地震地质 ›› 2021, Vol. 43 ›› Issue (4): 908-919.DOI: 10.3969/j.issn.0253-4967.2021.04.011

• 研究论文 • 上一篇    下一篇

2021年云南漾濞MS6.4地震辐射能量的快速测定

王子博1)(), 刘瑞丰1),*(), 孙丽2), 李赞1), 孔韩东1)   

  1. 1)中国地震局地球物理研究所, 北京 100081
    2)中国地震台网中心, 北京 100045
  • 收稿日期:2021-06-15 修回日期:2021-06-29 出版日期:2021-08-20 发布日期:2021-09-29
  • 通讯作者: 刘瑞丰
  • 作者简介:王子博, 男, 1995年生, 2020年于中国地震局地球物理研究所获地球探测与信息技术专业硕士学位, 现为中国地震局地球物理研究所固体地球物理学专业在读博士生, 主要从事地震辐射能量相关研究, 电话: 18510869677, E-mail: wangzb0329@foxmail.com
  • 基金资助:
    中国地震局地球物理研究所基本科研业务专项(DQJB21X28);中国地震局地球物理研究所基本科研业务专项(DQJB20K30);政府间国际科技创新合作重点专项(2018YFE0100100)

THE RAPID DETERMINATION OF RADIATED SEISMIC ENERGY OF MS6.4 YANGBI EARTHQUAKE

WANG Zi-bo1)(), LIU Rui-feng1),*(), SUN Li2), LI Zan1), KONG Han-dong1)   

  1. 1) Institute of Geophysics, China Earthquake Administration, Beijing 100081, China
    2) China Earthquake Networks Center, Beijing 100045, China
  • Received:2021-06-15 Revised:2021-06-29 Online:2021-08-20 Published:2021-09-29
  • Contact: LIU Rui-feng

摘要:

地震辐射能量是表示震源动态特征的物理量, 测定地震辐射能量在地震灾害评估、 地震定量化研究和工程地震学研究中具有重要作用。 文中利用全球地震台网提供的波形数据, 针对2021年5月21日发生的云南漾濞地震开展了地震辐射能量测定研究工作, 得到的主要结果为: 本次地震的辐射能量为1.6×1013J, 能矩比为9.9×10-6, 低于全球走滑型地震的平均能矩比; 将本次地震与2014年10月7日景谷MW6.1地震进行对比发现, 虽然2次地震的矩震级相同、 震源机制相似、 震中仅相距290km, 但景谷地震的能矩比(1.58×10-5)是本次漾濞地震(9.9×10-6)的1.6倍; 根据时频分析结果发现, 景谷地震地震波中的高频能量高于漾濞地震。 以上结果表明, 漾濞地震属于能量释放效率较低的走滑型地震。 相对高频的地震波能量与地震近断层灾害密切相关, 因此我们认为除去震源深度、 地质条件和建筑结构的差异外, 较低的能量释放效率是导致这次地震的与同震级的地震相比, 相同烈度的区域面积较小的原因之一。

关键词: 漾濞MS6.4地震, 辐射能量, 能矩比, 等震线

Abstract:

Radiated seismic energy is a fundamental physical quantity that can be used to represent the dynamic characteristic of the earthquake source, and it is a reliable indicator of the high-frequency component radiated by the seismic source which goes into the seismic waves. Estimating radiated seismic energy has an important role in seismic hazard assessment, quantification of earthquake research, and engineering seismology. Therefore, it is of great significance for the rapid determination of the seismic radiated energy after an earthquake as a reference. After the Yangbi earthquake on May 21, 2021 in Yunnan Province, we measured the radiated seismic energy for the Yangbi earthquake based on the broadband recordings provided by the Global Seismograph Network. The results show that the radiated seismic energy is estimated to be 1.6×1013J; the corresponding Me value is 5.9, which is smaller than MW; The difference between the single station value and the average value is less than 0.2 units in the determination of energy magnitude for more than 70% of the stations; Based on the results of the seismic moment obtained by Global Centroid Moment Tensor(GCMT), it can be concluded that the energy-moment ratio is 9.9×10-6, which is considerably weaker than the global average value of (4×10-5) for the strike-slip earthquakes.

Several previous studies showed that due to the difference in the source rupture process, even earthquakes with small differences in seismic moment and focal mechanism that occurred in the same seismotectonic area may have obviously different amounts of radiated seismic energy. Therefore, we compared this event with Jinggu earthquake that occurred on October 7, 2014. Although the moment magnitudes and focal mechanisms of the two earthquakes are similar, and the epicenter distance is only 290km apart, the area of the same isoseismal for the Jinggu earthquake is significantly larger than the Yangbi earthquake. Earthquake intensity indicates the level of ground shaking, which is associated with the high-frequency components of the seismic waves radiated from the seismic source. Thus, we compared the energy release characteristic of the two earthquakes. The results show that the energy-moment ratio of the Jinggu earthquake(1.58×10-5)is 1.6 times higher than that of this earthquake(9.9×10-6); Comparing with the time-domain analysis alone, the time-frequency analysis performed with the S-transform allows us to quantify important details about the source process information provided by the seismic recordings. According to the results of the time-frequency analysis via the S-transform of these two earthquake waves recorded by the same station, the recording of the Jinggu earthquake had much larger spectral amplitudes at frequencies between 0.5 and 1.5Hz during 30~50s after the P-arrival, while this phenomenon was not observed in the Yangbi earthquake. It can be seen that the high-frequency energy of the Jinggu earthquake is higher than that of the Yangbi earthquake.

In summary, the Yangbi earthquake belongs to a low energy release efficiency strike-slip event, the difference in seismic energy radiated per unit seismic moment led to the different area of the same isoseismal. The relatively high-frequency seismic wave is firmly related to the near-fault seismic hazard. Therefore, we suggest that apart from the difference in focal depth, geological condition and building structure, the difference in energy release efficiency is one of the reasons for the different areas of the same isoseismal with the earthquakes that have the same moment magnitude, the low energy release of the Yangbi earthquake limits the capacity to generate enormous numbers of casualties, damage to the environment and critical infrastructure.

Key words: the Yangbi earthquake in Yunnan, radiated seismic energy, energy-moment-ratio, isoseismal

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