APPLIED JOURNAL OF PHYSICAL SCIENCE
Integrity Research Journals
ISSN: 2756-6684
Model: Open Access/Peer Reviewed
DOI: 10.31248/AJPS
Start Year: 2018
Email: ajps@integrityresjournals.org
Series of 1-D ER and IP traverses reveal vestige of regional geological structure
https://doi.org/10.31248/AJPS2021.045 | Article Number: EA9433402 | Vol.3 (2) - April 2021
Received Date: 04 April 2021 | Accepted Date: 29 April 2021 | Published Date: 30 April 2021
Author: Jonah, S. A.
Keywords: ER, fault-traces, groundwater, homogeneity, IP, one-dimensional, schist, vestige.
At the Basement Complex geological province of central Nigeria, in the state of Niger, just northeast of the Bida Sedimentary Basin, there is the character of non-complexity and high uniformity in the local geology over an appreciable linear spread. This appreciation makes it a standard practice to do one-dimensional vertical electrical sounding surveys in the search for groundwater resources at this area with the expectation of reliable results. This seeming “simplicity” means that intense manual labour can be invested in acquiring a large data-field at a local area of survey where resources are not readily available to do a standard two-dimensional survey of the conventional kind. This is especially significant for the proposed area of development at the Gidan Kwano Campus of the Federal University of Technology, Minna, Thus, with this awareness and the use of the ABEM Terrameter 4000 equipment, the aim of this study was to do an intense acquisition of one-dimensional electrical resistance and concomitant induced polarization programme for this proposed area of development so as to achieve the objective of garnering information about exploitable groundwater locations before structural developments cover these points up. Typical point-to-point one-dimensional tandem electrical resistance and concomitant induced polarisation surveys were completed along east-west profile lines for about 309 survey stations of the available 441 principal locations of the 4 km2 extent of the proposed new development. After due processing and interpretation of the data-field of this survey, whilst remarking that the induced polarisation data-set was used herein as quality control “refiner” only, clusters of reliable groundwater locations were observed at the southwest end of the 4 km2 areal extent of the proposed new development. It conforms to the dip of the landform and comparatively significant overburden-material thicknesses observed over there. Interestingly, in a twist of serendipity, the series of diagonal subsurface “fault-lines” that connect one promising groundwater prospect with the other, describable by a prominent northeast-southwest dip, aligns exactly with the Kazaure-Karaukarau-Kushaka-Ilesha Schist Belt. In the modern geography setting of the present time, the Kazaure-Karaukarau-Kushaka-Ilesha Schist Belt actually traverses a lengthy diagonal across the landscape of Nigeria, cutting through such Nigerian states as Jigawa, Kano, Kaduna, Niger, Kwara, Ekiti, and Osun. There is virtually no surface indicator of this once-prominent schist belt and what this study reveals is its vestigial signature.
| Acworth, R. I. (1981). The evaluation of groundwater resources in the crystalline basement of northern Nigeria, PhD Thesis, University of Birmingham. | ||||
| Adesoye, S. A. (1986). Master plan of the Federal University of Technology's permanent site, Minna. Adesoye and Partners, Kaduna, Nigeria. | ||||
| Akca, I. (2016). ELRIS2D: A MATLAB package for the 2D inversion of DC resistivity/IP data. Acta Geophysica, 64(2), 443-462. Crossref |
||||
| Coggon, J. H. (1971). Electromagnetic and electrical modeling by the finite element method. Geophysics, 36(1), 132-155. Crossref |
||||
| Dey, A., & Morrison, H. F. (1979a). Resistivity modelling for arbitrary shaped two-dimensional structures. Geophysical Prospecting, 27, 1020-1036. Crossref |
||||
| Dey, A., & Morrison, H. F. (1979b). Resistivity modeling for arbitrarily shaped three-dimensional shaped structures. Geophysics, 44, 753-780. Crossref |
||||
| Jonah, S. A. & Abdulrasheed, S. A. (2018). Analysis of self-potential data at a 0.6 km2 swath of the southern Phase II Development, Gidan Kwano Campus, Minna, northcentral Nigeria. International Journal of Industrial Technology, Engineering, Science, and Education, 1(2), 42-49. | ||||
| Jonah, S. A. (2016). Analyses of pseudosection specific routes of different orientations of fault-traces to determine groundwater flow pattern at a 4 km2 tranche of New Development, Gidan Kwano Campus Phase II, Federal University of Technology, Minna, Nigeria. Journal of Science, Technology, Mathematics, and Education,12(3), 9-18. | ||||
| Jonah, S. A., & Adamu, I. B. (2017). Extraction of depth-to-basement information from the interpretation of vertical electrical sounding data of Gidan Kwano Campus Phase II, Federal University of Technology, Minna, Nigeria. Journal of Information, Education, Science, and Technology, 4(1), 126-132. | ||||
