Coseismic Coulomb stress changes induced by a 2020–2021 MW > 7.0 Alaska earthquake sequence in and around the Shumagin gap and its influence on the Alaska-Aleutian subduction interface

IF 2.8 4区地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS

Geodesy and Geodynamics Pub Date : 2023-08-12 DOI:10.1016/j.geog.2023.04.007

Lei Yang , Jianjun Wang , Caijun Xu

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引用次数: 0

Abstract

Three M_W > 7.0 earthquakes in 2020–2021 occurred in the Shumagin seismic gap and its adjacent area of the Alaska-Aleutian subduction zone, including the M_W7.8 Simeonof thrust earthquake on July 22, 2020, the M_W7.6 Sand Point strike-slip earthquake on October 19, 2020, and the M_W8.2 Chignik thrust earthquake on July 29, 2021. The spatial and temporal proximity of these three earthquakes prompts us to probe stress-triggering effects among them. Here we examine the coseismic Coulomb stress change imparted by the three earthquakes and their influence on the subduction interface. Our results show that: (1) The Simeonof earthquake has strong loading effects on the subsequent Sand Point and Chignik earthquakes, with the Coulomb stress changes of 3.95 bars and 2.89 bars, respectively. The Coulomb stress change caused by the Sand Point earthquake at the hypocenter of the Chignik earthquake is merely around 0.01 bars, suggesting the negligible triggering effect on the latter earthquake; (2) The triggering effects of the Simeonof, Sand Point, and Chignik earthquakes on aftershocks within three months are not well pronounced because of the triggering rates of 38%, 14%, and 43% respectively. Other factors may have played an important role in promoting the occurrence of these aftershocks, such as the roughness of the subduction interface, the complicated velocity structure of the lithosphere, and the heterogeneous prestress therein; (3) The three earthquakes caused remarkable coseismic Coulomb stress changes at the subduction interface nearby these mainshocks, with an average Coulomb stress change of 3.2 bars in the shallow region directly inwards the trench.

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2020–2021阿拉斯加地震序列在舒马金缺口及其周围引起的宇宙库仑应力变化及其对阿拉斯加-阿留申俯冲界面的影响

2020-2021 年，在阿拉斯加-阿留申俯冲带的舒马金地震缺口及其邻近地区发生了三次 MW > 7.0 地震，包括 2020 年 7 月 22 日发生的 MW7.8 Simeonof 挤压地震、2020 年 10 月 19 日发生的 MW7.6 Sand Point 撞击滑动地震和 2021 年 7 月 29 日发生的 MW8.2 Chignik 挤压地震。这三次地震在空间和时间上的接近性促使我们探究它们之间的应力触发效应。在此，我们研究了三次地震带来的同震库仑应力变化及其对俯冲界面的影响。我们的研究结果表明(1) Simeonof 地震对随后发生的 Sand Point 地震和 Chignik 地震具有强烈的加载效应，库仑应力变化分别为 3.95 巴和 2.89 巴。Sand Point 地震在 Chignik 地震次中心引起的库仑应力变化仅为 0.01 巴左右，表明对 Chignik 地震的触发作用微乎其微；（2）Simeonof 地震、Sand Point 地震和 Chignik 地震对三个月内余震的触发作用并不明显，触发率分别为 38%、14% 和 43%。其他因素可能对这些余震的发生起到了重要的促进作用，如俯冲界面的粗糙度、岩石圈复杂的速度结构以及其中的异质预应力等；（3）这三次地震在这些主震附近的俯冲界面引起了显著的同震库仑应力变化，在海沟直接向内的浅层区域，平均库仑应力变化为 3.2 巴。

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来源期刊

Geodesy and Geodynamics GEOCHEMISTRY & GEOPHYSICS-

CiteScore

4.40

自引率

4.20%

发文量

566

审稿时长

69 days

期刊介绍： Geodesy and Geodynamics launched in October, 2010, and is a bimonthly publication. It is sponsored jointly by Institute of Seismology, China Earthquake Administration, Science Press, and another six agencies. It is an international journal with a Chinese heart. Geodesy and Geodynamics is committed to the publication of quality scientific papers in English in the fields of geodesy and geodynamics from authors around the world. Its aim is to promote a combination between Geodesy and Geodynamics, deepen the application of Geodesy in the field of Geoscience and quicken worldwide fellows'' understanding on scientific research activity in China. It mainly publishes newest research achievements in the field of Geodesy, Geodynamics, Science of Disaster and so on. Aims and Scope: new theories and methods of geodesy; new results of monitoring and studying crustal movement and deformation by using geodetic theories and methods; new ways and achievements in earthquake-prediction investigation by using geodetic theories and methods; new results of crustal movement and deformation studies by using other geologic, hydrological, and geophysical theories and methods; new results of satellite gravity measurements; new development and results of space-to-ground observation technology.