Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence

Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence

Accurate and precise location and focal mechanism of aftershocks is a fundamental topic in seismology. However, nearfield seismic observations are usually not available for high-resolution source studies, or even when they are available high frequency waveform analyses are rarely conducted to extrac...

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Main Authors: Oo, Win Shwe Sin, Fadil, Wardah Shafiqah Binti Muhammad, Lythgoe, Karen, Chen, Yukuan, Hidayat, Dannie, Hu, Wan Lin, Aung, Lin Thu, Maung Maung, Phyo, Zeng, Hongyu, Than, Win Min, Myo, Ei Mhon Nathar, Han, Pyae Phyo, Wei, Shenji
Other Authors: Asian School of the Environment
Format: Conference or Workshop Item
Language:English
Published: 2023
Subjects:
Science::Geology::Volcanoes and earthquakes
Seismic Nodal Array
Precise Earthquake Location
Online Access:https://hdl.handle.net/10356/165475
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1654752023-03-28T07:31:08Z Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence Oo, Win Shwe Sin Fadil, Wardah Shafiqah Binti Muhammad Lythgoe, Karen Chen, Yukuan Hidayat, Dannie Hu, Wan Lin Aung, Lin Thu Maung Maung, Phyo Zeng, Hongyu Than, Win Min Myo, Ei Mhon Nathar Han, Pyae Phyo Wei, Shenji Asian School of the Environment AGU Fall Meeting 2022 Earth Observatory of Singapore Science::Geology::Volcanoes and earthquakes Seismic Nodal Array Precise Earthquake Location Accurate and precise location and focal mechanism of aftershocks is a fundamental topic in seismology. However, nearfield seismic observations are usually not available for high-resolution source studies, or even when they are available high frequency waveform analyses are rarely conducted to extract more information. Here we study a unique dense nodal array data acquired by the deployment in the source region of the 2019 Mw5.5 strike-slip earthquake in Central Myanmar Basin (CMB). The network, composed of 20 nodal stations with station spacing of ~5km, was deployed ~2 weeks after the mainshock for ~ 40 days. We applied a machine learning based algorithm (Earthquake-Transformer) to detect 667 events from the dataset. Double difference relocation reveals that these events are distributed between 7 to 16 km in depth with a near E-W trending horizontal distribution, which is consistent with the left-lateral fault plane solution of the mainshock. On the vertical component of most of the stations, we observed a strong phase between P and S arrival times. This is an S-to-P converted phase from a sharp velocity boundary between the basin and the bedrock. The best 1D velocity model constrained by 3-component waveform modelling suggests a sedimentary layer thickness of ~3.5km beneath the stations. To determine the focal mechanism of aftershocks, we conducted high-frequency (up to a few Hz) waveform inversions that result in high quality waveform fits hence robust focal mechanisms of ~ 100 aftershocks with Mw1-2. In these focal mechanisms, ~50% are strike-slip events, ~40% are thrust events and ~10% are normal events, all corresponding to NE-SW oriented compressive stress. The thrust events have strikes oriented mostly in NW-SE direction and have dip angles of ~ 45°. Highly diverse aftershock focal mechanisms suggest the fault system is likely immature. The thrust and normal events indicate that the mainshock rupture had branched into or activated nearby secondary faults, which allow the strike-slip fault to propagate and develop a more complex fault system. 2023-03-28T07:31:07Z 2023-03-28T07:31:07Z 2022 Conference Paper Oo, W. S. S., Fadil, W. S. B. M., Lythgoe, K., Chen, Y., Hidayat, D., Hu, W. L., Aung, L. T., Maung Maung, P., Zeng, H., Than, W. M., Myo, E. M. N., Han, P. P. & Wei, S. (2022). Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence. AGU Fall Meeting 2022, T12E-0123-. https://hdl.handle.net/10356/165475 T12E-0123 en © 2022 American Geophysical Union. All rights reserved.
