Spatio-temporal variation and focal mechanism of the Wenchuan M_S8.0 earthquake sequence          下载免费PDF全文

Wanzheng Cheng  Zhiwei Zhang  Xiang Ruan 《地震科学（英文版）》2009,22(2):109-117

Based on abundant aftershock sequence data of the Wenchuan M_S8.0 earthquake on May 12, 2008, we studied the spatio-temporal variation process and segmentation rupture characteristic. Dense aftershocks distribute along Longmenshan central fault zone of NE direction and form a narrow strip with the length of 325 km and the depth between several and 40 km. The depth profile (section of NW direction) vertical to the strike of aftershock zone (NE direction) shows anisomerous wedgy distribution characteristic of aftershock concentrated regions; it is related to the force form of the Longmenshan nappe tectonic belt. The stronger aftershocks could be divided into northern segment and southern segment apparently and the focal depths of strong aftershocks in the 50 km area between northern segment and southern segment are shallower. It seems like 'to be going to rupture' segment. We also study focal mechanisms and segmentation of strong aftershocks. The principal compressive stress azimuth of aftershock area is WNW direction and the faulting types of aftershocks at southern and northern segment have the same proportion. Because aftershocks distribute on different secondary faults, their focal mechanisms present complex local tectonic stress field. The faulting of seven strong earthquakes on the Longmenshan central fault is mainly characterized by thrust with the component of right-lateral strike-slip. Meantime six strong aftershocks on the Longmenshan back-range fault and Qingchuan fault present strike-slip faulting. At last we discuss the complex segmentation rupture mechanism of the Wenchuan earthquake.  相似文献   

结合波形互相关的双差定位方法在2008年汶川地震余震序列中的应用   总被引：4，自引：0，他引：4       下载免费PDF全文

吕鹏  丁志峰  朱露培 《地震学报》2011,33(4):407-419

选取了汶川地震主震后的2008年5月12日——2009年8月31日, 震级为3.0le;MSle;5.0的余震4240次．利用波形互相关方法得到其P波到时,用双差定位方法对其进行定位,最终得到了2441次重新定位的结果．统计定位误差（两倍标准偏差）在E-W方向为0.4 km,N-S方向为0.4 km,垂直方向为0.7 km．定位结果表明,汶川地震的余震深度集中在10——20 km,震中分布与龙门山中央断裂带的走向关系密切．沿龙门山断裂的地震分布具有明显的分段性,西南段呈水平带状分布,东北段接近垂直分布,且在北川附近存在深度突变．这与龙门山断裂的地震在西南段多表现为逆冲,东北段多表现为走滑的现象相吻合．在深度剖面上地震的空间分布存在分立的特征,通过对比前人在此地区浅层的地震剖面资料, 发现地震空间分布与已探知的浅部断层有较好的对应关系．   相似文献   

Relocation of the MS5.7 Earthquake Sequence in Songyuan, Jilin Province, 2018 and the Analysis of Its Seismogenic Structure     

An Yanru  Zhang Yingying  Yang Zhigao  Bai Lanshu  Liu Jie 《中国地震研究》2018,32(4):491-500

The 2018,Songyuan,Jilin M_S5. 7 earthquake occurred at the intersection of the FuyuZhaodong fault and the Second Songhua River fault. The moment magnitude of this earthquake is M_W5. 3,the centroid depth by the waveform fitting is 12 km,and it is a strike-slip type event. In this paper,with the seismic phase data provided by the China Earthquake Network, the double-difference location method is used to relocate the earthquake sequence,finally the relocation results of 60 earthquakes are obtained. The results show that the aftershock zone is about 4. 3km long and 3. 1km wide,which is distributed in the NE direction. The depth distribution of the seismic sequence is 9km-10 km. 1-2 days after the main shock,the aftershocks were scattered throughout the aftershock zone,and the largest aftershock occurred in the northeastern part of the aftershock zone. After 3-8 days,the aftershocks mainly occurred in the southwestern part of the aftershock zone. The profile distribution of the earthquake sequence shows that the fault plane dips to the southeast with the dip angle of about 75°. Combined with the regional tectonic setting,focal mechanism solution and intensity distribution,we conclude that the concealed fault of the Fuyu-Zhaodong fault is the seismogenic fault of the Songyuan M_S5. 7 earthquake. This paper also relocates the earthquake sequence of the previous magnitude 5. 0 earthquake in 2017. Combined with the results of the focal mechanism solution,we believe that the two earthquakes have the same seismogenic structure,and the earthquake sequence generally develops to the southwest. The historical seismic activity since 2009 shows that after the magnitude 5. 0 earthquake in 2017,the frequency and intensity of earthquakes in the earthquake zone are obviously enhanced,and attention should be paid to the development of seismic activity in the southwest direction of the earthquake zone.  相似文献   

