Please use this identifier to cite or link to this item: http://ir.futminna.edu.ng:8080/jspui/handle/123456789/14028
Title: ELECTRICAL RESISTIVITY SURVEY FOR GROUNDWATER POTENTIALS IN SHAKWATU, NIGER STATE, NIGERIA
Authors: Alhassan, D.U
Adetona, A.A
Keywords: Schlumberger
Shakwatu
Groundwater
Overbuden
Electrical Resistivity
Groundwater
Issue Date: Mar-2021
Publisher: Journal of Science, Technology, Mathematics and Education (JOSTMED)
Citation: Bala Kuta Usman, Alhassan Defyan Usman & Adetona Abbas Adebayo (2021) ELECTRICAL RESISTIVITY SURVEY FOR GROUNDWATER POTENTIALS IN SHAKWATU, NIGER STATE, NIGERIA
Abstract: Schlumberger configuration of the electrical resistivity method was employed to investigate the groundwater potential in Shakwatu, part of Minna Sheet 164. The area is a part of the crystalline basement complex of Nigeria. A total of 36 VES points was established along six profile lilies employing the SAS 4000 Terameter. The maximum current electrode spacing (A8/2) was 100 m while potential electrode separation (MN/2) was set at 15m maximum. Three curve types were noticed from the geoelectric curves; these includes the HA, A and AK curves Almost all the geoelectric sections of the six profiles are composed of three geoelectric layers. The apparent resistivity of the first and second geoelectric layers ranges from 1812m to 69512m and 1112m to 178212m respectively with a thickness range of 0.5 m to 1.6 m and 1.1 m to 16.4 m for the first and second layers. The depth to the first layer ranges from 0.5 m to 1.6 m and 1.9 m to 175 m for the second geoelectric layers. The third layer shows a resistivity range of 49312m to 5631 12m which extends to an infinite depth. The potential VES points for groundwater exploitation in the study area includes P2V2 which indicates low to moderate resistivity at greater depth. VES points P6V1 and P1 V3 which indicates a fairly thick overburden material are also considered as potential points for groundwater exploitation
URI: http://repository.futminna.edu.ng:8080/jspui/handle/123456789/14028
Appears in Collections:Applied Geophysics

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