Journal of Hydrogeology & Hydrologic EngineeringISSN: 2325-9647

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Research Article, J Hydrogeol Hydrol Eng Vol: 8 Issue: 6

Integrated Approach to Siting Sanitary Landfill Using GIS, AHP, Geophysical and Geotechnical Investigations: A Case Study of Kwara State, Nigeria

Akinrinmade AO1*, Awojobi MO1, Olatunji JA1, Olasehinde PI2 and Olasehinde DA3

Department of Forestry and Biodiversity, Tripura University, Suryamaninagar, Agartala, India

*Corresponding Author : Akinrinmade AO
Department of Geology and Mineral Sciences, Kwara State University, Malate, Nigeria
Tel: +2348054164122
E-mail: adeolaonline@gmail.com

Received: August 07, 2018 Accepted: August 17, 2018 Published: August 26, 2019

Citation: Akinrinmade AO, Awojobi MO, Olatunji JA, Olasehinde PI, Olasehinde DA (2019) Integrated Approach to Siting Sanitary Landfill Using GIS, AHP, Geophysical and Geotechnical Investigations: A Case Study of Kwara State, Nigeria. J Hydrogeol Hydrol Eng 8:2.

Abstract

The prevailing trend of waste disposal site in many parts of sub-Saharan Africa is detrimental to the environment on a long term. Waste disposal sites are randomly selected and frequently incinerated, releasing harmful gases which have negative impacts on the surrounding ecosystem and human life. The study area in Kwara State, Nigeria is a Microcosm of Africa’s unique challenge. The research is aimed at the determination of suitable landfill sites that engender environment sustainability. The proposed landfill sites were investigated using Geographic Information System (GIS), Geological, Geophysical and Geotechnical techniques as tools to aid the decision-making processes. To achieve the objectives, 2017 IKONOS Satellite imagery was used to identify geological features, soil, topography, land use, roads network, river, surface water, infrastructure and settlement. Twenty (20) vertical electrical soundings (VES) were conducted using the Schlumberger configuration for geophysical investigations. Three to four layers were deduced: Topsoil/laterite, clay, weathered basement, moderate to fresh basement. An integration of IKONOS satellite imagery, geology, geophysics and geotechnical data were modelled with Environmental geo-spatial model builder in ArcGIS 10.3 environment using Analytic Hierarchy Process (AHP). Weighted Linear Combination (WLC) and multi criteria analysis in which criteria such as distance from settlement, roads, highway, land use, water body, river, water table, elevation, and slope were used after geo referencing, reclassifying, weighting of criteria, data overlaid and finally suitability model map were developed. The whole area falls into two categories: moderately suitable (Sokoto2, Malete) and not suitable (Sokoto1, Oke Oyi). It is expected that soil improvement techniques such as geo-textile and geo-membrane can be used to improve sites which are not suitable for landfill sites.

Keywords: Sanitary Landfill; GIS; Analytic Hierarchy Process; Satellite Imagery; Weighted Linear Combination.

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