Hydrogeochemical–geophysical investigations of groundwater quality and susceptibility potential in Ikot Ekpene–Obot Akara Local Government Areas, Southern Nigeria

IF 1.6 Q3 WATER RESOURCES Water Practice and Technology Pub Date : 2023-11-06 DOI:10.2166/wpt.2023.187
Aniekan Martin Ekanem, Ndifreke I. Udosen
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Abstract

Abstract Groundwater contamination is of global concern. The study area (Ikot Ekpene–Obot Akara Local Government Areas) continues to experience a swift increase in human population and associated economic activities, leading to the generation of more waste. The fundamental goal of this work is therefore to weigh up the groundwater standard through hydrogeochemical investigation of groundwater samples and the susceptibility potential of the economically exploited aquifer units in the area. The results of the electrical geo-sounding data acquired at 28 locations in the area reveal three to four lithological successions comprising fine/coarse sands and gravels amid patches of thin clay interbeddings at several places. The primary aquifer is the third layer, which is between 10.5 and 101.5 m deep with resistivity values between 359.4 and 2,472.8 Ωm. The hydrogeochemical evaluation of groundwater samples in the area shows that the measured physicochemical parameters are well within the World Health Organization's acceptable limits except for lead and nickel ions. The groundwater quality and susceptibility potential maps generated seem to correlate well and clearly demarcate the poor groundwater quality/high susceptibility potential zones. These maps are useful tools that could aid policymakers in successful groundwater management in the area to meet the needs of the populace.
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尼日利亚南部Ikot Ekpene-Obot Akara地方政府地区地下水水质和易感性潜力的水文地球化学-地球物理调查
地下水污染是全球关注的问题。研究区域(Ikot Ekpene-Obot Akara地方政府区域)继续经历人口和相关经济活动的快速增长,导致产生更多的废物。因此,这项工作的根本目的是通过对地下水样品的水文地球化学调查和该地区经济开发含水层单元的敏感性潜力来衡量地下水标准。在该地区的28个地点获得的电测深数据的结果显示,在几个地方的薄粘土互层中,有三到四个岩性序列,包括细/粗砂和砾石。主含水层为第三层,深度为10.5 ~ 101.5 m,电阻率值为359.4 ~ 2472.8 Ωm。对该地区地下水样本进行的水文地球化学评价表明,除铅和镍离子外,所测量的物理化学参数完全在世界卫生组织的可接受限度之内。生成的地下水水质图与易感电位图相关性较好,清晰地划分出地下水水质差/易感电位高的区域。这些地图是有用的工具,可以帮助决策者成功地管理该地区的地下水,以满足民众的需求。
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来源期刊
CiteScore
2.30
自引率
6.20%
发文量
136
审稿时长
14 weeks
期刊最新文献
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