Adaptation to urbanization impacts on drainage in the city of Hohhot, China

This study presents a quantitative assessment of urbanization effects on hydrological runoff and drainage network in the city of Hohhot, China. The evolution of urban spatial morphology for the historical years (1987-2010) and projected year (2020) is described by changes in geographic information s...

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Veröffentlicht in:Water science and technology 2016-01, Vol.73 (1), p.167-175
Hauptverfasser: Zhou, Qianqian, Ren, Yi, Xu, Miaomiao, Han, Nini, Wang, Heping
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container_issue 1
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container_title Water science and technology
container_volume 73
creator Zhou, Qianqian
Ren, Yi
Xu, Miaomiao
Han, Nini
Wang, Heping
description This study presents a quantitative assessment of urbanization effects on hydrological runoff and drainage network in the city of Hohhot, China. The evolution of urban spatial morphology for the historical years (1987-2010) and projected year (2020) is described by changes in geographic information system (GIS)-based land use maps and further represented in hydrological parameters in the Storm Water Management Model (SWMM) simulation. The results show the levels of service of historical drainage were too low to have dominant impacts on flood risks, and hence a significant upward trend in catchment runoff response was observed over time. Comparisons with changes in system overloading indicate that the relative increase in flood risk is greatest at the early stage of urbanization with relatively low levels of development. The proposed adaptation measures based on a cost-effective optimal approach was found feasible to significantly improve the drainage performance and mitigate the increasing flooding impacts.
doi_str_mv 10.2166/wst.2015.478
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subjects Adaptation
Catchment area
China
Cities
City Planning
Climate change
Computer simulation
Drainage
Drainage patterns
Drainage, Sanitary
Environmental impact
Environmental management
Environmental protection
Environmental risk
Flood damage
Flooding
Floods
Geographic Information Systems
Geographical information systems
Hydraulics
Hydrology
Information systems
Land use
Mathematical morphology
Models, Theoretical
Overloading
Parameter estimation
Precipitation
Probability distribution
Rain
Remote sensing
Runoff
Satellite navigation systems
Storms
Stormwater
Stormwater management
Urbanization
Water management
Water quality
Water shortages
Watershed management
Watersheds
title Adaptation to urbanization impacts on drainage in the city of Hohhot, China
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