Radiated seismic energy from the 2021 ML 5.8 and ML 6.2 Shoufeng (Hualien), Taiwan, earthquakes and their aftershocks

We calculated radiated seismic energy (E S ), seismic moment (M 0 ), and moment magnitude (M W ) and then determined the E S –M L , E S –M 0 , M 0 –M L , and M W –M L relations for the 2021 Shoufeng earthquake sequence (2.5 < M L  < 6.3), where M L is the local magnitude. Notably, a crossover...

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Published inTAO : Terrestrial, atmospheric, and oceanic sciences Vol. 33; no. 1; pp. 1 - 10
Main Authors Hwang, Ruey-Der, Huang, Yi-Ling, Chang, Wen-Yen, Lin, Cai-Yi, Lin, Chiung-Yao, Wang, Sheng-Tung, Chan, Jing-Bei, Chang, Jo-Pan, Lin, Tzu-Wei
Format Journal Article
LanguageEnglish
Published Singapore Springer Nature Singapore 01.12.2022
Springer
Subjects
2021 Shoufeng earthquake
Atmospheric Sciences
Earth and Environmental Science
Earth Sciences
Local magnitude
Moment magnitude
Oceanography
Original Article
Radiated seismic energy
Seismic moment
Seismic moment
2021 Shoufeng earthquake
Moment magnitude
Radiated seismic energy
Local magnitude
Online AccessGet full text
ISSN1017-0839
2311-7680
DOI10.1007/s44195-022-00020-4

