Abstract
Seasonal comparison of potential groundwater aquifer unit using integrated geophysical methods at Ijebu-Ife, Ogun State, South-west, Nigeria was investigated. The fieldwork employed two seasons (dry and wet seasons). The electromagnetic method employed the Very low frequency and its data was acquired during the dry and wet seasons along with five profiles of Dipole-dipole array covering 500 m length using ABEM WADI VLF equipment and was processed using the KAROUS-HJELT software. The 2 – D Dipole-dipole data were also acquired along with five (5) traverse for both seasons making a total number of ten (10) and was processed with DIPROFWIN software. The results of the Integrated Dipole-Dipole and VLF-EM data identified three geoelectric layers based on its electrical resistivity and conductivity distribution. The study identified a clayey sand horizon which constitutes a good aquifer zone. The study reveals in, comparison, that during the dry season, all layer resistivities are high with low depth while during the wet season; all layer resistivities are low with high depth. Also, conductivity during the wet season is high at high depth than conductivity which is low at low depth during the dry season. The study concluded that, in water exploration, drilling of water should be done during the dry season in other to locate the exact depth of water.
 
Highlights
Seasonal comparison of potential groundwater aquifer unit using integrated geophysical methods at Ijebu-Ife, Ogun State, South-west, Nigeria was investigated
The need for the exploration of a sedimentary aquifer in the study area is necessary to identify potential groundwater aquifer and this could be achieved by a combination of two detailed integrated geophysical methods, which are the electrical resistivity and electromagnetic methods
Oladunjoye et al [4] investigated the localized nature of groundwater occurrence in Ogbomoso North to solve the scarcity of potable water in the area by employing the very low frequency electromagnetic and electrical resistivity methods.The data acquisition involved four electrical resistivity profiles and five VLF-EM carried out parallel to the two major azimuths in the study area
Summary
Seasonal comparison of potential groundwater aquifer unit using integrated geophysical methods at Ijebu-Ife, Ogun State, South-west, Nigeria was investigated. The electromagnetic method employed the Very low frequency and its data was acquired during the dry and wet seasons along with five profiles of Dipole-dipole array covering 500 m length using ABEM WADI VLF equipment and was processed using the KAROUS-HJELT software. The need for the exploration of a sedimentary aquifer in the study area is necessary to identify potential groundwater aquifer and this could be achieved by a combination of two detailed integrated geophysical methods, which are the electrical resistivity and electromagnetic methods. Oladunjoye et al [4] investigated the localized nature of groundwater occurrence in Ogbomoso North to solve the scarcity of potable water in the area by employing the very low frequency electromagnetic and electrical resistivity methods.The data acquisition involved four electrical resistivity profiles and five VLF-EM carried out parallel to the two major azimuths in the study area. The result obtained reveals the usefulness of combining electromagnetic and electrical resistivity methods to locate suitable sites for water borehole drilling
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