龙门山断裂带精细速度结构的双差层析成像研究   总被引：21，自引：11，他引：10       下载免费PDF全文

邓文泽  陈九辉  郭飚  刘启元  李顺成  李昱  尹昕忠  齐少华 《地球物理学报》2014,57(4):1101-1110

利用川西流动地震台阵、汶川地震震后应急台网记录到的P波到时资料,对2008年5月至2008年10月期间发生的汶川地震余震序列应用双差层析成像方法进行了地震震源和三维P波速度结构的联合反演.结果显示,联合反演获得的地震重定位结果与基于一维地壳参考模型的双差定位方法结果相近;研究区15 km以上速度结构与地表断裂分布密切相关,20 km以下深度呈现北东向和北西向交错结构.汶川地震破裂带南段龙门山断裂带之间上地壳呈现高速异常,速度结构的非均匀变化是控制余震分布和主震破裂传播的主要因素;联合反演结果给出了小鱼洞-理县方向存在隐伏断裂的速度结构证据,同时发现,破裂带北东段可能沿新发断裂扩展;结果确认了汶川地震起始段的高角度逆冲断裂特征,也确认了前山断裂和中央断裂在约20 km深度合并到脆韧转换带的特征.  相似文献   

RESTUDY ON HYPOCENTRAL LOCATION AND SEISMOGENIC TECTONIC OF THE JIUJIANG-RUICHANG M_S5.7 EARTHQUAKE SEQUENCE,JIANGXI PROVINCE          下载免费PDF全文

LUO Li  Lü Jian  ZENG Wen-jing  TANG Lan-rong 《地震地质》2016,38(2):342-351

We collected seismic records of 228 M_L≥1.0 Jiujiang-Ruichang M_S5.7 earthquake sequence from Dec.26, 2005 to Jun. 30, 2006. By using double-difference method combined with waveform cross-correlation, those earthquakes were relocated and finally the accurate source parameters of 224 earthquakes were obtained. The errors are about 0. 5km in horizontal and less than 2km in vertical direction, respectively. It was found that the depth of earthquake sequence concentrates in 8~14km range, and the epicenters are distributed along both NW and NE direction, and dominantly along NW direction. Combined with the focal mechanism, the distribution direction and the tectonic setting, we infer that the rupture of the NW-trending fault caused the M_S5. 7 main shock, and then the rupture probably encountered an asperity and triggered the M_S4. 8 strong aftershock. The NE-trending fault came into a seismically quiet period by stress adjustment in a short time, while the NW-trending fault released stress for a long time which caused a series of aftershocks. The M_S5. 7 main shock is caused by the NW striking Yangjisshan-Wushan-Tongjiangling Fault and the M_S4. 8 aftershock occurred on the NE striking Liujia-Fanjiapu-Chengmenshan Fault.  相似文献   

2017年西藏米林MS6.9地震余震序列重定位和b值时空分布特征     

韩佳东  杨建思  王伟平 《地震学报》2019,41(2):169-180

本文采用双差定位方法对2017年西藏米林M_S6.9地震的余震序列进行重定位，获得了较准确的余震空间分布。在此基础上，计算了米林地震震源区的b值空间分布，并结合前人资料研究了米林地震前后的b值变化。重定位结果显示:米林地震余震序列呈NW?SE向分布，主要分布在雅鲁藏布江大拐弯缝合带和比鲁构造岩片的北东边界，震源深度集中于3—20 km范围内。b值时间分布显示:米林地震震前震源区的b值降低，表明震前震源区存在较强的应力积累；地震后震源区的b值呈现跳跃式上升，反映出震源区应力释放，同时随时间的推移，b值逐渐趋于稳定。米林地震震源区的b值在0.52—1.35范围内变化，15 km深度以上b值在东、西方向上存在差异，15 km以下在东北、南西方向上存在差异，由此推测不同的b值分布与地下的结构特征有关，浅层的b值变化与震源区的破裂程度相关，深部变化则反映了不同构造单元的岩性差异。   相似文献   

