Dynamics of snow ablation in a small Alpine catchment observed by repeated terrestrial laser scans |
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| Authors: | Luca Egli Tobias Jonas Thomas Grünewald Michael Schirmer Paolo Burlando |
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| Institution: | 1. WSL Institute for Snow and Avalanche Research SLF, , CH‐7260 Davos Dorf, Switzerland;2. Swiss Federal Institute of Technology, Institute of Environmental Engineering, , Zürich, Switzerland |
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| Abstract: | The spatio‐temporal distribution of snow in a catchment during ablation reflects changes in the total amount of snow water equivalent and is thus a key parameter for the estimation of melt water run‐off. This study explores possible rules behind the spatial variability of snow depth during the ablation season in a small Alpine catchment with complex topography. The snow depth observations are based on more than 160 000 terrestrial laser scanner data points with a spatial resolution of 1 m, which were obtained from 11 scanning campaigns of two consecutive ablation seasons. The analysis suggests that for estimating cumulative snow melt dynamics from the catchment investigated, assessing the initial snow distribution prior to the melt season is more important than addressing spatial differences in the melt behaviour. Snow volume and snow‐covered area could be predicted well using a conceptual melt model assuming spatially uniform melt rates. However, accurate results were only obtained if the model was initialized with a pre‐melt snow distribution that reflected measured mean and standard deviation. Using stratified melt rates on the other hand did not improve the model results. At least for sites with similar meteorological and topographical conditions, the model approach presented here comprises an efficient way to estimate snow depletion dynamics, especially if persistent snow accumulation pattern between years facilitate the characterization of the initial snow distribution prior to the melt. Copyright © 2011 John Wiley & Sons, Ltd. |
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| Keywords: | snow hydrology melt rate variability snow distribution snow‐covered area |
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