Please use this identifier to cite or link to this item: http://ir.futminna.edu.ng:8080/jspui/handle/123456789/27204
Title: Contribution of electrical prospecting and spatiotemporal variations to groundwater potential in coastal hydro‑sand beds: a case study of Akwa Ibom State, Southern Nigeria
Authors: Nyakno , Jimmy George
Agbasi, Okechukwu Ebuka
Umoh, James Anthony 
Ekanem, Aniekan Martin 
Ejepu, J. S. 
Thomas, Jewel Emem 
Udoinyang, Ifok Efong
Keywords: AHP 
Aquifer 
Groundwater potential
Spatiotemporal variations
Sand beds
Issue Date: 20-Dec-2022
Publisher: Acta Geophysica
Citation: Nyakno, G. J., Agbasi, O. E., Umoh, J. A., Ekanem, A. M., Ejepu, J. S., Thomas, J. E., & Udoinyang, I. E. (2022). Contribution of electrical prospecting and spatiotemporal variations to groundwater potential in coastal hydro-sand beds: A case study of Akwa Ibom State, Southern Nigeria. Acta Geophysica, 71(5), 2339–2357. https://doi.org/10.1007/s11600-022-00994-2.
Abstract: The current study used vertical electrical sounding (VES), borehole (BH) data, Remote Sensing (RS), and Geographic Infor- mation System (GIS) techniques to identify groundwater potential zones in the coastal area of Akwa Ibom state, Nigeria, for the frst time. This research aimed at producing groundwater potential zone map that can divide the study region into separate zones based on their groundwater potential ranking. The deployed method integrated VES procedure utilizing the Schlumberger electrode confguration some core samples for estimation of porosity, Satellite Shuttle Radar Topography Mission (SRTM), Digital Elevation Model (DEM), which served as input data for RS and GIS. Thematic maps of lineament density, lithology, land use and land cover, drainage density, and slope were created as GIS layers in a geo-database. Weight- ages were assigned based on a pair-wise assessment of the components that appear to be essential in retaining, storing, and transporting groundwater. The Analytical Hierarchy Process (AHP) was used in a GIS setting to merge fve thematic maps of elements controlling groundwater occurrence and movement using weighted overlay. Results show that aquifers with high thickness and depths are clustering around VES 9, VES 14, and VES 15 that have the highest aquifer thickness in the range of 219–262 m and the highest aquifer depth in the range of 222.09–264.74 m. The highest aquifer resistivity in this area ranges from 2963 to 3683 Ωm. The hydraulic conductivity of the area is highest around the south-eastern part of the study area, with maximum value of 3.43 m/day. The transmissivity increases in the northern part of the study area, while the eastern parts showed the lowest values. The highest aquifer resistivity in this area ranged from 2963 to 3683 Ωm. Inference from analysis indicated that the most important element was soil type (43%), followed by lineament density (33%) and slope (13%). Land use/land cover was discovered as a marginal contributor to groundwater in the research region, accounting for about 4% of the total contributors. The study CR determined to be 0.043884, is much lower than the 0.10 consistency threshold and hence the justifcation of the results. The result of the overlay of the geophysical survey on the groundwater potential zones obtained from the RS, GIS, and VES techniques done in the frst time in the study area has shown seamlessly that the study area has high groundwater prospectivity for subsistent and commercial extractions.
URI: http://repository.futminna.edu.ng:8080/jspui/handle/123456789/27204
Appears in Collections:Geology

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