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Science::Geology::Volcanoes and earthquakes
Seismic Nodal Array
Precise Earthquake Location
spellingShingle Science::Geology::Volcanoes and earthquakes
Seismic Nodal Array
Precise Earthquake Location
Oo, Win Shwe Sin
Fadil, Wardah Shafiqah Binti Muhammad
Lythgoe, Karen
Chen, Yukuan
Hidayat, Dannie
Hu, Wan Lin
Aung, Lin Thu
Maung Maung, Phyo
Zeng, Hongyu
Than, Win Min
Myo, Ei Mhon Nathar
Han, Pyae Phyo
Wei, Shenji
Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence
description Accurate and precise location and focal mechanism of aftershocks is a fundamental topic in seismology. However, nearfield seismic observations are usually not available for high-resolution source studies, or even when they are available high frequency waveform analyses are rarely conducted to extract more information. Here we study a unique dense nodal array data acquired by the deployment in the source region of the 2019 Mw5.5 strike-slip earthquake in Central Myanmar Basin (CMB). The network, composed of 20 nodal stations with station spacing of ~5km, was deployed ~2 weeks after the mainshock for ~ 40 days. We applied a machine learning based algorithm (Earthquake-Transformer) to detect 667 events from the dataset. Double difference relocation reveals that these events are distributed between 7 to 16 km in depth with a near E-W trending horizontal distribution, which is consistent with the left-lateral fault plane solution of the mainshock. On the vertical component of most of the stations, we observed a strong phase between P and S arrival times. This is an S-to-P converted phase from a sharp velocity boundary between the basin and the bedrock. The best 1D velocity model constrained by 3-component waveform modelling suggests a sedimentary layer thickness of ~3.5km beneath the stations. To determine the focal mechanism of aftershocks, we conducted high-frequency (up to a few Hz) waveform inversions that result in high quality waveform fits hence robust focal mechanisms of ~ 100 aftershocks with Mw1-2. In these focal mechanisms, ~50% are strike-slip events, ~40% are thrust events and ~10% are normal events, all corresponding to NE-SW oriented compressive stress. The thrust events have strikes oriented mostly in NW-SE direction and have dip angles of ~ 45°. Highly diverse aftershock focal mechanisms suggest the fault system is likely immature. The thrust and normal events indicate that the mainshock rupture had branched into or activated nearby secondary faults, which allow the strike-slip fault to propagate and develop a more complex fault system.
author2 Asian School of the Environment
author_facet Asian School of the Environment
Oo, Win Shwe Sin
Fadil, Wardah Shafiqah Binti Muhammad
Lythgoe, Karen
Chen, Yukuan
Hidayat, Dannie
Hu, Wan Lin
Aung, Lin Thu
Maung Maung, Phyo
Zeng, Hongyu
Than, Win Min
Myo, Ei Mhon Nathar
Han, Pyae Phyo
Wei, Shenji
format Conference or Workshop Item
author Oo, Win Shwe Sin
Fadil, Wardah Shafiqah Binti Muhammad
Lythgoe, Karen
Chen, Yukuan
Hidayat, Dannie
Hu, Wan Lin
Aung, Lin Thu
Maung Maung, Phyo
Zeng, Hongyu
Than, Win Min
Myo, Ei Mhon Nathar
Han, Pyae Phyo
Wei, Shenji
author_sort Oo, Win Shwe Sin
title Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence
title_short Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence
title_full Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence
title_fullStr Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence
title_full_unstemmed Blind fault branching and propagation beneath Central Myanmar Basin revealed by high-resolution aftershock location and focal mechanism of the 2019 Mw5.5 YeU earthquake sequence
title_sort blind fault branching and propagation beneath central myanmar basin revealed by high-resolution aftershock location and focal mechanism of the 2019 mw5.5 yeu earthquake sequence
publishDate 2023
url https://hdl.handle.net/10356/165475
_version_ 1761781621911977984

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