玛多7.4级地震应力变化的有限元模拟及其区域地震灾害意义

Lei Liu , Yujiang Li , Lingyun Ji , Liangyu Zhu
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引用次数: 6

摘要

2021年5月22日,青海省玛多县发生里氏7.4级地震;这是继1947年达里7.7级地震之后,又一次发生在巴颜喀尔地块内的强烈地震。地震必然会对周围断层产生应力,从而影响区域地震危险性。为了解这些问题,建立了巴颜喀尔东部块体及其邻区三维粘弹性有限元模型。基于马多地震同震破裂模型,分析了马多地震对周边主要断层的同震和震后库仑应力变化。结果表明:马多地震引起东昆仑断裂带沱锁湖段和马琴—马曲段同震应力显著增加(10 kPa),超过了提出的应力触发阈值;综合地震间构造应力积累速率,认为玛多地震导致东昆仑断裂带陀所湖段和玛琴-玛曲段未来强震分别提前55.6-623 a和24.7-123 a。结合Madoi地震的影响和最后一次强震的时间,这两段已经接近甚至超过了以往研究规定的断层复发间隔。今后,有必要对玛琴-玛曲段和陀所湖段的地震危险性给予更多的关注。该研究为今后认识东昆仑断裂的地震危险性,特别是确定地震潜势区提供了力学参考。
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Finite element simulation of stress change for the MS7.4 Madoi earthquake and implications for regional seismic hazards

On May 22, 2021, the MS 7.4 earthquake occurred in Madoi County, Qinghai Province; it was another strong event that occurred within the Bayan Har block after the Dari MS 7.7 earthquake in 1947. An earthquake is bound to cast stress to the surrounding faults, thus affecting the regional seismic hazard. To understand these issues, a three-dimensional viscoelastic finite element model of the eastern Bayan Har block and its adjacent areas was constructed. Based on the co-seismic rupture model of the Madoi earthquake, we analyzed the co- and post-seismic Coulomb stress change caused by the Madoi earthquake on the surrounding major faults. The results show that the Madoi earthquake caused significant co-seismic stress increases in the Tuosuo Lake and Maqin-Maqu segments of the East Kunlun fault (>10 ​kPa), which exceeded the proposed threshold of stress triggering. By integrating the accumulation rate of the inter-seismic tectonic stress, we conclude that the Madoi earthquake caused future strong earthquakes in the Tuosuo Lake and Maqin-Maqu segments of the East Kunlun fault to advance by 55.6-623 and 24.7-123 ​a, respectively. Combined with the influence of the Madoi earthquake and the elapsed time of the last strong earthquake, these two segments have approached or even exceeded the recurrence interval of the fault prescribed by previous research. In the future, it is necessary to focus greater attention on the seismic hazard of the Maqin-Maqu and Tuosuo Lake segments. This study provides a mechanical reference to understand the seismic hazard of the East Kunlun fault in the future, particularly to determine the seismic potential region.

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