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Title: Disentangling the impacts of human and environmental change on catchment response during Hurricane Harvey
Authors: Sebastian, Antonia
Gori, Avantika
Blessing, Russel B
van der Wiel, Karin
Bass, Benjamin
Keywords: Flood Control::Socio-natural hazard, सामाजिक–प्राकृतिक प्रकोप, Peligros de origen socio-natural
Flood Control::Flood, बाढि वा डुवान, Inundación
Flood Control::Climate change, जलवायू परिवर्तन, Cambio climático
Issue Date: 2019
Publisher: Environmental Research Letters
Abstract: Flooding is a function of hydrologic, climatologic, and land use characteristics. However, the relative contribution of these factors to flood risk over the long-term is uncertain. In response to this knowledge gap, this study quantifies how urbanization and climatological trends influenced flooding in the greater Houston region during Hurricane Harvey. The region – characterized by extreme precipitation events, low topographic relief, and clay-dominated soils – is naturally flood prone, but it is also one of the fastest growing urban areas in the United States. This rapid growth has contributed to increased runoff volumes and rates in areas where anthropogenic climate changes has also been shown to be contributing to extreme precipitation. To disentangle the relative contributions of land use/land cover and climatic changes on flooding during Hurricane Harvey, we simulate catchment response using a spatially-distributed hydrologic model under 1900 and 2017 conditions. This approach provides insight into how timing, volume, and peak discharge in response to Harvey-like events have evolved over more than a century. We demonstrate that the combined impacts of urban development and climate change nearly doubled peak discharge in the Houston area during Harvey compared to a similar event in 1900. We also find that land use change has magnified the effects of climate change on catchment response. The findings support a precautionary approach to flood risk management that explicitly considers how current land use decisions may impact future conditions under varying climate trends, particularly in low-lying coastal cities.
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