2014年新疆于田M_S7.3地震同震位移及位错反演研究          下载免费PDF全文

梁洪宝  武艳强  陈长云  熊威 《地球物理学报》2018,61(12):4817-4826

利用于田震中300 km范围内的1个GPS连续站和12个GPS流动站数据,解算得到了2014年新疆于田M_S7.3地震地表同震位移,并反演了发震断层滑动分布,探讨此次地震对周边断裂的影响.地表同震位移结果显示,GPS观测到的同震位移范围在平行发震断裂带的北东-南西向约210 km,垂直发震断裂带的北西-南东方向约为120 km,同震位移量大于10 mm的测站位于震中距约120 km以内;同震位移特征整体表现为北东-南西方向的左旋走滑和北西-南东方向的拉张特征,其中在北东-南西方向,I069测站位移最大,约为32.1 mm,在北西-南东方向,XJYT测站位移最大,约为28.1 mm;位错反演结果表明,最大滑动位于北纬36.05°,东经82.60°,位于深部约16.6 km,最大错动量为2.75 m,反演震级为M_W7.0,同震错动呈椭圆形分布,以左旋走滑为主并具有正倾滑分量,两者最大比值约为2.5：1,同震错动延伸至地表,并向北东方向延伸,总破裂长度约50 km,地表最大错动约1.0 m;同震水平位移场模拟结果显示贡嘎错断裂、康西瓦断裂和普鲁断裂等不同位置主应变特征具有差异性,这种差异特征是否影响断裂带以及周围区域的应力构造特征,值得关注.  相似文献   

2001年昆仑山口西8.1级地震同震形变场特征的初步分析a   总被引：16，自引：1，他引：16       下载免费PDF全文

单新建  柳稼航  马超 《地震学报》2004,26(5):474-480

利用差分干涉雷达测量技术获取的宏观震中区的同震形变场，结合对地震活动性、震源机制、野外考察等资料分析，对昆仑山口西8.1级地震同震形变场特征进行了研究. 结果表明:宏观震中位于库赛湖东北侧，宏观震中区发震断层可分为两个形变中心区域，其中西段长约42 km，东段长约48 km，整个发震断层主破裂段长90 km；由干涉形变条纹分布格局可清楚地判断出发震断层的左旋走滑特征；断层两盘变形特征不同，南盘变形程度明显大于北盘；宏观震中附近最大斜距向位移量为288.4 cm，最小斜距向位移量为224.0 cm，宏观震中发震断层最大左旋水平位错为738.1 cm，最小地面左旋水平位错为551.8 cm.   相似文献   

Preliminary analysis on characteristics of coseismic deformation associated with M_S=8.1 western Kunlunshan Pass earthquake in 2001     

单新建  柳稼航  马超 《地震学报(英文版)》2004,17(5)

IntroductionOnNovember14,2001,aMS=8.1earthquakeoccurredonthewestofKunlunshanPassintheborderareaofQinghaiandXinjiang,whichwasthestrongestearthquakeinChinesemainlandsincetheMS=8.0earthquakeoccurredinDangxiongdistrictofXizangAutonomousRegiononNovember18,1951.TheearthquakeoccurredontheEasternKunlunTectonicZone,whichwasapalaeoplatejunctionzoneinsideTibetanPlateau.ItdividedTibetanPlateauintothesouthandnorthparts.ThezoneplayedaveryimportantroleinTibetanPlateausdeformationprocessanddynamicev…  相似文献   

DISTRIBUTION OF 3 EARTHQUAKE RUPTURE ZONES IN ESATERN TIENSHAN AND ITS RELATIONSHIP WITH 2 HISTORICAL EARTHQUAKES          下载免费PDF全文

WU Fu-yao  RAN Yong-kang  CHEN Li-chun  LI An 《地震地质》2016,38(1):77-90

The distribution of earthquake rupture zone plays a very important role in determining location of epicenter and magnitude of historical earthquake. There is still argument about the seismogenic structure of the 1842 M7 Balikun earthquake and the 1914 M7 1/2 Balikun earthquake in the historical records in eastern Tienshan. Through field geological survey, we confirm that there exist 3 rupture zones in Eastern Tienshan. These rupture zones, Tazibulake rupture zone on the Jian Quanzi-Luo Baoquan Fault, north of Shanshan, Xiong Kuer rupture zone on the south Balikun Basin Fault and Yanchi rupture zone on the south Yiwu Basin Fault, are closely related to 2 historical earthquakes. Based on historical literature and current geological evidence analysis, we infer that Xiong Kuer rupture zone was produced by 1842 M7 earthquake and Yanchi rupture zone by 1914 M7 1/2 earthquake, while Tazibukale rupture zone may represent another unrecorded historical event. South Balikun Basin Fault disturbs Quaternary stratigraphy which has a ¹⁴C age of 3110±30 B.P in the south of Balikun County, ~100km to the east of Xiong Kuer rupture zone, therefore we can't preclude the possibility that Xiong Kuer rupture zone extends to the south of Balikun County. This region overlaps with the meizoseismal area based on the literature document, together with the fact that the impact of 1842 earthquake is no less than 1914 earthquake, we believe that the magnitude of 1842 earthquake is no less than that of the 1914 earthquake.  相似文献   

