地震地质 ›› 2021, Vol. 43 ›› Issue (4): 806-826.DOI: 10.3969/j.issn.0253-4967.2021.04.005

• 研究论文 • 上一篇    下一篇

2021年5月21日云南漾濞M6.4地震序列的矩心矩张量解及动力环境分析

郭祥云1)(), 尹海权2), 汪贞杰3), 杨辉1)   

  1. 1)中国地震局地球物理研究所, 北京 100081
    2)中国地震局第一监测中心, 天津 300180
    3)浙江省地震局, 杭州 310013
  • 收稿日期:2021-06-15 修回日期:2021-07-03 出版日期:2021-08-20 发布日期:2021-09-29
  • 作者简介:郭祥云, 女, 1975年生, 2014年于中国地震局地球物理研究所获固体地球物理学硕士学位, 高级工程师, 主要从事震源机制及构造应力场反演方面的研究, 电话: 010-68729469, E-mail: ldazui@sina.com
  • 基金资助:
    国家重点研发计划项目(2017YFC1500501-04);中国地震局地球物理研究所基本科研业务专项(DQJB19A0115)

EARTHQUAKE CENTROID, SEISMIC MOMENT TENSOR AND DYNAMIC ENVIRONMENT ANALYSIS OF THE MS6.4 EARTHQUAKE SEQUENCE IN YANGBI, YUNNAN ON MAY 21, 2021

GUO Xiang-yun1)(), YIN Hai-quan2), WANG Zhen-jie3), YANG Hui1)   

  1. 1) Institute of Geophysics, China Earthquake Administration, Beijing 100081, China
    2) The First Monitoring and Application Center, China Earthquake Administration, Tianjin 300180, China
    3) Zhejiang Earthquake Agency, Hangzhou 310013, China
  • Received:2021-06-15 Revised:2021-07-03 Online:2021-08-20 Published:2021-09-29

摘要:

文中利用中国地震台网中心汇编的震相数据, 基于2021年5月18-28日云南漾濞地震周边101个地震台站的观测数据, 采用双差定位方法对漾濞地震的前震-主震-余震序列进行了精定位研究, 获得了2 144个地震的精确位置。 对结果进行分析后发现, 此次地震的主余震分布、 烈度等震线长轴方位与维西-乔后断裂的位置并不一致, 且走向与其呈小角度相交, 推断该地震的发震断裂可能是维西-乔后断裂的次级断裂或其他未知断裂。 在精定位结果的基础上, 采用贝叶斯自助优化BABO(Bayesian Bootstrap Optimisation)算法对2021年5月18-28日云南漾濞M6.4地震和M≥3.6地震序列进行了矩张量反演, 结果表明, 云南漾濞地震序列具有明显的分段性。 漾濞M6.4主震为右旋走滑型兼有少量正倾分量, 矩心深度为5.9km, 大多数余震与主震的机制一致, 以右旋走滑为主, 只是在余震区的东南段西分支处震源性质有明显的不同, 为正走滑型。 整个地震序列的矩心深度为3.5~8.2km。 应力场反演结果显示, 震区主压应力场近SN向、 走向滑动错动类型略带正倾分量。 从地震序列分布和应力方向来看, 本次地震的主要动力来源可能是川滇地块向SE的挤出作用, 地震破裂过程和破裂样式代表了川滇地块挤出后的 “松弛”过程。 从构造背景上看, 本次漾濞地震可能是在川滇地块向SE挤出和印度板块向W后撤(或者地幔底侵)2种动力环境下发生的。

关键词: 云南漾濞地震, 维西-乔后断裂, 地震精定位, 应力场, 矩张量解

Abstract:

