AQUIFER VULNERABILITY EVALUATION IN SOUTHWESTERN NIGERIA FROM AHP-GODT MODEL USING GEO-ELECTRICAL DERIVED PARAMETERS

Jurnal Meteorologi dan Geofisika Pub Date : 2021-10-08 DOI:10.31172/JMG.V22I1.764

S. Olatunji, Ahmed Muyiwa Emiola, Adewale Warith Adebisi

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Abstract

The study aimed to determine the exposure levels of the subsurface aquiferous layers, owing to the alarming rate of contamination of the groundwater within 8.150 0N - 8.156 0N and 4.244 0E - 4.248 0E. Thus, aquifers' overlying layers, resistivity, and thickness anomalies were determined to generate an aquifer vulnerability map. A multi-criteria decision method of estimated Groundwater confinement, Overlying strata, Depth to Aquifer, and Topography index approach was implemented. Schlumberger's Vertical Electrical Sounding technique was implemented to acquire 30 Vertical Electrical Sounding points under a maximum half-current electrode separation (AB/2) of 65 m. IP2Win geophysical software packages were used to analyze the varying layer resistivity, depth, thickness, and also the sounding curves of the study area. The 2D model revealed a maximum of four geo-electric layers. The layers' resistivity and thickness ranges are clayey silt topsoil (52.5-1104 Ωm; 0.5-9.59 m), weathered layer (10.3-804 Ωm; 0.6-12.1 m), fractured basement (5.5-50832 Ωm; 6.7-18.1 m) and fresh basement (8.3-27348 Ωm; infinity m). On the Groundwater Overlying Strata Depth to Aquifer and Topography model scale, the area is generally characterized by the moderate vulnerability. Implying here is that aquifers have a moderate protective capacity in which the overlying strata above the aquifer are mostly impermeable layers (clay and silt) of high thickness and low porosity.

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利用地电衍生参数ahp-godt模型评价尼日利亚西南部含水层脆弱性

由于地下水在8.150 n - 8.156 n和4.244 e - 4.248 e范围内的污染警戒率，本研究旨在确定地下含水层的暴露水平。因此，确定含水层的上覆层、电阻率和厚度异常，生成含水层易损性图。提出了一种估算地下水约束、上覆地层、含水层深度和地形指数法的多准则决策方法。采用斯伦贝谢的垂直电测深技术，在最大半电流电极间距(AB/2)为65 m的条件下获得了30个垂直电测深点。利用IP2Win地球物理软件包对研究区各层电阻率、深度、厚度及测深曲线进行了分析。二维模型显示最多有四个地电层。各层电阻率及厚度范围为黏性粉土表土(52.5 ~ 1104 Ωm;0.5-9.59 m)，风化层(10.3-804 Ωm;0.6-12.1 m)，断裂基底(5.5-50832 Ωm;6.7-18.1 m)和新鲜地下室(8.3-27348 Ωm;在地下水上覆层至含水层深度和地形模型尺度上，该地区总体上具有中等脆弱性特征。这意味着含水层具有中等的保护能力，其上覆层主要是高厚度、低孔隙度的不透水层(粘土和粉砂)。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Jurnal Meteorologi dan Geofisika

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审稿时长

12 weeks