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Abstract We calculated radiated seismic energy (E S ), seismic moment (M 0 ), and moment magnitude (M W ) and then determined the E S –M L , E S –M 0 , M 0 –M L , and M W –M L relations for the 2021 Shoufeng earthquake sequence (2.5 < M L  < 6.3), where M L is the local magnitude. Notably, a crossover magnitude was detected as M L  = 4.0 for the earthquake sequence. For M L  < 4.0, we obtained logM 0  ∝ M L , M W  ∝ 0.67M L , and a low E S /M 0 , indicating a low average stress drop; for M L  > 4.0, logM 0  ∝ 0.67M L , M W  ∝ M L , and a high E S /M 0 were present, and then there was a high average stress drop. These derived relations implied that source duration ( T ) is independent of M 0 for M L  < 4.0. Moreover, the M 0  ∝  T 3 relation seemed able to interpret those relations for M L  > 4.0. Nevertheless, the E S –M L relation remains logE S  ∝ 2.0M L for 2.5 < M L  < 6.3. From this study, the derived relations could not predict the source parameters for M L  > 6.3 events. This might indicate that M L saturates beyond M L 6.3. Through such analyses, we not only established the relations among source parameters but also elucidated the basic physics of the earthquake sequence. Key points logEs is proportional to 2.0M L for the Shoufeng earthquake sequence in Taiwan. A crossover magnitude detected at M L  = 4.0 divides the M W –M L relation into two parts. For M L  > 4.0, logM 0  ∝ 0.67M L and M W  ∝ M L ; for M L  < 4.0, logM 0  ∝ M L and M W  ∝ 0.67M L .
AbstractList Key points logEs is proportional to 2.0ML for the Shoufeng earthquake sequence in Taiwan. A crossover magnitude detected at ML = 4.0 divides the MW–ML relation into two parts. For ML > 4.0, logM0 ∝ 0.67ML and MW ∝ ML; for ML < 4.0, logM0 ∝ ML and MW ∝ 0.67ML.
We calculated radiated seismic energy (E S ), seismic moment (M 0 ), and moment magnitude (M W ) and then determined the E S –M L , E S –M 0 , M 0 –M L , and M W –M L relations for the 2021 Shoufeng earthquake sequence (2.5 < M L  < 6.3), where M L is the local magnitude. Notably, a crossover magnitude was detected as M L  = 4.0 for the earthquake sequence. For M L  < 4.0, we obtained logM 0  ∝ M L , M W  ∝ 0.67M L , and a low E S /M 0 , indicating a low average stress drop; for M L  > 4.0, logM 0  ∝ 0.67M L , M W  ∝ M L , and a high E S /M 0 were present, and then there was a high average stress drop. These derived relations implied that source duration ( T ) is independent of M 0 for M L  < 4.0. Moreover, the M 0  ∝  T 3 relation seemed able to interpret those relations for M L  > 4.0. Nevertheless, the E S –M L relation remains logE S  ∝ 2.0M L for 2.5 < M L  < 6.3. From this study, the derived relations could not predict the source parameters for M L  > 6.3 events. This might indicate that M L saturates beyond M L 6.3. Through such analyses, we not only established the relations among source parameters but also elucidated the basic physics of the earthquake sequence. Key points logEs is proportional to 2.0M L for the Shoufeng earthquake sequence in Taiwan. A crossover magnitude detected at M L  = 4.0 divides the M W –M L relation into two parts. For M L  > 4.0, logM 0  ∝ 0.67M L and M W  ∝ M L ; for M L  < 4.0, logM 0  ∝ M L and M W  ∝ 0.67M L .
We calculated radiated seismic energy (E S ), seismic moment (M 0 ), and moment magnitude (M W ) and then determined the E S –M L , E S –M 0 , M 0 –M L , and M W –M L relations for the 2021 Shoufeng earthquake sequence (2.5 < M L  < 6.3), where M L is the local magnitude. Notably, a crossover magnitude was detected as M L  = 4.0 for the earthquake sequence. For M L  < 4.0, we obtained logM 0  ∝ M L , M W  ∝ 0.67M L , and a low E S /M 0 , indicating a low average stress drop; for M L  > 4.0, logM 0  ∝ 0.67M L , M W  ∝ M L , and a high E S /M 0 were present, and then there was a high average stress drop. These derived relations implied that source duration ( T ) is independent of M 0 for M L  < 4.0. Moreover, the M 0  ∝  T 3 relation seemed able to interpret those relations for M L  > 4.0. Nevertheless, the E S –M L relation remains logE S  ∝ 2.0M L for 2.5 < M L  < 6.3. From this study, the derived relations could not predict the source parameters for M L  > 6.3 events. This might indicate that M L saturates beyond M L 6.3. Through such analyses, we not only established the relations among source parameters but also elucidated the basic physics of the earthquake sequence.
ArticleNumber 19
Author Huang, Yi-Ling
Hwang, Ruey-Der
Lin, Cai-Yi
Chan, Jing-Bei
Chang, Jo-Pan
Chang, Wen-Yen
Lin, Tzu-Wei
Wang, Sheng-Tung
Lin, Chiung-Yao
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  surname: Hwang
  fullname: Hwang, Ruey-Der
  email: hrd@ulive.pccu.edu.tw
  organization: Department of Geology, Chinese Culture University
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  organization: Institute of Earth Sciences, National Taiwan Ocean University
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  fullname: Chang, Wen-Yen
  organization: Department of Natural Resources and Environmental Studies, National Dong Hwa University
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  givenname: Cai-Yi
  surname: Lin
  fullname: Lin, Cai-Yi
  organization: Department of Geology, Chinese Culture University
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  fullname: Lin, Chiung-Yao
  organization: Department of Geology, Chinese Culture University
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  organization: Department of Geology, Chinese Culture University
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  organization: Center for General Education, National University of Tainan
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  givenname: Tzu-Wei
  surname: Lin
  fullname: Lin, Tzu-Wei
  organization: Seismological Center, Central Weather Bureau
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Keywords Seismic moment
2021 Shoufeng earthquake
Moment magnitude
Radiated seismic energy
Local magnitude
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Snippet We calculated radiated seismic energy (E S ), seismic moment (M 0 ), and moment magnitude (M W ) and then determined the E S –M L , E S –M 0 , M 0 –M L , and M...
Key points logEs is proportional to 2.0ML for the Shoufeng earthquake sequence in Taiwan. A crossover magnitude detected at ML = 4.0 divides the MW–ML relation...
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SubjectTerms 2021 Shoufeng earthquake
Atmospheric Sciences
Earth and Environmental Science
Earth Sciences
Local magnitude
Moment magnitude
Oceanography
Original Article
Radiated seismic energy
Seismic moment
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  priority: 102
  providerName: Springer Nature
Title Radiated seismic energy from the 2021 ML 5.8 and ML 6.2 Shoufeng (Hualien), Taiwan, earthquakes and their aftershocks
URI https://link.springer.com/article/10.1007/s44195-022-00020-4
https://doaj.org/article/ccd7ad2a9a1547b89ec99236f671987d
Volume 33
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