Litcius/Paper detail

Glacier-wide seasonal and annual geodetic mass balances from Pléiades stereo images: application to the Glacier d'Argentière, French Alps

Luc Béraud, Diego Cusicanqui, Antoine Rabatel, Fanny Brun, Christian Vincent, Delphine Six

2022Journal of Glaciology38 citationsDOIOpen Access PDF

Abstract

Abstract The increased availability of high-resolution and high-quality digital elevation models (DEMs) allows for the investigation of small-scale glaciological changes and improved precision in geodetic mass-balance estimates. However, high precision and careful methodological choices are required to retrieve glacier-wide mass changes at annual to seasonal time scales. Here, we used a 7-year time series of 12 DEMs of the Glacier d'Argentière, in the French Alps, derived from the Pléiades optical satellites to assess the ability of sub-metre stereoscopic satellite images to retrieve annual-to-seasonal mass balances. We found good agreement between the five annual and the four winter mass-balance values estimated using a geodetic method and those of in situ glaciological measurements: mean values via the geodetic method are −0.66 m w.e. and 1.47 m w.e. for annual and winter balances, respectively; mean absolute discrepancies are 0.25 m w.e. (annual) and 0.36 m w.e. (winter). Our study identified three main limitations of this methodology: (i) the intrinsic DEM precision; (ii) the lack of control over the satellite acquisition dates; and (iii) the density assumption. The consistency between the methods demonstrates the potential of short time-scale glacier mass-balance monitoring using very high-resolution satellite images.

Topics & Concepts

Geodetic datumGlacierGlacier mass balanceSatelliteGeodesyScale (ratio)Digital elevation modelGeologyRemote sensingClimatologyEnvironmental sciencePhysical geographyMeteorologyGeographyGeomorphologyCartographyPhysicsAstronomyCryospheric studies and observationsWinter Sports Injuries and PerformanceLandslides and related hazards