Abstract
Limited knowledge of wetland geomorphic processes often results in poor wetland management. This study aims to illustrate the importance of incorporating geomorphic knowledge of wetland origin in their management. The geomorphic origin and dynamics of the Kafue wetland were determined from the analysis of remotely sensed and geological data. The wetland is a remnant of a paleo-lake that was captured by the tributary of the middle Zambezi River. At the point of capture, resistant Muva Group metavolcanic rocks dominate narrow valleys characterised by straight channels. The resistant lithology prevents the lower Kafue River to cut into the wetland thus maintaining wetland conditions upstream. Sedimentation regime through overbank and bed deposits shaped the wetland’s structure, ecological diversity, and hydrological functioning. The operation of the Itezhi-tezhi dam has negatively impacted the wetland’s hydrological and sedimentological regime. The dam starves the system of sediment needed for promoting levee and channel bed aggradation. Regulated discharge with reduced sediment load can lead to channel incision and therefore reduce flood frequency, which may ultimately lead to wetland desiccation. The study recommends the incorporation of geomorphic knowledge into wetland management since the understanding of wetlands from a geomorphic perspective can complement natural processes occurring within wetlands.
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The authors are grateful to the staff and students from the Institute for Water Research at Rhodes University for valuable comments and stimulating discussions.
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Lidzhegu, Z., Ellery, F. & Mantel, S.K. Incorporating Geomorphic Knowledge in the Management of Wetlands in Africa’s Drylands: a Rapid Assessment of the Kafue Wetland. Wetlands 40, 391–405 (2020). https://doi.org/10.1007/s13157-019-01172-9
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DOI: https://doi.org/10.1007/s13157-019-01172-9