Hydrogeochemical and salinity appraisal of surficial lens of freshwater aquifer along Lagos coastal belt, South West, Nigeria

In order to determine the hydrogeochemical processes and salinity status of the surficial lens of freshwater aquifer in the Lagos coastal basin, physicochemical parameters and hydrogeochemical tools were employed in this study. These tools include existing methods such as Piper diagram, Durov diagra...

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Bibliographic Details
Published in:Heliyon 2021-10, Vol.7 (10), p.e08231-e08231, Article e08231
Main Authors: Yusuf, M.A., Abiye, T.A., Ibrahim, K.O., Abubakar, H.O.
Format: Article
Language:English
Subjects:
Anthropogenic activities
Bivariate plots
Carbonate weathering
Geochemical modelling
Ionic ratios
Review
Water-rock interaction
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Summary:In order to determine the hydrogeochemical processes and salinity status of the surficial lens of freshwater aquifer in the Lagos coastal basin, physicochemical parameters and hydrogeochemical tools were employed in this study. These tools include existing methods such as Piper diagram, Durov diagram, Gibb's diagram, statistical analysis and geochemical modelling, and the newly proposed cationic contribution evaluation and ionic ratio bivariate plots. The Piper plot revealed that chemical facies is rich in (Ca, Mg, Cl and HCO3) and (Ca and HCO3) for the groundwater in both wet and dry seasons while Mg–Cl and Na–Cl water types characterised the lagoon and the Ocean, respectively. The surficial aquifer is an essentially freshwater in the dry season and partly saline in the wet season due to flash flood, marine aerosol precipitation and infiltration from the surrounding brackish surface waters. The Ca2++Mg2+ vs total cation (TZ+); HCO3-/Ca2+vs Ca2+/Mg2+ and HCO3-/Ca2+ vs Ca2+/Na+ plots as well as geochemical modelling indicated that carbonate weathering is the dominant chemical process controlling the groundwater chemistry for both seasons. In a descending order, water-rock interaction, ion exchange and evaporation are the geochemical processes controlling the groundwater quality in the area. Besides the natural processes, factor analysis revealed the imminent influence of anthropogenic activities (industrial and domestic) on the groundwater chemistry indicated by the presence of Mn, Fe, Ni, Cd, Pb, Cu and NO3 above the permissible limit of drinking water standard, particularly in the wet season. In addition to the successful application of the proposed ionic plots, the study justifies the importance of multiple tools application in the hydrogeochemical deductions and recommends consistent monitoring of the shallow aquifers in the Lagos coastal basin. Geochemical modelling; Ionic ratios; Bivariate plots; Carbonate weathering; Water-rock interaction; Anthropogenic activities.
ISSN:2405-8440
2405-8440
DOI:10.1016/j.heliyon.2021.e08231