Abstract
Abstract. Many mountain belts sustain prolonged snow cover for parts of the year, although enquiries into rates of erosion in these landscapes have focused almost exclusively on the snow-free periods. This raises the question of whether annual snow cover contributes significantly to modulating rates of erosion in high-relief terrain. In this context, the sudden release of snow avalanches is a frequent and potentially relevant process, judging from the physical damage to subalpine forest ecosystems, and the amount of debris contained in avalanche deposits. To quantitatively constrain this visual impression and to expand the sparse literature, we sampled sediment concentrations of n = 28 river-spanning snow-avalanche deposits (snow bridges) in the area around Davos, eastern Swiss Alps, and inferred an orders-of-magnitude variability in specific fine sediment and organic carbon yields (1.8 to 830 t km−2 yr−1, and 0.04 to 131 t C km−2 yr−1, respectively). A Monte Carlo simulation demonstrates that, with a minimum of free parameters, such variability is inherent to the geometric scaling used for computing specific yields. Moreover, the widely applied method of linearly extrapolating plot scale sample data may be prone to substantial under- or overestimates. A comparison of our inferred yields with previously published work demonstrates the relevance of wet snow avalanches as prominent agents of soil erosion and transporters of biogeochemical constituents to mountain rivers. Given that a number of snow bridges persisted below the insulating debris cover well into the summer months, snow-avalanche deposits also contribute to regulating in-channel sediment and organic debris storage on seasonal timescales. Finally, our results underline the potential shortcomings of neglecting erosional processes in the winter and spring months in mountainous terrain subjected to prominent snow cover.
Highlights
Snow cover is a key visual and hydrological characteristic of many mountain belts during the winter months
We focus on the fine fractions of sediment and organic carbon entrained in those avalanches that formed snow bridges in the area around Davos, eastern Swiss Alps
The bulk of organic content was found in the fine fraction of detritus (< 2 mm) that we largely attribute to soil erosion in the runout path
Summary
Snow cover is a key visual and hydrological characteristic of many mountain belts during the winter months. Compared to other processes of hillslope mass wasting such as rockfalls or debris flows, little is known about the geomorphic and ecological impacts of snow avalanches (Fig. 1). This knowledge is vital to understanding comprehensive mass budgets in subalpine, alpine, and circumpolar regions, where snow cover is dominant for a significant fraction of the hydrological year. Neglecting the erosion, transport, and deposition potential by snow avalanches may underestimate rates of sediment and nutrient cycling in areas with steep slopes and high topographic relief
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