Physical Properties Controlling Earthquake Ruptures: Two Study Cases Along the South American Subduction Zone

Sergio Leon-Rios; Andreas Rietbrock; Lidong Bie; Susan Beck; Philippe Charvis; Diana Comte; Audrey Galve; Anne Meltzer; Steven Roecker; Mario Ruiz; Monica Segovia

doi:10.1029/2025GL114615

Physical Properties Controlling Earthquake Ruptures: Two Study Cases Along the South American Subduction Zone

Sergio Leon-Rios
, Andreas Rietbrock
, Lidong Bie
, Susan Beck
, Philippe Charvis
, Diana Comte
, Audrey Galve
, Anne Meltzer
, Steven Roecker
, Mario Ruiz
, Monica Segovia

Geosciences

Research output: Contribution to journal › Article › peer-review

Abstract

Seismic velocity models were compared with coseismic slip distributions for two megathrust earthquakes that occurred along the South American subduction zone. By analyzing the distribution of Vp/Vs ratios, we found that seismic anomalies with values higher or lower than the average coincide with the boundaries of the earthquake ruptures. In contrast, the regions characterized by intermediate Vp/Vs values may represent a mechanical “sweet spot” where the physical properties create favorable conditions for sustained rupture propagation. Our methodology, which combines the Vp/Vs distribution and the analysis of coseismic slip models, could reveal the rupture-prone regions and the likely magnitude of potential earthquakes, providing relevant information for seismic hazard assessment.

Original language	English (US)
Article number	e2025GL114615
Journal	Geophysical Research Letters
Volume	52
Issue number	14
DOIs	https://doi.org/10.1029/2025GL114615
State	Published - Jul 28 2025

Keywords

seismic slip
seismology
subduction zone
tomography

ASJC Scopus subject areas

Geophysics
General Earth and Planetary Sciences

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10.1029/2025GL114615

Cite this

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title = "Physical Properties Controlling Earthquake Ruptures: Two Study Cases Along the South American Subduction Zone",

abstract = "Seismic velocity models were compared with coseismic slip distributions for two megathrust earthquakes that occurred along the South American subduction zone. By analyzing the distribution of Vp/Vs ratios, we found that seismic anomalies with values higher or lower than the average coincide with the boundaries of the earthquake ruptures. In contrast, the regions characterized by intermediate Vp/Vs values may represent a mechanical “sweet spot” where the physical properties create favorable conditions for sustained rupture propagation. Our methodology, which combines the Vp/Vs distribution and the analysis of coseismic slip models, could reveal the rupture-prone regions and the likely magnitude of potential earthquakes, providing relevant information for seismic hazard assessment.",

keywords = "seismic slip, seismology, subduction zone, tomography",

author = "Sergio Leon-Rios and Andreas Rietbrock and Lidong Bie and Susan Beck and Philippe Charvis and Diana Comte and Audrey Galve and Anne Meltzer and Steven Roecker and Mario Ruiz and Monica Segovia",

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T2 - Two Study Cases Along the South American Subduction Zone

AU - Leon-Rios, Sergio

AU - Rietbrock, Andreas

AU - Bie, Lidong

AU - Beck, Susan

AU - Charvis, Philippe

AU - Comte, Diana

AU - Galve, Audrey

AU - Meltzer, Anne

AU - Roecker, Steven

AU - Ruiz, Mario

AU - Segovia, Monica

PY - 2025/7/28

Y1 - 2025/7/28

N2 - Seismic velocity models were compared with coseismic slip distributions for two megathrust earthquakes that occurred along the South American subduction zone. By analyzing the distribution of Vp/Vs ratios, we found that seismic anomalies with values higher or lower than the average coincide with the boundaries of the earthquake ruptures. In contrast, the regions characterized by intermediate Vp/Vs values may represent a mechanical “sweet spot” where the physical properties create favorable conditions for sustained rupture propagation. Our methodology, which combines the Vp/Vs distribution and the analysis of coseismic slip models, could reveal the rupture-prone regions and the likely magnitude of potential earthquakes, providing relevant information for seismic hazard assessment.

AB - Seismic velocity models were compared with coseismic slip distributions for two megathrust earthquakes that occurred along the South American subduction zone. By analyzing the distribution of Vp/Vs ratios, we found that seismic anomalies with values higher or lower than the average coincide with the boundaries of the earthquake ruptures. In contrast, the regions characterized by intermediate Vp/Vs values may represent a mechanical “sweet spot” where the physical properties create favorable conditions for sustained rupture propagation. Our methodology, which combines the Vp/Vs distribution and the analysis of coseismic slip models, could reveal the rupture-prone regions and the likely magnitude of potential earthquakes, providing relevant information for seismic hazard assessment.

KW - seismic slip

KW - seismology

KW - subduction zone

KW - tomography

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UR - https://www.scopus.com/pages/publications/105011866382#tab=citedBy

U2 - 10.1029/2025GL114615

DO - 10.1029/2025GL114615

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JO - Geophysical Research Letters

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ER -

Physical Properties Controlling Earthquake Ruptures: Two Study Cases Along the South American Subduction Zone

Abstract

Keywords

ASJC Scopus subject areas

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