地震地质 ›› 2022, Vol. 44 ›› Issue (2): 395-413.DOI: 10.3969/j.issn.0253-4967.2022.02.008

• 研究论文 • 上一篇    下一篇

基于地震活动性和震源机制解研究渭河-运城盆地主要断裂带的特征及应力场分布

余占洋1,2)(), 沈旭章1,2),*(), 梁浩1,2), 郑文俊1,2), 刘旭宙3)   

  1. 1)中山大学地球科学与工程学院, 广东省地球动力作用与地质灾害重点实验室, 广州 510275
    2)南方海洋科学与工程广东省实验室(珠海), 珠海 519082
    3)甘肃省地震局, 兰州 730000
  • 收稿日期:2021-02-01 修回日期:2021-05-17 出版日期:2022-04-20 发布日期:2022-06-14
  • 通讯作者: 沈旭章
  • 作者简介:余占洋, 男, 1997年生, 2021年于中山大学获构造地质学专业硕士学位, 主要研究方向为地震精定位和构造应力场, E-mail: 1364284271@qq.com
  • 基金资助:
    国家重点研发计划项目(2017YFC1500103);国家自然科学基金(41874052);国家自然科学基金(41730212);“珠江人才计划”引进创新创业团队(2016ZT06N331);“珠江人才计划”引进创新创业团队(2017ZT07Z066);第2次青藏高原综合科学考察研究(2019QZKK0701);广东省防震减灾协同创新中心项目(2018B020207011)

THE CHARACTERISTICS OF MAJOR FAULTS AND STRESS FIELD IN WEIHE-YUNCHENG BASIN CONSTRAINED BY SEISMIC ACTIVITY AND FOCAL MECHANISM SOLUTIONS

YU Zhan-yang1,2)(), SHEN Xu-zhang1,2),*(), LIANG Hao1,2), ZHENG Wen-jun1,2), LIU Xu-zhou3)   

  1. 1) Provincial Key Lab of Geodynamics and Geohazards, School of Earth Sciences and Engineering, Sun Yat-Sen University, Guangzhou 510275, China
    2) Southern Marine Science and Engineering Guangdong Laboratory(Zhuhai), Zhuhai 519082, China
    3) Gansu Earthquake Agency, Lanzhou 730000, China
  • Received:2021-02-01 Revised:2021-05-17 Online:2022-04-20 Published:2022-06-14
  • Contact: SHEN Xu-zhang

摘要:

文中选取2009年1月1日—2018年6月30日渭河-运城盆地地区的震相报告资料, 共包括14381个地震事件, 剔除其中地震信息不完整和台站记录过少的地震事件, 剩余11856个地震事件。由于研究区域较大, 为减少不同区域结构影响, 将渭河-运城盆地划分成3个较小的区域, 分别使用双差定位法进行重定位, 定位过程中使用52个台站的数据, 得到了8106个地震事件的重定位结果。采用格点尝试法反演震源机制解, 通过最小空间旋转角将其与前人使用其他方法得到的震源机制解结果进行定量比较, 发现两者基本一致。此外, 文中确定了区域内346个ML≥2地震事件的震源机制解, 经分析可知, 正断型和走滑型地震事件分布广泛, 占全部地震事件的60%以上, 且大多集中在断裂带附近。根据震源机制解和应力张量阻尼反演方法使用MSATSI程序包反演得到了渭河-运城盆地地区1°×1°网格的地壳应力场, 并垂直断层截取了一定数量的深度剖面进行分析。结果显示: 与定位前的分布相比, 重定位后的地震事件分布更集中, 在平面上基本沿断裂走向分布, 在垂向上沿断层面密集分布。山西地堑带内部及周边地震活动频繁, 但震级普遍较小; 而渭河断陷带内地震活动性相对较弱。重定位前震源深度集中分布在5~10km, 重定位后震源深度的分布发生了明显改变, 集中分布在10~25km范围内, 总体上震源深度集中在20km以内, 小部分地震发生在25~35km深度处。盆地内部的震源深度相对较浅, 以5~15km为主, 盆地两端震源深度有加深的趋势, 最深约达30km, 与前人的研究结果较为一致。对截取的深度剖面进行分析, 结果显示, 研究区域内大部分断层面的倾角较大, 与地表产状相近, 有的断层面甚至接近直立状态。断裂构造的运动性质和震源机制解指示研究区内断层性质以正断和走滑为主; 应力场反演结果显示, 除东南缘部分地区的R值较大外, 其余地区的R值均<0.5; 渭河-运城盆地地区的应力状态偏向于拉张, 最大水平主应力方向在渭河断陷带呈近EW向, 在山西断陷带南部呈NNE和NEE向, 与前人研究基本一致。