2021年美国阿拉斯加半岛MW8.2地震震源特征分析     

邓文泽  孙丽 《中国地震》2021,37(3):737-744

采用远场地震波资料和有限断层反演方法获得2021年7月29日6时15分(UTC)美国阿拉斯加州以南海域MW8.2地震的震源破裂过程模型,探讨此次地震发生的动力学背景。破裂过程反演的结果显示这次地震的滑动量分布比较集中,破裂长度约为160km,地震主体破裂发生在20～40km深度范围内,破裂由深部向浅部发展,表明此次地震释放了俯冲带浅部的应变能,破裂持续时间近120s,破裂面上最大滑移量达5m。此外,主震破裂区域中的余震分布较小,大部分余震发生在主震南部,出现这种现象表明震源区的破裂较为彻底并触发了俯冲带浅部位置的地震,本次地震的有限断层反演结果和余震分布均显示破裂向东发展,但未破裂至震中以西的舒马金空区,表明舒马金空区东部的地震危险性仍然存在。  相似文献   

河北永清MW4.3地震序列双差定位分析     

朱冰清  曹井泉  谭毅培  董一兵  孙路强  彭研枫  徐小远  赵黎明 《地震地磁观测与研究》2020,(1):13-18

使用双差定位法对2018年2月12日永清MW 4.3地震及其余震序列进行重新定位,共得到38个重新定位结果.结果显示:①余震序列分布更加集中,地震序列震中呈NE向分布,与河西务断裂带走向基本一致;②地震序列的震源深度主要为20—25 km,北东侧震源较浅,南西侧震源较深,主震位于地震剖面下部,此次地震引起的破裂可能为由深部到浅部.  相似文献   

2020年云南东川ML4.2地震序列精定位研究     

高方鸿  刘志坤  耿传涛 《地震研究》2022,45(1):48-53

利用云南东川地区10个宽频带流动台站的连续波形数据,采用基于深度学习的自动震相拾取方法和震相关联技术,对2020年东川M_L4.2地震序列分别进行绝对定位和相对定位,获得了该地震序列的高精度地震定位结果,得到东川M_L4.2地震序列的212个余震事件,约为中国地震台网目录给出的余震数目的5倍,丰富了M_L≤3.0余震;精定位结果表明东川M_L4.2主震震源深度为5.19 km,余震震源深度集中在3~6 km,余震序列分布长轴呈NNE向展布;此次地震发生在小江断裂带西支,发震构造与乌龙拉分盆地的构造演化有关。  相似文献   

河北永清M_W 4.3地震序列双差定位分析     

朱冰清  曹井泉  谭毅培  董一兵  孙路强  彭研枫  徐小远  赵黎明 《地震地磁观测与研究》2019,41(1):13-18

使用双差定位法对2018年2月12日永清M_W 4.3地震及其余震序列进行重新定位，共得到38个重新定位结果。结果显示：①余震序列分布更加集中，地震序列震中呈NE向分布，与河西务断裂带走向基本一致；②地震序列的震源深度主要为20—25 km，北东侧震源较浅，南西侧震源较深，主震位于地震剖面下部，此次地震引起的破裂可能为由深部到浅部。  相似文献   

