A method to estimate surface mass-balance in glacier accumulation areas based on digital elevation models and submergence velocities

Measuring surface mass-balance in the accumulation areas of glaciers is challenging because of the high spatial variability of snow accumulation and the difficulty of conducting annual field glaciological measurements. Here, we propose a method that can solve both these problems for many locations....

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Bibliographic Details
Published in:Journal of Glaciology
Main Authors: Bruno Jourdain, Christian Vincent, Marion Réveillet, Antoine Rabatel, Fanny Brun, Delphine Six, Olivier Laarman, Luc Piard, Patrick Ginot, Olivier Sanchez, Etienne Berthier
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press 2023
Subjects:
Accumulation
glacier mass-balance
ground-penetrating radar
mountain glaciers
Environmental sciences
GE1-350
Meteorology. Climatology
QC851-999
Journal of Glaciology
Online Access:https://doi.org/10.1017/jog.2023.29
https://doaj.org/article/368220bcbada466bac47792e644258c1
Description
Summary:Measuring surface mass-balance in the accumulation areas of glaciers is challenging because of the high spatial variability of snow accumulation and the difficulty of conducting annual field glaciological measurements. Here, we propose a method that can solve both these problems for many locations. Ground-penetrating radar measurements and firn cores extracted from a site in the French Alps were first used to reconstruct the topography of a buried end-of-summer snow horizon from a past year. Using these data and surface elevation observations from LiDAR and Global Navigation Satellite System instruments, we calculated the submergence velocities over the period between the buried horizon and more recent surface elevation observations. The differences between the changes in surface elevation and the submergence velocities were then used to calculate the annual surface mass-balances with an accuracy of ±0.34 m w.e. Assuming that the submergence velocities remain stable over several years, the surface mass-balance can be reconstructed for subsequent years from the differences in surface elevation alone. As opposed to the glaciological method that requires substantial fieldwork year after year to provide only point observations, this method, once submergence velocities have been calculated, requires only remote-sensing data to provide spatially distributed annual mass-balances in accumulation areas.

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