A New Fault Slip Mode Unveiled in the Regional Dynamic Triggering of the 2023 Turkey Kahramanmaraş Earthquake Sequence

Heng Luo; Yijian Zhou; Zeyan Zhao; Mehmet Köküm; Teng Wang; Han Yue; Zexin Wang; Nan Hu; Abhijit Ghosh; Xiaodong Song; Roland Bürgmann

doi:10.1029/2024av001457

AGU Advances (Feb 2025)

A New Fault Slip Mode Unveiled in the Regional Dynamic Triggering of the 2023 Turkey Kahramanmaraş Earthquake Sequence

Heng Luo,
Yijian Zhou,
Zeyan Zhao,
Mehmet Köküm,
Teng Wang,
Han Yue,
Zexin Wang,
Nan Hu,
Abhijit Ghosh,
Xiaodong Song,
Roland Bürgmann

Affiliations

Heng Luo: School of Earth and Space Sciences Peking University Beijing China
Yijian Zhou: Department of Earth and Planetary Sciences University of California Riverside CA USA
Zeyan Zhao: School of Earth and Space Sciences Peking University Beijing China
Mehmet Köküm: Department of Geological Engineering Fırat University Elazığ Turkey
Teng Wang: School of Earth and Space Sciences Peking University Beijing China
Han Yue: School of Earth and Space Sciences Peking University Beijing China
Zexin Wang: School of Earth and Space Sciences Peking University Beijing China
Nan Hu: Department of Earth and Space Sciences Southern University of Science and Technology Shenzhen China
Abhijit Ghosh: Department of Earth and Planetary Sciences University of California Riverside CA USA
Xiaodong Song: School of Earth and Space Sciences Peking University Beijing China
Roland Bürgmann: Berkeley Seismology Laboratory Department of Earth and Planetary Science University of California Berkeley CA USA

DOI: https://doi.org/10.1029/2024av001457
Journal volume & issue: Vol. 6, no. 1
pp. n/a – n/a

Abstract

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Abstract Faults can slip at vastly different rates, generating both high‐stress‐drop regular earthquakes and low‐stress‐drop slow slip events (SSEs). Here, we document a transitional mode of high‐stress‐drop but “silent” slip with two Mw ≥ 5 events that were triggered by the 2023 Turkey Kahramanmaraş earthquake sequence. Specifically, we identify eight fault slip events from radar interferometry, none of which are reported in seismic catalogs. Except for four typical aseismic creep events, two events represent earthquakes whose waveforms were obscured within the coda waves of the mainshocks. Notably, we find two silent events that did not radiate discernible high‐frequency seismic energy nor produce local aftershocks but did exhibit high stress drops of 4–6 MPa, similar to regular earthquakes. These two “silent” events likely represent a new fault slip mode positioned between regular earthquakes and SSEs. The identification of these diverse shallow slip events, which are missed in seismic catalogs, calls for reevaluation of faulting mechanisms, the nature of static/dynamic triggering effects, and seismic hazard assessments.

Published in AGU Advances

ISSN: 2576-604X (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Geology; Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/2576604x

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