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Morphodynamics of bedrock-influenced dryland rivers during extreme floods: Insights from the Kruger National Park, South Africa

Milan, David; Heritage, George; Tooth, Stephen; Entwistle, Neil

Authors

Dr David Milan D.Milan@hull.ac.uk
Senior Lecturer in Physical Geography; Programme Director BSc Physical Geography and Geography; Employability Officer

George Heritage

Stephen Tooth

Neil Entwistle

Abstract

High-magnitude flood events are among the world’s most widespread and significant natural hazards and play a key role in shaping river channel-floodplain morphology and riparian ecology. Developing conceptual and quantitative models for the response of bedrock-influenced dryland rivers to such floods is of growing scientific and practical importance but in many instances modelling efforts are hampered by a paucity of relevant field data. Here, we combine extensive aerial and field data with hydraulic modelling to document erosion, deposition and vegetation changes that have occurred during successive, cyclone-driven, extreme floods along a 50 km long reach of the bedrock-influenced Sabie River in the Kruger National Park (KNP), eastern South Africa. Aerial LiDAR and photography obtained after extreme floods in 2000 and 2012 (discharges >4000 m3 s-1) were used to generate Digital Elevation Models (DEMs) and provide the boundary conditions for hydraulic modelling (flow shear stresses for three discharges up to 5000 m3 s-1). For the Sabie River study reach as a whole, DEM differencing revealed that the 2012 flood resulted in net erosion of ~1,219,000 m3 (~53 mm m-2). At the sub-reach scale, however, more complex spatial patterns of erosion, deposition and vegetation change occurred, as largely controlled by differences in channel type (e.g. degree of bedrock and alluvial exposure) and changing hydraulic conditions (shear stresses widely >1000 N m-2 across the river around peak flow). The impact of flood sequencing and relative flood magnitude is also evident; in some sub-reaches, remnant islands and vegetation that survived the 2000 floods were removed during the smaller 2012 floods owing to their wider exposure to flow. These findings are synthesised to refine and extend a conceptual model of bedrock-influenced dryland river response that incorporates flood sequencing, channel type and sediment supply influences. In particular, with some climate change projections indicating the potential for future increases in the frequency of cyclone-generated extreme floods in eastern southern Africa, the Sabie and other KNP rivers may experience additional sediment stripping and vegetation removal. Over time, such rivers may transition to a more bedrock-dominated state, with significant implications for ecological structure and function and the associated ecosystem services. These findings contribute to an improved analysis of the KNP rivers in particular, but also to growing appreciation of the global diversity of dryland rivers and the relative and synergistic impacts of extreme floods

Journal Article Type Article
Publication Date Nov 1, 2018
Journal Geological Society of America Bulletin
Print ISSN 0016-7606
Electronic ISSN 1943-2674
Publisher Geological Society of America
Peer Reviewed Peer Reviewed
Volume 130
Issue 11-12
Pages 1825-1841
Institution Citation Milan, D., Heritage, G., Tooth, S., & Entwistle, N. (2018). Morphodynamics of bedrock-influenced dryland rivers during extreme floods: Insights from the Kruger National Park, South Africa. Geological Society of America Bulletin, 130(11-12), 1825-1841. doi:10.1130/B31839.1
DOI https://doi.org/10.1130/B31839.1
Keywords Geology
Publisher URL https://pubs.geoscienceworld.org/gsa/gsabulletin/article/130/11-12/1825/531020/Morphodynamics-of-bedrockinfluenced-dryland-rivers
Copyright Statement © 2018 The Authors. Gold Open Access: This paper is published under the terms of the CC-BY license.

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Copyright Statement
© 2018 The Authors. Gold Open Access: This paper is published under the terms of the CC-BY license.



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