Effects of anthropogenic water regulation and groundwater lateral flow on land processes

Both anthropogenic water regulation and groundwater lateral flow essentially affect groundwater table patterns. Their relationship is close because lateral flow recharges the groundwater depletion cone, which is induced by over‐exploitation. In this study, schemes describing groundwater lateral flow...

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Veröffentlicht in:	Journal of advances in modeling earth systems 2016-09, Vol.8 (3), p.1106-1131
Hauptverfasser:	Zeng, Yujin, Xie, Zhenghui, Yu, Yan, Liu, Shuang, Wang, Linying, Zou, Jing, Qin, Peihua, Jia, Binghao
Format:	Artikel
Sprache:	eng
Schlagworte:	Anthropogenic factors anthropogenic water regulation Aquifers Computer centers Depletion Environmental regulations Exploitation Flow Freshwater Groundwater Groundwater depletion groundwater lateral flow Groundwater recharge Groundwater table Heat transfer Human influences Hydrologic cycle Hydrology Irrigation Irrigation water land model Latent heat Latent heat flux Mountain regions Plains Regions River basins Rivers Sensible heat Sensible heat flux Sensible heat transfer Soil Soil moisture Surface water Water storage Water table
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container_end_page	1131
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container_title	Journal of advances in modeling earth systems
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creator	Zeng, Yujin Xie, Zhenghui Yu, Yan Liu, Shuang Wang, Linying Zou, Jing Qin, Peihua Jia, Binghao
description	Both anthropogenic water regulation and groundwater lateral flow essentially affect groundwater table patterns. Their relationship is close because lateral flow recharges the groundwater depletion cone, which is induced by over‐exploitation. In this study, schemes describing groundwater lateral flow and human water regulation were developed and incorporated into the Community Land Model 4.5. To investigate the effects of human water regulation and groundwater lateral flow on land processes as well as the relationship between the two processes, three simulations using the model were conducted for the years 2003–2013 over the Heihe River Basin in northwestern China. Simulations showed that groundwater lateral flow driven by changes in water heads can essentially change the groundwater table pattern with the deeper water table appearing in the hillslope regions and shallower water table appearing in valley bottom regions and plains. Over the last decade, anthropogenic groundwater exploitation deepened the water table by approximately 2 m in the middle reaches of the Heihe River Basin and rapidly reduced the terrestrial water storage, while irrigation increased soil moisture by approximately 0.1 m3 m−3. The water stored in the mainstream of the Heihe River was also reduced by human surface water withdrawal. The latent heat flux was increased by 30 W m−2 over the irrigated region, with an identical decrease in sensible heat flux. The simulated groundwater lateral flow was shown to effectively recharge the groundwater depletion cone caused by over‐exploitation. The offset rate is higher in plains than mountainous regions. Key Points A model coupled with schemes of anthropogenic water regulation and groundwater lateral flow was developed Both groundwater exploitation and groundwater lateral flow affect the groundwater pattern and other land‐hydrology elements Groundwater lateral flow recharges the groundwater depletion at a maximum rate of 40% especially in plain regions
doi_str_mv	10.1002/2016MS000646
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Their relationship is close because lateral flow recharges the groundwater depletion cone, which is induced by over‐exploitation. In this study, schemes describing groundwater lateral flow and human water regulation were developed and incorporated into the Community Land Model 4.5. To investigate the effects of human water regulation and groundwater lateral flow on land processes as well as the relationship between the two processes, three simulations using the model were conducted for the years 2003–2013 over the Heihe River Basin in northwestern China. Simulations showed that groundwater lateral flow driven by changes in water heads can essentially change the groundwater table pattern with the deeper water table appearing in the hillslope regions and shallower water table appearing in valley bottom regions and plains. Over the last decade, anthropogenic groundwater exploitation deepened the water table by approximately 2 m in the middle reaches of the Heihe River Basin and rapidly reduced the terrestrial water storage, while irrigation increased soil moisture by approximately 0.1 m3 m−3. The water stored in the mainstream of the Heihe River was also reduced by human surface water withdrawal. The latent heat flux was increased by 30 W m−2 over the irrigated region, with an identical decrease in sensible heat flux. The simulated groundwater lateral flow was shown to effectively recharge the groundwater depletion cone caused by over‐exploitation. The offset rate is higher in plains than mountainous regions. 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Their relationship is close because lateral flow recharges the groundwater depletion cone, which is induced by over‐exploitation. In this study, schemes describing groundwater lateral flow and human water regulation were developed and incorporated into the Community Land Model 4.5. To investigate the effects of human water regulation and groundwater lateral flow on land processes as well as the relationship between the two processes, three simulations using the model were conducted for the years 2003–2013 over the Heihe River Basin in northwestern China. Simulations showed that groundwater lateral flow driven by changes in water heads can essentially change the groundwater table pattern with the deeper water table appearing in the hillslope regions and shallower water table appearing in valley bottom regions and plains. 