基于小震定位与震源机制解信息的阿尔金断裂带东段构造转换研究   总被引：1，自引：0，他引：1       下载免费PDF全文

刘亢  李海兵  王长在  张辉  肖根如  李红光  张凌 《地球物理学报》2018,61(11):4459-4474

阿尔金断裂带东段地区的造转换及其动力学机制研究一直是地学工作者关注的焦点.本文利用双差定位法获取研究区域2008—2017年间6013次地震事件的精确定位数据；整理筛选前人震源机制解36个，并采用P/S波振幅比方法计算获得221个以及CAP方法获得25个震源机制解信息.选择野马河—大雪山断裂作为研究区构造转换研究的突破口，综合小震定位数据与震源机制解信息，并开展野外地质调查进行验证，清晰刻画出该断裂的深部构造形态以及现今的运动特征：由阿尔金断裂带向祁连山方向过渡，断层产状由近直立逐渐转变为倾向南，倾角变缓，震源机制解由走滑性质为主转变为逆冲性质为主，是一个连续渐变的过程，为研究区的构造转换研究提供了直接证据.  相似文献   

郯庐断裂带合肥段五河—合肥断裂构造特征   总被引：3，自引：0，他引：3       下载免费PDF全文

秦晶晶  石金虎  张毅  刘保金  姬计法  谭雅丽  袁洪克  酆少英  刘增祺 《地球物理学报》2018,61(11):4475-4485

五河—合肥断裂是郯庐断裂带的西边界断裂，该断裂穿过合肥市城区，是1条规模较大、切割较深的隐伏活动断裂.为了研究该断裂的浅部结构特征、空间展布以及断裂活动性，我们利用2015年在合肥盆地完成的深地震反射剖面数据，采用初至波层析成像方法得到了郯庐断裂带合肥段的浅层P波速度结构和构造形态；考虑到仅根据速度结构剖面还难以确定断裂的准确位置、断层上断点埋深、断层的近地表构造组合样式等特征，研究中跨五河—合肥断裂还完成了2条高分辨率的浅层地震反射剖面.研究结果表明：郯庐断裂带合肥段是一个由多条主干断裂构成的复杂构造带，近地表速度结构表现为凹隆相间的构造特征，且沉积盖层厚度明显受到郯庐断裂带分支断裂的影响和控制.五河—合肥断裂在P波速度结构剖面表现为高速和低速区的分界，对断裂两侧的地层沉积具有重要的控制作用，该断裂向下错断了盆地基底，向上错断了埋深21~35 m的中更新统下部地层，其最新活动时代为中更新世早期.研究结果不仅为进一步认识五河—合肥断裂浅部构造形态提供了地震学依据，还可为该区断裂两侧的城镇规划和建设中避让活动断层提供基础资料.  相似文献   

滇西南地区南汀河断裂带三维深部电性结构及其孕震环境   总被引：3，自引：0，他引：3       下载免费PDF全文

叶涛  黄清华  陈小斌 《地球物理学报》2018,61(11):4504-4517

南汀河断裂带为滇西南地区活动断裂体系中规模最大的一条北东向断裂，其构造活动及地震危险性一直备受关注.本文基于覆盖云南境内南汀河断裂带的大地电磁测深宽频带阵列数据，利用大地电磁三维反演解释技术，首次获得了南汀河断裂带的精细三维深部电性结构.在上地壳深度，南汀河断裂带西南段与中段的电性结构表现出沿构造走向的高导条带特征，北东段表现为高阻结构.该高阻结构可能为临沧—勐海花岗岩体的电性反映，指示南汀河断裂可能未切穿该花岗岩带.在中下地壳深度，南汀河断裂带西南段存在大范围高导层，北东段则表现为整体性的高阻地壳，因此南汀河断裂北东段可能具有发生强震的介质结构背景.南汀河断裂带西南段的耿马地震区深部呈现北东向与北北西向的"X"型高导构造样式，该高导结构以南存在一个显著高阻异常体，1988年耿马M_S7.2地震以及2015年沧源M_S5.5级地震均发生于该高阻体与"X"型高导条带的电性边界.青藏高原东南缘绕东构造结流入滇西地区的中下地壳流可能受到南汀河断裂北东段中下地壳高阻体的阻挡而呈分流式分布于保山地块以及澜沧江断裂以东.  相似文献   

