Using Borehole Temperatures for Knowledge Transfer about Mountain Permafrost: The Example of the 35-year Time Series at Murtèl-Corvatsch (Swiss Alps)

Climate-related permafrost is widespread in cold mountains and heavily affects slope stability. As a subsurface phenomenon, however, it is often still absent in the perception of key partners concerning the discussion and anticipation of long-term impacts on high mountain regions from continued glob...

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Bibliographic Details
Main Authors: Haeberli, Wilfried, Noetzli, Jeannette, Vonder Mühll, Daniel
Format: Article in Journal/Newspaper
Language:English
Published: Colin 2023
Subjects:
permafrost
mountains
climate change
borehole temperature
slope stability
pergélisol
montagnes
changement climatique
température de forage
stabilité des pentes
Ice
Online Access:https://hdl.handle.net/20.500.11850/649771
https://doi.org/10.3929/ethz-b-000649771
Description
Summary:Climate-related permafrost is widespread in cold mountains and heavily affects slope stability. As a subsurface phenomenon, however, it is often still absent in the perception of key partners concerning the discussion and anticipation of long-term impacts on high mountain regions from continued global warming. Outreach and knowledge transfer, therefore, play a key role. Long-term observations of permafrost temperatures measured in boreholes can be used to convey answers and key messages concerning thermal conditions in a spatio-temporal context, related environmental conditions, affected depth ranges, and impacts of warming and degradation on slope stability.The 35-year Murtel-Corvatsch time series of borehole temperatures from which data is available since 1987, is used here as an example. Today, mountain permafrost is well documented and understood regarding involved processes, as well as its occurrence in space and evolution in time. Thermal anomalies caused by global warming already now reach about 100 meters depth, thereby reducing the ground ice content, causing accelerated creep of ice-rich frozen talus/ debris (so-called "rock glaciers") and reducing the stability of large frozen bedrock masses at steep icy faces and peaks. Le permafrost (pergélisol) lié au climat est très répandu dans les montagnes froides et affecte fortement la stabilité des pentes. Cependant, en tant que phénomène de subsurface, il est encore souvent absent de la perception des partenaires clés en ce qui concerne la discussion et l’anticipation des impacts à long terme sur les régions de haute montagne d’un réchauffement climatique continu. La sensibilisation et le transfert de connaissances jouent donc un rôle essentiel. Les observations à long terme des températures du permafrost mesurées dans des forages peuvent être utilisées pour transmettre des réponses et des messages clés concernant les conditions thermiques dans un contexte spatio-temporel, les aspects environnementaux connexes, les gammes de profondeurs affectées et les ...

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