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Sentinel-1 Snow Depth Retrieval at Sub-Kilometer Resolution Over the European Alps
The Cryosphere
  • Hans Lievens, KU Leuven
  • Isis Brangers, KU Leuven
  • Hans-Peter Marshall, Boise State University
  • Tobias Jonas, WSL – Institute for Snow and Avalanche Research SLF
  • Marc Olefs, ZAMG – Zentralanstalt für Meteorologie und Geodynamik
  • Gabriëlle De Lannoy, KU Leuven
Document Type
Article
Publication Date
1-17-2022
Abstract

Seasonal snow is an essential water resource in many mountain regions. However, the spatio-temporal variability in mountain snow depth or snow water equivalent (SWE) at regional to global scales is not well understood due to the lack of high-resolution satellite observations and robust retrieval algorithms. We investigate the ability of the Sentinel-1 mission to monitor snow depth at sub-kilometer (100 m, 500 m, and 1 km) resolutions over the European Alps for 2017–2019. The Sentinel-1 backscatter observations, especially in cross-polarization, show a high correlation with regional model simulations of snow depth over Austria and Switzerland. The observed changes in radar backscatter with the accumulation or ablation of snow are used in an empirical change detection algorithm to retrieve snow depth. The algorithm includes the detection of dry and wet snow conditions. Compared to in situ measurements at 743 sites in the European Alps, dry snow depth retrievals at 500 m and 1 km resolution have a spatio-temporal correlation of 0.89. The mean absolute error equals 20 %–30 % of the measured values for snow depths between 1.5 and 3 m. The performance slightly degrades for retrievals at the finer 100 m spatial resolution as well as for retrievals of shallower and deeper snow. The results demonstrate the ability of Sentinel-1 to provide snow estimates in mountainous regions where satellite-based estimates of snow mass are currently lacking. The retrievals can improve our knowledge of seasonal snow mass in areas with complex topography and benefit a number of applications, such as water resource management, flood forecasting, and numerical weather prediction. However, future research is recommended to further investigate the physical basis of the sensitivity of Sentinel-1 backscatter observations to snow accumulation.

Creative Commons License
Creative Commons Attribution 4.0 International
Citation Information
Hans Lievens, Isis Brangers, Hans-Peter Marshall, Tobias Jonas, et al.. "Sentinel-1 Snow Depth Retrieval at Sub-Kilometer Resolution Over the European Alps" The Cryosphere (2022)
Available at: http://works.bepress.com/hanspeter_marshall/58/