ID:
publications-1761
Type:
Peer reviewed articles
Year:
2023
Authors:
Shaw, T. E., Buri, P., McCarthy, M., Miles, E. S., Ayala, Ă., & Pellicciotti, F.Â
Title:
The decaying nearâsurface boundary layer of a retreating Alpine glacier.Â
Venue/Journal:
Geophysical Research Letters
DOI:
10.1029/2023gl103043
Research type:
Uncategorized
Water System:
Uncategorized
Technical Focus:
Abstract:
AbstractThe presence of a developed boundary layer decouples a glacier's response from ambient conditions, suggesting that sensitivity to climate change is increased by glacier retreat. To test this hypothesis, we explore six years of distributed meteorological data on a small Swiss glacier in the period 2001â2022. Large glacier fragmentation has occurred since 2001 (â35% area change up to 2022) coinciding with notable frontal retreat, an observed switch from downâglacier katabatic to upâglacier valley winds and an increased sensitivity (ratio) of onâglacier to offâglacier temperature. As the glacier ceases to develop densityâdriven katabatic winds, sensible heat fluxes on the glacier are increasingly determined by the conditions occurring outside the boundary layer of the glacier, sealing the glacier's demise as the climate continues to warm and experience an increased frequency of extreme summers.
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772751
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