Abstract
Abstract. We present results from an experimental campaign conducted in a steep flume subject to longitudinal width variations and different sediment feed rates. The experiments were designed to study how sediment supply influences step formation, step location, and step stability. Our results show that steps are more likely to form in segments of the channel where the width narrows because of particle jamming, and these steps are also more stable. Sediment feed increases particle activity which generates a dynamic channel morphology with steps forming and collapsing. A comparison with experiments without sediment feed shows that sediment supply does not inhibit step formation. Time series of step formation, evolution, and destruction show that the maximum number of steps is achieved when the sediment feed is larger than zero but smaller than the transport capacity. We summarize this outcome in a conceptual model where the dependence of step frequency on sediment supply is expressed by a bell curve. Sediment yield measured at the channel outlet followed the sediment feed at the inlet closely, even when we fed 50 % more and 50 % less than the calculated transport capacity. This outcome challenges the applicability of the concept of transport capacity to steep channels and highlights the key role played by sediment feed in dictating sediment yield and channel response. Finally, we detected a positive correlation between sediment concentration and step destruction, which stresses the importance of particle interactions for step formation and stability.
Highlights
Step-pool channels are often found in steep mountain streams, where large boulders and woody debris jam in the transverse direction, forming steps followed by pools of finer sediment (Chartrand et al, 2011; Grant et al, 1990; Montgomery and Buffington, 1997)
The experiments conducted with sediment feed produced more steps than those without it (Saletti and Hassan, 2020a) but higher feed rates decreased the average number of steps
Light-table measurements of sediment transport rates demonstrated that sediment yield matched sediment feed quite closely
Summary
Step-pool channels are often found in steep mountain streams, where large boulders and woody debris jam in the transverse direction, forming steps followed by pools of finer sediment (Chartrand et al, 2011; Grant et al, 1990; Montgomery and Buffington, 1997). This morphology has been extensively studied because it appeals visually, provides good habitats for fish, and is an effective tool for energy dissipation that keeps the channel stable even at high flows (see reviews by Chin and Wohl, 2005; Church and Zimmermann, 2007; Comiti and Mao, 2012). Field studies and flume experiments highlighted how boulder protrusion (Yager et al, 2018, 2007), grain clustering (Johnson, 2017), and the supply of fine sediment
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