AI Article Synopsis
- * The initial rupture was complex, involving a strong fault asperity that delayed the rupture and complicated the process, eventually leading to a larger earthquake as the asperity failed.
- * Our findings highlight the importance of fault asperities in influencing earthquake behavior and stress the need for thorough studies to evaluate seismic risks in areas prone to swarming.
Article Abstract
To reveal the connections between the 2024 moment magnitude () 7.5 Noto earthquake in Japan and the seismicity swarms that preceded it, we investigated its rupture process through near-source waveform analysis and source imaging techniques, combining seismic and geodetic datasets. We found notable complexity in the initial rupture stages. A strong fault asperity, which remained unbroken in preceding seismic swarms, slowed down the rupture. Then, a second rupture initiated at the opposite edge of the asperity, and the asperity succumbed to double-pincer rupture fronts. The failure of this high-stress drop asperity drove the earthquake into a large-scale event. Our observations help unravel the crucial role of fault asperities in controlling swarm migration and rupture propagation and underscore the need for detailed seismological and interdisciplinary studies to assess seismic risk in swarm-prone regions.
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| http://dx.doi.org/10.1126/science.adp0493 | DOI Listing |
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