Preliminary analysis on characteristics of coseismic deformation associated with <Emphasis Type="Italic">M</Emphasis><Subscript>S</Subscript>=8.1 western Kunlunshan Pass earthquake in 2001     

Shan Xin-jian  Liu Jia-hang  Ma Chao 《地震科学（英文版）》2004,17(5):526-533

Based on the analysis of coseismic deformation in the macroscopic epicentral region extracted by Differential Interferometric Synthetic Aperture Radar (D-InSAR), and combined with the seismic activity, focal mechanism solutions of the earthquake and field investigation, the characteristic of coseismic deformation of M _S=8.1 western Kunlunshan Pass earthquake in 2001 was researched. The study shows that its epicenter lies in the northeast side of Hoh Sai Hu; and the seismogenic fault in the macroscopic epicentral region can be divided into two central deformation fields: the west and east segments with the lengths of 42 km and 48 km, respectively. The whole fault extends about 90 km. From the distribution of interferometry fringes, the characteristic of sinistral strike slip of seismogenic fault can be identified clearly. The deformations on both sides of the fault are different with an obviously higher value on the south side. In the vicinity of macroscopic epicenter, the maximum displacement in look direction is about 288.4 cm and the minimum is 224.0 cm; the maximum sinistral horizontal dislocation of seismogenic fault near the macroscopic epicenter is 738.1 cm and the minimum is 551.8 cm.  相似文献   

Preliminary analysis on characteristics of coseismic deformation associated with M _S=8.1 western Kunlunshan Pass earthquake in 2001     

Shan Xin-jian  Liu Jia-hang  Ma Chao 《地震学报(英文版)》2004,17(5):526-533

Based on the analysis of coseismic deformation in the macroscopic epicentral region extracted by Differential Interferometric Synthetic Aperture Radar (D-InSAR), and combined with the seismic activity, focal mechanism solutions of the earthquake and field investigation, the characteristic of coseismic deformation of M _S=8.1 western Kunlunshan Pass earthquake in 2001 was researched. The study shows that its epicenter lies in the northeast side of Hoh Sai Hu; and the seismogenic fault in the macroscopic epicentral region can be divided into two central deformation fields: the west and east segments with the lengths of 42 km and 48 km, respectively. The whole fault extends about 90 km. From the distribution of interferometry fringes, the characteristic of sinistral strike slip of seismogenic fault can be identified clearly. The deformations on both sides of the fault are different with an obviously higher value on the south side. In the vicinity of macroscopic epicenter, the maximum displacement in look direction is about 288.4 cm and the minimum is 224.0 cm; the maximum sinistral horizontal dislocation of seismogenic fault near the macroscopic epicenter is 738.1 cm and the minimum is 551.8 cm. Foundation item: National Natural Science Foundation of China (40374013) and “Researching on the Disaster Earthquake” (2003) of Public Welfare Research Item, Ministry of Science and Technology of China.  相似文献   

关于芦山7.0级地震在龙门一带是否存在同震地表破裂的讨论          下载免费PDF全文

雷生学  冉勇康  王虎  陈立春  李西  吴富峣  韩非  刘成龙 《地震地质》2014,36(1):266-274

4.20芦山地震后,有学者在芦山县龙门乡发现一系列的线性裂缝和砖块的旋转变形等"地震地表破裂迹象",由此推测芦山—龙门一线存在隐伏逆断裂,并认为该断裂有可能是此次地震的发震断裂。因此,进一步探讨芦山—龙门一线是否存在潜在的发震断裂,无论是对研究芦山7.0级地震的发震断裂,还是对灾区的重建指导都十分重要。在龙门乡开展了地质灾害调查、跨谷地的地质剖面实测,槽探和人工地震勘探等工作。结果显示:至少在800m深度范围内,不存在芦山-龙门隐伏断裂。此带上的地裂缝等现象不是由断层位错引起,而更可能是地震动在阶地陡坎附近造成的地基或边坡效应所致。  相似文献   

