Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France)

We studied a newly identified, multiple-kilometer-long rock slope failure in the Aiguilles Rouges massif (Cha-monix valley, France). Owing to a high-resolution light detection and ranging (LiDAR) digital elevation model (DEM) and field work, we mapped morphostructures, including scarps, open fractur...

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Main Authors: Courtial-Manent, L., Mugnier, J. L., /Zerathe, Swann, Carcaillet, J., Vassallo, R., Ravanel, L., Tavernier, L., Buoncristiani, J. F.
Format: Text
Language:English
Published: 2023
Subjects:
Alpine glacial valley
Rock slope failure
Cosmogenic radionuclide dating
Natural hazard
Chamonix valley
Long Rock
Online Access:https://www.documentation.ird.fr/hor/fdi:010087631
id ftird:oai:ird.fr:fdi:010087631
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010087631 2024-09-15T18:17:56+00:00 Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France) Courtial-Manent, L. Mugnier, J. L. /Zerathe, Swann Carcaillet, J. Vassallo, R. Ravanel, L. Tavernier, L. Buoncristiani, J. F. FRANCE ALPES, CHAMONIX VALLEE 2023 https://www.documentation.ird.fr/hor/fdi:010087631 EN eng https://www.documentation.ird.fr/hor/fdi:010087631 oai:ird.fr:fdi:010087631 Courtial-Manent L., Mugnier J. L., Zerathe Swann, Carcaillet J., Vassallo R., Ravanel L., Tavernier L., Buoncristiani J. F. Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France). 2023, 652, p. 52-62 Alpine glacial valley Rock slope failure Cosmogenic radionuclide dating Natural hazard Chamonix valley text 2023 ftird 2024-08-15T05:57:40Z We studied a newly identified, multiple-kilometer-long rock slope failure in the Aiguilles Rouges massif (Cha-monix valley, France). Owing to a high-resolution light detection and ranging (LiDAR) digital elevation model (DEM) and field work, we mapped morphostructures, including scarps, open fractures, and counterscarps. In some places, vertical offsets can reach tens of meters and crevasses can be meters wide. The evidence of grav-itational activity (boulder displacements from analyses of archival satellite images) and the sharpness of the scarp outcrops together suggest very recent movements. These observations agree with ground displacement rates of a few millimeters per year estimated by interferometric synthetic aperture radar (InSAR) time series between 2014 and 2018.We sampled two vertical profiles along the top scarps to define the chronology of the slope failure using beryllium-10 (10Be) surface exposure dating. Glacially polished surfaces cut by these gravitational scarps were also sampled to determine glacial retreat timing as well as to constrain the pre-exposure 10Be inheritance. In total, 11 samples were studied.Our results highlight a significant time lag (approximately 15 ka) between the first evidence of nonglacial activity and the initiation of the slope failure that happened 1.3-2.5 ka ago, depending on the inheritance schemes. This suggests that the delayed opening of the crevasse is only one stage of a process that began when the valley was deepened and the glacial debuttressing is not the unique driving factor. This process of progressive failure of an excessively steep slope may continue, and the evolution of this slope failure may constitute a hazard for the upper part of the Chamonix valley. Text Long Rock IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
topic Alpine glacial valley
Rock slope failure
Cosmogenic radionuclide dating
Natural hazard
Chamonix valley
spellingShingle Alpine glacial valley
Rock slope failure
Cosmogenic radionuclide dating
Natural hazard
Chamonix valley
Courtial-Manent, L.
Mugnier, J. L.
/Zerathe, Swann
Carcaillet, J.
Vassallo, R.
Ravanel, L.
Tavernier, L.
Buoncristiani, J. F.
Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France)
topic_facet Alpine glacial valley
Rock slope failure
Cosmogenic radionuclide dating
Natural hazard
Chamonix valley
description We studied a newly identified, multiple-kilometer-long rock slope failure in the Aiguilles Rouges massif (Cha-monix valley, France). Owing to a high-resolution light detection and ranging (LiDAR) digital elevation model (DEM) and field work, we mapped morphostructures, including scarps, open fractures, and counterscarps. In some places, vertical offsets can reach tens of meters and crevasses can be meters wide. The evidence of grav-itational activity (boulder displacements from analyses of archival satellite images) and the sharpness of the scarp outcrops together suggest very recent movements. These observations agree with ground displacement rates of a few millimeters per year estimated by interferometric synthetic aperture radar (InSAR) time series between 2014 and 2018.We sampled two vertical profiles along the top scarps to define the chronology of the slope failure using beryllium-10 (10Be) surface exposure dating. Glacially polished surfaces cut by these gravitational scarps were also sampled to determine glacial retreat timing as well as to constrain the pre-exposure 10Be inheritance. In total, 11 samples were studied.Our results highlight a significant time lag (approximately 15 ka) between the first evidence of nonglacial activity and the initiation of the slope failure that happened 1.3-2.5 ka ago, depending on the inheritance schemes. This suggests that the delayed opening of the crevasse is only one stage of a process that began when the valley was deepened and the glacial debuttressing is not the unique driving factor. This process of progressive failure of an excessively steep slope may continue, and the evolution of this slope failure may constitute a hazard for the upper part of the Chamonix valley.
format Text
author Courtial-Manent, L.
Mugnier, J. L.
/Zerathe, Swann
Carcaillet, J.
Vassallo, R.
Ravanel, L.
Tavernier, L.
Buoncristiani, J. F.
author_facet Courtial-Manent, L.
Mugnier, J. L.
/Zerathe, Swann
Carcaillet, J.
Vassallo, R.
Ravanel, L.
Tavernier, L.
Buoncristiani, J. F.
author_sort Courtial-Manent, L.
title Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France)
title_short Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France)
title_full Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France)
title_fullStr Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France)
title_full_unstemmed Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France)
title_sort late holocene initiation of a deep rock slope failure in an alpine valley revealed by 10be surface exposure dating (chamonix, france)
publishDate 2023
url https://www.documentation.ird.fr/hor/fdi:010087631
op_coverage FRANCE
ALPES, CHAMONIX VALLEE
genre Long Rock
genre_facet Long Rock
op_relation https://www.documentation.ird.fr/hor/fdi:010087631
oai:ird.fr:fdi:010087631
Courtial-Manent L., Mugnier J. L., Zerathe Swann, Carcaillet J., Vassallo R., Ravanel L., Tavernier L., Buoncristiani J. F. Late Holocene initiation of a deep rock slope failure in an alpine valley revealed by 10Be surface exposure dating (Chamonix, France). 2023, 652, p. 52-62
_version_ 1810456056537546752

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