河南新郑—太康断裂东段土壤气体地球化学特征   总被引：2，自引：0，他引：2  

李源  马兴全  夏修军  谢恒义  王志铄  赵显刚 《地震》2018,38(3):49-57

土壤气浓度测量能够揭示断裂位置和活动特征。 由于河南新郑—太康断裂北西向隐伏断裂带空间定位精度有待提高, 以及2016年5月该区出现地下逸出气异常的宏观现象, 在太康县西近垂直于断裂走向布设了一条长约13 km的NE—NNE走向的地球化学观测剖面, 用于分析隐伏断层浅层位置及其与地下逸出气宏观异常的关系。 观测结果表明: 该剖面的异常段与该区浅层地震勘探显示的断裂带地表出露位置相吻合, 其中Rn体积活度和H₂、 CO₂浓度异常揭示出南段有4条断层, 北段有2条断层, 且均具有高角度特征, 南段的CO₂浓度异常区与地下逸出气宏观异常位置相符, 但代表构造特征的Rn体积活度和H₂浓度没有出现异常, 认为与构造关系不密切。  相似文献   

THREE-DIMENSIONAL DEFORMATION CHARACTERISTICS OF THE XIANSHUIHE FAULT ZONE     

ZHAO Jing  REN Jin-wei  JIANG Zai-sen  Yue Chong 《地震地质》2018,40(4):818-831

In order to analyze 3-dimensional movement and deformation characteristics and seismic risk of the Xianshuihe fault zone, we inverted for dynamic fault locking and slip deficit rate of the fault using the GPS horizontal velocity field of 1999-2007 and 2013-2017 in Sichuan-Yunnan region, and calculated annual vertical change rate to analyze the vertical deformation characteristics of the fault using the cross-fault leveling data during 1980-2017 locating on the Xianshuihe fault. The GPS inversion results indicate that in 1999-2007, the southeastern segment of the fault is tightly locked, the middle segment is less locked, and the northwestern segment is basically in creeping state. In 2013-2017, the southeastern segment of the fault is obviously weekly locked, in which only a patch between Daofu-Bamei is locked, and the northwestern segment is still mostly in creeping state, in which only a patch at southeastern Luhuo is slightly locked from surface to 10km depth. The cross-fault leveling data show that annual vertical change rate of the Zhuwo, Gelou, Xuxu and Goupu sites on the northwestern segment is larger, which means vertical movement is relatively active, and annual vertical change rate of the Longdengba, Laoqianning, and Zheduotang sites on the southeastern segment is small, which means the fault is locked, and the vertical movement changes little before and after the Wenchuan earthquake. Combining with the 3-dimensional movement and deformation, seismic activity and Coulomb stress on the Xianshuihe Fault, we consider the seismic risk of the southeastern segment is larger, and the Wenchuan earthquake reduced the far-field sinistral movement and the fault slip deficit rate, which may reduce the stress and strain accumulation rate and relieve the seismic risk of the southeastern segment.  相似文献   

Relocation of the Jinghe MS6.6 Earthquake Sequence on August 9, 2017 and Analysis of the Seismogenic Structure     

Liu Jianming  Gao Rong  Wang Qiong  Nie Xiaohong 《中国地震研究》2018,32(4):482-490

Based on the digital waveforms of the Xinjiang Digital Seismic Network,the Jinghe M_S6.6 earthquake sequence( M_L≥1. 0) were relocated by HypoDD,The characteristics of the spatial distribution and the seismogenic structure of this earthquake sequence were analyzed. The results show that the main shock is relocated at 44. 2639° N,82. 8294° E,and the initial rupture depth is 17. 6 km. The earthquake sequence clearly demonstrates a unilateral extension of about 20 km in the EW direction,and is mainly located at a depth of 7km-17 km. The depth profile along the aftershock direction shows that the focal depth of aftershocks tend to be shallower within 10 km to the west of the main shock,the focal depth of the aftershock sequence with the tail direction deflecting SW is deeper. The depth profile perpendicular to the earthquake sequence shows a gradual deepening of the seismic sequence from north to south,which indicates that the fault plane is dipping south.According to the focal mechanism solution,given by the Institute of Geophysics,China Earthquake Administration,and the geological structure of the seismic source region,it is inferred that the seismogenic structure of the Jinghe M_S 6.6 earthquake may be the eastern segment of the Kusongmuxieke fault.  相似文献   

Application of Ultra-shallow Seismic Survey to the Wanggezhuang Fault in Qingdao     

Yang Qiyan  You Huichuan  Di Long 《中国地震研究》2018,32(4):574-583

At present, there is less theoretical research and practical experience in the aspect of ultra-shallow seismic exploration to the target layers at depths of only tens of meters both at home and abroad. Seismic exploration plays an important role in the location of faults and active structures, but the depth dozens of meters below the ground surface is the blind area of any kind of deep and shallow seismic exploration. Starting from the point of view of detecting urban active faults, and using related theories and methods of geology, geophysics and mathematics, the paper discusses the preconditions for acquiring efficient ultra-shallow seismic survey results in complicated geological backgrounds in Qingdao. Taking the Qingdao area as an example in this paper, we study the depth condition of Quaternary deposits, and apply 4-8 stacking folds to satisfy the requirement to get the exploration results with high-resolution and high-SNR. Preliminary results reveal that selecting a proper surveillance layout is one of the keys to acquire authentic exploration results in ultra-shallow P-wave reflection exploration. Our results also show that ultra-shallow seismic reflection method in detecting faults in the Qingdao area has good application prospects.  相似文献   

