Abstract
Suspended sediment load represents a large part of total solid fluxes transported in most rivers. Thus, for hydropower plan management or for environmental issues, it is crucial to understand how these sediments are produced, stored and transported in a given catchment. Hysteresis loops in discharge-suspended load signals are commonly used to assess sediment sources and production processes but most of the time the shape of this relation is analyzed qualitatively on short time series or for few events. In this study we analyzed quantitatively 10 long time series of suspended sediment load of various alpine catchments. This method allows us to compare events and to assess to which extent fine sediments originate from hillslope erosion processes or from river bed remobilization. We found that watersheds with braided bed morphology are dominated by clockwise loops while those with narrower bed as step-pool morphology are dominated by counter-clockwise hysteresis or have no general trend. These results suggest that storage and remobilization of fine sediments within the bed could play a major role in suspended sediment transport in Alpine streams, especially in large braided rivers.
Highlights
Suspended sediment load (SSL) is associated to important environmental issues such as nutriment and pollutant transport or alteration of spawning habitat
Only 6% of the cumulated fluxes not selected were transported above SSL90%, Q90% and SSC90% for the Glandon River which was the worst result
These results suggest that catchments with large eroded areas and step pool bed morphology (Arvan, Glandon and Ferrand) will have mainly sources of sediments located far from the outlet or on hillslopes leading to counter clockwise loops
Summary
Suspended sediment load (SSL) is associated to important environmental issues such as nutriment and pollutant transport or alteration of spawning habitat. It generates reservoir siltation which leads to security issues and loss of profitability. If the main source of sediment is far enough (hillslope or first order tributary) from the observation point, a delay between suspended sediment concentration (SSC) wave and the flow rate (Q) wave will be observed [1, 2]. This will create a counter-clockwise loop in the SSC-Q relation (Figure 1-a). If the main sediment source is close to the observation point and if it is supply
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