Redefining the boundary between crystalline and sedimentary rock of Eastern Dahomey Basin

Mosuro, G. O.; Adebisi, NO; Ariyo, Stephen Oluwafemi; Omosanya, Kamaldeen Olakunle; Bayewu, Olateju O.; Oloruntola, Moroof O.

doi:10.1038/s41598-021-84687-8

Cited by 2 publications

(2 citation statements)

References 69 publications

(72 reference statements)

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“…The study area is part of the main Dahomey Basin, historically known as the Dahomey Embayment (Mosuro et al, 2021;Oshomoji et al, 2024). The Dahomey Basin is a rift margin basin formed during the breakup and separation of the supercontinent Gondwana.…”

Section: Geology Settings Of the Study Areamentioning

confidence: 99%

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Delineating Leachate Plume Migration at the Alaro Municipal Dumpsite using Electrical Resistivity Imaging

ARIYO,

Adegoke,

Bayewu

et al. 2024

Preprint

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This study aimed to map and assess the environmental degradation caused by unmanaged municipal solid waste disposal at the Alaro municipal dumpsite in Southwestern Nigeria, with a focus on leachate contamination. Electrical resistivity imaging (ERI) was applied to define the subsurface geology of the area using five resistivity profiles acquired with a dipole-dipole electrode configuration. Each electrode transect spanned 100 meters with dipole spacings ranging from 2 m to 12 m. Analysis of the uncontaminated segment of the subsurface geology revealed a three-layered geo-electric (lithologic) succession, with resistivity ranges characteristic of loose alluvium, hybrid stratum, and faulted sandstone. Significant decreases in resistivity values, from 3 Ωm to 182 Ωm, were observed around and within the dumpsite, indicating extensive surface contamination by leachate. Three contamination zones were further characterized as leachate-saturated, leachate-concentrated, and leachate-infiltrated sands. In the study area, leachate infiltration extended to a depth of 20 meters, with a marked resistivity contrast between clean and contaminated segments. The likelihood of a normal fault along the control profile further justify leachate migration concerns, highlighting the severity of environmental pollution within the Quaternary sand formation. The contaminated segment poses a significant environmental hazard, that requires immediate mitigation action. Waste recycling, biomass energy generation, and the application of geotextile materials should be prioritized to remediate the dumpsite.

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Section: Geology Settings Of the Study Areamentioning

confidence: 99%

“…The Leki Epe dumpsite is situated on the coastal plain sands and recent alluvium of the Eastern Dahomey Basin (Jones and Hockey, 1964;Mosuro et al, 2021). The exposed lithology at the study area includes highly weathered laterite.…”

Section: Geology Settings Of the Study Areamentioning

confidence: 99%