Quantifying Anthropogenic Stress on Groundwater Resources
This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (h ) and inflow (h ). The framework is useful for sustainability assessment of groundwater systems and allows investigating the effects of different human water ab...
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Published in | Scientific reports Vol. 7; no. 1; pp. 12910 - 9 |
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Main Authors | , , , , , , , |
Format | Journal Article |
Language | English |
Published |
England
Nature Publishing Group
10.10.2017
Nature Publishing Group UK |
Subjects | |
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Abstract | This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (h
) and inflow (h
). The framework is useful for sustainability assessment of groundwater systems and allows investigating the effects of different human water abstraction scenarios on the overall aquifer regime (e.g., depleted, natural flow-dominated, and human flow-dominated). We apply this approach to selected regions in the USA, Germany and Iran to evaluate the current aquifer regime. We subsequently present two scenarios of changes in human water withdrawals and return flow to the system (individually and combined). Results show that approximately one-third of the selected aquifers in the USA, and half of the selected aquifers in Iran are dominated by human activities, while the selected aquifers in Germany are natural flow-dominated. The scenario analysis results also show that reduced human withdrawals could help with regime change in some aquifers. For instance, in two of the selected USA aquifers, a decrease in anthropogenic influences by ~20% may change the condition of depleted regime to natural flow-dominated regime. We specifically highlight a trending threat to the sustainability of groundwater in northwest Iran and California, and the need for more careful assessment and monitoring practices as well as strict regulations to mitigate the negative impacts of groundwater overexploitation. |
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AbstractList | This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (h
out
) and inflow (h
in
). The framework is useful for sustainability assessment of groundwater systems and allows investigating the effects of different human water abstraction scenarios on the overall aquifer regime (e.g., depleted, natural flow-dominated, and human flow-dominated). We apply this approach to selected regions in the USA, Germany and Iran to evaluate the current aquifer regime. We subsequently present two scenarios of changes in human water withdrawals and return flow to the system (individually and combined). Results show that approximately one-third of the selected aquifers in the USA, and half of the selected aquifers in Iran are dominated by human activities, while the selected aquifers in Germany are natural flow-dominated. The scenario analysis results also show that reduced human withdrawals could help with regime change in some aquifers. For instance, in two of the selected USA aquifers, a decrease in anthropogenic influences by ~20% may change the condition of depleted regime to natural flow-dominated regime. We specifically highlight a trending threat to the sustainability of groundwater in northwest Iran and California, and the need for more careful assessment and monitoring practices as well as strict regulations to mitigate the negative impacts of groundwater overexploitation. This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (h(out)) and inflow (h(in)). The framework is useful for sustainability assessment of groundwater systems and allows investigating the effects of different human water abstraction scenarios on the overall aquifer regime (e.g., depleted, natural flow-dominated, and human flow-dominated). We apply this approach to selected regions in the USA, Germany and Iran to evaluate the current aquifer regime. We subsequently present two scenarios of changes in human water withdrawals and return flow to the system (individually and combined). Results show that approximately one-third of the selected aquifers in the USA, and half of the selected aquifers in Iran are dominated by human activities, while the selected aquifers in Germany are natural flow-dominated. The scenario analysis results also show that reduced human withdrawals could help with regime change in some aquifers. For instance, in two of the selected USA aquifers, a decrease in anthropogenic influences by similar to 20% may change the condition of depleted regime to natural flow-dominated regime. We specifically highlight a trending threat to the sustainability of groundwater in northwest Iran and California, and the need for more careful assessment and monitoring practices as well as strict regulations to mitigate the negative impacts of groundwater overexploitation. This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (h ) and inflow (h ). The framework is useful for sustainability assessment of groundwater systems and allows investigating the effects of different human water abstraction scenarios on the overall aquifer regime (e.g., depleted, natural flow-dominated, and human flow-dominated). We apply this approach to selected regions in the USA, Germany and Iran to evaluate the current aquifer regime. We subsequently present two scenarios of changes in human water withdrawals and return flow to the system (individually and combined). Results show that approximately one-third of the selected aquifers in the USA, and half of the selected aquifers in Iran are dominated by human activities, while the selected aquifers in Germany are natural flow-dominated. The scenario analysis results also show that reduced human withdrawals could