1936年广西灵山M6? 地震参数讨论          下载免费PDF全文

李冰溯  李细光  潘黎黎 《地震学报》2018,40(2):132-142

1936年广西灵山M6? 地震是华南沿海地震带内陆地区有地震记载以来发生的最大地震,由于当时仪器记录缺乏、时代相隔较长且未进行详细的现场调查,对该地震的基本参数尚存争议。本文在概述该地震地表破裂带基本特征的基础上,利用地震地表破裂带长度和最大同震位移等数据重新讨论了该地震的基本参数和发震构造。研究结果表明1936年灵山M6? 地震的宏观震中位于灵山断裂北段与友僚—蕉根坪断裂交会处一带,震级为M6.8左右,震中烈度达Ⅸ度强,罗阳山西北麓的灵山断裂为该地震的发震构造。   相似文献   

2013年4月22日科尔沁左翼后旗M5.3地震的发震构造初探     

刘芳  刁桂苓  韩晓明  张帆  金小溪  冀宝荣 《地震地磁观测与研究》2014,35(5):63-67

2013年4月22日内蒙古通辽市科尔沁左翼后旗、辽宁阜新市彰武县交界发生5.3级地震.研究发现,该地震序列震中分布、震源机制及烈度考察极震区长轴方向均为近东西方向,与横贯震区的养畜牧河断裂走向一致,综合判定该断裂是5.3级地震的发震构造.  相似文献   

对1954年民勤7级地震的初步研究   总被引：2，自引：2，他引：0       下载免费PDF全文

刘洪春  戴华光  李龙海  贾云鸿  杨荣 《地震工程学报》2000,22(3):232-235

较系统地研究了１９５４年民勤７级地震的宏观震中、震区烈度分布及地质构造背景等问题,并圈定了极震区范围,根据调查结果认为,该次地震是由于红崖山－四道山断裂在ＮＥ向或ＮＮＥ向主压应力作用下,发生左旋斜冲向东端扩张破裂的结果,与ＮＮＷ向构造带的复合也有一定的关系。  相似文献   

2022年青海门源6.9级地震引起的地表同震位移场研究          下载免费PDF全文

周卓群  夏晨  李震  戚承志 《地震工程学报》2022,44(3):727-734,743

中国青海省门源县于2022年1月8日发生6.9级地震。依据该地震震源断层信息设置4种不同的位错分布模式,基于Okada提出的地表位移解析解分别计算4种模式下地表同震位移场,结合现场观测数据,探讨发震断层的滑动形式及其对周边地表产生的影响。结果表明,此次地震发震断裂初步判断主要为冷龙岭断裂西侧延伸至托莱山断裂,以左旋走滑断层为主,断层面上最大位错量达到4 m左右;震中西南侧向NE方向运动,东南侧向SE方向运动,西北侧和东北侧分别向NW以及SW方向运动;震中附近小范围区域产生了超过1.5 m的地表水平位移,破裂带上存在竖向地表位移超过0.5 m的区域;现场监测到局部产生最大约2.1～2.3 m的水平位错,以及部分区段垂直位错量最大达到0.7 m;以震中位置为中心,断层引起的地表位移影响范围达到约30 km×36 km,此范围内产生的地表位移大于0.1m。研究为此次地震的震后恢复工作以及此区域后续的工程设防等提供参考。  相似文献   

2013年10月31日吉林前郭M5.8震群研究          下载免费PDF全文

盘晓东  贾若  康建红  刘冰冰 《地震科学进展》2018,(4):80-89

2013年10月31日在吉林省前郭县查干花镇先后发生5.5级和5.0级地震,之后于2013年11月22日、23日又在原地分别发生了5.3级和5.8级、5.0级地震,形成震群活动。震群地震发生在东北断块区松辽断陷带中央坳陷区内,极震区长轴呈北东向展布。本次震群序列共记录1 356次地震,包括5次5级以上地震,记录到完整的地震序列。余震呈NW向密集条带状分布,震群震源断错性质为带有走滑分量的逆冲型错动,综合分析认为,前郭震群地震可能受北东向扶余—肇东断裂和北西向查干泡—道字井断裂控制,其破裂面为北西向,发震构造可能是震源区基底深部一条NW向隐伏逆冲断裂（查干泡—道字井断裂）。前郭5.8级震群在震前出现一部分测震学异常,而前兆异常更丰富,表现为由外围向震中区逐渐逼近,地震发生后前兆异常又表现出由震中区向外围扩散的特征;在时间上,先是从2010年以来出现以破年变为特征的中期趋势异常,逐渐由趋势异常向短期异常再向临震异常演化,临震异常主要以加速转折下降为主。   相似文献   