由初至P震相重新定位2017年九寨沟地震序列的主震与ML≥3.0余震并分析发震构造          下载免费PDF全文

曾宪伟  闻学泽  龙锋 《地球物理学报》2019,62(12):4604-4619

综合利用区域台站和流动台站(近台)的记录,基于初至P震相重新测定了2017年九寨沟序列M_S7.0主震和M_L≥3.0余震的震源位置,并利用较高精度的定位结果分析余震分布与地震构造的关系,解释发震断裂带的结构.获得的新认识有:(1)九寨沟主震震源深度为16km,位于余震带中段的南缘;余震主要分布深度为4～17km.(2)沿余震带的走向,余震分布与主震同震位错大小的分布明显相关.余震带中段8～16km深度存在的余震稀疏区与同震位错的高值区相吻合,应是发震断裂带主凹凸体的部位,也是主震时应变释放较充分的部位;余震带南东段10～18km深度的余震密集区对应了同震位错的亏损区之一,三次M_L≥5.0余震都发生于此;余震带西北段在5～10km之下既缺少余震,又属同震位错的亏损区,可能与那里多条断裂的交汇或合并造成的构造复杂性有关;余震带中-北西段3～5km深度的也缺少余震,也对应了浅部的同震位错亏损区.(3)证实了九寨沟地震的发震构造为虎牙断裂带北段,同时新揭示出发震断裂带表现为由主断裂和分支断裂构成的、向上分叉的花状结构,尺度约为4.5km宽(最大)、35km长,主断裂朝SW陡倾.这些反映主震破裂可能不只受控于单一的断裂,而有可能是沿主断裂发生主破裂,而沿分支断裂发生次要破裂.另外,本文对发震断裂带结构的分段解释,是遵循构造地质学原理去综合震源排列、震源机制解、地表断层已知位置、相邻剖面断层解释结果等信息的分析结果,而不仅仅依据余震的密集分布进行推断.  相似文献   

利用断裂带首波分析甘孜—玉树断裂带拉张盆地结构特征   总被引：1，自引：0，他引：1       下载免费PDF全文

杨微  王宝善  彭志刚  田晓峰  袁松湧 《地球物理学报》2020,63(3):1197-1213

对断裂带及附近区域地层精细结构的描述是理解地震孕育和发生过程的基础.不同板块或块体边界在构造或区域应力作用下,常常会形成速度间断面和低速的断裂带,间断面和低速带的存在会产生特殊的断裂带地震波,比如断裂带首波和围陷波,并会影响地震的物理过程、破裂速度和破裂方向等.本文主要利用2010年4月14日M_W6.9玉树地震后布设的流动地震台站,对沿着甘孜—玉树断裂带传播的断裂带首波进行识别和分析.分析结果表明,在甘孜—玉树断裂带的不同区域均观测到了断裂带首波,在西段的结隆拉张盆地附近的3个台站沿断裂带界面的平均纵波速度差异值在5%～8%,而其他区域的平均速度差异为1%～3%.通过台站位置分布和断裂带首波特征关系,初步分析了断裂带拉张盆地的结构,结果显示结隆盆地的长度为～40km,宽度为5.35～5.97km,深度不超过5km,在地表浅层形成了一个低速区,分别与巴颜喀拉块体(NE)和羌塘块体(SW)产生了两个物性差异界面,但没有延伸到主震和余震区震源深度.我们的结果表明结合密集台阵资料,通过断裂带首波特征分析可以为断裂带精细结构及几何特征提供一种新的技术方法和途径.  相似文献   

2017年九寨沟7.0级地震断层破裂尺度初步研究     

沙海军  吕悦军  黄帅 《震灾防御技术》2018,13(4):921-930

本文利用2017年九寨沟7.0级地震的余震序列数据，结合震源机制解确定的地震断层面，研究了地震断层的破裂尺度。基于余震序列在断层面上的投影，分析直接余震和间接余震以及不同起始震级条件下余震区的长度和震源深度分布，估算了地震断层破裂面的破裂长度和破裂深度，并探讨了地震断层破裂对地震烈度分布的影响。研究结果显示，九寨沟7.0级地震断层的破裂长度约33—35km，破裂深度约23—26km；地震断层破裂对Ⅷ度区分布有明显的控制作用，地震断层破裂长度接近Ⅷ度区的长度。  相似文献   

2008年汶川地震震源区东北端局部形变区与青川M_S6.4强余震关系          下载免费PDF全文

倪四道  周勇  钱韵衣  罗新宇  王向腾 《地震学报》2018,40(3):268-278

2008年汶川地震之后，通过InSAR观测到青川县木鱼镇附近存在一个长约为15 km、宽约为10 km、地表位移数十厘米的局部形变区。前人分析认为，该形变区是由M_S6.4的青川强余震造成的，但拟合地表形变数据所采用的震源深度和震源机制解与地震学反演的结果具有较大差异。本文利用远震体波和瑞雷波振幅谱进一步测定了青川强余震的震源深度和震源机制解，计算了此次事件造成的地表位移场，认为青川强余震并非造成木鱼镇地区局部形变的直接原因，并讨论该局部形变区可能的成因。   相似文献   

The Lemnos 8 January 2013 (M w = 5.7) earthquake: fault slip,aftershock properties and static stress transfer modeling in the north Aegean Sea     