| Jonah, S. A., & Adebayo, H. M. (2019). Macroscopic petrographic control of a 4 km2 VES study at the southern phase ii development, Gidan Kwano Campus, Minna, Nigeria, BTech Thesis, Federal University of Technology, Minna. | ||||
| Jonah, S. A., & Adegboye, J. A. (2019). Investigating lateral variations of resistivity of a 4 km2 VES study at the southern phase ii development, Gidan Kwano Campus, Minna, Nigeria, BTech Thesis, Federal University of Technology, Minna, Nigeria. | ||||
| Jonah, S. A., & Ibrahim, M. (2018). Investigation of patterns of self-potential manifestations across the southernmost 0.4 km2 tranche of the phase ii development, Gidan Kwano Campus, Minna, Northcentral Nigeria, BTech Thesis, Federal University of Technology, Minna. | ||||
| Jonah, S. A., & Jimoh, M. O. (2016). Validity of an empirical rule for delineating aquifer prospects at the Gidan Kwano Campus Development Phase II, Federal University of Technology, Minna, Northcentral Nigeria. Journal of Science, Technology, Mathematics, and Education, 12(2), 18-24. | ||||
| Jonah, S. A., & Olasehinde, P. I. (2015). Qualitative induced polarisation validation of the results of a 2 km2 VES study completed at the Gidan Kwano Campus Phase II Development, Federal University of Technology, Minna, Nigeria. Journal of Science, Technology, Mathematics, and Education, 11(3), 34-46. | ||||
| Jonah, S. A., & Saidu, S. (2016). On the correlation of area of consistently-low resistivity at depths with slope of the landform of a 4km2 tranche of the Gidan Kwano Campus Development Phase II, Federal University of Technology, Minna, Northcentral Nigeria. Journal of Science, Technology, Mathematics, and Education,12(2), 34-39. | ||||
| Jonah, S. A., Akpomie, D. P., Ezekwebekwe, L. O., Isah, E.A., Muhammed, A.N., Momoh, A.A., Okoye, C.K., Okpara, K. K., Oni, N.O., Alade, R. O., Yahaya, G. A., Zubair, R. O., Onoja, E. U., & Daramola, O. (2015a). A dual topographic-petrographic control for a 1 km2 VES-IP study completed at the Gidan Kwano Campus Phase II Development, Federal University of Technology, Minna, Nigeria. Journal of Information, Education, Science, and Technology, 11(3), 65-76. | ||||
| Jonah, S. A., James, G. O., Adeku, D. E., Ahmed, F., Alhassan, A., Hamza, S., Igbideba, O. I., Kyari, M., Kwaghhua, F. I., Macaulay, V. F., Olarewaju, S. I., Onyeodili, G., Popoola, G.B., Sofeso, O.A., Switzer, F. K., & Umoh, U. E. (2015b). Geoelectrical investigation for aquifer and geotechnical properties at the planned Gidan Kwano Campus Development Phase II, Federal University of Technology, Minna Minna, Nigeria. Journal of Science, Technology, Mathematics, and Education, 11(2), 81-100. | ||||
| Jonah, S. A., Olasehinde, P. I., & Umar, M. (2015c). Evaluation of geomorphological quality control of geo-electrical data at Gidan Kwano Campus, Federal University of Technology, Minna, Central Nigeria. Journal of Information, Education, Science, and Technology, 2(1), 122-134. | ||||
| Jonah, S. A., Olasehinde, P. I., Jimoh, M. O., Umar, M., & Yunana, T. (2015d). An intercalated dual geoelectrical survey of an earlier study for groundwater at the planned Gidan Kwano Campus Development Phase II, Federal University of Technology, Minna, Nigeria. Journal of Information, Education, Science, and Technology, 11(2), 32-50. | ||||
| Koefoed, O. (1979). Geosounding Principles 1: Resistivity Sounding Measurements, Elsevier Science Publishing Company, Amsterdam. | ||||
| Loke, M. H. (2001). Tutorial: 2-D and 3-D Electrical Imaging Surveys, Google search, 8thAugust 2018, 11:08 a.m. | ||||
| Mufti, I. R. (1976). Finite-difference resistivity modeling for arbitrarily shaped two-dimensional structures. Geophysics, 41(1), 62-78. Crossref |
||||
| Obaje, N. G. (2009). Geology and Mineral Resources of Nigeria. In: Lecture Notes in Earth Sciences, Springer-Verlag, Berlin. Crossref |
||||
| Pelton, W. H., Rijo, L., & Swift, C. M. (1978). Inversion of two-dimensional resistivity and induced-polarisation data. Geophysics, 43 (4), 788-803. Crossref |
||||
| Rijo, L. (1977). Modeling of Electric and Electromagnetic Data, PhD Thesis, University of Utah Salt Lake City, USA. | ||||
| Salako, K. A., & Udensi, E. E. (2005). Vertical electrical sounding investigation of the western part of the Federal University of Technology, Minna. Proc: First Annual School of Science Education Conference (Federal University of Technology, Minna), 1, 69-78. | ||||
| Udensi, E. E., Unuevho, C. I., Jonah, S.A., Ofor, P. N., Adetona, A. A., Salako, K. A., Gana, C. S., Nwosu, J. E., Mulero, E. O., Iwuafor, H. O., Akinloye, O. A., & Owolabi, E. O. (2006). Geoelectrical survey for groundwater at the Gidan Kwano Campus of the Federal University of Technology, Minna. Environmental Technology and Science Journal, 1(1), 16-48. | ||||
Copyright © 2024 Integrity Research Journals. All rights reserved.