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The elusive role of aseismic slip along a seaward dipping normal fault in the indirect  triggering of a normal  faulting earthquake sequence in northeast Japan following the 2011 Tohoku-Oki megathrust                        
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  • Yohai Magen,
  • Asaf Inbal,
  • Alon Ziv,
  • Gidon Baer,
  • Roland Burgmann,
  • Axel Periollat,
  • Takeshi Sagiya
Yohai Magen
Department of Geosciences, Tel-Aviv University

Corresponding Author:[email protected]

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Asaf Inbal
Department of Geophysics, Tel Aviv University
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Alon Ziv
Department of Geosciences, Tel-Aviv University
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Gidon Baer
Geological Survey of Israel
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Roland Burgmann
University of California, Berkeley
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Axel Periollat
ISTerre
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Takeshi Sagiya
Nagoya University
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Abstract

Although blind normal faults are common in subduction environments, their rheology, kinematics and interaction with the upper crust are poorly constrained. A month-long shallow normal faulting sequence in the Ibaraki-Fukushima prefectural border (IFPB), northeast Japan, which followed the Mw9.0 Tohoku-Oki earthquake (TOE) and culminated in the Mw6.7 Iwaki earthquake, provides a window into megathrust-to-normal fault interaction. Stress change calculations indicate that direct triggering by the TOE co- and post-seismic slip does not provide a plausible explanation for the IFPB earthquake sequence. In quest for an alternative triggering mechanism, we analyzed post-TOE GNSS data from eastern IFPB. A key step in this analysis is the removal of the large-scale post-TOE displacement field, after which a distinct highly-localized strain along the coastline becomes apparent. The accumulation of this strain was mostly aseismic, and migrated with time prior to the Iwaki earthquake in a manner that correlates well with post-TOE local seismicity. We attribute the pre-Iwaki earthquake strain accumulation to aseismic slip along low-angle seaward dipping blind normal fault, activated by the TOE. Stresses transferred by this slip episode accelerated the failure along the IFPB shallow normal faults. This indirect triggering of the Iwaki earthquake sequence by the TOE highlights the complexity of stress transfers in subduction environments.
27 May 2024Submitted to ESS Open Archive
28 May 2024Published in ESS Open Archive
Aug 2024Published in Journal of Geophysical Research: Solid Earth volume 129 issue 8. https://doi.org/10.1029/2024JB028903