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Dropstones in lacustrine sediments as a record of snow avalanches — A validation of the proxy by combining satellite imagery and varve chronology at Kenai lake (South-Central Alaska)
Thys, S.; Van Daele, M.; Praet, N.; Jensen, B.J.L.; Van Dyck, T.; Haeussler, P.; Vandekerkhove, E.; Cnudde, V.; De Batist, M. (2019). Dropstones in lacustrine sediments as a record of snow avalanches — A validation of the proxy by combining satellite imagery and varve chronology at Kenai lake (South-Central Alaska). Quaternary 2(1): 11. https://dx.doi.org/10.3390/quat2010011
In: Quaternary. MDPI: Switzerland. e-ISSN 2571-550X, more
Peer reviewed article  

Available in  Authors 

Author keywords
    dropstones; snow avalanche; X-ray CT; varve

Authors  Top 
  • Thys, S.
  • Van Daele, M., more
  • Praet, N., more
  • Jensen, B.J.L.
  • Van Dyck, T.
  • Haeussler, P.
  • Vandekerkhove, E., more
  • Cnudde, V., more
  • De Batist, M., more

Abstract
    Snow avalanches cause many fatalities every year and damage local economies worldwide. The present-day climate change affects the snowpack and, thus, the properties and frequency of snow avalanches. Reconstructing snow avalanche records can help us understand past variations in avalanche frequency and their relationship to climate change. Previous avalanche records have primarily been reconstructed using dendrochronology. Here, we investigate the potential of lake sediments to record snow avalanches by studying 27 < 30-cm-long sediment cores from Kenai Lake, south-central Alaska. We use X-ray computed tomography (CT) to image post-1964 varves and to identify dropstones. We use two newly identified cryptotephras to update the existing varve chronology. Satellite imagery is used to understand the redistribution of sediments by ice floes over the lake, which helps to explain why some avalanches are not recorded. Finally, we compare the dropstone record with climate data to show that snow avalanche activity is related to high amounts of snowfall in periods of relatively warm or variable temperature conditions. We show, for the first time, a direct link between historical snow avalanches and dropstones preserved in lake sediments. Although the lacustrine varve record does not allow for the development of a complete annual reconstruction of the snow avalanche history in the Kenai Lake valley, our results suggest that it can be used for long-term decadal reconstructions of the snow-avalanche history, ideally in combination with similar records from lakes elsewhere in the region.

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