Delineation of groundwater potential zones using electrical resistivity technique in Obudu basement terrain of Cross River State, Southeastern Nigeria

Autor: Ebong Dickson Ebong, Chimezie Ndunagum Emeka, Oualid Melouah, Rose Illa Ullah, Anthony Edet Ita, Jamal Asfahani
Jazyk: angličtina
Rok vydání: 2023
Předmět:
Zdroj: Water Practice and Technology, Vol 18, Iss 11, Pp 2884-2900 (2023)
Druh dokumentu: article
ISSN: 1751-231X
DOI: 10.2166/wpt.2023.174
Popis: Groundwater exploration in basement terrain can be somewhat challenging. Aquifer parameters like hydraulic conductivity and transmissivity can help in predicting groundwater potential zones in basement terrains. The vertical electrical sounding investigation that involved the Schlumberger configuration was employed to map the subsurface layers within the crystalline basement of the Obudu Complex, southeastern Nigeria. Secondary electrical resistivity data (Dar Zarrouk parameters) and a few pumping test-derived hydraulic parameters (i.e., transmissivity and hydraulic conductivity) were employed to develop empirical models. These models were used to predict hydraulic parameters at locations where only geoelectrical parameters (i.e., aquifer layer thickness and electrical resistivity) exist. Results showed that the northeastern part of the study area and areas located within zones of major faults displayed relatively higher values of hydraulic conductivity and transmissivity. The study area was classified into good, moderate, and poor groundwater potential aquifer zones. This integrated approach can be adopted in other areas with similar geology, where pumping test information is scarce or limited, as an alternative means of predicting aquifer properties and delineating groundwater potential zones for sustainable development and management of groundwater resources. HIGHLIGHTS Electrical resistivity technique was used to estimate aquifer parameters in the Obudu basement.; Empirical models derived were used to deduce these parameters elsewhere within the basement.; Results show a good fit where both pumping test-derived and geoelectrical predicted values exist.; It provided reliable site-specific and cost-effective alternatives to pumping test-derived parameters.;
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