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当外力的合力不通过活动地块的质量中心时,该地块将产生旋扭运动,运动的结果在其周边形成旋卷构造应力场.在该应力场作用下,与主应力作用面方向一致的断裂将由作用面的力学性质决定其活动方式.与主张应力作用面一致的断裂将产生张破裂,长期作用下将形成断陷盆地;与主压应力作用面一致的断裂将产生逆冲或逆掩活动,或形成褶皱.地质资料表明,长期稳定的华北地块在早第三纪初期解体,其中晋冀陕地块发生过逆时针转动,形成其周缘断陷系;上新世时晋冀陕地块解体,地块东边界西移,出现山西地堑系,形成鄂尔多斯地块.晋冀陕地块周缘的一些主要断裂的构造形迹及力学性质可用旋转构造应力场的主应力作用面解释. 相似文献
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Introduction The present Bohai Sea is a half-closed shallow one in the continent, located at the northeast to North China, with an area about 7.3104 km2. Geologically, it is situated in the northern North China basin and of a short development history. Previous studies (WANG, LI, 1983; Institute of Oceanology, Chinese Academy of Sciences, 1985; HUANG, et al, 1993) show that the Fu-jian-Lingnan uplift in the East China Sea continental shelf sank gradually into the oceanic bottom, mak… 相似文献
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求解鹤岗强矿震震源机制解结果,表现出走滑伴随逆断层和正断层活动、非双力偶型的多样性。两组节面优势分布方向和节面的倾角优势分布不显著,两者分布无明显规律,反映出矿井下破裂面比较复杂。矿震震源主压应力释放优势方向北西310°左右,优势倾角为25°~60°;主张应力轴走向NE,主张应力场优势方向为北东60°左右,仰角在30~70°之间;中等应力轴(N)近于垂直,优势倾角为70~90°。矿震震源机制解显示的矿区最大主应力方向与区域构造应力场的最大主应力方向近似正交,矿震震源机制主应力轴优势倾角远大于区域构造地震,反映的是矿区采煤生产的次生构造应力环境重力应力场的贡献明显。 相似文献
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甘肃北山地区晚第四纪构造变形特征及演化趋势 总被引:1,自引:0,他引:1
通过对甘肃北山地区ETM影像的细致分析和初步野外考察,对北山地区晚第四纪以来断裂活动时代和运动性质进行了研究。结合附近地区天山构造带、青藏高原北部边缘断裂的演化过程和区域构造应力场状态,对北山地区晚第四纪以来变形机制和演化趋势进行了研究。认为北山地区现今构造格局是在印度板块与欧亚板块相碰撞形成的北东向挤压构造应力场的作用下,重新激活东西向的晚古生代、中生代断裂,并产生北东向新生断裂而形成。晚第四纪以来,北山地区构造变形以南北向缩短为主,伴随有东西向伸展。随着印度板块的向北运移,北山地区的构造变形将进一步增强,即南北向缩短和东西向的扩展将进一步增强。 相似文献
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福建街面水库将于2006年底下闸蓄水,通过收集库区的地震震源机制解资料和本次工作得到的地震震源机制解结果,以及利用中小地震求解的综合震源机制解,本文分析了街面水库库区现代构造应力场特征:最大主压应力P轴为NW—SE方向,P轴倾角为23°;主张应力T轴为NE—SW方向,T轴倾角为3°。在这样的应力场中,主要以发生走滑型断裂运动性质的地震为主,同时还具有发生正断层运动性质的地震。 相似文献
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Using the 78 focal mechanism solutions of the fore shocks, main shock and after shocks of the earthquake sequence for the Yao'an earthquake, the characteristics of the focal faults and stress field for the earthquake sequence are analyzed. The results show that the main rupture plane of the Yao'an earthquake sequence is a tectonic fault with N50°W strike and steep dip and all the main shock, the fore shocks and the vast majority of after shocks occurred on the main rupture plane. A tectonic fracture with NNE-NE strike also participated in development process of the sequence. The focal stress field of the sequence dominated by principal compressional stress with nearly horizontal orientation SSE is consistent with the regional tectonic stress field. In the sequence development, the stress field in the focal region was complex with multi-azimuths and multi-action models and the focal rupture showed complex features with multi-directions and multi-patterns. 相似文献
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Introduction Anisotropy of the crust is a common phenomenon(Crampin,1984).Shear-wave splitting can be used to study the earthquake anisotropic characteristic in crust,to analyze crustal stress field condition,and to describe the static and the dynamic state of the related anisotropic parameters(GAO et al,1999).Shear-wave splitting is quite sensitive to anisotropy.The domestic scholars applied shear-wave splitting to studying the crustal anisotropy(YAO et al,1992;GAO and FENG,1990).The st… 相似文献