According to the Unified Earthquake Catalogue of China Earthquake Networks, using the seismic phase data compiled by the Seismic Data Center, the observations of 101 fixed and mobile seismic stations in the Yunnan region and its surrounding seismic network from May 18 to 28, 2021, we conducted precise positioning research on the foreshock-mainshock-aftershock sequence of the Yangbi earthquake using the double-difference positioning method, and obtained the precise locations of 2 144 earthquakes. It is found that the distribution of the main aftershocks and the long axis orientation of the intensity isoseismal are not consistent with the image position of the Weixi-Qiaohou Fault, and the strike intersects with a small angle. The seismogenic fault of this earthquake may be a secondary fault of the Weixi-Qiaohou Fault. On the basis of the precision positioning results, the Bayesian Bootstrap Optimization(BABO)algorithm is used to perform a moment tensor inversion on the M6.4 earthquake and the M3.6 and above earthquake sequences in Yangbi, Yunnan from May 18 to 28, 2021. The results show that the sequence of Yangbi earthquake in Yunnan has obvious segmentation. The M6.4 Yangbi main shock is of right-handed strike-slip type with a small amount of normal dip-slip component, and the centroid depth is 5.9km. Most aftershocks have the same focal mechanism as the main shock, mainly right-handed strike-slip, except for the earthquakes in the west branch of the southeast section of the aftershock area, where the source property is obviously different, showing a normal strike-slip motion. The centroid depth of the entire earthquake sequence is 3.5~8.2km. The inversion results show that the principal compressive stress field of the earthquake area is in the near NS direction and the strike-slip dislocation is associated with a slight normal dip-slip component.

The spatial distribution of earthquakes shows that this earthquake sequence gradually developed from NW to SE, and the seismic density gradually dispersed from NW to SE. Therefore, it can be considered that the stress was mainly concentrated in the NW direction before the earthquake, and then gradually spread to the SE. Therefore, the main power source of this earthquake may be the southeastward extrusion of the Sichuan-Yunnan block. The rupture process and rupture pattern of this earthquake represents the “relaxation” process of the Sichuan-Yunnan rhombic block after being extruded.

The southern part of the Sichuan-Yunnan block is the material diffusion zone resulting from the eastward extrusion of Qinghai-Tibet Plateau. In this area, the subduction and westward retreat of the Indian plate led to the absence of lateral restraint on the Sichuan-Yunnan block, which may be the main reason causing the earthquake sequences in this area changing from convergence to dispersion, from strike-slip to normal fault type.

The Sichuan-Yunnan block is one of the most insensive areas where the Qinghai-Tibet Plateau squeezes out and escapes southeastward. Regarding the regional dynamic mode, we believe that under the background of continuous eastward extrusion of the material in the eastern part of the Qinghai-Tibet Plateau, and due to the lack of rigid blocks in the horizontal direction, it is more prone to velocity migration in the horizontal direction when the Sichuan-Yunnan block extrudes in the direction of SE and crosses the eastern structural junction and Longmen Mountains. The velocity migration in the study area may be caused by plate subduction or mantle underplating. The study of the lithospheric structure in the Sichuan-Yunnan area found that the crustal thickness of the sub-blocks in central Yunnan gradually thinned from north to south, and the lithospheric thickness in the area west of the Honghe fault zone shows a gradual thinning trend from east to west. It may be related to the intrusion of hot mantle material caused by the subduction and westward retreat of the Indian plate. Tomography results show that in the Ailaoshan-Honghe fault zone, the Yangtze block subducted downwards accompanied by mantle disturbance and asthenosphere upwelling, which led to magmatic activity and intrusion in the Cenozoic. Both of the above two effects can make the western boundary of the Sichuan-Yunnan block have a tensile stress background, and make the focal mechanism of major earthquakes on the nearby tectonic belt possible to appear normal. In summary, the dynamic source of earthquakes in the study area mainly comes from the escape of the Sichuan-Yunnan block to the southeast, and plate subduction or mantle underplating is possibly the deep-seated dynamic background for the lateral velocity migration of the study area.

Key words: Yunnan Yangbi earthquake, Weixi-Qiaohou Fault, precise location of earthquake, stress field, moment tensor solution

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