Space geodetic insights to the dramatic stress rotation induced by the February 2023 Turkey-Syria earthquake doublet
The February 2023 Turkey-Syria Earthquake doublet ruptured multiple segments of the East Anatolian Fault (EAF) Zone. Dominating seismicity focal mechanism shifted dramatically from strike-slip to normal-faulting after the doublet. To better understand this shift, here we derived a comprehensive 3D c...
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sg-ntu-dr.10356-1747492024-04-15T15:30:54Z Space geodetic insights to the dramatic stress rotation induced by the February 2023 Turkey-Syria earthquake doublet Ma, Zhangfeng Li, Chenglong Jiang, Yu Chen, Yukuan Yin, Xinzhong Aoki, Yosuke Yun, Sang‐Ho Wei, Shengji Asian School of the Environment School of Electrical and Electronic Engineering Earth Observatory of Singapore Earth and Environmental Sciences Dramatic stress rotation Turkey‐Syria earthquake The February 2023 Turkey-Syria Earthquake doublet ruptured multiple segments of the East Anatolian Fault (EAF) Zone. Dominating seismicity focal mechanism shifted dramatically from strike-slip to normal-faulting after the doublet. To better understand this shift, here we derived a comprehensive 3D co-seismic displacement field and performed the stress analysis. Abundant space geodetic data were used to generate high-resolution 3D surface displacement, which provide tight constraints on fault geometry, slip distribution and stress field. Together with stress inversion from aftershock focal mechanisms, we show that the principal stress direction rotation in the region with the most normal-faulting aftershocks is the staggering 29°. The induced heterogenous stress may explain the shift of the dominant focal mechanism toward normal faulting. We suggest that the extensional horsetail splay faults, likely formed through geologic time scale related to the releasing bend on the EAF, are the hosts of most of the normal faulting aftershocks. Ministry of Education (MOE) National Research Foundation (NRF) Published version This research was supported by Singapore MOE project (MOE‐MOET32021‐0002) and the Earth Observatory of Singapore via its funding from the National Research Foundation Singapore and the Singapore Ministry of Education under the Research Centers of Excellence initiative. This work comprises EOS contribution number 572. We acknowledge Japan Aerospace Exploration Agency for providing ALOS‐ 2 data under the Grant ER3A2N139. 2024-04-09T02:39:42Z 2024-04-09T02:39:42Z 2024 Journal Article Ma, Z., Li, C., Jiang, Y., Chen, Y., Yin, X., Aoki, Y., Yun, S. & Wei, S. (2024). Space geodetic insights to the dramatic stress rotation induced by the February 2023 Turkey-Syria earthquake doublet. Geophysical Research Letters, 51(6), 107788-. https://dx.doi.org/10.1029/2023GL107788 0094-8276 https://hdl.handle.net/10356/174749 10.1029/2023GL107788 2-s2.0-85188353160 6 51 107788 en MOE‐MOET32021‐0002 Geophysical Research Letters © 2024. The Authors. This is an open access article under the terms of the Creative Commons Attribution‐NonCommercial‐NoDerivs License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made. application/pdf |
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Earth and Environmental Sciences Dramatic stress rotation Turkey‐Syria earthquake Ma, Zhangfeng Li, Chenglong Jiang, Yu Chen, Yukuan Yin, Xinzhong Aoki, Yosuke Yun, Sang‐Ho Wei, Shengji Space geodetic insights to the dramatic stress rotation induced by the February 2023 Turkey-Syria earthquake doublet |
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The February 2023 Turkey-Syria Earthquake doublet ruptured multiple segments of the East Anatolian Fault (EAF) Zone. Dominating seismicity focal mechanism shifted dramatically from strike-slip to normal-faulting after the doublet. To better understand this shift, here we derived a comprehensive 3D co-seismic displacement field and performed the stress analysis. Abundant space geodetic data were used to generate high-resolution 3D surface displacement, which provide tight constraints on fault geometry, slip distribution and stress field. Together with stress inversion from aftershock focal mechanisms, we show that the principal stress direction rotation in the region with the most normal-faulting aftershocks is the staggering 29°. The induced heterogenous stress may explain the shift of the dominant focal mechanism toward normal faulting. We suggest that the extensional horsetail splay faults, likely formed through geologic time scale related to the releasing bend on the EAF, are the hosts of most of the normal faulting aftershocks. |
| author2 |
Asian School of the Environment |
| author_facet |
Asian School of the Environment Ma, Zhangfeng Li, Chenglong Jiang, Yu Chen, Yukuan Yin, Xinzhong Aoki, Yosuke Yun, Sang‐Ho Wei, Shengji |
| format |
Article |
| author |
Ma, Zhangfeng Li, Chenglong Jiang, Yu Chen, Yukuan Yin, Xinzhong Aoki, Yosuke Yun, Sang‐Ho Wei, Shengji |
| author_sort |
Ma, Zhangfeng |
| title |
Space geodetic insights to the dramatic stress rotation induced by the February 2023 Turkey-Syria earthquake doublet |
| title_short |
Space geodetic insights to the dramatic stress rotation induced by the February 2023 Turkey-Syria earthquake doublet |
| title_full |
Space geodetic insights to the dramatic stress rotation induced by the February 2023 Turkey-Syria earthquake doublet |
| title_fullStr |
Space geodetic insights to the dramatic stress rotation induced by the February 2023 Turkey-Syria earthquake doublet |
| title_full_unstemmed |
Space geodetic insights to the dramatic stress rotation induced by the February 2023 Turkey-Syria earthquake doublet |
| title_sort |
space geodetic insights to the dramatic stress rotation induced by the february 2023 turkey-syria earthquake doublet |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174749 |
| _version_ |
1800916258622799872 |