Construction of multi-purpose geophysical test site on a lateritic clay soil

IF 1.827 Q2 Earth and Planetary Sciences
Joseph Omeiza Alao, Kolawole Muideen Lawal, Bala Bello Muhammad Dewu, Jimoh Raimi
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引用次数: 0

Abstract

Developing a geophysical test site (GTS) to a full target requires a lot of work in sequential order. This article presents the construction procedures and requirements for developing a GTS, field measurements, geophysical response analyses, and site descriptions. A GTS is an experimental site that contains several targets of known properties, materials, and parameters, buried at different locations, depths, and orientations. The 55 m × 55 m multi-purpose GTS was developed within the Ahmadu Bello University Geophysics Test Site (ABUGTS). The site was developed on a lateritic-clay soil within a shallow depth of 0.6–3 m to study the geophysical signature of various burial scenarios and replicate situations usually encountered in geophysical surveys, engineering, and environmental investigations. A pre-buried investigation with integrated geophysical methods was conducted to provide adequate information about the site condition. The integrated geophysical methods were also explored on a few buried targets for test runs alongside a laboratory test to determine the electrical and magnetic properties of the buried targets. The pre-burial study indicates that the site’s electrical resistivity (ER) values decrease significantly from 1081 Ωm to 47 Ωm with depth due to the regional groundwater effect. The post-burial investigations show positive results, corresponding to the laboratory results. The post-burial results show that the subsurface resistivity of the burial terrain decreases from 200 to 0.1 Ωm due to the influence of the buried metallic target and increases from 1081 to 110,000 Ωm due to the influence of the buried non-metallic target, while the total magnetic intensity of the site increases from 44,500 to 48,000 nT. Seismic result shows distortion in subsoil layers after the buried target, confirming a significant influence of the natural geophysical signature of the site by buried targets. The implications of the GTS on economic growth and educational activities were discussed. Geophysicists, researchers, and institutions can now take advantage of the site to explore the existing and new geophysical techniques routinely employed in geophysical investigations. Geophysical equipment manufacturers and individuals can also use the site for instrument configurations. The site can provide an experimental site to appreciate the nature of subsurface anomalous generated by different buried targets. It can serve as a guide for modelling new GTSs while bridging the gaps between hypothetical teaching and real-life problems through effective field-based exercises.

Abstract Image

在红土粘土上建造多功能地球物理试验场
要将地球物理试验场(GTS)发展成为一个完整的目标,需要按顺序开展大量工作。本文介绍了开发地球物理试验场的建设程序和要求、实地测量、地球物理响应分析和场地说明。GTS 是一个实验场地,包含多个已知性质、材料和参数的目标,埋设在不同的位置、深度和方向。55 米 × 55 米多用途地球物理试验场是在艾哈迈杜-贝洛大学地球物理试验场(ABUGTS)内开发的。该试验场位于 0.6-3 米浅的红土粘土上,目的是研究各种掩埋情况下的地球物理特征,并复制地球物理勘测、工程和环境调查中通常遇到的情况。采用综合地球物理方法进行了埋藏前调查,以充分了解现场情况。综合地球物理方法还在几个埋藏目标上进行了试运行探索,同时还进行了实验室测试,以确定埋藏目标的电特性和磁特性。埋藏前的研究表明,由于区域地下水的影响,场地的电阻率(ER)值随深度的增加而从 1081 Ωm 显著下降到 47 Ωm。掩埋后调查显示了与实验室结果一致的积极结果。埋藏后的结果显示,由于埋藏金属目标的影响,埋藏地形的地下电阻率从 200 Ωm 减小到 0.1 Ωm,由于埋藏非金属目标的影响,地下电阻率从 1081 Ωm 增加到 110,000 Ωm,而遗址的总磁强从 44,500 nT 增加到 48,000 nT。地震结果显示,埋藏目标后的底土层发生了变形,这证实了埋藏目标对矿址自然地球物理特征的重大影响。会议还讨论了全球地震观测系统对经济增长和教育活动的影响。地球物理学家、研究人员和机构现在可以利用该场址,探索地球物理调查中常规使用的现有和新的地球物理技术。地球物理设备制造商和个人也可以利用该场址进行仪器配置。该场址可提供一个实验场地,以了解不同埋藏目标所产生的地下异常现象的性质。它可以作为新的全球定位系统建模的指南,同时通过有效的实地练习,缩小假设教学与实际问题之间的差距。
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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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