Mechanisms leading to the 2016 giant twin glacier collapses, Aru Range, Tibet
In north-western Tibet (34.0° N, 82.2° E) near lake Aru Co, the entire ablation areas of two glaciers (Aru-1 and Aru-2) suddenly collapsed on 17 July and 21 September 2016. The masses transformed into ice avalanches with volumes of 68 and 83×10 6 m 3 and ran out up to 7 km in horizontal distance, ki...
| Published in: | The Cryosphere |
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| Language: | English |
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Copernicus Publications
2018
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| Online Access: | https://doi.org/10.5194/tc-12-2883-2018 https://doaj.org/article/f4c9a510f4394361892a598bad57d8a1 |
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ftdoajarticles:oai:doaj.org/article:f4c9a510f4394361892a598bad57d8a1 2023-05-15T18:32:25+02:00 Mechanisms leading to the 2016 giant twin glacier collapses, Aru Range, Tibet A. Gilbert S. Leinss J. Kargel A. Kääb S. Gascoin G. Leonard E. Berthier A. Karki T. Yao 2018-09-01T00:00:00Z https://doi.org/10.5194/tc-12-2883-2018 https://doaj.org/article/f4c9a510f4394361892a598bad57d8a1 EN eng Copernicus Publications https://www.the-cryosphere.net/12/2883/2018/tc-12-2883-2018.pdf https://doaj.org/toc/1994-0416 https://doaj.org/toc/1994-0424 doi:10.5194/tc-12-2883-2018 1994-0416 1994-0424 https://doaj.org/article/f4c9a510f4394361892a598bad57d8a1 The Cryosphere, Vol 12, Pp 2883-2900 (2018) Environmental sciences GE1-350 Geology QE1-996.5 article 2018 ftdoajarticles https://doi.org/10.5194/tc-12-2883-2018 2022-12-31T15:20:21Z In north-western Tibet (34.0° N, 82.2° E) near lake Aru Co, the entire ablation areas of two glaciers (Aru-1 and Aru-2) suddenly collapsed on 17 July and 21 September 2016. The masses transformed into ice avalanches with volumes of 68 and 83×10 6 m 3 and ran out up to 7 km in horizontal distance, killing nine people. The only similar event currently documented is the 130×10 6 m 3 Kolka Glacier rock and ice avalanche of 2002 (Caucasus Mountains). Using climatic reanalysis, remote sensing, and three-dimensional thermo-mechanical modelling, we reconstructed the Aru glaciers' thermal regimes, thicknesses, velocities, basal shear stresses, and ice damage prior to the collapse in detail. Thereby, we highlight the potential of using emergence velocities to constrain basal friction in mountain glacier models. We show that the frictional change leading to the Aru collapses occurred in the temperate areas of the polythermal glaciers and is not related to a rapid thawing of cold-based ice. The two glaciers experienced a similar stress transfer from predominant basal drag towards predominant lateral shearing in the detachment areas and during the 5–6 years before the collapses. A high-friction patch is found under the Aru-2 glacier tongue, but not under the Aru-1 glacier. This difference led to disparate behaviour of both glaciers, making the development of the instability more visible for the Aru-1 glacier through enhanced crevassing and terminus advance over a longer period. In comparison, these signs were observable only over a few days to weeks (crevasses) or were absent (advance) for the Aru-2 glacier. Field investigations reveal that those two glaciers were underlain by soft, highly erodible, and fine-grained sedimentary lithologies. We propose that the specific bedrock lithology played a key role in the two Tibet and the Caucasus Mountains giant glacier collapses documented to date by producing low bed roughness and large amounts of till, rich in clay and silt with a low friction angle. The twin 2016 Aru collapses ... Article in Journal/Newspaper The Cryosphere Directory of Open Access Journals: DOAJ Articles The Cryosphere 12 9 2883 2900 |
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Open Polar |
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Directory of Open Access Journals: DOAJ Articles |
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ftdoajarticles |
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English |
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Environmental sciences GE1-350 Geology QE1-996.5 |
