Simulation of Groundwater Potential Zone Using Geographic Information System (GIS) Through Related Factors

Joel Olusoji Olusami; Ayokunle Oluwaseun Familusi; Abass Adekunle Olatunji; Damilola Ayodele Ogundare; Akinsanya Ebenezer Akindele; Isikilu Oyewole Akinyele

doi:10.14232/analecta.2024.2.53-64

Authors

Joel Olusoji Olusami Civil engineering https://orcid.org/0000-0002-8323-1642
Ayokunle Oluwaseun Familusi
Abass Adekunle Olatunji
Damilola Ayodele Ogundare
Akinsanya Ebenezer Akindele
Isikilu Oyewole Akinyele

DOI:

https://doi.org/10.14232/analecta.2024.2.53-64

Keywords:

Remote sensing, groudwater potential, linearment, hydraulic conductivity

Abstract

ABSTRACT

Groundwater is the primary water source for irrigating and drinking in dry seasons. This work was examined to assess groundwater potential area underlain by basement complex with GIS based approach of selected locations in Osogbo. The soil samples were taken and soil textural and permeability analyses were done in the laboratory. Supervised classification analysis was done on LandSAT imagery to generate Land use and a lineament map, surface analyst algorithm was applied on ASTER dam to generate elevation map. Hydraulic conductivity and overburden thickness maps were generated from the Borehole data parameters. Interpolation method was used to generate spatially spread clay, silt, sand, rainfall and hydraulic conductivity. Multi-criteria analysis was used to generate groundwater potential zone map in the study area. Specific factors were considered for groundwater potential zone. Reclassification was done on each of the considered factors and AHP model was used to assign weight to all the factors. The results of the various factors responsible for groundwater potential include lineament density 0-0.0028; sand 67.2-89.60%, silt 9.00-30.00%, clay 0.17-2.80%, permeability 0.000010-0.00002, rainfall 1304.02-1469.06mm/yr, hydraulic conductivity 0.21-0.96m/min, land use consisting of degraded forest 48.65%, riparian forest 13.05%, built up 38.29%, and water body 0.001%. However, ground water potential of the study area was assessed and classified into fair, good and very good with the coverage of 2%, 80% and 18% respectively. Conclusively, the groundwater recharge potential is very good at Ofatedo, Gbonmi and Oke-Oro locations, good at Awosuru, Gbodofon and Dagbolu locations, but fair at Mallam Tope location in Osogbo

Downloads

Download data is not yet available.

References

Y. Cui and J. Shao. “The Role of Groundwater in Arid/Semiarid Ecosystems, Northwest China”, Ground water, Vol. 43, pp. 471–477, 2005.

H. Hashemi, C.B. Uvo, and R. Berndtsson, “Coupled Modeling Approach to Assess Climate Change Impacts on Groundwater Recharge and Adaptation in Arid Areas”, Hydrol Earth Syst Sci, Vol. 19, No. 10, pp. 4165-81, 2015.

J. Aeschbacher, H. Liniger, and R. Weingartner, “River Water Shortage in a Highland–Lowland System”, A Case Study of the Impacts of Water Abstraction in the Mount Kenya Region, Mt Res Dev. Vol. 25, No. 2, pp. 155-62, 2005.

O. Batelaan, and F. De Smedt, “GIS-Based Recharge Estimation by Coupling Surface-Subsurface Water Balances”, Journal of Hydrology, DOI: 10.1016/J.JHYDROL.2007.02.001, Vol. 337, No. 3-4, pp. 337-355, 2007.

S.R. Workman, and S.E. Serrano, “Recharge to Alluvial Valley Aquifers from Overbank Flow and Excess Inﬁltration”, J. Am. Water Resour. Assoc, Vol. 35, pp. 425–432, 1999.

J. Toth, “Gravitational System of Groundwater Flow Theory Evaluation and Utilization. Cambridge University Press”, 2009.

S.S. Rwanga, and J.M. Ndambuki, “Approach to Quantify Groundwater Recharge Using GIS-Based Water Balance Model”, A Review Int'l Journal of Advances in Agricultural & Environmental Engg (IJAAEE, Vol. 4, No. 1, pp. 166-172, 2017.

D.N. Lerner, A.S. Issar, and I. Simmers, “Groundwater Recharge: A Guide to Understanding and Estimating Natural Recharge”, International Contributions to Hydrogeology 8 International Association of Hydrogeologist, Heise, Hannover Germany, 1990.

M.O. Olorunfemi, and S.A. Fasuyi, “Aquifer Types and Geoelectric/Hydrogeologic Characteristics of Part of Central Basement Terrain of Nigeria (Niger State), J. Africa Earth Sci., Vol. 16,No 3, pp. 309-317, 1993.

W.C. Du, J.S. Robinson, and H.W. Rauch, “Influence of Hydrogeological Setting Including Lineaments on Water Well Yield in Lebanon and Dauphin Counties”, Pennsylvania Geology and Geography Department, West Virginia University, Morgantown, USA, 1993.