Geochemical Appraisal of Termite-Reworked Clay Soils from Basement Complex Terrain: Implications as Landfill Liners

The geochemical and mineralogical assessment was prompted by the considerable presence of Termitaria overburden on the Basement Complex outcrops in southwest Nigeria with the goal of determining their suitability as landfill liners. The X-Ray Fluorescene (XRF) and X-Ray Diffraction techniques were used to examine ten soil samples. Major oxides and mineralogical values were analysed to determine the effectiveness of soil engineering. Weathering indices and silica/sesquioxide ratios were also measured. The results of the mineralogical investigation showed that kaolinite clay mineral predominated, which is indicative of non-swelling qualities. The outcomes demonstrated that the soil is a true laterite as well as a lateritic soil. Fair carrying capacity was shown by the stability and shear resistance values of 47.15% and 48.11%, respectively. The weathering indices show severe weathering, high clay fraction, strong plasticity, and low hydraulic conductivity with an average of 95% and 0.59 weight percent, respectively. Additionally, the repackaging of the clay soils by termite activity produced greater interlocking and water film resistance. These characteristics make soils an excellent material for landfill liners due to their improved density and bearing capacity, resilience to chemical attack, and reconstructed structure. Keywords: Landfill liners. Termitaria, Kaolinite, Mineralogy and Geochemical Properties DOI: 10.7176/JEES/13-8-03 Publication date:October 31st 202