西藏日喀则拉堆-乃东与毕定-甲舍拉断裂的活动性分析研究          下载免费PDF全文

雷生学  李振海  张文朋  陈宇坤  郭巍  谢静博  高也  高锦瑞 《地震工程学报》2018,40(4):785-793

综合采用地质地貌调查、探槽开挖及OSL测年等,对离日喀则市最近的拉堆—乃东和毕定—甲舍拉断裂的活动性进行研究,结果表明:拉堆—乃东断裂在距今约3万年前停止了活动,毕定—甲舍拉断裂则至少在5万年前停止了活动,即二者自晚更新世晚期已不再活动——不属于全新世活动断裂,这与部分学者认为拉堆—乃东断裂为全新世活动断裂的结论不同。研究获得的最新断层活动资料可为该地区的地震预测提供科学依据。  相似文献   

2013年芦山地震震源区地壳介质地震波速变化的特征分析          下载免费PDF全文

王俊  郑定昌  张金川  詹小艳  钱婷 《地球物理学报》2020,63(2):517-531

为探究芦山M7.0级地震后5年多来，震源区龙门山断裂带西南段介质波速的变化规律，本文基于2012年4月至2018年4月共6年的连续波形数据，运用移动窗互谱与频域偏振等分析方法，结合背景噪声源的特性，对不同深度范围内的相对波速变化以及震后的恢复过程与机制进行了研究.获得的主要认识包括：（1）年尺度而言，震源区周期为1~20 s的背景噪声场相对稳定，但成分复杂、2~10 s频带内至少存在2个能量相对稳定的噪声源；不同周期噪声的能量，在月变与季节性上的变化特征差异明显.（2）获得了长时间尺度、不同频带内介质相对波速的背景变化水平，1~2 s、2~4 s的波动幅度（约为±0.04%）与季节性变化规律强于4~10 s、10~20 s的，结合与降雨量相关的地下水位模型能很好地解释其变化规律.（3）震源区的同震波速降低现象清晰，降幅约为0.08%~0.1%；空间上，波速下降最为显著的区域主要集中在龙门山断裂带两侧约70 km范围内，其中四川盆地一侧平均约为0.1%，略高于青藏高原（0.08%）一侧；在断裂带内的降速不显著.对不同子频带进行测量的结果显示，震后除10~20 s外，其余3个子频带的相对波速在震后较短时间内（约20天左右）均出现较大幅度的波速降低现象，其中4~10 s的平均降速最大（约为0.08%），分析认为主震及大量余震的松弛效应是引起介质波速下降的主要原因.（4）震后大约1年左右，波速变化基本恢复到震前水平，且至2018年4月前未观察到大幅的波速变化现象，总体上各频带内的结果均沿零线小幅波动.  相似文献   

Intra-continental deformation and tectonic evolution of the West Junggar Orogenic Belt,Central Asia:Evidence from remote sensing and structural geological analyses     

Wei-Cui Ding  Ting-Dong Li  Xuan-Hua Chen  Jian-Ping Chen  Sheng-Lin Xu  Yi-Ping Zhang  Bing Li  Qiang Yang 《地学前缘(英文版)》2020,(2):651-663

The West Junggar Orogenic Belt(WJOB)in northwestern Xinjiang,China,is located in the core of the western part of the Central Asian Orogenic Belt(CAOB).It has suffered two stage tectonic evolutions in Phanerozoic,before and after the ocean–continental conversion in Late Paleozoic.The later on intracontinental deformation,characterized by the development of the NE-trending West Junggar sinistral strike-slip fault system(WJFS)since Late Carboniferous and Early Permian,and the NW-trending Chingiz-Junggar dextral strike-slip fault(CJF)in Mesozoic and Cenozoic,has an important significance for the tectonic evolution of the WJOB and the CAOB.In this paper,we conduct geometric and kinematic analyses of the WJOB,based on field geological survey and structural interpretation of remote sensing image data.Using some piercing points such as truncated plutons and anticlines,an average magnitude of^73 km for the left-lateral strike-slip is calculated for the Darabut Fault,a major fault of the WJFS.Some partial of the displacement should be accommodated by strike-slip fault-related folds developed during the strike-slip faulting.Circular and curved faults,asymmetrical folds,and irregular contribution of ultramafic bodies,implies potential opposite vertical rotation of the Miao’ergou and the Akebasitao batholiths,resulted from the sinistral strike-slipping along the Darabut Fault.Due to conjugate shearing set of the sinistral WJFS and the dextral CJF since Early Mesozoic,superimposed folds formed with N–S convergence in southwestern part of the WJOB.  相似文献