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Key Points A model coupled with schemes of anthropogenic water regulation and groundwater lateral flow was developed Both groundwater exploitation and groundwater lateral flow affect the groundwater pattern and other land‐hydrology elements Groundwater lateral flow recharges the groundwater depletion at a maximum rate of 40% especially in plain regions</description><subject>Anthropogenic factors</subject><subject>anthropogenic water regulation</subject><subject>Aquifers</subject><subject>Computer centers</subject><subject>Depletion</subject><subject>Environmental regulations</subject><subject>Exploitation</subject><subject>Flow</subject><subject>Freshwater</subject><subject>Groundwater</subject><subject>Groundwater depletion</subject><subject>groundwater lateral flow</subject><subject>Groundwater recharge</subject><subject>Groundwater table</subject><subject>Heat transfer</subject><subject>Human influences</subject><subject>Hydrologic cycle</subject><subject>Hydrology</subject><subject>Irrigation</subject><subject>Irrigation water</subject><subject>land model</subject><subject>Latent heat</subject><subject>Latent heat flux</subject><subject>Mountain regions</subject><subject>Plains</subject><subject>Regions</subject><subject>River basins</subject><subject>Rivers</subject><subject>Sensible heat</subject><subject>Sensible heat flux</subject><subject>Sensible heat transfer</subject><subject>Soil</subject><subject>Soil moisture</subject><subject>Surface water</subject><subject>Water storage</subject><subject>Water table</subject><issn>1942-2466</issn><issn>1942-2466</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>24P</sourceid><sourceid>BENPR</sourceid><recordid>eNp90E1LAzEQBuAgCtbqzR-w4MWDq8kkm90cS6lfWDyo4C2k2aRuSTc12aX035uyHooHL5nA-zAzDEKXBN8SjOEOMOHzN4wxZ_wIjYhgkAPj_Pjgf4rOYlwlwjkUI_Q5s9boLmbeZqrtvoLf-KVpG51tVWdCFsyyd6prfJviOlsG37f1ELn9q1xmnd9mKXd7sAlemxhNPEcnVrloLn7rGH3cz96nj_nL68PTdPKSK8ZLlvO60JxU2DKgFQOjhCKYAl-U3LAC6mLBilKAqBfE1qbUTKu6BE4xJyUUjNIxuh76psnfvYmdXDdRG5e2Mb6PklS0pFQUFCd69YeufB_atJ0EqISglCQ3RjeD0sHHGIyVm9CsVdhJguX-zPLwzInTgW8bZ3b_Wvk8mc8Ag2D0BzLofTA</recordid><startdate>201609</startdate><enddate>201609</enddate><creator>Zeng, Yujin</creator><creator>Xie, Zhenghui</creator><creator>Yu, Yan</creator><creator>Liu, Shuang</creator><creator>Wang, Linying</creator><creator>Zou, Jing</creator><creator>Qin, Peihua</creator><creator>Jia, Binghao</creator><general>John Wiley & Sons, Inc</general><scope>24P</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TG</scope><scope>ABUWG</scope><scope>AEUYN</scope><scope>AFKRA</scope><scope>AZQEC</scope><scope>BENPR</scope><scope>BHPHI</scope><scope>BKSAR</scope><scope>CCPQU</scope><scope>DWQXO</scope><scope>F1W</scope><scope>H96</scope><scope>HCIFZ</scope><scope>KL.</scope><scope>L.G</scope><scope>PCBAR</scope><scope>PIMPY</scope><scope>PQEST</scope><scope>PQQKQ</scope><scope>PQUKI</scope></search><sort><creationdate>201609</creationdate><title>Effects of anthropogenic water regulation and groundwater lateral flow on land processes</title><author>Zeng, Yujin ; 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Their relationship is close because lateral flow recharges the groundwater depletion cone, which is induced by over‐exploitation. In this study, schemes describing groundwater lateral flow and human water regulation were developed and incorporated into the Community Land Model 4.5. To investigate the effects of human water regulation and groundwater lateral flow on land processes as well as the relationship between the two processes, three simulations using the model were conducted for the years 2003–2013 over the Heihe River Basin in northwestern China. Simulations showed that groundwater lateral flow driven by changes in water heads can essentially change the groundwater table pattern with the deeper water table appearing in the hillslope regions and shallower water table appearing in valley bottom regions and plains. Over the last decade, anthropogenic groundwater exploitation deepened the water table by approximately 2 m in the middle reaches of the Heihe River Basin and rapidly reduced the terrestrial water storage, while irrigation increased soil moisture by approximately 0.1 m3 m−3. The water stored in the mainstream of the Heihe River was also reduced by human surface water withdrawal. The latent heat flux was increased by 30 W m−2 over the irrigated region, with an identical decrease in sensible heat flux. The simulated groundwater lateral flow was shown to effectively recharge the groundwater depletion cone caused by over‐exploitation. The offset rate is higher in plains than mountainous regions. Key Points A model coupled with schemes of anthropogenic water regulation and groundwater lateral flow was developed Both groundwater exploitation and groundwater lateral flow affect the groundwater pattern and other land‐hydrology elements Groundwater lateral flow recharges the groundwater depletion at a maximum rate of 40% especially in plain regions</abstract><cop>Washington</cop><pub>John Wiley & Sons, Inc</pub><doi>10.1002/2016MS000646</doi><tpages>26</tpages><oa>free_for_read</oa></addata></record>
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source	Wiley Online Library Open Access; DOAJ Directory of Open Access Journals; Wiley Online Library Journals Frontfile Complete; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Anthropogenic factors anthropogenic water regulation Aquifers Computer centers Depletion Environmental regulations Exploitation Flow Freshwater Groundwater Groundwater depletion groundwater lateral flow Groundwater recharge Groundwater table Heat transfer Human influences Hydrologic cycle Hydrology Irrigation Irrigation water land model Latent heat Latent heat flux Mountain regions Plains Regions River basins Rivers Sensible heat Sensible heat flux Sensible heat transfer Soil Soil moisture Surface water Water storage Water table
title	Effects of anthropogenic water regulation and groundwater lateral flow on land processes
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