对143年甘谷西7级地震史料的新见解   总被引：9，自引：0，他引：9       下载免费PDF全文

袁道阳  雷中生  葛伟鹏  刘兴旺  刘百篪  张俊玲 《地震工程学报》2007,29(1):58-63

根据地震历史资料的考证分析,143年甘谷西地震可能由2次地震组成,其中陇西、汉阳(今甘谷)、武都三郡地震有感区为一次地震,称为南区;张掖、武威、北地(今吴忠)三郡地震有感区为另一次主震,称为北区。南区地震震中大致位于甘谷西,与原定震中位置大体相当,仍称为甘谷西地震,震级达714级左右,震中烈度约Ⅸ~Ⅹ度,发震构造为西秦岭北缘断裂带中段;北区的143年地震震中位于武威以东的腾格里沙漠边缘,震级达712级左右,震中烈度约Ⅹ度,推测其发震构造为祁连山-河西走廊活动断裂系东端的主干活动断裂之一。  相似文献   

GPS测定的四川九寨沟M_W6.6地震同震形变          下载免费PDF全文

王东振  赵斌  李琦  余建胜  祁玉杰  鲁小飞  谭凯 《地震工程学报》2018,40(4):778-784

2017年8月8日四川阿坝州九寨沟发生M_W6.6地震,震源机制解显示该地震为左旋走滑型地震。对震中周围的GPS连续站观测资料进行处理,获得高频GPS动态形变和静态同震水平位移。震中100km范围内四川松潘和甘肃武都站观测到1 Hz动态形变。距离震中约69km的松潘站观测的同震水平位移为7.4mm。根据少量的GPS静态同震位移反演的同震破裂模型显示本次地震的最大滑动量为376mm,地震矩为7.25×1018 N·m,等效矩震级为M_W6.6。正演计算的同震三维形变场显示本次地震的最大水平位移可达4~5cm,垂直位移呈四象限分布,最大可达1.5cm,区域内10个流动GPS站可观测到同震形变。  相似文献   

范家坝-临江断裂活动与1879年甘肃武都南8级地震的讨论   总被引：3，自引：1，他引：2       下载免费PDF全文

冯希杰  董星宏  刘春  李晋 《地震地质》2005,27(1):155-163

1879年甘肃武都南 8级地震发震断裂的确认是一个未决的问题。文中通过卫星影像解译、史料记载分析,认为沿文县东北水坑山北麓NEE向的范家坝 -临江断裂可能分布有该次地震的地表破裂带,因而,这一条断裂可能是该次地震的发震断裂。由此,可在发震断裂的产状变化、活动方式、地表破裂带长度、水平位错量大小及沿断裂的分布、断裂的区域归属、宏观震中位置、可能震级大小、震害分布等诸多方面取得一致  相似文献   

Co-seismic ground deformation and source parameters of Mani M7.9 earthquake inferred from spaceborne D-InSAR observation data   总被引：4，自引：0，他引：4  

SHAN Xinjian  MA Jin  WANG Changlin  LIU Jiahang  SONG Xiaoyu & ZHANG Guifang .Institute of Geology  Laboratory of Tectonophysics  China Seismological Bureau  Beijing  China  .Institute of Remote Sensing Application  Chinese Academy of Sciences  Beijing  China 《中国科学D辑(英文版)》2004,47(6):481-488

In recent ten years, Differential Interferometric Synthetic Aperture Radar (D-InSAR) has become a major technique of space-based geodesy together with GPS, VLBI and SLR. Interferometric Synthetic Aper-ture Radar (InSAR) has many advantages, such as all-weather, all-time, strong stability and dynamic survey property, and no requirements for ground sta-tions. In particular, the surveying results by InSAR can cover a large range of the ground deformation field in succession and has gr…  相似文献   

1879年武都南8级地震新资料的发现与应用     

蔡副全 《地震工程学报》2013,35(2):311-320

公元1879年7月1日(清光绪五年五月十二日)凌晨,在陇南武都、文县之间发生了8级强震.因震区地质构造复杂、交通不便,缺少历史资料的系统收集和整理,至今仍存在对本次大震认识的模糊之处.笔者近年来利用地缘之便收集了20余条与该次地震相关的碑刻、题记史料.通过比较分析,认为该次地震的宏观震中大约在洋汤河流域的桥头、屯寨(今天池乡),极震区则要延展到四川九寨沟县郭元乡、武都两水镇及石门乡等地.  相似文献   

