# Rough Subducting Seafloor Reduces Interseismic Coupling and   Mega-Earthquake Occurrence: Insights From Analogue Models

**Authors:** Elenora Van Rijsingen, Francesca Funiciello, Fabio Corbi, Serge, Lallemand

arXiv: 1906.08527 · 2019-06-21

## TL;DR

This study uses analogue models to show that rough subduction interfaces have lower coupling and smaller ruptures, influencing seismic behavior and earthquake occurrence.

## Contribution

It demonstrates how interface roughness affects interseismic coupling, rupture characteristics, and seismic segmentation in subduction zones.

## Key findings

- Rough interfaces have lower frictional strength and coupling.
- Rough models exhibit smaller rupture areas and durations.
- Segmentation of the interface is caused by rough geometry.

## Abstract

The roughness of the subduction interface is thought to influence seismogenic behavior in subduction zones, but a detailed understanding of how such roughness affects the state of stress along the subduction megathrust is still debated. Here, we use seismotectonic analogue models to investigate the effect of subduction interface roughness on seismicity in subduction zones. We compared analogue earthquake source parameters and slip distributions for two roughness endmembers. Models characterized by a very rough interface have lower interface frictional strength and lower interseismic coupling than models with a smooth interface. Overall, ruptures in the rough models have smaller rupture area, duration and mean displacement. Individual slip distributions indicate a segmentation of the subduction interface by the rough geometry. We propose that flexure of the overriding plate is one of the mechanisms that contribute to the heterogeneous strength distribution, responsible for the observed seismic behavior.

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Source: https://tomesphere.com/paper/1906.08527