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利用来源于江西区域台网和中国地震台网共6个台的宽频带数字地震记录,采用CAP方法反演了2005年11月26日九江—瑞昌5.7级地震和4.8级强余震的震源机制解,并结合地震序列的精确定位结果和区域地质背景讨论了发震构造.结果显示,5.7级主震的最佳双力偶解为节面Ⅰ走向223°,倾角75°,滑动角144°;节面Ⅱ走向324°,倾角55°,滑动角18°.4.8级强余震的最佳双力偶解为节面Ⅰ走向54°,倾角71°,滑动角-160°;节面Ⅱ走向317°,倾角71°,滑动角-20°,这两次地震的震源机制解不完全一致.地震序列在震中空间分布和震源深度分布上也具有复杂性.5.7级主震发生后,余震活动从SE向NW、从浅部往深部发展,在破裂过程中可能遇到障碍体,触发了4.8级强余震.5.7级主震的发震构造可能为隐伏在瑞昌盆地内的洋鸡山—武山—通江岭NW向断裂,4.8级强余震的发震构造可能为瑞昌盆地西北缘的丁家山—桂林桥—武宁NE向断裂北段. 相似文献
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利用CAP方法反演了2010年6月5日阳曲MS4.6地震震源机制解,得到震级MW为4.5,节面I走向213°、倾角47°、滑动角-161°,节面II走向109°,倾角76°,滑动角-44°,属于倾滑型;精确定位显示震中处于石岭关隆起区,CAP反演和精定位结果推断本次地震的震源深度为17~20km。震源机制解节面参数与震中附近的山根底断裂和系舟山西麓断裂产状存在差异,这两条断裂不是阳曲地震的发震断裂,由于现场野外地质考察未发现地表断裂,不排除本次地震为隐伏断层活动的结果。 相似文献
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1989年大同—阳高地震的地质环境与地震构造 总被引:6,自引:1,他引:6
1989年10月18日的大同—阳高地震发生于大同盆地的册田凹陷。册田凹陷走向北东东,其南缘的六棱山断裂为凹陷的主干断裂,是这次地震的控震断裂。该凹陷内发育北东向和北西向两组断裂,其中大王村断裂和团堡断裂规模最大。这两条断裂大部份隐伏于新生代沉积层之下。电法勘探、钻探、泉的分布及地貌现象均显示其展布位置。在北东东向区域压应力场的作用下,这两条断裂成为此次地震的发震断层。震源机制解结果和烈度分布特点支持上述结论。 相似文献
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2000年1月15日姚安6.5级地震的震源断层与震源应力场 总被引:8,自引:1,他引:8
用姚安地震序列前震、主震和余震的 78个震源机制解 ,分析了序列震源断层和震源应力场特征。结果表明 ,姚安地震序列的主破裂面是走向N5 0°W、倾角陡立的构造断裂 ,主震、前震和绝大多数余震都发生在主破裂面上。此外 ,NNE NE向构造断裂在序列发展过程中也参与了活动。序列震源应力场以SSE方位、接近水平的主压应力为主 ,与区域构造应力场一致。在序列发展中 ,震源区应力场出现多方位和多作用方式共存的复杂状态 ,震源破裂出现多方向和多表现形式的复杂性特征 相似文献
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利用四川省地震台网的震相数据和双差定位方法对芦山MS7.0级地震及其余震序列进行了精确定位,根据余震分布确定了发震断层的位置和断层面的几何特征,并对余震活动进行了分析.结果显示,芦山MS7.0级地震的震中位于30.28°N、102.99°E,震源深度为16.33 km.余震沿发震断层向主震两侧延伸,主要分布在长约32 km、宽约15~20 km、深度为5~24 km的范围内.地震破裂带朝西南方向扩展范围较大,东北方向略小,余震震级随时间迅速衰减.震源深度剖面清晰地显示出发震断层的逆冲破裂特征,推测发震断层为大川—双石断裂东侧约10 km的隐伏断层.该断层走向217°、倾向北西,倾角约45°,产状与大川—双石断裂相比略缓,它们同属龙门山前山断裂带的叠瓦状逆冲断层系.受发震断裂影响,部分余震沿大川—双石断裂分布,西北方向的余震延伸至宝兴杂岩体的东南缘,与汶川地震的破裂带之间存在50 km左右的地震空区,有可能成为未来发生强震的潜在危险区. 相似文献
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1999年山西大同Ms 5.6地震的震源断层 总被引:9,自引:0,他引:9
大同震区先后在 1989、1991和 1999年发生MS >5地震 ,利用大同遥测地震台网的记录资料进行比较精确的地震序列震源定位 ,结合宏观烈度分布和震源机制解资料 ,详细地分析对比了 3次子序列的异同。结果显示 ,1999年MS5 .6地震的震源断层是走向NWW、长 16km、宽12km、埋深 5km以下、倾角近直立的左旋走滑断层。而前 2个子序列是NNE为主的右旋走滑断层活动所致 ,表明地震破裂方向发生了变化。这种 2个以上方向先后出现、并且强弱有别的地震破裂是普遍存在的 ,表明震源环境的复杂程度与地震序列的类型有关。虽然震区存在NE向的大王村断裂和NW向的团堡断裂 ,但目前没有证据说明震源断层和 2条构造断层连通。 3次子序列的震源断层都是走滑断层 ,也和 2条构造正断层有别。 1999年的子序列可能属于新破裂。 相似文献
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地震断裂带形状是活动构造和地球动力学的重要资料。2021年发生的玛多地震序列提供了丰富的震源机制资料,为统计震源机制节面并估计玛多地震发震断层面形状提供了很好机会。文章对地震的震源机制资料进行基于密度的聚类来确定断层的几何形态。首先对收集到的玛多地震序列的震源机制解进行中心解求解,从而获得更为精准的数据,然后对其进行DBSCAN方法的聚类分析,得到断层的走向为113.5°,倾角为88.2°,通过震源机制反演应力场,并将应力场投影到断层上,得到断裂带的相对剪应力和相对正应力分别为0.84和-0.79,剪应力强度较大,滑动角为-0.72°。结果表明玛多地震是发震断裂受NE-SW的挤压和NW-SE的拉张,形成了较大的剪切力,从而促使近东西的江错断裂发生左旋走滑错动所致。 相似文献
