Impacts of Urbanization and Climate Variability on Groundwater Environment in a Basin Scale
Globally, groundwater resources are experiencing a decline in hydraulic heads resulting from the dual effects of urbanization and climate change, highlighting the need for integrated and sustainable water resources management. Urban development in the cities of Kansai region, western Japan, presents...
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MDPI AG
2025-06-01
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| author | Olawale Joshua Abidakun Mitsuyo Saito Shin-ichi Onodera Kunyang Wang |
| author_facet | Olawale Joshua Abidakun Mitsuyo Saito Shin-ichi Onodera Kunyang Wang |
| author_sort | Olawale Joshua Abidakun |
| collection | DOAJ |
| description | Globally, groundwater resources are experiencing a decline in hydraulic heads resulting from the dual effects of urbanization and climate change, highlighting the need for integrated and sustainable water resources management. Urban development in the cities of Kansai region, western Japan, presents a significant challenge to the sustainability of groundwater resources. This study aims to assess the combined influence of urbanization and climate change on the groundwater resources of the Nara Basin using MODFLOW 6 for two distinct periods: The Pre-Urbanization Period (PreUP: 1980–1988), and the Post-Urbanization Period (PostUP, 2000–2008) with an emphasis on spatiotemporal distribution of recharge in a multi-layer aquifer system. Simulated hydraulic heads were evaluated under three different recharge scenarios: uniformly, spatiotemporally and spatially distributed. The uniform recharge scenario both overestimates and underestimates hydraulic heads, while the spatially distributed scenario produced a simulated heads distribution similar to the spatiotemporally distributed recharge scenario, underscoring the importance of incorporating spatiotemporal variability in recharge input for accurate groundwater flow simulation. Moreover, our results highlight the relevance of spatial distribution of recharge input than temporal distribution. Our findings indicate a significant decrease in hydraulic heads of approximately 5 m from the PreUP to PostUP in the unconfined aquifer, primarily driven by changes in land use and climate. In contrast, the average head decline in deep confined aquifers is about 4 m and is mainly influenced by long-term climatic variations. The impervious land use types experienced more decline in hydraulic heads than the permeable areas under changing climate because of the impedance to infiltration and percolation exacerbating the climate variability effect. These changes in hydraulic heads were particularly evident in the interactions between surface and groundwater. The cumulative volume of groundwater discharge to the river decreased by 27%, while the river seepage into the aquifer increased by 16%. Sustainable groundwater resources management under conditions of urbanization and climate change necessitates a holistic and integrated approach. |
| format | Article |
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| language | English |
| publishDate | 2025-06-01 |
| publisher | MDPI AG |
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| spelling | doaj-art-3ee26d14ee734e4797cb150efb3d694f2025-08-20T03:07:58ZengMDPI AGHydrology2306-53382025-06-0112717310.3390/hydrology12070173Impacts of Urbanization and Climate Variability on Groundwater Environment in a Basin ScaleOlawale Joshua Abidakun0Mitsuyo Saito1Shin-ichi Onodera2Kunyang Wang3Graduate School of Advanced Science and Engineering, Hiroshima University, 1-7-1, Kagamiyama, Higashi-Hiroshima 739-8521, JapanGraduate School of Advanced Science and Engineering, Hiroshima University, 1-7-1, Kagamiyama, Higashi-Hiroshima 739-8521, JapanGraduate School of Advanced Science and Engineering, Hiroshima University, 1-7-1, Kagamiyama, Higashi-Hiroshima 739-8521, JapanGraduate School of Advanced Science and Engineering, Hiroshima University, 1-7-1, Kagamiyama, Higashi-Hiroshima 739-8521, JapanGlobally, groundwater resources are experiencing a decline in hydraulic heads resulting from the dual effects of urbanization and climate change, highlighting the need for integrated and sustainable water resources management. Urban development in the cities of Kansai region, western Japan, presents a significant challenge to the sustainability of groundwater resources. This study aims to assess the combined influence of urbanization and climate change on the groundwater resources of the Nara Basin using MODFLOW 6 for two distinct periods: The Pre-Urbanization Period (PreUP: 1980–1988), and the Post-Urbanization Period (PostUP, 2000–2008) with an emphasis on spatiotemporal distribution of recharge in a multi-layer aquifer system. Simulated hydraulic heads were evaluated under three different recharge scenarios: uniformly, spatiotemporally and spatially distributed. The uniform recharge scenario both overestimates and underestimates hydraulic heads, while the spatially distributed scenario produced a simulated heads distribution similar to the spatiotemporally distributed recharge scenario, underscoring the importance of incorporating spatiotemporal variability in recharge input for accurate groundwater flow simulation. Moreover, our results highlight the relevance of spatial distribution of recharge input than temporal distribution. Our findings indicate a significant decrease in hydraulic heads of approximately 5 m from the PreUP to PostUP in the unconfined aquifer, primarily driven by changes in land use and climate. In contrast, the average head decline in deep confined aquifers is about 4 m and is mainly influenced by long-term climatic variations. The impervious land use types experienced more decline in hydraulic heads than the permeable areas under changing climate because of the impedance to infiltration and percolation exacerbating the climate variability effect. These changes in hydraulic heads were particularly evident in the interactions between surface and groundwater. The cumulative volume of groundwater discharge to the river decreased by 27%, while the river seepage into the aquifer increased by 16%. Sustainable groundwater resources management under conditions of urbanization and climate change necessitates a holistic and integrated approach.https://www.mdpi.com/2306-5338/12/7/173numerical modelgroundwater rechargeurbanizationclimate variabilitysurface water-groundwater interaction |
| spellingShingle | Olawale Joshua Abidakun Mitsuyo Saito Shin-ichi Onodera Kunyang Wang Impacts of Urbanization and Climate Variability on Groundwater Environment in a Basin Scale Hydrology numerical model groundwater recharge urbanization climate variability surface water-groundwater interaction |
| title | Impacts of Urbanization and Climate Variability on Groundwater Environment in a Basin Scale |
| title_full | Impacts of Urbanization and Climate Variability on Groundwater Environment in a Basin Scale |
| title_fullStr | Impacts of Urbanization and Climate Variability on Groundwater Environment in a Basin Scale |
| title_full_unstemmed | Impacts of Urbanization and Climate Variability on Groundwater Environment in a Basin Scale |
| title_short | Impacts of Urbanization and Climate Variability on Groundwater Environment in a Basin Scale |
| title_sort | impacts of urbanization and climate variability on groundwater environment in a basin scale |
| topic | numerical model groundwater recharge urbanization climate variability surface water-groundwater interaction |
| url | https://www.mdpi.com/2306-5338/12/7/173 |
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