Response of runoff towards land use changes in the Yellow River Basin in Ningxia, China

Since the Yellow River is a main source of water in Ningxia China, maintaining its healthy ecological environment is vital to Ningxia and the neighboring areas. Changes of land use caused by human activities such as population growth, urbanizing process, and industrial and mining construction would...

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Veröffentlicht in:	PloS one 2022-04, Vol.17 (4), p.e0265931-e0265931
Hauptverfasser:	Wang, Zhanping, Tian, Juncang, Feng, Kepeng
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Sprache:	eng
Schlagworte:	Biology and Life Sciences Changing environments China Climate change Decision making Earth Sciences Ecology and Environmental Sciences Economic development Ecosystems Engineering research Environmental aspects Humans Hydraulic engineering Hydrologic models Hydrology Irrigation Land use Management Monthly runoff Population growth Rain River basins River ecology Rivers Runoff Sediments Social Sciences Soil erosion Water Water management Water Movements Water resources Water resources management Water resources planning Water shortages Watersheds
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creator	Wang, Zhanping Tian, Juncang Feng, Kepeng
description	Since the Yellow River is a main source of water in Ningxia China, maintaining its healthy ecological environment is vital to Ningxia and the neighboring areas. Changes of land use caused by human activities such as population growth, urbanizing process, and industrial and mining construction would affect the balance and cycle of water in the Basin. Therefore, investigating hydrological responses of land use changes can provide insights into the characteristics and evolution of runoff the Yellow River Basin in the Ningxia section. This has imperative and practical significance to the rational use, allocation, and planning of water resources in a changing environment. In this paper, we analyzed the meteorological and hydrological elements of changing characteristics of the Yellow River Basin in the Ningxia section. Then we selected a distribution-based hydrology model of SWAT in combination with GIS to simulate annual and monthly runoff under different land use scenarios. Finally, we analyzed the influence caused by the changes of land use on runoff. We concluded that it is appropriate to lay a decision-making foundation to manage water resources of the Yellow River Basin in the Ningxia section.
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Changes of land use caused by human activities such as population growth, urbanizing process, and industrial and mining construction would affect the balance and cycle of water in the Basin. Therefore, investigating hydrological responses of land use changes can provide insights into the characteristics and evolution of runoff the Yellow River Basin in the Ningxia section. This has imperative and practical significance to the rational use, allocation, and planning of water resources in a changing environment. In this paper, we analyzed the meteorological and hydrological elements of changing characteristics of the Yellow River Basin in the Ningxia section. Then we selected a distribution-based hydrology model of SWAT in combination with GIS to simulate annual and monthly runoff under different land use scenarios. Finally, we analyzed the influence caused by the changes of land use on runoff. We concluded that it is appropriate to lay a decision-making foundation to manage water resources of the Yellow River Basin in the Ningxia section.</description><identifier>ISSN: 1932-6203</identifier><identifier>EISSN: 1932-6203</identifier><identifier>DOI: 10.1371/journal.pone.0265931</identifier><identifier>PMID: 35363797</identifier><language>eng</language><publisher>United States: Public Library of Science</publisher><subject>Biology and Life Sciences ; Changing environments ; China ; Climate change ; Decision making ; Earth Sciences ; Ecology and Environmental Sciences ; Economic development ; Ecosystems ; Engineering research ; Environmental aspects ; Humans ; Hydraulic engineering ; Hydrologic models ; Hydrology ; Irrigation ; Land use ; Management ; Monthly runoff ; Population growth ; Rain ; River basins ; River ecology ; Rivers ; Runoff ; Sediments ; Social Sciences ; Soil erosion ; Water ; Water management ; Water Movements ; Water resources ; Water resources management ; Water resources planning ; Water shortages ; Watersheds</subject><ispartof>PloS one, 2022-04, Vol.17 (4), p.e0265931-e0265931</ispartof><rights>COPYRIGHT 2022 Public Library of Science</rights><rights>2022 Wang et al. 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Changes of land use caused by human activities such as population growth, urbanizing process, and industrial and mining construction would affect the balance and cycle of water in the Basin. Therefore, investigating hydrological responses of land use changes can provide insights into the characteristics and evolution of runoff the Yellow River Basin in the Ningxia section. This has imperative and practical significance to the rational use, allocation, and planning of water resources in a changing environment. In this paper, we analyzed the meteorological and hydrological elements of changing characteristics of the Yellow River Basin in the Ningxia section. Then we selected a distribution-based hydrology model of SWAT in combination with GIS to simulate annual and monthly runoff under different land use scenarios. Finally, we analyzed the influence caused by the changes of land use on runoff. 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Changes of land use caused by human activities such as population growth, urbanizing process, and industrial and mining construction would affect the balance and cycle of water in the Basin. Therefore, investigating hydrological responses of land use changes can provide insights into the characteristics and evolution of runoff the Yellow River Basin in the Ningxia section. This has imperative and practical significance to the rational use, allocation, and planning of water resources in a changing environment. In this paper, we analyzed the meteorological and hydrological elements of changing characteristics of the Yellow River Basin in the Ningxia section. Then we selected a distribution-based hydrology model of SWAT in combination with GIS to simulate annual and monthly runoff under different land use scenarios. Finally, we analyzed the influence caused by the changes of land use on runoff. 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subjects	Biology and Life Sciences Changing environments China Climate change Decision making Earth Sciences Ecology and Environmental Sciences Economic development Ecosystems Engineering research Environmental aspects Humans Hydraulic engineering Hydrologic models Hydrology Irrigation Land use Management Monthly runoff Population growth Rain River basins River ecology Rivers Runoff Sediments Social Sciences Soil erosion Water Water management Water Movements Water resources Water resources management Water resources planning Water shortages Watersheds
title	Response of runoff towards land use changes in the Yellow River Basin in Ningxia, China
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