Sustainable groundwater development in the coastal Tra Vinh province in Vietnam under saltwater intrusion and climate change

Three-dimensional transient groundwater flow and saltwater transport models were constructed to assess the impacts of groundwater abstraction and climate change on the coastal aquifer of Tra Vinh province (Vietnam). The groundwater flow model was calibrated with groundwater levels (2007–2016) measur...

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Veröffentlicht in:	Hydrogeology journal 2023-05, Vol.31 (3), p.731-749
Hauptverfasser:	Van, Tuc Dang, Zhou, Yangxiao, Stigter, Tibor Y., Van, Tuan Pham, Hong, Hai Dao, Uyen, Thanh Dong, Tran, Vuong Bui
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Sprache:	eng
Schlagworte:	Aquatic Pollution Aquifer management Aquifer recharge Aquifers climate Climate change Climate effects Climate models Coastal aquifers coasts decline Depletion Dissolved solids Distribution Dunes Earth and Environmental Science Earth Sciences Geology Geophysics/Geodesy Groundwater Groundwater depletion groundwater extraction Groundwater flow Groundwater levels Groundwater potential Groundwater recharge Groundwater resources Groundwater storage Hydrogeology hydrologic models Hydrology/Water Resources Mitigation model validation Modelling Observation wells Performance evaluation Resource development Saline water Saline water intrusion Salt water intrusion Saltwater intrusion Sand Seawater Seawater intrusion Simulation Spatial distribution Sustainability Sustainable development Three dimensional flow Total dissolved solids Transport Uranium Vietnam Waste Water Technology Water Management Water Pollution Control Water Quality/Water Pollution Water resources
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container_title	Hydrogeology journal
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creator	Van, Tuc Dang Zhou, Yangxiao Stigter, Tibor Y. Van, Tuan Pham Hong, Hai Dao Uyen, Thanh Dong Tran, Vuong Bui
description	Three-dimensional transient groundwater flow and saltwater transport models were constructed to assess the impacts of groundwater abstraction and climate change on the coastal aquifer of Tra Vinh province (Vietnam). The groundwater flow model was calibrated with groundwater levels (2007–2016) measured in 13 observation wells. The saltwater transport model was compared with the spatial distribution of total dissolved solids. Model performance was evaluated by comparing observed and simulated groundwater levels. The projected rainfalls from two climate models (MIROC5 and CRISO Mk3.6) were subsequently used to simulate possible effects of climate changes. The simulation revealed that groundwater is currently depleted due to overabstraction. Towards the future, groundwater storage will continue to be depleted with the current abstraction regime, further worsening in the north due to saltwater intrusion from inland trapped saltwater and on the coast due to seawater intrusion. Notwithstanding, the impact from climate change may be limited, with the computed groundwater recharge from the two climate models revealing no significant change from 2017 to 2066. Three feasible mitigation scenarios were analyzed: (1) reduced groundwater abstraction by 25, 35 and 50%, (2) increased groundwater recharge by 1.5 and 2 times in the sand dunes through managed aquifer recharge (reduced abstraction will stop groundwater-level decline, while increased recharge will restore depleted storage), and (3) combining 50% abstraction reduction and 1.5 times recharge increase in sand dune areas. The results show that combined interventions of reducing abstraction and increasing recharge are necessary for sustainable groundwater resources development in Tra Vinh province.
doi_str_mv	10.1007/s10040-023-02607-8
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Three feasible mitigation scenarios were analyzed: (1) reduced groundwater abstraction by 25, 35 and 50%, (2) increased groundwater recharge by 1.5 and 2 times in the sand dunes through managed aquifer recharge (reduced abstraction will stop groundwater-level decline, while increased recharge will restore depleted storage), and (3) combining 50% abstraction reduction and 1.5 times recharge increase in sand dune areas. 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Three feasible mitigation scenarios were analyzed: (1) reduced groundwater abstraction by 25, 35 and 50%, (2) increased groundwater recharge by 1.5 and 2 times in the sand dunes through managed aquifer recharge (reduced abstraction will stop groundwater-level decline, while increased recharge will restore depleted storage), and (3) combining 50% abstraction reduction and 1.5 times recharge increase in sand dune areas. 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change</atitle><jtitle>Hydrogeology journal</jtitle><stitle>Hydrogeol J</stitle><date>2023-05-01</date><risdate>2023</risdate><volume>31</volume><issue>3</issue><spage>731</spage><epage>749</epage><pages>731-749</pages><issn>1431-2174</issn><eissn>1435-0157</eissn><abstract>Three-dimensional transient groundwater flow and saltwater transport models were constructed to assess the impacts of groundwater abstraction and climate change on the coastal aquifer of Tra Vinh province (Vietnam). The groundwater flow model was calibrated with groundwater levels (2007–2016) measured in 13 observation wells. The saltwater transport model was compared with the spatial distribution of total dissolved solids. Model performance was evaluated by comparing observed and simulated groundwater levels. The projected rainfalls from two climate models (MIROC5 and CRISO Mk3.6) were subsequently used to simulate possible effects of climate changes. The simulation revealed that groundwater is currently depleted due to overabstraction. Towards the future, groundwater storage will continue to be depleted with the current abstraction regime, further worsening in the north due to saltwater intrusion from inland trapped saltwater and on the coast due to seawater intrusion. Notwithstanding, the impact from climate change may be limited, with the computed groundwater recharge from the two climate models revealing no significant change from 2017 to 2066. Three feasible mitigation scenarios were analyzed: (1) reduced groundwater abstraction by 25, 35 and 50%, (2) increased groundwater recharge by 1.5 and 2 times in the sand dunes through managed aquifer recharge (reduced abstraction will stop groundwater-level decline, while increased recharge will restore depleted storage), and (3) combining 50% abstraction reduction and 1.5 times recharge increase in sand dune areas. The results show that combined interventions of reducing abstraction and increasing recharge are necessary for sustainable groundwater resources development in Tra Vinh province.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><doi>10.1007/s10040-023-02607-8</doi><tpages>19</tpages><oa>free_for_read</oa></addata></record>
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subjects	Aquatic Pollution Aquifer management Aquifer recharge Aquifers climate Climate change Climate effects Climate models Coastal aquifers coasts decline Depletion Dissolved solids Distribution Dunes Earth and Environmental Science Earth Sciences Geology Geophysics/Geodesy Groundwater Groundwater depletion groundwater extraction Groundwater flow Groundwater levels Groundwater potential Groundwater recharge Groundwater resources Groundwater storage Hydrogeology hydrologic models Hydrology/Water Resources Mitigation model validation Modelling Observation wells Performance evaluation Resource development Saline water Saline water intrusion Salt water intrusion Saltwater intrusion Sand Seawater Seawater intrusion Simulation Spatial distribution Sustainability Sustainable development Three dimensional flow Total dissolved solids Transport Uranium Vietnam Waste Water Technology Water Management Water Pollution Control Water Quality/Water Pollution Water resources
title	Sustainable groundwater development in the coastal Tra Vinh province in Vietnam under saltwater intrusion and climate change
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