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搜集了四川地震台网的波形资料,采用全波形反演2017年8月8日九寨沟M7.0地震序列震源机制解.反演结果显示,九寨沟主震矩震级为MW6.36,震源深度为22 km,节面I走向为150°,倾角为80°,滑动角为-20°;节面Ⅱ走向为244°,倾角为70°,滑动角为-169°.余震主要分布在14~22 km深度范围内,震源机制以走滑型为主,其中正断型地震2个,逆冲型地震2个,走滑型地震24个,混合型地震8个.断层面优势方向为SSE向,与塔藏断裂和虎牙断裂走向基本一致,但与塔藏断裂最南段存在明显差异.倾角变化集中在60°~80°,滑动角主要分布在0°附近,表明九寨沟地震序列主要受SSE走向、近似直立的左旋走滑断层控制.P轴优势方位为SEE向,仰角主要分布在30°以内,与区域应力场基本一致.震源区的机制类型和应力状态均存在空间分段差异.本文推测此次九寨沟M7.0地震序列可能发生在虎牙断裂向北延伸的隐伏断裂上,但不排除地震引起了塔藏断裂南段和虎牙断裂以北隐伏断裂同时破裂的可能. 相似文献
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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
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对2013年4月20日芦山MS7.0地震主震震中周边29个地震台记录到的震后一年多的微、 小余震,利用Hypo71绝对定位方法进行定位,获得了约1960次地震的震源位置. 结果显示,芦山地震余震在平面上主要沿双石—大川分支断裂及其周边分布,在垂向上主要集中在大约5—20 km深度之间的两条余震交叉带上. 其中一条余震带倾向NW,倾角在12 km左右深度发生变化,浅部倾角较陡,该余震带延伸至地表与双石—大川分支断裂和新开店断裂之间的推测隐伏断裂位置相重合; 另一条余震带倾向SE,其延伸至地表的位置与双石—大川断裂非常接近,但与该断裂倾向相反. 主震震源位置与两条余震带相交的位置接近,且芦山地震主震的两个节面产状与这两条余震带的深部几何形态正好对应, 表明芦山地震主震可能是两条余震带所对应的两条断裂同时活动的结果. 相似文献
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Following the theory and definition of the Corioli force in physics, the Corioli force at the site of the M=8.1 Kunlun Mountain Pass earthquake on November 14, 2001, is examined in this paper on the basis of a statistical research on relationship between the Corioli force effect and the maximum aftershock magnitude of 20 earthquakes with M≥7.5 in Chinese mainland, and then the variation tendency of aftershock activity of the M=8.1 earthquake is discussed. The result shows: a) Analyzing the Corioli force effect is an effective method to predict maximum aftershock magnitude of large earthquakes in Chinese mainland. For the sinistral slip fault and the reverse fault with its hanging wall moving toward the right side of the cross-focus meridian plane, their Corioli force pulls the two fault walls apart, decreasing frictional resistance on fault plane during the fault movement and releasing elastic energy of the mainshock fully, so the maximum magnitude of aftershocks would be low. For the dextral slip fault, its Corioli force presses the two walls against each other and increases the frictional resistance on fault plane, prohibiting energy release of the mainshock, so the maximum magnitude of aftershocks would be high. b) The fault of the M=8.1 Kunlun Mountain earthquake on Nov. 14, 2001 is essentially a sinistral strike-slip fault, and the Corioli force pulled the two fault walls apart. Magnitude of the induced stress is about 0.06 MPa. After a comparison analysis, we suggest that the aftershock activity level will not be high in the late period of this earthquake sequence, and the maximum magnitude of the whole aftershocks sequence is estimated to be about 6.0. 相似文献