关键词: 双差定位法, 震源机制解, 渭河-运城盆地, 构造应力场

Abstract:

In this paper, the seismic phase bulletin of 14381 earthquakes from January 1, 2009 to June 30, 2018 in the Weihe-Yuncheng Basin and its adjacent region were selected and analyzed. After removing the records with incomplete event information and insufficient station information, 11856 seismic events remained. A basic requirement for the double difference location method is that the distance between the pairs of seismic events is much smaller than the distance between the events and the stations and the linear scale of the velocity inhomogeneous body on the wave propagation path, so that the travel time difference between two earthquakes and the same station is only determined by the relative position between the two seismic events and the velocity of the seismic wave. In this case, the error caused by insufficient understanding of crustal structure can be effectively reduced and the result of relocation can be more accurate. Due to the large area, the whole study region was divided into three smaller parts for relocation of the events in order to reduce the influences of local structures. 8106 seismic events recorded by 52 stations were relocated using the double-difference location algorithm. It is found that the results constrained by the grid searching method are basically consistent with those obtained by other methods. The reliability of focal mechanism is affected by the number of initial motion and the azimuth distribution of the station. Therefore, when inversion of focal mechanism solution is carried out, earthquakes with more than 10 clear initial motion phases are selected, and the maximum azimuth gap between two stations with clear initial motion is required to be less than 90°. The azimuth coverage of the initial motion on the source sphere was measured according to azimuth and take-off angle distributions, and the focal mechanism solutions with poor coverage were eliminated. The contradiction ratio of focal mechanism solutions is less than 0.2. The average difference of b-axis of the best fitting solutions is less than 20°. Finally, the focal mechanism solutions of 346 seismic events with ML≥2 were determined with initial motion of P and S waves. Normal type and strike-slip type earthquakes are widely distributed, accounting for more than 60% of all seismic events, and most of them are concentrated near fault zones. Before the formal inversion, the study area was divided into 1°×1° grids, and a series of damping coefficients were set to obtain the trade-off curve between the residual error of data fitting and the length of the stress field inversion model. The crustal stress field of 1°×1° grid in Weihe-Yuncheng Basin was obtained based on focal mechanism solution and stress tensor damping inversion method, and a certain number of depth profiles vertical to the faults were constructed for the analysis. The results show that compared with the original locations of seismic phase bulletin, the distribution of seismic events after relocation is more concentrated along the fault strike in plane. Vertically, they are densely distributed along the fault plane. There are more earthquakes in and around Shanxi graben, but the magnitude is generally small. The seismic activity in Weihe rift is relatively weak. Before the relocation, the focal depth distribution was concentrated in 5~10km, but after the relocation, the focal depth distribution changed significantly. The earthquakes were concentrated in the range of 10~25km, the overall focal depth was concentrated in the range of 20km, and a small number of earthquakes occurred in the range of 25~35km. The focal depth in the basin is relatively shallow with depth range of 5~15km. The focal depth at both ends of the basin tends to deepen, and the deepest depth can reach about 30km, which is consistent with the results of previous studies. The results of the depth profiles show that most of the fault planes in the study area have a large dip angle, similar to the occurrence of the surface, and some fault planes are even nearly vertical. The motion properties of fault structure and focal mechanism indicate that the faults in the study area are mainly normal and strike-slip ones. The results of stress field inversion indicate that the R values, which indicate the stress state, of the other regions are all less than 0.5 except for some areas in the southeastern margin of the research area. The stress state of Weihe-Yuncheng Basin tends to be tensile, and the maximum horizontal principal stress direction is nearly EW in Weihe rift and NNE and NEE in southern Shanxi rift, which is basically consistent with previous studies.

Key words: double-difference location, focal mechanism solutions, Weihe-Yuncheng Basin, tectonic stress field

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