Authors : Omoniyi Olusegun Ige, Tolulope Oyeleke, Christopher Baiyegunhi and Temitope Love Baiyegunhi
Abstract: Landslide is one of the most ravaging natural disaster in the world and recent occurrences in Nigeria require urgent need for landslide risk assessment. A total of nine samples representing three major landslide prone areas in Nigeria were studied with a view of determining their liquefaction and sliding potential. Geotechnical analysis was used to investigate the liquefaction potential while the slope conditions were deduced using SLOPE/W. The results of geotechnical analysis revealed that the soils contain 6-34% clay and 72-90% sand. Based on the unified soil classification system, the soil samples were classified as well graded with group symbols of SW, SM and CL. The plot of plasticity index against liquid limit shows that the soil samples from Anambra and Kogi are potentially liquefiable. The liquefaction screening criteria also revealed that Anambra and Kogi are potentially susceptible to liquefaction whereas samples from Kwara are not susceptible to liquefaction. Samples from Kogi and Anambra have lower values of MDD and OMC, ranging between 1.64-1.80 g/cm3 and 8.0-12.3%, respectively. These values showed that the samples are granular material with soil having anticipated embankments performance, subgrade and base material as poor-fair, fair-good and good-poor, respectively. The direct shear strength test on the soil samples indicated that the cohesion and angle of internal friction varies between 40-80 kPa and 24-35° . The Coefficient of permeability vary between 8.71×10-5 and 1.18×10-3. The Factor Of Safety (FOS) values for soils from Anambra, Kogi and Kwara are 1.452, 1.946 and 2.488, respectively. These values indicate stability but care must be taken as the condition at the site shows that the slope is in its state of impending failure. The FOS for dry slope was higher when compared to the FOS values from wet slope. This was due to the effect of pore water pressure on the soil as it reduced the shear strength of the soil. A reduced value of FOS was observed in the model under loading conditions which indicate that loading is also a contributing factor to the slope failure.
Omoniyi Olusegun Ige, Tolulope Oyeleke, Christopher Baiyegunhi and Temitope Love Baiyegunhi, 2019. Liquefaction, Landslide and Slope Stability Analyses of Soils: A Case Study of Soils from Part of Kwara, Kogi and Anambra States of Nigeria. Journal of Engineering and Applied Sciences, 14: 4387-4404.