Width control on event-scale deposition and evacuation of sediment in bedrock-confined channels

Cook Kristen L.; Turowski Jens M.; Hovius Niels

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Width control on event-scale deposition and evacuation of sediment in bedrock-confined channels

机译：基岩限制通道沉积物的宽度控制和沉积物的疏散

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In mixed bedrock-alluvial rivers, the response of the system to a flood event can be affected by a number of factors, including coarse sediment availability in the channel, sediment supply from the hillslopes and upstream, flood sequencing and coarse sediment grain size distribution. However, the impact of along-stream changes in channel width on bedload transport dynamics remains largely unexplored. We combine field data, theory and numerical modelling to address this gap. First, we present observations from the Daan River gorge in western Taiwan, where the river flows through a 1 km long 20-50 m wide bedrock gorge bounded upstream and downstream by wide braidplains. We documented two flood events during which coarse sediment evacuation and redeposition appear to cause changes of up to several metres in channel bed elevation. Motivated by this case study, we examined the relationships between discharge, channel width and bedload transport capacity, and show that for a given slope narrow channels transport bedload more efficiently than wide ones at low discharges, whereas wider channels are more efficient at high discharges. We used the model sedFlow to explore this effect, running a random sequence of floods through a channel with a narrow gorge section bounded upstream and downstream by wider reaches. Channel response to imposed floods is complex, as high and low discharges drive different spatial patterns of erosion and deposition, and the channel may experience both of these regimes during the peak and recession periods of each flood. Our modelling suggests that width differences alone can drive substantial variations in sediment flux and bed response, without the need for variations in sediment supply or mobility. The fluctuations in sediment transport rates that result from width variations can lead to intermittent bed exposure, driving incision in different segments of the channel during different portions of the hydrograph. (c) 2020 The Authors. Earth Surface Processes and Landforms published by John Wiley & Sons Ltd

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来源
《Earth Surface Processes and Landforms: The journal of the British Geomorphological Research Group》 |2020年第14期|共12页
作者
Cook Kristen L.; Turowski Jens M.; Hovius Niels;
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作者单位

GFZ German Res Ctr Geosci GFZ Sect 4-6 D-14473 Potsdam Germany;

GFZ German Res Ctr Geosci GFZ Sect 4-6 D-14473 Potsdam Germany;

GFZ German Res Ctr Geosci GFZ Sect 4-6 D-14473 Potsdam Germany;

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正文语种 eng
中图分类地球物理学;
关键词
bedload transport; discharge variability; bedrock-alluvial channels; channel width; hysteresis;

机译：床单运输;放电可变性;基岩冲积通道;通道宽度;滞后;

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Width control on event-scale deposition and evacuation of sediment in bedrock-confined channels

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