Assessment of subsoil characteristics by electrical resistivity method for engineering, groundwater and environmental impact at a proposed estate in a basement complex terrain—a case study from Southwestern Nigeria

IF 1.827 Q2 Earth and Planetary Sciences
Martins Olusola Olorunfemi, Ademakinwa George Oni, Taiwo Kazeem Fadare, Oluwaseyi Emmanuel Olajuyigbe
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Abstract

We present an integrated site investigation of a proposed estate with a view to generating baseline data required for safe design and construction of structures and groundwater schemes, installation and protection of utilities, and post-construction environmental issues. An electrical resistivity survey involving 1D and 2D imaging techniques was involved. The 1D resistivity imaging involved the Schlumberger Vertical Electrical Sounding (VES) with half current electrode spacing of 1–125 m, whose data were interpreted for layer resistivities and thicknesses using segment-by-segment curve matching and 1D forward modeling with W-Geosoft/WinSev 5.1 code. The 2D dipole-dipole resistivity imaging utilized 20 m dipole length and an expansion factor (n) ranging from 1 to 5. The 2D data were inverted to 2D resistivity images with DIPRO software. The 1D and 2D interpretation models delineated five subsurface layers comprising topsoil, fill, laterite, weathered basement, and fresh basement. The weathered basement is the main aquifer with thicknesses ranging from 11.9 to 64.4 m with prospect for groundwater development. The essentially lateritic subsoils in the upper 10 m with resistivity values generally > 450 Ωm are adjudged moderately to highly competent. The low-porosity/permeability lateritic layer overlying the weathered layer aquifer constitutes a sealant against infiltrating pollutant with the groundwater significantly protected. Except within the stream channel, the soils/subsoils are practically non-corrosive.

Abstract Image

Abstract Image

用电阻率法评估地下土壤特性,以确定在地基复杂地形中拟建庄园对工程、地下水和环境的影响--尼日利亚西南部的案例研究
我们介绍了一个拟建小区的综合现场调查,目的是为结构和地下水计划的安全设计和施工、公用设施的安装和保护以及施工后的环境问题提供所需的基准数据。电阻率勘测涉及一维和二维成像技术。一维电阻率成像包括斯伦贝谢垂直电探测(VES),半电流电极间距为 1-125 米,其数据通过逐段曲线匹配和 W-Geosoft/WinSev 5.1 代码的一维前向建模来解释层电阻率和厚度。二维偶极子-偶极子电阻率成像采用 20 米偶极子长度和 1 至 5 的扩展因子 (n)。利用 DIPRO 软件将二维数据反演为二维电阻率图像。一维和二维解释模型划分了五个地下层,包括表土层、填土层、红土层、风化基底层和新鲜基底层。风化基底是主要含水层,厚度从 11.9 米到 64.4 米不等,具有地下水开发前景。上部 10 米基本上是红土基土,电阻率值一般为 450 Ωm,被认为是中等至高含水层。覆盖在风化层含水层上的低孔隙度/渗透性红土层构成了防止污染物渗透的密封层,使地下水得到了很好的保护。除河道外,土壤/底土几乎没有腐蚀性。
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来源期刊
Arabian Journal of Geosciences
Arabian Journal of Geosciences GEOSCIENCES, MULTIDISCIPLINARY-
自引率
0.00%
发文量
1587
审稿时长
6.7 months
期刊介绍: The Arabian Journal of Geosciences is the official journal of the Saudi Society for Geosciences and publishes peer-reviewed original and review articles on the entire range of Earth Science themes, focused on, but not limited to, those that have regional significance to the Middle East and the Euro-Mediterranean Zone. Key topics therefore include; geology, hydrogeology, earth system science, petroleum sciences, geophysics, seismology and crustal structures, tectonics, sedimentology, palaeontology, metamorphic and igneous petrology, natural hazards, environmental sciences and sustainable development, geoarchaeology, geomorphology, paleo-environment studies, oceanography, atmospheric sciences, GIS and remote sensing, geodesy, mineralogy, volcanology, geochemistry and metallogenesis.
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