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通过对云南遥测地震台网2000年1月1日——2003年12月31日4年资料的分析, 使用剪切波分裂SAM综合分析方法,获得了云南地区10个数字地震台站的快剪切波偏振结果. 结果表明, 云南地区大部分台站的快剪切波偏振优势方向主要为近N——S或NNW方向; 位于活动断裂上的台站的快剪切波偏振优势方向与活动断裂的走向一致;与GPS主压应变方向一致,与区域主压应力方向基本一致;少数台站的快剪切波偏振较为复杂,或与活动断裂的走向及GPS主压应变方向不一致. 这样的台站总是位于几个断裂的交会处,反映了复杂的断裂背景和复杂的应力分布特征. 快剪切波偏振优势方向代表了原地最大主压应力方向,受到区域应力场和断裂分布等多种因素的控制. 相似文献
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福建地区地震活动特征及区域应力场研究 总被引:3,自引:0,他引:3
本文通过对福建地区地质构造背景和地震活动性背景的分析,结合2007-2009年福建地区ML4.0级以上地震的活动概况,综合认为福建地区地震活动显著增强,这可能也预示着东南沿海整体地震活动水平的抬升。从7个ML4.0级以上地震的单个震源机制解结果分析认为,古田水口水库地区的地震表现为倾滑的正断层性质,其余地震的走滑性质更为明显;且各个地震的主压应力轴方向也存在一定的差异。利用多个地震的分区综合节面解结果分析认为,近期福建地区中等强度地震活动显示出的区域应力场方向以北西向为主,在不同区域主压应力的方向有所差异:福建中北部近海地区为北西向,中北部内陆地区为北北西-南南东向;福建南部及其近海地区为近东西向。主要受到菲律宾板块向西推挤作用的影响。 相似文献
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STUDY ON THE SEISMOGENIC FAULT AND DYNAMICS PARAME-TERS OF THE 2014 MS6.6 JINGGU EARTHQUAKE IN YUNNAN 
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下载免费PDF全文 On October 17, 2014, a MS6.6 earthquake occurred in Jinggu, Yunnan. The epicenter was located in the western branch of Wuliang Mountain, the northwest extension line of Puwen Fault. There are 2 faults in the surrounding area, one is a sinistral strike-slip and the other is the dextral. Two faults have mutual intersection with conjugate joints property to form a checkerboard faulting structure. The structure of the area of the focal region is complex. The present-day tectonic movement is strong, and the aftershock distribution indicates the faulting surface trending NNW. There is no obvious surface rupture related to the known fault in the epicenter, and there is a certain distance from the surface of the Puwen fault zone. Regional seismic activity is strong. In 1941, there were two over magnitude 7.0 earthquakes in the south of the epicenter of Jinggu County and Mengzhe Town. In 1988, two mainshock-aftershock type earthquakes occurred in Canglan-Gengma Counties, the principal stress axes of the whole seismic area is in the direction of NNE. Geological method can be adopted to clarify the distribution of surficial fracture caused by active faults, and high-precision seismic positioning and spatial distribution characteristics of seismic sequences can contribute to understand deep seismogenic faults and geometric features. Thus, we can better analyze the three-dimensional spatial distribution characteristics of seismotectonics and the deep and shallow tectonic relationship. The focal mechanism reveals the property and faulting process to a certain extent, which can help us understand not only the active property of faults, but also the important basis for deep tectonic stress and seismogenic mechanism. In order to study the fault characteristic of the Jinggu earthquake, the stress field characteristics of the source area and the geometric parameters of the fault plane, this paper firstly uses the 15 days aftershock data of the Jingsuo MS6.6 earthquake, to precisely locate the main shock and aftershock sequences using double-difference location method. The results show that the aftershock sequences have clustering characteristics along the NW direction, with a depth mainly of 5~15km. Based on the precise location, calculations are made to the focal mechanisms of a total of 46 earthquakes including the main shock and aftershocks with ML ≥ 3.0 of the Jinggu earthquake. The double-couple(DC)component of the focal mechanism of the main shock shows that nodal plane Ⅰ:The