Observations on the May 2019 Joffre Peak landslides, British Columbia
Autor: | Andrew Mitchell, Brian Menounos, John J. Clague, Kate E. Allstadt, Pierre Friele, Marten Geertsema, Tom H. Millard |
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Jazyk: | angličtina |
Rok vydání: | 2020 |
Předmět: |
010504 meteorology & atmospheric sciences
Snowmelt Travel angle Permafrost 010502 geochemistry & geophysics 01 natural sciences Rock avalanche Flood Debris flow Rockfall Geomorphology 0105 earth and related environmental sciences geography Seismic analysis geography.geographical_feature_category Flood myth British Columbia Recent Landslides Glacier Landslide Geotechnical Engineering and Engineering Geology Debris Joffre Peak 13. Climate action Geology |
Zdroj: | Landslides |
ISSN: | 1612-5118 1612-510X |
Popis: | Two catastrophic landslides occurred in quick succession on 13 and 16 May 2019, from the north face of Joffre Peak, Cerise Creek, southern Coast Mountains, British Columbia. With headscarps at 2560 m and 2690 m elevation, both began as rock avalanches, rapidly transforming into debris flows along middle Cerise Creek, and finally into debris floods affecting the fan. Beyond the fan margin, a flood surge on Cayoosh Creek reached bankfull and attenuated rapidly downstream; only fine sediment reached Duffey Lake. The toe of the main debris flow deposit reached 4 km from the headscarp, with a travel angle of 0.28, while the debris flood phase reached the fan margin 5.9 km downstream, with a travel angle of 0.22. Photogrammetry indicates the source volume of each event is 2–3 Mm3, with combined volume of 5 Mm3. Lidar differencing, used to assess deposit volume, yielded a similar total result, although error in the depth estimate introduced large volume error masking the expected increase due to dilation and entrainment. The average velocity of the rock avalanche-debris flow phases, from seismic analysis, was ~ 25–30 m/s, and the velocity of the 16 May debris flood on the upper fan, from super-elevation and boulder sizes, was 5–10 m/s. The volume of debris deposited on the fan was ~ 104 m3, 2 orders of magnitude less than the avalanche/debris flow phases. Progressive glacier retreat and permafrost degradation were likely the conditioning factors; precursor rockfall activity was noted at least ~6 months previous; thus, the mountain was primed to fail. The 13 May landslide was apparently triggered by rapid snowmelt, with debuttressing triggering the 16 May event. |
Databáze: | OpenAIRE |
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