Athanassios Ganas  Zafeiria Roumelioti  Vassilios Karastathis  Konstantinos Chousianitis  Alexandra Moshou  Evangelos Mouzakiotis 《Journal of Seismology》2014,18(3):433-455

We investigate mainshock slip distribution and aftershock activity of the 8 January 2013 M _w?=?5.7 Lemnos earthquake, north Aegean Sea. We analyse the seismic waveforms to better understand the spatio-temporal characteristics of earthquake rupture within the seismogenic layer of the crust. Peak slip values range from 50 to 64 cm and mean slip values range from 10 to 12 cm. The slip patches of the event extend over an area of dimensions 16?×?16 km². We also relocate aftershock catalog locations to image seismic fault dimensions and test earthquake transfer models. The relocated events allowed us to identify the active faults in this area of the north Aegean Sea by locating two, NE–SW linear patterns of aftershocks. The aftershock distribution of the mainshock event clearly reveals a NE–SW striking fault about 40 km offshore Lemnos Island that extends from 2 km up to a depth of 14 km. After the mainshock most of the seismic activity migrated to the east and to the north of the hypocenter due to (a) rupture directivity towards the NE and (b) Coulomb stress transfer. A stress inversion analysis based on 14 focal mechanisms of aftershocks showed that the maximum horizontal stress is compressional at N84°E. The static stress transfer analysis for all post-1943 major events in the North Aegean shows no evidence for triggering of the 2013 event. We suggest that the 2013 event occurred due to tectonic loading of the North Aegean crust.  相似文献   

汶川8.0级地震序列及震型判定   总被引：5，自引：0，他引：5  

程万正  阮祥  张致伟 《地震》2009,29(1):15-25

研究了2008年5月12日四川省汶川8.0级地震余震序列, 其特点是: 余震序列丰富, 持续时间长。 余震沿NE向龙门山构造带的中央断裂条形展布, 深度横剖面为锲形, 呈现地块间强烈汇聚、 挤压活动的特点。 跨不同断裂段, 余震震源机制解有逆冲、 斜滑或走滑型, 反映的局部构造应力场复杂。 汶川8.0级地震序列为主震-余震型, 文中给出了其判定的主要依据及分析预测结果。  相似文献   

2014年2月12日新疆于田M_S7.3级地震主震及余震序列重定位研究          下载免费PDF全文

张广伟  雷建设  孙长青 《地球物理学报》2014,57(3):1012-1020

本研究采用基于贝叶斯理论的绝对定位方法对2014年2月12日新疆于田M_S7.3级地震进行绝对定位,得到震中位置为82.56°E、36.04°N、震源深度为12.3 km;采用双差定位法对254个地震序列进行相对定位,得到101个重定位事件.结果显示,主震位于阿尔金断裂带西南端多个分支断裂的交汇处.余震震源主要分布范围在5~10 km深度之间,主震处余震代表的断层面较为陡立,且余震序列呈现出明显的西南向纯单侧扩展模式.沿阿尔金断裂带主震的北东向民丰震区本次地震后显示一个明显的地震丛集,说明本次主震对该震区具有触发作用.  相似文献   

2007年宁洱6.4级地震序列精定位     

卢显  周龙泉 《中国地震研究》2012,26(2):160-167

Five mobile digital seismic stations were set up by the Earthquake Administration of Yunnan Province near the epicenter of the main shock after the Ning’er M6.4 earthquake on June 3, 2007. In this paper, the aftershock sequence of the Ning’er M6.4 earthquake is relocated by using the double difference earthquake location method. The data is from the 5 mobile digital seismic stations and the permanent Simao seismic station. The results show that the length of the aftershock sequence is 40km and the width is 30km, concentrated obviously at the lateral displacement area between the Pu’er fault and the NNE-trending faults, with the majority occurring on the Pu’er fault around the main shock. The depths of aftershocks are from 2km to 12km, and the predominant distribution is in the depth of 8～10km. The mean depth is 7.9km. The seismic fault dips to the northwest revealed from the profile parallel to this aftershock sequence, which is identical to the dip of the secondary fault of the NE-trending Menglian-Mojiang fault in the earthquake area. There are more earthquakes concentrated in the northwest segment than in the southeast segment, which is perhaps related to the underground medium and faults. The depth profile of the earthquake sequence shows that the relocated earthquakes are mainly located near the Pu’er fault and the seismic faults dip to the southwest, consistent with the dip of the west branch of the Pu’er fault. In all, the fault strike revealed by earthquake relocations matches well with the strike in the focal mechanism solutions. The main shock is in the top of the aftershock sequence and the aftershocks are symmetrically distributed, showing that faulting was complete in both the NE and SW directions.  相似文献   

