Litcius/Paper detail

Legacy of snow cover on alpine landscapes

Philippe Choler, Nicolas Bonfanti, Alix Reverdy, Arthur Bayle, Baptiste Nicoud, Lucie Liger, Jean‐Christophe Clément, Jean‐Martial Cohard, Christophe Corona, Simon Gascoin, Didier Voisin, Jérôme Poulenard

2025Communications Earth & Environment6 citationsDOIOpen Access PDF

Abstract

Abstract Over the past four decades, seasonal snow cover has declined rapidly in temperate alpine regions. However, the fine-scale dynamics of snowmelt preceding the ongoing warming period remain largely unknown, limiting our understanding of the long-term influence of past snow cover on alpine ecosystems. Here we rely upon the spatial similarities in melt-out patterns and a temperature-based model of fractional snow cover area, to reconstruct fine-scale snow cover changes over the past 250 years in instrumented catchments of the southwestern Alps. We provide evidence that, until the 1980s, prolonged snow cover in many late-lying snowfields delayed ecosystem development and explain why current vegetation cover, soil organic matter content, and mineral weathering are significantly lower in these areas than in surrounding ecosystems. These findings highlight the long-term legacy of snow cover on alpine landscapes and underscore the need to re-evaluate its effects on ecosystem structure, functioning, and responsiveness to ongoing changes.

Topics & Concepts

SnowmeltSnowSnow coverVegetation coverEcosystemPhysical geographyVegetation (pathology)Temperate climateLimitingEnvironmental scienceSnowpackAlpine climateClimate changeSnow lineSnow fieldWeatheringPlant coverPeriod (music)Terrestrial ecosystemCover (algebra)GeologySpatial variabilityPrecipitationClimatic variabilityEcologyErosionForest coverSoil coverMeltwaterCryospheric studies and observationsClimate change and permafrostTree-ring climate responses