Evaluation of the groundwater recharge potential zone by using GIS and remote sensing in Ziway Abijata sub-basin, Central Rift Valley of Ethiopia

Mitiku Badasa Moisa; Mengistu Muleta Gurmessa; Geda Feyera Negasa; Dereje Geleta Oljira; Misgana Lamessa Dinsa; Kiros Tsegay Deribew; Zenebe Reta Roba; Dessalegn Obsi Gemeda

doi:10.2166/ws.2023.183

Water Supply (Aug 2023)

Evaluation of the groundwater recharge potential zone by using GIS and remote sensing in Ziway Abijata sub-basin, Central Rift Valley of Ethiopia

Mitiku Badasa Moisa,
Mengistu Muleta Gurmessa,
Geda Feyera Negasa,
Dereje Geleta Oljira,
Misgana Lamessa Dinsa,
Kiros Tsegay Deribew,
Zenebe Reta Roba,
Dessalegn Obsi Gemeda

Affiliations

Mitiku Badasa Moisa: Department of Agricultural Engineering, Faculty of Technology, Wollega University Shambu Campus, Shambu, Ethiopia
Mengistu Muleta Gurmessa: Department of Fisheries and Aquatic Sciences, Faculty of Agriculture, Wollega University Shambu Campus, Shambu, Ethiopia
Geda Feyera Negasa: Department of Agricultural Engineering, Faculty of Technology, Wollega University Shambu Campus, Shambu, Ethiopia
Dereje Geleta Oljira: Department of Industrial Engineering, Faculty of Technology, Wollega University Shambu Campus, Shambu, Ethiopia
Misgana Lamessa Dinsa: Department of Water Resources Irrigation Engineering, Faculty of Technology, Wollega University Shambu Campus, Shambu, Ethiopia
Kiros Tsegay Deribew: Department of Geography and Environmental Studies, Raya University, Maichew, Ethiopia
Zenebe Reta Roba: Department of Forestry, College of Natural Resource and Agricultural Economics, Mettu University Bedele Campus, Bedele, Ethiopia
Dessalegn Obsi Gemeda: Department of Natural Resource Management, College of Agriculture and Veterinary Medicine, Jimma University, Jimma, Ethiopia

DOI: https://doi.org/10.2166/ws.2023.183
Journal volume & issue: Vol. 23, no. 8
pp. 3416 – 3431

Abstract

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Groundwater is fresh water that is stored in an underground zone, which is less vulnerable to pollution than surface water and communally used for economic, social, and ecological purposes. This study aimed to evaluate groundwater recharge potential by using a geographic information system (GIS) and remote sensing in the Ziway Abijata sub-basin, Central Rift Valley of Ethiopia. In the present study, the six parameters of soil drainage, slope, lineament density, drainage density, soil texture, and land use land cover were used. ArcGIS 10.3, ERDAS Imagine 2015, IDRISI Selva 17, Arc SWAT 10.3, and Google Earth Pro were applied. The results revealed that about 58 km2 (2.1%) and 1,442.5 km2 (52.9%) were ranked as excellent and good for the groundwater recharge potential. Consequently, about 1,183.2 km2 (43.4%) was covered by a moderate groundwater recharge zone. Larger parts of the study area were dominated by good and moderate groundwater recharge potential. Based on the results, we recommended that decision-makers, environmentalists, geologists, and other stakeholders will have a critical role in the improvements of the future sustainability and proper management of groundwater in the study area. Further researchers can investigate other ecological parameters and socio-economic data that were not included in the present study. HIGHLIGHTS Evaluating a groundwater recharge potential zone plays a crucial role in the drought-vulnerable area.; Geospatial technology was applied for groundwater recharge potential zone mapping.; The study area was dominated by excellent (2.1%) and good (52.9%) groundwater recharge zones.;

Published in Water Supply

ISSN: 1606-9749 (Print); 1607-0798 (Online)
Publisher: IWA Publishing
Country of publisher: United Kingdom
LCC subjects: Technology: Environmental technology. Sanitary engineering: Water supply for domestic and industrial purposes; Technology: Hydraulic engineering: River, lake, and water-supply engineering (General)
Website: https://iwaponline.com/ws

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