitudes in the Delaware River Basin are expected to increase up to 66% by 2090 due to changing climate and land cover, with substantial variation across subwatersheds and event magnitude.
doi_str_mv	10.1111/1752-1688.12835
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HEC‐HMS models (U.S. Army Corps of Engineers Hydrologic Engineering Center‐Hydrologic Modeling System) were developed for five case study watersheds selected to represent a range of scale, soil types, climate, and land cover. Model results indicate that climate change alone could affect peak flood discharges by −6% to +58% a wide range that reflects regional variation in projected rainfall and snowmelt and local watershed conditions. Land cover changes could increase peak flood discharges up to 10% in four of the five watersheds. In those watersheds, the combination of climate and land cover change increase modeled peak flood discharges by up to 66% and runoff volumes by up to 44%. Precipitation projections are a key source of uncertainty, but there is a high likelihood of greater precipitation falling on a more urbanized landscape that produces larger floods. 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subjects	Atmospheric precipitations Climate change climate variability/change Delaware River Basin Discharge Environmental impact Flood frequency flooding Floods Frequency analysis Geographical variations HEC‐HMS Hydrologic models Hydrology Land cover land use/land cover change Peak floods Precipitation Rain Rainfall rainfall‐runoff modeling Regional variations River basins River discharge Rivers Runoff Snowmelt Soil Soil conditions Soil types Soils Urbanization Watersheds
title	Impact of Changing Climate and Land Cover on Flood Magnitudes in the Delaware River Basin, USA
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