Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
5750737 | Science of The Total Environment | 2017 | 12 Pages |
â¢Exceptionally large numbers of rockfalls reported in the Alps in 2003 and 2015, years characterized by a summer heatwave.â¢The frequency of rockfalls in summer 2015 was comparable to the one of summer 2003 in the Mont Blanc massif.â¢Rockfalls occurred in permafrost-affected areas, generally at a shallow depth.
Rockfall is one of the main geomorphological processes that affects the evolution and stability of rock-walls. At high elevations, rockfall is largely climate-driven, very probably because of the warming of rock-wall permafrost. So with the ongoing global warming that drives the degradation of permafrost, the related hazards for people and infrastructure could continue to increase.The heatwave of summer 2015, which affected Western Europe from the end of June to August, had a serious impact on the stability of high-altitude rock-walls, including those in the Mont Blanc massif. A network of observers allowed us to survey the frequency and intensity of rock-wall morphodynamics in 2015, and to verify its relationship with permafrost. These observations were compared with those of the 2003 summer heatwave, identified and quantified by remote sensing.A comparison between the two years shows a fairly similar rockfall pattern in respect of total volumes and high frequencies (about 160 rockfalls >Â 100Â m3) but the total volume for 2003 is higher than the 2015 one (about 300,000Â m3 and 170,000Â m3 respectively). In both cases, rockfalls were numerous but with a low magnitude and occurred in permafrost-affected areas. This suggests a sudden and remarkable deepening of the active layer during these two summers, rather than a longer-term warming of the permafrost body.
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