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Modeling the Onset of Earthquake‐Triggered Landslides on Slip Surfaces Governed by Rate‐And‐State Friction.

Authors :
Lestrelin, H.
Ampuero, J. P.
Mercerat, E. D.
Courboulex, F.
Source :
Geophysical Research Letters. 12/28/2024, Vol. 51 Issue 24, p1-10. 10p.
Publication Year :
2024

Abstract

Earthquake‐triggered landslides are a severe hazard and contribute to landscape evolution. To understand their process and controlling factors, we model the onset of seismically‐triggered slip on pre‐existing slip surfaces governed by laboratory‐based rate‐and‐state friction, including wave propagation effects. Through numerical simulations and theoretical analysis, we identify how friction properties, landslide thickness and incident wave attributes (frequency, duration, amplitude) control slope stability. We find that the frictional state variable tracks the cyclic fatigue of the slip surface, its progressive weakening with each wave cycle. Wave propagation effects introduce two regimes depending on frequency relative to the two‐way travel time across the landslide thickness: the stability criterion is well approximated by a threshold on incident peak acceleration at low frequencies, and on peak velocity at high frequencies. We derive analytical approximations, validated by simulations, suitable to apply the model to evaluate landslide stability under arbitrary input motions. Plain Language Summary: Landslides induced by earthquake shaking cause human and economic losses. Understanding their triggering mechanism is a key to reduce their impact. Here we propose a new model for the onset of seismically‐triggered landslide slip using a friction law based on laboratory experiments. Studying the model mathematically and through computer simulations, we identify the specific attributes of the landslide and incident seismic waves that control slope stability. We find that the decrease of the frictional state variable is a good proxy for the approach to instability. The landslide triggering criterion is well described by a peak acceleration threshold if the landslide is shallow or the earthquake shaking is dominated by low frequencies, and by a peak velocity threshold for deep landslides or high‐frequency shaking. Finally, we develop equations that can be used to assess landslide stability to shaking without the need for computer simulations. Key Points: Numerical and analytical modeling of earthquake‐induced landslides on slip surfaces governed by rate‐and‐state frictionThe frictional state variable tracks the landslide fatigue manifested by progressive weakening of the slip surfaceLandslide triggering by low‐ and high‐frequency shaking is controlled by peak acceleration and velocity, respectively [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00948276
Volume :
51
Issue :
24
Database :
Academic Search Index
Journal :
Geophysical Research Letters
Publication Type :
Academic Journal
Accession number :
181847640
Full Text :
https://doi.org/10.1029/2024GL110695