Modeling of the strong ground motion of 25th April 2015 Nepal earthquake using modified semi-empirical technique     

Sohan Lal  A. Joshi  Sandeep  Monu Tomer  Parveen Kumar  Chun-Hsiang Kuo  Che-Min Lin  Kuo-Liang Wen  M. L. Sharma 《Acta Geophysica》2018,66(4):461-477

On 25th April, 2015 a hazardous earthquake of moment magnitude 7.9 occurred in Nepal. Accelerographs were used to record the Nepal earthquake which is installed in the Kumaon region in the Himalayan state of Uttrakhand. The distance of the recorded stations in the Kumaon region from the epicenter of the earthquake is about 420–515 km. Modified semi-empirical technique of modeling finite faults has been used in this paper to simulate strong earthquake at these stations. Source parameters of the Nepal aftershock have been also calculated using the Brune model in the present study which are used in the modeling of the Nepal main shock. The obtained value of the seismic moment and stress drop is 8.26 × 10²⁵ dyn cm and 10.48 bar, respectively, for the aftershock from the Brune model .The simulated earthquake time series were compared with the observed records of the earthquake. The comparison of full waveform and its response spectra has been made to finalize the rupture parameters and its location. The rupture of the earthquake was propagated in the NE–SW direction from the hypocenter with the rupture velocity 3.0 km/s from a distance of 80 km from Kathmandu in NW direction at a depth of 12 km as per compared results.  相似文献   

2014年新疆于田M_S7.3地震序列重定位及其发震构造初步研究          下载免费PDF全文

唐明帅  王海涛  李艳永  热依木江  孔祥艳  魏芸芸  上官文明  魏斌 《地球物理学报》2016,59(6):2126-2137

2014年2月12日在新疆于田县发生了M_S7.3地震,主震前一天在震区发生了M_S5.4前震,震后余震活动频繁,由于震区台站十分稀疏和不均匀、地壳速度结构复杂,台网常规定位结果精度有限,很难从中获得序列的空间分布特征和活动趋势的正确认识.本文首先利用位于震区附近的于田地震台5年记录的远震波形数据,采用接收函数方法研究了震区附近的地壳结构,建立了震源区的地壳速度模型.在此基础上,联合震相到时和方位角对2014年于田M_S7.3地震序列(从2014年02月11日-2014年04月30日,共计577次地震)进行了重新绝对定位.结果显示,(1) 重定位后的前震和主震震中位置明显向地表破裂带及其附近的阿尔金分支断裂(南肖尔库勒断裂和阿什库勒-肖尔库勒断裂)靠近,两者相距5.4 km,主震位置为36.076°N、82.576°E,震源深度为22 km, 前震位置为36.055°N、82.522°E,震源深度为19 km;(2) 本文重定位结果显示,余震序列沿NEE-SWW展布,优势分布长度约73 km、宽度约16 km,平均震源深度为14.8 km,其中77%的余震分布在地表破裂带的西南端,这部分余震中少数沿阿什库勒-肖尔库勒断裂分布,绝大多数沿北东东向的南肖尔库勒断裂分布,位于地表破裂带东北端的余震沿阿什库勒-肖尔库勒断裂分布,但发生在地表破裂带的余震极少;重定位后,位于地表破裂带西南侧的震中分布由台网目录的近南北向变为北东向,与地表破裂带、南肖尔库勒断裂和阿什库勒-肖尔库勒断裂走向一致;(3) 沿重定位剖面的地震分布,可推断位于地表破裂带西南段的南肖尔库勒断裂与位于北东段的阿什库勒-肖尔库勒断裂倾向反向,南肖尔库勒断裂的倾向为SE,阿什库勒-肖尔库勒断裂的倾向为NW,这与本次地震野外考察得到的断裂性质一致.综合重定位结果、地表破裂带分布、震源机制解、南肖尔库勒断裂和阿什库勒-肖尔库勒断裂的性质认为,2014年于田M_S7.3地震的发震构造为阿尔金断裂西南尾段的两条分支断裂——南肖尔库勒断裂和阿什库勒-肖尔库勒断裂.  相似文献