help with regime change in some aquifers. For instance, in two of the selected USA aquifers, a decrease in anthropogenic influences by ~20% may change the condition of depleted regime to natural flow-dominated regime. We specifically highlight a trending threat to the sustainability of groundwater in northwest Iran and California, and the need for more careful assessment and monitoring practices as well as strict regulations to mitigate the negative impacts of groundwater overexploitation. Abstract This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (h out ) and inflow (h in ). The framework is useful for sustainability assessment of groundwater systems and allows investigating the effects of different human water abstraction scenarios on the overall aquifer regime (e.g., depleted, natural flow-dominated, and human flow-dominated). We apply this approach to selected regions in the USA, Germany and Iran to evaluate the current aquifer regime. We subsequently present two scenarios of changes in human water withdrawals and return flow to the system (individually and combined). Results show that approximately one-third of the selected aquifers in the USA, and half of the selected aquifers in Iran are dominated by human activities, while the selected aquifers in Germany are natural flow-dominated. The scenario analysis results also show that reduced human withdrawals could help with regime change in some aquifers. For instance, in two of the selected USA aquifers, a decrease in anthropogenic influences by ~20% may change the condition of depleted regime to natural flow-dominated regime. We specifically highlight a trending threat to the sustainability of groundwater in northwest Iran and California, and the need for more careful assessment and monitoring practices as well as strict regulations to mitigate the negative impacts of groundwater overexploitation. This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (hout) and inflow (hin). The framework is useful for sustainability assessment of groundwater systems and allows investigating the effects of different human water abstraction scenarios on the overall aquifer regime (e.g., depleted, natural flow-dominated, and human flow-dominated). We apply this approach to selected regions in the USA, Germany and Iran to evaluate the current aquifer regime. We subsequently present two scenarios of changes in human water withdrawals and return flow to the system (individually and combined). Results show that approximately one-third of the selected aquifers in the USA, and half of the selected aquifers in Iran are dominated by human activities, while the selected aquifers in Germany are natural flow-dominated. The scenario analysis results also show that reduced human withdrawals could help with regime change in some aquifers. For instance, in two of the selected USA aquifers, a decrease in anthropogenic influences by ~20% may change the condition of depleted regime to natural flow-dominated regime. We specifically highlight a trending threat to the sustainability of groundwater in northwest Iran and California, and the need for more careful assessment and monitoring practices as well as strict regulations to mitigate the negative impacts of groundwater overexploitation. |
ArticleNumber | 12910 |
Author | Alizadeh, Amin Madani, Kaveh Ashraf, Batool Mousavi Baygi, Mohammad Mirchi, Ali R Moftakhari, Hamed Anjileli, Hassan AghaKouchak, Amir |
Author_xml | – sequence: 1 givenname: Batool surname: Ashraf fullname: Ashraf, Batool organization: Department of Water Engineering, Ferdowsi University of Mashhad, Mashhad, Iran – sequence: 2 givenname: Amir surname: AghaKouchak fullname: AghaKouchak, Amir email: amir.a@uci.edu organization: Department of Civil and Environmental Engineering, University of California, Irvine, USA. amir.a@uci.edu – sequence: 3 givenname: Amin surname: Alizadeh fullname: Alizadeh, Amin organization: Department of Water Engineering, Ferdowsi University of Mashhad, Mashhad, Iran – sequence: 4 givenname: Mohammad surname: Mousavi Baygi fullname: Mousavi Baygi, Mohammad organization: Department of Water Engineering, Ferdowsi University of Mashhad, Mashhad, Iran – sequence: 5 givenname: Hamed surname: R Moftakhari fullname: R Moftakhari, Hamed organization: Department of Civil and Environmental Engineering, University of California, Irvine, USA – sequence: 6 givenname: Ali surname: Mirchi fullname: Mirchi, Ali organization: Department of Civil Engineering and Center for Environmental Resource Management, University of Texas at El Paso, El Paso, USA – sequence: 7 givenname: Hassan surname: Anjileli fullname: Anjileli, Hassan organization: Department of Civil and Environmental Engineering, University of California, Irvine, USA – sequence: 8 givenname: Kaveh orcidid: 0000-0003-0378-3170 surname: Madani fullname: Madani, Kaveh organization: Department of Physical Geography, Stockholm University, Stockholm, Sweden |
BackLink | https://www.ncbi.nlm.nih.gov/pubmed/29018217$$D View this record in MEDLINE/PubMed https://urn.kb.se/resolve?urn=urn:nbn:se:su:diva-149025$$DView record from Swedish Publication Index |
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) and inflow (h
).... Abstract This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (h out ) and... This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (hout) and inflow... This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (h out ) and inflow (h... This study explores a general framework for quantifying anthropogenic influences on groundwater budget based on normalized human outflow (h(out)) and inflow... |
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Title | Quantifying Anthropogenic Stress on Groundwater Resources |
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