Abstract

 
 
 In this paper, we describe the result of a recent hydrogeological and geophysical investigation carried out within and around Aduramigba - Onibu-Eja Estate dumpsite with the aim of detecting evidence of contamination as well as depths to contamination of the groundwater after a previous study six years ago. Twenty water samples from shallow water wells and boreholes were analyzed for their physico-chemical constituents while five vertical electrical soundings and five electromagnetic ground penetrating radar surveys were conducted. The result shows high concentrations of anions of nitrates (NO3-), bicarbonates (HCO3-), chloride (Cl-) and sulphate (SO42-) with values of 73.97 mg/l, 91.5 mg/l, 331.2 mg/l, 222.4 mg/l respectively, cations values of Mg2+, Fe2+, Na+, and K+ having value of 25.44 mg/l, 6.23 mg/l, 37.31 mg/l and 35.41 mg/l, respectively, which were far above the World Health Organization (WHO) and Nigeria Drinking Water Quality Standard (NDWS). Heavy metal components such as Lead, Zinc, Copper and Nickel were also observed to be on the high side, having been contributed from effluents from rust metallic materials cum chemicals dumped within the dumpsite. Detailed geophysical study reveal the depth to contamination at between 4.1 meters in VES 3 to 5.9 meters in VES 2 with resistivity as low as 5.12 Ωm in VES 2 to 7.12 Ωm in VES 3 while ground penetrating radar (GPR) revealed that the leachate has permeated to a depth of 3.5 – 5.25 meters in traverse 4 and 4.0 – 6.0 meters in traverse 3 which correspond to the depth to unconfined aquifer within the dumpsite. The study conclude that this would pose a greater threat to residents living in this vicinity and as such, this might have contributed to the closure of the dumpsite.
 
 
Highlights
In this paper, we describe the result of a recent hydrogeological and geophysical investigation carried out within and around Aduramigba - Onibu-Eja Estate dumpsite with the aim of detecting evidence of contamination as well as depths to contamination of the groundwater after a previous study six years ago
Interpretation of the results of groundwater analysis showed that the concentration of anions as well as heavy metals have increased considerably from the earlier values reported by Oyelami et al, (2013)
The values obtained for HCO3- ion. This confirms that the groundwater does not World Health Organization (WHO) (2016) observed that the total dissolved solid (TDS) are usually contributed into groundwater from inorganic bicarbonates, chlorides and sulfates salts of potassium, sodium, calcium, magnesium, as well as small amounts of bio-matters dissolved in water
Summary
We describe the result of a recent hydrogeological and geophysical investigation carried out within and around Aduramigba - Onibu-Eja Estate dumpsite with the aim of detecting evidence of contamination as well as depths to contamination of the groundwater after a previous study six years ago. Even with a network of closely spaced monitoring wells, the risk that some contaminants could go undetected remains high For these reasons, there is the need to integrate two or more techniques in this study, the application of non-invasive and relatively inexpensive geophysical techniques such as electromagnetic ground penetrating radar technique and the vertical electrical sounding technique as means for mapping the occurrence of pollution. This report presents the application of the ground penetrating radar and the vertical electrical sounding technique of electrical resistivity method with analysis of selected groundwater samples from groundwater wells and shallow boreholes in the vicinity of the dumpsite in the delineation of pollution plume, locate lithologic layers and as well as possible leachate flow in the study area Both geophysical methods are fast and cost effective. The outcome of these investigations can help in appropriate decision-making on remediation methods to adopt
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