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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
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Introduction An M=8.1 earthquake occurred to the west of the Kunlun Mountain Pass on November 14, 2001 (Kunlun Mountain earthquake for short). It is the largest earthquake during the latest 50 years in Chinese mainland since the 1951 Dangxiong, Tibet M=8.0 earthquake, and it broke the status that there had not occurred any M7.0 earthquake during the subsequent 4 years since the 1997 Mani, Tibet M=7.5 earthquake. Hereafter, the preparation and evolution process of large earthquakes, the v… 相似文献
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地震序列的特征和震型判定工作有助于抗震救灾工作的开展,对其发生成因的研究是解决地震预报难题必须面对的科学问题。汶川8.0级地震序列的初步研究表明:①余震沿龙门山断裂带分布于宽100km,长约330km的带状区域内,并侧向于主震震中的北侧;②序列发展初期有2个快速衰减过程;③序列类型为主震一余震型,最大强余震6.4级;④序列的空间演化过程,强余震震源机制结果和地震精确定位结果分析表明,序列具有分段特征;⑤8.0级地震的发震构造是龙门山断裂带,发震构造在剖面上呈现出“犁形”或“铲形”。地球物理勘探和壳、幔结构反演结果表明,自青藏高原穿越龙门山到四川盆地存在地幔阶梯,上地幔阶梯的阻挡作用使得物质东移速率减慢,并蕴积了汶川8.0级地震所需能量。地震的产生正是东西向应力平衡被打破的结果,余震沿龙门山断裂的分布是高原地壳在印度板块的推挤作用下向北北东方向的运动得以继续的表现。整个龙门山断裂带都参与了活动,龙门山断裂带北端作为断裂带的止裂端与南段同期活动。 相似文献
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2014年新疆于田发生MS7.3地震,这一地区6年来连续发生2次强烈地震,震中相距不到110km.由于初始定位误差较大,于田地震的发震断层仍不清楚.本研究的主要目标是利用地震精定位方法对于田地震序列及其背景地震活动进行重新定位,确定于田地震的发震断层.本研究使用双差定位方法对于田地震序列进行重新定位.这一方法假设两个地震的震源距小于事件到台站的距离,两个事件到同一台站的走时差主要归因于其空间位置的偏移,因此可消除由于速度模型不准确引起的定位误差.重定位后得到了435个地震的位置参数.结果表明,2014年于田MS7.3级地震发生在阿尔金断裂带的西端,余震分布的优势方向为北东向,展布长度约33km,震源深度主要集中在4~12km,多数余震位于主震的西南侧.NS,EW和UD方向的定位误差分别为0.5km,1.1km和1.7km.于田地震余震序列总体衰减较慢.根据余震分布特征和震源机制解,认为此次地震的断层面为北东向的节面,阿尔金断裂的西南延伸分支断层是这次地震的主要发震构造.于田地震的发生与巴颜喀拉块体的东南向运动有关. 相似文献
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Based on abundant aftershock sequence data of the Wenchuan MS8.0 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
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根据2016年运城4.4级地震序列资料,进行余震精定位、主震震源机制和发震构造等研究。地震震中分布结果显示,本次地震的发生构造与以往该地区震群型地震发震构造不同,构造单元相对简单,发生在盐湖北岸断裂附近。余震双差精定位结果显示,余震优势分布呈NNE向,NW向也有零星活动。精定位后震源深度集中分布在15-24 km,平均深度20.2 km,断层剖面深度集中分布在18-23 km,倾向NW,与盆地地形构造吻合。采用Snoke与CAP方法得到的震源机制解基本一致,此次序列的主震错断方式为走滑兼逆冲,节面B参数与中条山山前断裂东段走向和倾向接近。综合认为,本次运城地震序列的余震呈NNE向优势分布,精定位结合地震震源机制结果,推断此次地震序列发震断裂为中条山山前断裂的NNE向隐伏断裂。 相似文献