Litcius/Paper detail

Exceptional thinning through the entire altitudinal range of Mont-Blanc glaciers during the 2021/22 mass balance year

Étienne Berthier, Christian Vincent, Delphine Six

2023Journal of Glaciology20 citationsDOIOpen Access PDF

Abstract

Abstract Widespread glacier losses have been observed in most glaciated regions on Earth during recent decades, with a typical pattern of strong thinning in their lower reaches and limited elevation changes in their accumulation areas. Here, we use Pléiades satellite stereo-images of the Mont-Blanc massif (Alps) to reveal that thinning took place through the entire elevation range during the exceptional 2021/22 mass-balance year. Above 3000 m a.s.l. on Argentière glacier and Mer de Glace, thinning rates exceeded 3.5 m a −1 while almost no change occurred during the previous 9 years. Below 3000 m a.s.l., these anomalous thinning rates are essentially explained by changes in surface mass balance. At higher altitudes, other processes such as firn densification may play a role. Our analysis shows that high altitude glaciers, mostly stable during the last 100 years, are now responding to the impact of climate change.

Topics & Concepts

ThinningGlacierGeologyFirnPhysical geographyAltitude (triangle)Glacier mass balanceElevation (ballistics)Climate changeMassifRange (aeronautics)GeomorphologyGeographyOceanographyPaleontologyForestryGeometryComposite materialMaterials scienceMathematicsCryospheric studies and observationsLandslides and related hazardsWinter Sports Injuries and Performance