Unlocking the hidden potential: groundwater zone mapping using AHP, remote sensing and GIS techniques
Groundwater resource problems are increasing development and planning challenges due to climate change and overexploitation, necessitating assessments of their potential and productivity. The study area has been facing a groundwater level decline problem for many years, and these results can help in...
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my.uniten.dspace-345332024-10-14T11:20:28Z Unlocking the hidden potential: groundwater zone mapping using AHP, remote sensing and GIS techniques Shelar R.S. Nandgude S.B. Pande C.B. Costache R. El-Hiti G.A. Tolche A.D. Son C.T. Yadav K.K. 57872240400 55669274900 57193547008 55888132500 7004126373 57198446685 57212762982 57202908705 AHP climate change GIS Groundwater river basin Geographic information systems Groundwater Groundwater resources Hierarchical systems Land use Maps Remote sensing Rivers Watersheds Analytical hierarchical process Ground water level Groundwater potentials Overexploitation Process methods Remote sensing and GIS River basins Study areas Thematic maps Zone mapping Climate change Groundwater resource problems are increasing development and planning challenges due to climate change and overexploitation, necessitating assessments of their potential and productivity. The study area has been facing a groundwater level decline problem for many years, and these results can help increase the groundwater level in the basaltic rock area. In this research, we have worked on the demarcation and suitability of groundwater potential zones using GIS and Analytical Hierarchical Process (AHP) methods for the Urmodi River Basin. This research prepared eight thematic maps, that is, geomorphology, geology, drainage density, land use/land cover, elevation, lineament density and slope from satellite data and GIS methods, which play a primary factor in determining the proper groundwater potential zones. In this study, every thematic map was allocated weights depending on its specific characteristics and contribution to the groundwater potential capacity. The weights were determined using the AHP method, which considers the comparative significance of every layer about others. This weighting procedure allowed for a comprehensive assessment of the factors influencing groundwater potential in the Urmodi River basin. The resulting groundwater potential map was divided into four classes, that is, good, excellent, moderate, and poor. The study revealed that approximately 22.69% of the basin had excellent groundwater potential, 28.96% had good potential, 25.32% had moderate potential, and 22.92% had poor potential. These study findings suggest that a significant portion of the Urmodi River Basin exhibits good to moderate groundwater potential, indicating promising opportunities for sustainable groundwater utilization in the region. The groundwater potential zone map accuracy is 84% based on the Receiver Operating Characteristic (ROC) method. These results can have implications for sustainable groundwater resources and provide a framework for conducting similar assessments in other regions. The results can be more important for sustainable development goals and helpful in increasing groundwater levels in the area. � 2023 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group. Final 2024-10-14T03:20:27Z 2024-10-14T03:20:27Z 2023 Article 10.1080/19475705.2023.2264458 2-s2.0-85174401426 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85174401426&doi=10.1080%2f19475705.2023.2264458&partnerID=40&md5=4746aca4a04bd2a598a448a4da3b009d https://irepository.uniten.edu.my/handle/123456789/34533 14 1 2264458 All Open Access Gold Open Access Taylor and Francis Ltd. Scopus |
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AHP climate change GIS Groundwater river basin Geographic information systems Groundwater Groundwater resources Hierarchical systems Land use Maps Remote sensing Rivers Watersheds Analytical hierarchical process Ground water level Groundwater potentials Overexploitation Process methods Remote sensing and GIS River basins Study areas Thematic maps Zone mapping Climate change |
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AHP climate change GIS Groundwater river basin Geographic information systems Groundwater Groundwater resources Hierarchical systems Land use Maps Remote sensing Rivers Watersheds Analytical hierarchical process Ground water level Groundwater potentials Overexploitation Process methods Remote sensing and GIS River basins Study areas Thematic maps Zone mapping Climate change Shelar R.S. Nandgude S.B. Pande C.B. Costache R. El-Hiti G.A. Tolche A.D. Son C.T. Yadav K.K. Unlocking the hidden potential: groundwater zone mapping using AHP, remote sensing and GIS techniques |
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Groundwater resource problems are increasing development and planning challenges due to climate change and overexploitation, necessitating assessments of their potential and productivity. The study area has been facing a groundwater level decline problem for many years, and these results can help increase the groundwater level in the basaltic rock area. In this research, we have worked on the demarcation and suitability of groundwater potential zones using GIS and Analytical Hierarchical Process (AHP) methods for the Urmodi River Basin. This research prepared eight thematic maps, that is, geomorphology, geology, drainage density, land use/land cover, elevation, lineament density and slope from satellite data and GIS methods, which play a primary factor in determining the proper groundwater potential zones. In this study, every thematic map was allocated weights depending on its specific characteristics and contribution to the groundwater potential capacity. The weights were determined using the AHP method, which considers the comparative significance of every layer about others. This weighting procedure allowed for a comprehensive assessment of the factors influencing groundwater potential in the Urmodi River basin. The resulting groundwater potential map was divided into four classes, that is, good, excellent, moderate, and poor. The study revealed that approximately 22.69% of the basin had excellent groundwater potential, 28.96% had good potential, 25.32% had moderate potential, and 22.92% had poor potential. These study findings suggest that a significant portion of the Urmodi River Basin exhibits good to moderate groundwater potential, indicating promising opportunities for sustainable groundwater utilization in the region. The groundwater potential zone map accuracy is 84% based on the Receiver Operating Characteristic (ROC) method. These results can have implications for sustainable groundwater resources and provide a framework for conducting similar assessments in other regions. The results can be more important for sustainable development goals and helpful in increasing groundwater levels in the area. � 2023 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group. |
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57872240400 |
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57872240400 Shelar R.S. Nandgude S.B. Pande C.B. Costache R. El-Hiti G.A. Tolche A.D. Son C.T. Yadav K.K. |
format |
Article |
author |
Shelar R.S. Nandgude S.B. Pande C.B. Costache R. El-Hiti G.A. Tolche A.D. Son C.T. Yadav K.K. |
author_sort |
Shelar R.S. |
title |
Unlocking the hidden potential: groundwater zone mapping using AHP, remote sensing and GIS techniques |
title_short |
Unlocking the hidden potential: groundwater zone mapping using AHP, remote sensing and GIS techniques |
title_full |
Unlocking the hidden potential: groundwater zone mapping using AHP, remote sensing and GIS techniques |
title_fullStr |
Unlocking the hidden potential: groundwater zone mapping using AHP, remote sensing and GIS techniques |
title_full_unstemmed |
Unlocking the hidden potential: groundwater zone mapping using AHP, remote sensing and GIS techniques |
title_sort |
unlocking the hidden potential: groundwater zone mapping using ahp, remote sensing and gis techniques |
publisher |
Taylor and Francis Ltd. |
publishDate |
2024 |
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1814061184138084352 |
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13.209306 |