Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland

The massive worldwide deglaciation leads to more frequent slope instabilities in mountainous terrains. The physical processes leading to such destabilizations are poorly constrained due to little monitoring of dynamic parameters at the local scale. Here we study a very large slow-moving landslide (s...

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Main Authors: /Lacroix, Pascal, Belart, J. M. C., Berthier, E., Saemundsson, T., Jonsdottir, K.
Format: Text
Language:English
Published: 2022
Subjects:
landslide
glacier-retreat
remote-sensing
kinematics
seismology
asperity
glacier
Iceland
Islande
Online Access:https://www.documentation.ird.fr/hor/fdi:010085868
id ftird:oai:ird.fr:fdi:010085868
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010085868 2024-09-15T18:07:48+00:00 Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland /Lacroix, Pascal Belart, J. M. C. Berthier, E. Saemundsson, T. Jonsdottir, K. ISLANDE 2022 https://www.documentation.ird.fr/hor/fdi:010085868 EN eng https://www.documentation.ird.fr/hor/fdi:010085868 oai:ird.fr:fdi:010085868 Lacroix Pascal, Belart J. M. C., Berthier E., Saemundsson T., Jonsdottir K. Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland. 2022, 49 (14), e2022GL098302 [11 p.] landslide glacier-retreat remote-sensing kinematics seismology asperity text 2022 ftird 2024-08-15T05:57:40Z The massive worldwide deglaciation leads to more frequent slope instabilities in mountainous terrains. The physical processes leading to such destabilizations are poorly constrained due to little monitoring of dynamic parameters at the local scale. Here we study a very large slow-moving landslide (similar to 0.8 km(2)), on the flank of Tungnakvislarjokull glacier in Iceland. Based on a combination of remote sensing images, we monitor the landslide and glacier kinematics over 75 years, with a focus over the period 1999-2019 when rapid glacier wastage has been observed. The landslide accelerates from 2 to 45 m/yr in the 6 years following a sudden increase in glacier mass loss. This acceleration coincides with intense quake activity (Ml < 2.8), recorded by a regional seismic network. We show that this seismicity is caused by the landslide sliding on a rough surface. The evolution of the quake magnitudes suggests a progressive segmentation of the landslide mass during its acceleration. Text glacier Iceland Islande 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 landslide
glacier-retreat
remote-sensing
kinematics
seismology
asperity
spellingShingle landslide
glacier-retreat
remote-sensing
kinematics
seismology
asperity
/Lacroix, Pascal
Belart, J. M. C.
Berthier, E.
Saemundsson, T.
Jonsdottir, K.
Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland
topic_facet landslide
glacier-retreat
remote-sensing
kinematics
seismology
asperity
description The massive worldwide deglaciation leads to more frequent slope instabilities in mountainous terrains. The physical processes leading to such destabilizations are poorly constrained due to little monitoring of dynamic parameters at the local scale. Here we study a very large slow-moving landslide (similar to 0.8 km(2)), on the flank of Tungnakvislarjokull glacier in Iceland. Based on a combination of remote sensing images, we monitor the landslide and glacier kinematics over 75 years, with a focus over the period 1999-2019 when rapid glacier wastage has been observed. The landslide accelerates from 2 to 45 m/yr in the 6 years following a sudden increase in glacier mass loss. This acceleration coincides with intense quake activity (Ml < 2.8), recorded by a regional seismic network. We show that this seismicity is caused by the landslide sliding on a rough surface. The evolution of the quake magnitudes suggests a progressive segmentation of the landslide mass during its acceleration.
format Text
author /Lacroix, Pascal
Belart, J. M. C.
Berthier, E.
Saemundsson, T.
Jonsdottir, K.
author_facet /Lacroix, Pascal
Belart, J. M. C.
Berthier, E.
Saemundsson, T.
Jonsdottir, K.
author_sort /Lacroix, Pascal
title Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland
title_short Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland
title_full Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland
title_fullStr Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland
title_full_unstemmed Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland
title_sort mechanisms of landslide destabilization induced by glacier-retreat on tungnakvislarjokull area, iceland
publishDate 2022
url https://www.documentation.ird.fr/hor/fdi:010085868
op_coverage ISLANDE
genre glacier
Iceland
Islande
genre_facet glacier
Iceland
Islande
op_relation https://www.documentation.ird.fr/hor/fdi:010085868
oai:ird.fr:fdi:010085868
Lacroix Pascal, Belart J. M. C., Berthier E., Saemundsson T., Jonsdottir K. Mechanisms of landslide destabilization induced by glacier-Retreat on Tungnakvislarjokull Area, Iceland. 2022, 49 (14), e2022GL098302 [11 p.]
_version_ 1810445163745509376

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