2019年四川威远东两次M_(S)>5.0地震序列活动特征及震源区体波速度结构  被引量：1

作　　者：张栓 江国焰[1,2] 许才军 雷兴林[3] 苏金蓉 林学楷[1] ZHANG Shuan;JIANG GuoYan;XU CaiJun;LEI XingLin;SU JinRong;LIN XueKai(School of Geodesy and Geomatics,Wuhan University,Wuhan 430079,China;Hubei Luojia Laboratory,Wuhan 430079,China;Geological Survey of Japan,AIST,Tsukuba 305-8567,Japan;Sichuan Earthquake Agency,Chengdu 610041,China)

机构地区：[1]武汉大学测绘学院,武汉430079 [2]湖北珞珈实验室,武汉430079 [3]日本产业技术综合研究所,筑波305-8567 [4]四川省地震局,成都610041

出　　处：《地球物理学报》2024年第1期128-143,共16页Chinese Journal of Geophysics

基　　金：国家自然科学基金重点项目(42130101)资助。

摘　　要：自2015年以来,四川威远及邻区的地震活动强度显著增强,其中2019年9月8日和12月18日在威远东发生了M_(S)5.4和M_(S)5.2地震,刷新了威远地区有记录以来历史地震震级上限.本文利用2019年8月至2020年3月期间威远及邻区25个流动台和17个固定台记录到的5638次M_(L)≥1.2地震Pg和Sg波到时以及连续波形资料,采用双差层析成像方法获得了威远东这两次地震序列的重定位结果和震源区浅层地壳高分辨率三维体波速度结构.重定位结果显示震源区地震震源深度主要集中在3~4 km.基于两次M_(S)>5.0地震震后10天余震序列空间展布,本文推测两次地震的发震构造均为NNE走向且倾向SE(倾角40°左右)的盲冲断层.三维体波速度结构反演结果揭示:震源区V_(P)异常变化较V_(S)异常变化显著,V_(P)/V_(S)比背景值普遍低4%~10%.在深度小于5 km的浅层内,地震多分布在V_(P)低速异常和V_(S)弱高速异常以及二者的高低速异常过渡带内;在5~7 km深度范围,地震基本上都发生在V_(P)低速异常区.上述速度结构特征揭示震源区附近可能发育着富含气体的孔隙和裂缝且存在流体活动.此外,2019年11月7日以后的地震活动具有明显的流体扩散驱动地震迁移特征,沿两次地震发震断层走向和倾向的流体扩散系数分别为1.5 m~2·s^(-1)和0.1 m~2·s^(-1).两次地震的发生机理很可能是流体扩散引起的孔隙压力上升.Seismicity rates in Weiyuan(Sichuan Basin,China)and its adjacent regions have increased significantly since 2015.In 2019,one M_S5.4 earthquake and one M_S5.2 earthquake occurred in eastern Weiyuan on September 8 and December 18,respectively.The two events broke the record of the largest magnitude of historical earthquakes in the region.To investigate the source characteristics and occurrence mechanisms of the two events,here we collected the Pg and Sg wave travel times and continuous waveform data of 5638 M_L≥1.2 earthquakes recorded by 25 temporal stations and 17 permanent stations in the study area from August 2019 to March 2020.The double-difference seismic tomography method is used to relocate the two earthquake sequences and to obtain high resolution 3D body-wave velocity structure of the source area.Our relocation results show that most events are located in the depths of 3~4 km.The spatial distribution of aftershocks occurred in 10 days after the two M_S>5.0 earthquakes indicates that they ruptured two blind thrust faults striking to NNE and dipping to SE at an angle of~40°.The inversion results of the 3D body-wave velocity structure show that variation of V_(P)values in the source region is more significant than V_(S)values,and that V_P/V_(S)ratio is generally 4%~10%lower than the background value.Above the depth of 5 km,most earthquakes occurred within regions with low V_(P)anomalies and weak-high V_(S)anomalies and transition zones from high velocity anomalies to low velocity anomalies.In the depth range of 5~7 km,earthquakes are mostly located in regions with low V_(P)anomalies.The characteristics of velocity structure reveal that,in the source area,there are probably abundant of gas-filled pore and fractures that are favor for fluid flow.In addition,seismicity observed after 7 November 2019 shows obvious characteristics of spatiotemporal migration driven by fluid diffusion.The corresponding fluid diffusion coefficients along the strike and dip directions of the two source faults are 1.5 m~2·s~(-1)

关 键 词：四川威远东 M_(S)>5.0地震 双差层析成像 地震活动特征 体波速度结构 

分 类 号：P315[天文地球—地震学]