2021年云南漾濞M_S6.4地震序列静态应力触发研究          下载免费PDF全文

许鑫  万永革  李振月  崔华伟  冯淦  李枭 《地震工程学报》2022,44(4):970-979

为深度剖析2021年云南漾濞M_S6.4地震对周围断层的影响以及地震序列间的静态库仑应力影响关系,文章基于主震的破裂模型和Okada给出位移对空间偏导数的解析式,首先计算了主震在周围断层上产生的静态库仑破裂应力,结果表明维西—乔后断裂带中段、澜沧江断裂带北端、红河断裂带北端以及怒江断裂带中段库仑应力均有千帕量级的增加。其次,计算了此次地震对周围地区产生的水平应力场及位移场,发现震中东西两侧物质向外流出,南北两侧向震中汇聚;震中南北两侧沉降,东西两侧隆升;产生的应力场呈EW向挤压,NS向拉张,在一定程度上抵消了该区域背景构造应力场。最后计算了前震-主震-余震序列间的静态库仑应力影响,结果表明前震产生的静态库仑应力促进了主震的发生;在2 km、13 km和18.5 km深度附近,触发的余震(前震和主震产生的库仑应力变化为正)比例很高,但在7 km深度处(同震破裂模型中滑移量最大)大部分余震分布在库仑应力负值区(应力影区),考虑到该深度余震与主震震源机制相差较大,因此通过模拟最易错动的断层面作为余震接受断层面,从而计算出最大静态库仑破裂应力,发现应力影区的余震仍有被触发的...  相似文献   

Co-Seismic Groundwater Level Changes Induced by the May 12, 2008 Wenchuan Earthquake in the Near Field     

Zheming Shi  Guangcai Wang  Chenglong Liu 《Pure and Applied Geophysics》2013,170(11):1773-1783

The large scales of co-seismic water level changes in mainland China were observed in response to the tragic 2008 Ms 8.0 Wenchuan earthquake. To better understand the mechanism of these hydrogeological phenomena, groundwater-level data at 17 confined wells, with an epicentral distance of <500 km, were collected. We compare the static strain predicted by dislocation theory with the volumetric strain calculated by the tide effect of the groundwater based on poroelastic theory. The results show that the sign of the co-seismic groundwater level change is consistent with the sign predicted by dislocation theory. Additionally, the magnitude of the strain calculated by the two methods is also concordant in half of the wells. In the rest of the wells, the strains inversed from the groundwater level are one or two orders of magnitude larger than the fault dislocation model. These wells mostly have an epicenter distance larger than 300 km; therefore, the dynamic stress induced by the seismic wave may be responsible for the co-seismic water level changes in these wells. According to these results, we roughly estimate that the effect range of the static stress is approximately 300 km for the Wenchuan earthquake, and the dynamic stresses dominate beyond this epicenter distance. In addition, geological and hydrogeological conditions and other mechanisms may be responsible for these changes.  相似文献   

2015年尼泊尔M_S8.1地震的地壳重力均衡背景与地表形变响应特征          下载免费PDF全文

付广裕  高尚华  张国庆  佘雅文  孙和平 《地球物理学报》2015,58(6):1900-1908

对2015年尼泊尔MS8.1地震的地壳均衡背景及其引起的地表形变特征进行了研究,结果表明:(1)尼泊尔MS8.1地震震中以南的印度板块岩石圈有效弹性厚度大约为9km,加载主要来自地幔;地震以北的拉萨地块岩石圈有效弹性厚度大约为2km,加载主要来自地表.(2)尼泊尔MS8.1地震震中以南地区的地壳均衡异常大约为-100mGal(10-5 m·s-2),但其北部的地壳均衡异常则为300~400mGal,尼泊尔MS8.1地震发生在地壳均衡负异常向正异常过渡的高梯度带上.(3)尼泊尔MS8.1地震使震中周围地区的地壳整体向南运动,最大水平位移超过1.5m,分布在震中东南.震中以北的同震垂向位移总体为负值,最大下降幅度超过0.5m,同震重力变化总体为正值,最大超过60μGal(10-8 m·s-2);震中以南的垂向位移总体为正值,最大升幅超过0.7m,同震重力变化总体为负值,最大降幅超过-120μGal.(4)尼泊尔MS8.1地震使"世界屋脊"喜马拉雅山脉产生沉降,最大同震降幅超过120mm,震后松弛效应将使"世界屋脊"持续缓慢下降.该强震使世界最高峰珠穆朗玛峰降低了2~3mm,有可能被GPS、InSAR等现代大地测量工具检测到.  相似文献