Article

Potential groundwater contamination from oil drilling in the Okavango

Details

Citation

Sheldon R, Esterhuyse S, Lukas A & Greenwood S (2023) Potential groundwater contamination from oil drilling in the Okavango. Physics and Chemistry of the Earth, Parts A/B/C, 131, Art. No.: 103430. https://doi.org/10.1016/j.pce.2023.103430

Abstract
Canadian oil and gas company, Reconnaissance Energy Africa (ReconAfrica), plans to exploit potential oil reserves in the Cubango Okavango River Basin (CORB) in Namibia and Botswana, where little is known about the local groundwater systems and how contamination and its effects could impact the region. Using borehole data from target oil and gas areas, we calculated hydraulic gradients, flow direction, and flow velocity to map potential groundwater contamination effects from oil and gas drilling in the region. We also plotted the major geological structures, calculated flowpaths, and estimated travel times for contaminated groundwater that may travel along these preferential flowpaths from the drill sites to the Okavango River and Delta. Results indicate that contaminated groundwater from the oil lease areas could take 3–23.5 years to reach the Okavango River system via the shallow sandy aquifer, but in a worst-case scenario, contamination could reach the Delta within four days via structures associated with dykes and faults that serve as primary flowpaths. Such contamination could adversely affect human health and the region's ecosystems and biodiversity. We recommend prohibiting oil exploration and production activities within the CORB until future studies can determine the impacts of hydrocarbon extraction with greater certainty.

Keywords
Oil drilling; Okavango; Groundwater contamination

Journal
Physics and Chemistry of the Earth, Parts A/B/C: Volume 131

StatusPublished
FundersUniversity of Edinburgh
Publication date31/10/2023
Publication date online23/06/2023
Date accepted by journal19/06/2023
URLhttp://hdl.handle.net/1893/35338
PublisherElsevier BV
ISSN1474-7065

People (1)

Dr Sarah Greenwood

Dr Sarah Greenwood

Lecturer in Global Change Biology, Biological and Environmental Sciences