Airborne and ground-based transient electromagnetic mapping of groundwater salinity in the Machile-Zambezi Basin, southwestern Zambia

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  • Mkhuzo Chongo, Danmarks Tekniske Universitet
  • ,
  • Anders Vest Christiansen
  • Alice Tembo, University of Zambia
  • ,
  • Kawawa E. Banda, University of Zambia
  • ,
  • Imasiku A. Nyambe, University of Zambia
  • ,
  • Flemming Larsen, Geological Survey of Denmark and Greenland
  • ,
  • Peter Bauer-Gottwein, Danmarks Tekniske Universitet

The geological and morphological evolution of the Kalahari Basin of Southern Africa has given rise to a complex hydrogeological regime that is affected by water quality issues. Among these concerns is the occurrence of saline groundwater. Airborne and ground-based electromagnetic surveying is an efficient tool for mapping groundwater quality variations and has been used extensively to explore the Kalahari sediments, e.g., in Botswana and Namibia. Recently, airborne and ground-based mapping of groundwater salinity was conducted in the Machile-Zambezi Basin, southwestern Zambia, using the versatile time-domain electromagnetic system and WalkTEM system, respectively, incorporating earlier ground-based ProTEM 47D measurements. The data were inverted using the laterally constrained inversion technique followed by a separate spatially constrained inversion scheme. WalkTEM data were inverted as ordinary single-site one-dimensional inversions. The regional electrical resistivity signature of the Machile-Zambezi Basin was found to be characterized by high elevation (1000 m-1050 m above mean sea level), high electrical resistivity (above 100 Ωm) areas that form the western and eastern boundaries of a low-resistivity (below 13 Ωm) valley that extends southwestwards into the Makgadikgadi salt pans. The electrical resistivity distribution is indicative of a full graben related to the Okavango-Linyati Fault system as a result of propagation of the East African Rift Valley System into Southern Africa. The saline lacustrine sediments infilling the Machile Graben are responsible for the low formation resistivity (below13 Ωm) and high salinity (above 7000 μS/cm) observed in the groundwater and are probably related to the complex evolutionary history of Palaeo-Lake Makgadikgadi.

TidsskriftNear Surface Geophysics
Sider (fra-til)383-395
Antal sider13
StatusUdgivet - 1 aug. 2015

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