Investigating causes of changes in runoff using hydrological simulation approach

Stream flow plays a crucial role in environmental, social and economic contexts. It is of significance to investigate the causes of change in runoff for better water resources management. This study detects the variation trend of recorded runoff of the Gushan River, a tributary of the Yellow River l...

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Veröffentlicht in:	Applied water science 2017-09, Vol.7 (5), p.2245-2253
Hauptverfasser:	Wang, Guoqing, Zhang, Jianyun, Li, Xuemei, Bao, Zhenxin, Liu, Yanli, Liu, Cuishan, He, Ruimin, Luo, Junsong
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Sprache:	eng
Schlagworte:	Aquatic Pollution Catchment area Catchments Climate Climate change Comparative Law Computer simulation Earth and Environmental Science Earth Sciences Ecology Human influences Hydrogeology Hydrology Industrial and Production Engineering International & Foreign Law Loess Man-induced effects Nanotechnology Original Article Private International Law Rain Rainfall Rivers Runoff Simulation Soil Soil investigations Soil water Stream discharge Stream flow Studies Waste Water Technology Water Industry/Water Technologies Water Management Water Pollution Control Water resources Water resources management
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container_title	Applied water science
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creator	Wang, Guoqing Zhang, Jianyun Li, Xuemei Bao, Zhenxin Liu, Yanli Liu, Cuishan He, Ruimin Luo, Junsong
description	Stream flow plays a crucial role in environmental, social and economic contexts. It is of significance to investigate the causes of change in runoff for better water resources management. This study detects the variation trend of recorded runoff of the Gushan River, a tributary of the Yellow River located on the Loess Plateau with severe soil and water losing, and investigates the impacts of climate change and human activities on runoff using hydrological simulation approach. Results show that the recorded runoff at Gaoshiya station on the Gushan River has experienced a significant declining trend from 1954–2013 with an abrupt change occurring in 1973. SimHyd rainfall runoff model performs well for monthly discharge simulation with Nash–Sutcliffe coefficient of 82.6 % and relative error of 0.32 %. Runoff depth over the catchment in 1980–2013 reduced by 52.4 mm compared to the previous period, in which human activities and climate change contribute 61.5 and 38.5 % of the total runoff reduction, respectively. However, the human-induced impact tends to increase. Therefore, efforts to improve the ecology of the Loess Plateau should give sufficient attention to the impacts of human activity.
doi_str_mv	10.1007/s13201-016-0396-1
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It is of significance to investigate the causes of change in runoff for better water resources management. This study detects the variation trend of recorded runoff of the Gushan River, a tributary of the Yellow River located on the Loess Plateau with severe soil and water losing, and investigates the impacts of climate change and human activities on runoff using hydrological simulation approach. Results show that the recorded runoff at Gaoshiya station on the Gushan River has experienced a significant declining trend from 1954–2013 with an abrupt change occurring in 1973. SimHyd rainfall runoff model performs well for monthly discharge simulation with Nash–Sutcliffe coefficient of 82.6 % and relative error of 0.32 %. Runoff depth over the catchment in 1980–2013 reduced by 52.4 mm compared to the previous period, in which human activities and climate change contribute 61.5 and 38.5 % of the total runoff reduction, respectively. However, the human-induced impact tends to increase. Therefore, efforts to improve the ecology of the Loess Plateau should give sufficient attention to the impacts of human activity.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><doi>10.1007/s13201-016-0396-1</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record>
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subjects	Aquatic Pollution Catchment area Catchments Climate Climate change Comparative Law Computer simulation Earth and Environmental Science Earth Sciences Ecology Human influences Hydrogeology Hydrology Industrial and Production Engineering International & Foreign Law Loess Man-induced effects Nanotechnology Original Article Private International Law Rain Rainfall Rivers Runoff Simulation Soil Soil investigations Soil water Stream discharge Stream flow Studies Waste Water Technology Water Industry/Water Technologies Water Management Water Pollution Control Water resources Water resources management
title	Investigating causes of changes in runoff using hydrological simulation approach
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