1. Opemipo, O.D., O. Moroof, O. Sunday, O. Victor and B. Christopher, 2022. Subgrade soil evaluation using integrated seismic refraction tomography and geotechnical studies: A case of Ajaokuta-Anyigba Federal highway, North-Central Nigeria. NRIAG J. Astron. Geophys., 11: 293-305.
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2. Obasaju, D.O., M.O. Oloruntola and S. Oladele, 2022. Integrated resistivity, index, and strength characteristics of subgrade soils: Implication for highway pavement failure studies in North-Central Nigeria. GeoSci. Eng., 68: 46-57.
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3. Mosuro, G.O., N.O. Adebisi, S.O. Ariyo, K.O. Omosanya, O.O. Bayewu and M.O. Oloruntola, 2021. Redefining the boundary between crystalline and sedimentary rock of Eastern Dahomey Basin. Sci. Rep., Vol. 11. 10.1038/s41598-021-84687-8.
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4. Oloruntola, M.O., G.O. Adeyemi, O. Bayewu and D.O. Obasaju, 2019. Hydro-geophysical mapping of occurrences and lateral continuity of aquifers in coastal and landward parts of Ikorodu, Lagos, Southwestern Nigeria. Int. J. Energy Water Res., 3: 219-231.
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5. Oloruntola, M.O., O.O. Bayewu, G.O. Mosuro, A.F. Folorunso and S.O. Ibikunle, 2017. Groundwater occurrence and aquifer vulnerability assessment of Magodo Area, Lagos, Southwestern Nigeria. Arabian J. Geosci., Vol. 10. 10.1007/s12517-017-2914-3.
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6. Mosuro, G.O., K.O. Omosanya, O.O. Bayewu, M.O. Oloruntola and T.A. Laniyan et al., 2017. Assessment of groundwater vulnerability to leachate infiltration using electrical resistivity method. Applied Water Sci., 7: 2195-2207.
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7. Bayewu, O.O., M.O. Oloruntola, G.O. Mosuro, T.A. Laniyan and J.O. Fatoba et al., 2016. Application of cross-square array and resistivity anisotropy for fracture detection in crystalline bedrock. Arabian J. Geosci., Vol. 9. 10.1007/s12517-016-2305-1.
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8. Moroof, O.O. and G.O. Adeyemi, 2014. Geophysical and hydrochemical evaluation of groundwater potential and character of Abeokuta area, Southwestern Nigeria. J. Geography Geol., 6: 162-177.
9. Bayewu, O.O., O.O. Moroof, M.O. Ganiyu, I.O. Folorunso and A.U. Kolawole, 2014. Evaluation of resistivity anisotropy of parts of Ijebu Igbo, Southwestern, Nigeria using Azimuthal Resistivity Survey (ARS) method. J. Geography Geol., 6: 140-152.
10. Bayewu, O.O., M.O. Oloruntola, G.O. Mosuro and O. Olagunju, 2012. Determination of groundwater potential of an area using electrical resistivity method: A case study of Olabisi Onabanjo University, mini campus. Afr. J. Pure Applied Sci., 2: 106-114.
11. Mosuro, G.O., O.O. Bayewu and M.O. Oloruntola, 2011. Application of geophysical and geostatistical methods in the estimation of clay deposit reserve of Idofe and environs. Mineral Wealth, 160: 41-48.
12. Bale, R.B., O.O. Bayewu, I.O. Folorunso and M.O. Oloruntola, 2011. Estimation of reserve-overburden ratio of a proposed quarry site using resistivity survey: A case study of Ajebo, near Abeokuta, Southwestern Nigeria. J. Applied Sci. Res., 7: 1402-1410.
13. Oloruntola, M.O., O.O. Bayewu, G. Mosuro and M. Dauda, 2010. Evaluation of clay deposits in falafonmu and its environments, Ijebu-Ode, SW Nigeria. J. Applied Sci. Res., 6: 2026-2034.
14. Ayolabi, E.A., A.F. Folorunso and M.O. Oloruntola, 2010. Constraining causes of structural failure using Electrical Resistivty Tomography (ERT): A case study of Lagos, Southwestern, Nigeria. Mineral Wealth, 156: 1-7.
15. Oloruntola, M.O., G.O. Mosuro and O.O. Bayewu, 2009. Hydrogeophysical evaluation of the coastal aquifer in Ibese and its environs, southwest Nigeria. Afr. J. Pure Applied Sci., 2: 54-61.
16. Oloruntola, M.O., T.A. Laniyan, O.M. Ajibade, O.O. Bayewu and T.O. Bolaji, 2008. Geochemical variation in termitaria and the excavated soils used for their constructions. Afr. J. Pure Applied Sci., 1: 57-61.
17. Oloruntola, M.O., G.O. Adeyemi and O.C. Oduneye, 2008. Comparative study of the geotechnical properties of cement and lime stabilized laterite soil developed over pegmatite, around Ago-Iwoye, south-western Nigeria. J. Mining Geol. J. Nig. Mining Geol. Soc., 44: 95-105.
18. Olatunji, A.S. and M.O. Oloruntola, 2008. Integrated geological, geophysical and geotechnical appraisal of a site for civil construction in Ago-Iwoye Southwestern Nigeria. Afr. J. Pure Applied Sci., 1: 78-84.
19. Bayewu, O.O., M.O. Oloruntola, K.O. Omosanya and G.O. Mosuro, 2008. Combination of geology and electrical resistivity anisotropy in structural mapping of basement complex rock in part of Abeokuta, Southwestern Nigeria. Afr. J. Pure Applied Sci., 1: 16-20.
20. Olatunji, A.S. and M.O. Oloruntola, 2007. Enhancing groundwater exploration through the combination of Electrical Resistivity with spontaneous potential Measurements: Case studies from Southwestern Nigeria. Water Resour., 17: 11-16.
21. Adebisi, N.O. and M.O. Oloruntola, 2006. Geophysical and geotechnical foundation conditions of a site in Ago-Iwoye Southwestern Nigeria. J. Mining Geol. J. Nig. Mining Geol. Soc., 42: 79-84.
22. Oloruntola, M.O., G.O. Adeyemi, N. Adebisi and O.C. Oduneye, 2005. Geotechnical properties of cement stabilized soils developed over pegmatite banded gneiss and porphyroblastic gneiss from Ago-Iwoye, Southwestern Nigeria. Mineral Wealth Greece, 135: 25-35.
23. Olatunji, A.S., A.F. Abimbola, M.O. Oloruntola and O.O. Odewande, 2005. Hydrogeochemical evaluation of groundwater resources of shallow coastal aquifers around Ikorodu area, Southwestern Nigeria. Water Resour. J. Nig. Assoc. Hydrogeol., 16: 65-71.