strike is 239°, the dip 81°, and the rake -22°; nodal plane Ⅱ, the strike is 333°, the dip 68°, and the rake -170.31°. According to focal mechanism solutions, there are 42 earthquakes with a focal mechanism of strike-slip type, accounting for 91.3%. According to the distribution of the aftershock sequence, it can be inferred that the nodal plane Ⅱ is the seismogenic fault. The obtained focal mechanism is used to invert the stress field in the source region. The distribution of horizontal maximum principal stress orienation is concentrated. The main features of the regional tectonic stress field are under the NNE-SSW compression(P axis)and the NW-SE extension(T axis)and are also affected by NNW direction stress fields in the central region of Yunnan, which indicates that Jinggu earthquake fault, like Gengma earthquake, is a new NW-trending fault which is under domination of large-scale tectonic stress and effected by local tectonic stress environment. In order to define more accurately the occurrence of the fault plane of the Jinggu earthquake, with the precise location results and the stress field in the source region, the global optimal solution of the fault plane parameters and its error are obtained by using both global searching simulated annealing algorithm and local searching Gauss-Newton method. Since the parameters of the fault plane fitting process use the stress parameters obtained by the focal mechanism inversion, the data obtained by the fault plane fitting is more representative of the rupture plane, that is, the strike 332.75°, the dip 89.53°, and the rake -167.12°. The buried depth of the rupture plane is 2.746km, indicating that the source fault has not cut through the surface. Based on the stress field characteristics and the inversion results of the fault plane, it is preliminarily believed that the seismogenic structure of the Jinggu earthquake is a newly generated nearly vertical right-lateral strike-slip fault with normal component. The rupture plane length is about 17.2km, which does not extend to the Puwen fault zone. Jinggu earthquake occurred in Simao-Puer seismic region in the south of Sichuan-Yunnan plate. Its focal mechanism solution is similar to that of the three sub-events of the Gengma earthquake in November 1988. The seismogenic structure of both of them is NW-trending and the principal stress is NE-SW. The rupture plane of the Jinggu main shock(NW direction)is significantly different from the known near NS direction Lancang Fault and the near NE direction Jinggu Fault in the study area. It is preliminarily inferred that the seismogenic structure of this earthquake has a neogenetic feature. 相似文献
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Evolution characteristics of Quaternary tectonic stress field in the north and east margin of Qinghai-Xizang plateau 总被引:4,自引:1,他引:3
By inversion of fault slip data for Quaternary tectonic stress field and the analysis of crustal deformation after late Teriary, we explained the evolution of crustal dynamic about the north and east margin of Qinghai-Xizang (Tibet) plateau since Miocene. From middle or late Miocene to early Pleistocene, the tectonic stress field was featured by a maximum principal compression which was coming from the collision of India Plate perpendicular to the boundary of the plateau, and was basically of reverse faulting type. Since the late period of early Pleistocene, India Plate continued to push northward and the