Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8.0 Peru intermediate-depth earthquake?
The rupture process of earthquakes at intermediate-depth (∼70-300 km) have rarely been illuminated by a joint analysis of geodetic and seismic observations, hindering our understanding of their dynamic rupture mechanisms. Here we present detailed rupture process of the 2019 Mw8.0 Peru earthquake at...
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sg-ntu-dr.10356-1703932023-09-11T15:30:37Z Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8.0 Peru intermediate-depth earthquake? Luo, Heng Zeng, Hongyu Shi, Qibin Wang, Teng Liao, Mingsheng Hu, Jiashun Wei, Shengji Asian School of the Environment Earth Observatory of Singapore Science::Geology Satellite Geodesy Joint Inversion The rupture process of earthquakes at intermediate-depth (∼70-300 km) have rarely been illuminated by a joint analysis of geodetic and seismic observations, hindering our understanding of their dynamic rupture mechanisms. Here we present detailed rupture process of the 2019 Mw8.0 Peru earthquake at the depth of 122 km depth, derived with a holistic approach reconciling InSAR and broad-band seismic waveform data. The joint inversion of InSAR observations and teleseismic body waves results in a finite rupture model that extends ∼200 km along strike, with unilateral rupture towards north that lasted for ∼60 s. There are four major slip patches in the finite fault model which are well corresponding to the position and timing of the sources in back-projection and multiple points source results. The largest slip patch, which occurred ∼40 s after the rupture initiation, had a longer and smoother rise time, and radiated much weaker high-frequency seismic waves compared to other smaller slip patches. This distinct frequency-dependent rupture could be explained by a strong dynamic weakening mechanism. We question whether thermal pressurization of pore free water rather than thermal run away could be such a mechanism. Our frequency content analysis could be generalized to study other earthquakes including those deeper than 300 km. Ministry of Education (MOE) Nanyang Technological University Published version This study was supported by NSFC 41974017, and EOS internal research grant 04MNS001909A620 and Singapore MOE tier-2 grant MOE2019-T2-1-182. 2023-09-11T04:32:08Z 2023-09-11T04:32:08Z 2023 Journal Article Luo, H., Zeng, H., Shi, Q., Wang, T., Liao, M., Hu, J. & Wei, S. (2023). Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8.0 Peru intermediate-depth earthquake?. Geophysical Journal International, 232(1), 115-127. https://dx.doi.org/10.1093/gji/ggac329 0956-540X https://hdl.handle.net/10356/170393 10.1093/gji/ggac329 2-s2.0-85144351677 1 232 115 127 en MOE2019-T2-1-182 04MNS001909A620 Geophysical Journal International This article has been accepted for publication in Geophysical Journal International. © 2022 The Author(s). Published by Oxford University Press on behalf of The Royal Astronomical Society. All rights reserved. application/pdf |
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Science::Geology Satellite Geodesy Joint Inversion Luo, Heng Zeng, Hongyu Shi, Qibin Wang, Teng Liao, Mingsheng Hu, Jiashun Wei, Shengji Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8.0 Peru intermediate-depth earthquake? |
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The rupture process of earthquakes at intermediate-depth (∼70-300 km) have rarely been illuminated by a joint analysis of geodetic and seismic observations, hindering our understanding of their dynamic rupture mechanisms. Here we present detailed rupture process of the 2019 Mw8.0 Peru earthquake at the depth of 122 km depth, derived with a holistic approach reconciling InSAR and broad-band seismic waveform data. The joint inversion of InSAR observations and teleseismic body waves results in a finite rupture model that extends ∼200 km along strike, with unilateral rupture towards north that lasted for ∼60 s. There are four major slip patches in the finite fault model which are well corresponding to the position and timing of the sources in back-projection and multiple points source results. The largest slip patch, which occurred ∼40 s after the rupture initiation, had a longer and smoother rise time, and radiated much weaker high-frequency seismic waves compared to other smaller slip patches. This distinct frequency-dependent rupture could be explained by a strong dynamic weakening mechanism. We question whether thermal pressurization of pore free water rather than thermal run away could be such a mechanism. Our frequency content analysis could be generalized to study other earthquakes including those deeper than 300 km. |
| author2 |
Asian School of the Environment |
| author_facet |
Asian School of the Environment Luo, Heng Zeng, Hongyu Shi, Qibin Wang, Teng Liao, Mingsheng Hu, Jiashun Wei, Shengji |
| format |
Article |
| author |
Luo, Heng Zeng, Hongyu Shi, Qibin Wang, Teng Liao, Mingsheng Hu, Jiashun Wei, Shengji |
| author_sort |
Luo, Heng |
| title |
Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8.0 Peru intermediate-depth earthquake? |
| title_short |
Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8.0 Peru intermediate-depth earthquake? |
| title_full |
Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8.0 Peru intermediate-depth earthquake? |
| title_fullStr |
Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8.0 Peru intermediate-depth earthquake? |
| title_full_unstemmed |
Could thermal pressurization have induced the frequency-dependent rupture during the 2019 Mw8.0 Peru intermediate-depth earthquake? |
| title_sort |
could thermal pressurization have induced the frequency-dependent rupture during the 2019 mw8.0 peru intermediate-depth earthquake? |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170393 |
| _version_ |
1779156263044644864 |