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Environmental sciences GE1-350 Geology QE1-996.5 A. Gilbert S. Leinss J. Kargel A. Kääb S. Gascoin G. Leonard E. Berthier A. Karki T. Yao Mechanisms leading to the 2016 giant twin glacier collapses, Aru Range, Tibet |
| topic_facet |
Environmental sciences GE1-350 Geology QE1-996.5 |
| description |
In north-western Tibet (34.0° N, 82.2° E) near lake Aru Co, the entire ablation areas of two glaciers (Aru-1 and Aru-2) suddenly collapsed on 17 July and 21 September 2016. The masses transformed into ice avalanches with volumes of 68 and 83×10 6 m 3 and ran out up to 7 km in horizontal distance, killing nine people. The only similar event currently documented is the 130×10 6 m 3 Kolka Glacier rock and ice avalanche of 2002 (Caucasus Mountains). Using climatic reanalysis, remote sensing, and three-dimensional thermo-mechanical modelling, we reconstructed the Aru glaciers' thermal regimes, thicknesses, velocities, basal shear stresses, and ice damage prior to the collapse in detail. Thereby, we highlight the potential of using emergence velocities to constrain basal friction in mountain glacier models. We show that the frictional change leading to the Aru collapses occurred in the temperate areas of the polythermal glaciers and is not related to a rapid thawing of cold-based ice. The two glaciers experienced a similar stress transfer from predominant basal drag towards predominant lateral shearing in the detachment areas and during the 5–6 years before the collapses. A high-friction patch is found under the Aru-2 glacier tongue, but not under the Aru-1 glacier. This difference led to disparate behaviour of both glaciers, making the development of the instability more visible for the Aru-1 glacier through enhanced crevassing and terminus advance over a longer period. In comparison, these signs were observable only over a few days to weeks (crevasses) or were absent (advance) for the Aru-2 glacier. Field investigations reveal that those two glaciers were underlain by soft, highly erodible, and fine-grained sedimentary lithologies. We propose that the specific bedrock lithology played a key role in the two Tibet and the Caucasus Mountains giant glacier collapses documented to date by producing low bed roughness and large amounts of till, rich in clay and silt with a low friction angle. The twin 2016 Aru collapses ... |
| format |
Article in Journal/Newspaper |
| author |
A. Gilbert S. Leinss J. Kargel A. Kääb S. Gascoin G. Leonard E. Berthier A. Karki T. Yao |
| author_facet |
A. Gilbert S. Leinss J. Kargel A. Kääb S. Gascoin G. Leonard E. Berthier A. Karki T. Yao |
| author_sort |
A. Gilbert |
| title |
Mechanisms leading to the 2016 giant twin glacier collapses, Aru Range, Tibet |
| title_short |
Mechanisms leading to the 2016 giant twin glacier collapses, Aru Range, Tibet |
| title_full |
Mechanisms leading to the 2016 giant twin glacier collapses, Aru Range, Tibet |
| title_fullStr |
Mechanisms leading to the 2016 giant twin glacier collapses, Aru Range, Tibet |
| title_full_unstemmed |
Mechanisms leading to the 2016 giant twin glacier collapses, Aru Range, Tibet |
| title_sort |
mechanisms leading to the 2016 giant twin glacier collapses, aru range, tibet |
| publisher |
Copernicus Publications |
| publishDate |
2018 |
| url |
https://doi.org/10.5194/tc-12-2883-2018 https://doaj.org/article/f4c9a510f4394361892a598bad57d8a1 |
| genre |
The Cryosphere |
| genre_facet |
The Cryosphere |
| op_source |
The Cryosphere, Vol 12, Pp 2883-2900 (2018) |
| op_relation |
https://www.the-cryosphere.net/12/2883/2018/tc-12-2883-2018.pdf https://doaj.org/toc/1994-0416 https://doaj.org/toc/1994-0424 doi:10.5194/tc-12-2883-2018 1994-0416 1994-0424 https://doaj.org/article/f4c9a510f4394361892a598bad57d8a1 |
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https://doi.org/10.5194/tc-12-2883-2018 |
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The Cryosphere |
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12 |
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9 |
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2883 |
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2900 |
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