compressional deformation of the plateau interior increased continuously, meanwhile, NW-SE extension appeared on the east side of the plateau. This formed a favorable condition for the interior block of the plateau to slide towards east and southeast, causing the faults surrounding the plateau to change from thrust to strike-slip. The contemporary tectonic stress field was formed from the late period of early Pleistocene and continued to present. The direction of maximum principal compressional stress rotated clockwise with respect to the previous tectonic stress field, the stress field was mainly of strike-slip type. 相似文献
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利用断层滑动资料反演构造应力张量从而确定出海原、六盘山断裂带至银川断陷的第四纪两期构造应力场 :早更新世末期以前 ,为北东—南西挤压型构造应力场 ,由此造成该地区断裂活动主要以逆断为主 ;早更新世末期至中更新世以后 ,构造应力场发生了调整 ,主压应力方向由早期的北东—南西改变为北东东—南西西 ,应力结构由挤压型转变为走滑型 ,并导致断裂活动由早期的逆断为主变为走滑为主 ,这种应力场格局一直持续至今。研究区现代构造应力场可划分为 :海原断裂带走滑应力区、六盘山逆断 -走滑混合应力区和银川断陷拉张应力区 相似文献
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基于国家测震台网数据中心提供的波形资料, 采用gCAP方法反演2020年5月18日云南巧家M5.0地震及研究区域51次地震震源机制解, 并收集研究区域震源机制解50个。 采用网格搜索法反演区域构造应力场, 并对研究区域采用不同划分进行应力场反演。 获得以下结论: ① 主震震源机制解节面Ⅰ的走向、 倾角和滑动角分别为175°、 67°和-19°, 节面Ⅱ的走向、 倾角和滑动角分别为273°、 73°和-156°, 矩震级为4.97, 矩心深度为8.8 km。 表明主震属于兼具逆冲分量的走滑型地震; ② 震后区域应力场主压应力轴方位为NWW, 倾角接近水平, 主张应力轴方位为NNE, 倾角接近水平, 属于走滑型应力状态, 与周边地质构造运动状态相吻合; ③ 对研究区域采用不同划分所得应力场结果相差不大, 表明该区域应力场比较稳定, 受深大断裂带和震源机制解类型影响较小。 相似文献
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2009年云南姚安6.0级地震震源机制与发震构造的分析研究 总被引:1,自引:0,他引:1
利用P波、SV波、SH波初动及其振幅比联合反演震源机制解的方法,计算了2009年7月9日发生在云南姚安6.0级地震余震序列的震源机制解,同时结合地震序列的空间分布,对姚安6.0级地震的发震断层性质和震区应力场特征进行综合分析。结果分析表明:(1)姚安6.0级地震发震断层为NWW—SEE向的直立右旋走滑断层,与美国哈佛大学的主震CMT解节面基本一致,也与余震优势方向分布一致,证明结果可靠;(2)震区主压应力场优势方向为NNW—SSE向,与其现今区域构造应力场主压应力NNW—SSE向一致,表明主震应力场主要受到现今区域构造应力场的控制,同时还有一些小的余震与主震应力场不同,表明震区应力场的多样性和复杂性;(3)结合本次地震序列的空间分布、震源机制解特征、震区断裂构造特征综合分析,综合判定姚安6.0级地震的发震构造属于马尾箐断裂。 相似文献
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The Shimian area of Sichuan sits at the junction of the Bayan Har block, Sichuan-Yunnan rhombic block, and Yangtze block, where several faults intersect. This region features intense tectonic activity and frequent earthquakes. In this study, we used local seismic waveform data recorded using dense arrays deployed in the Shimian area to obtain the shear wave splitting parameters at 55 seismic stations and thereby determine the crustal anisotropic characteristics of the region. We then analyzed the crustal stress pattern and tectonic setting and explored their relationship in the study area. Although some stations returned a polarization direction of NNW-SSE, a dominant polarization direction of NW-SE was obtained for the fast shear wave at most seismic stations in the study area. The polarization directions of the fast shear wave were highly consistent throughout the study area. This orientation was in accordance with the direction of the regional principal compressive stress and parallel to the trend of the Xianshuihe and Daliangshan faults. The distribution of crustal anisotropy in this area was affected by the regional tectonic stress field and the fault structures. The mean delay time between fast and slow shear waves was 3.83 ms/km, slightly greater than the values obtained in other regions of Sichuan. This indicates that the crustal media in our study area had a high anisotropic strength and also reveals the influence of tectonic complexity resulting from the intersection of multiple faults on the strength of seismic anisotropy. 相似文献