云南地震类型分区特征研究

对云南地震序列和强震震源机制的分析与研究表明,云南地区具有较明显的地震类型分区特征.总体上云南全区地震断层以走向滑动为主，地震序列以主余震型为主.考虑到非走滑地震断层和非主余震型地震序列所占的比例，可以将云南地区划分为4个具有不同特点的分区: 滇中(A1)走滑-主余震型区、 滇西北(A2)斜滑-震群型区、滇西(B1)走滑-双震型区和滇西南(B2)准走滑-主余震型区.      

南北地震带中段及周边中强地震序列类型的特征

文中根据南北地震带中段及附近区域1973年以来86次5.0级以上的地震序列统计结果,对地震序列类型和空间分布进行分析,结果表明:1)研究区域内的地震序列以主余型为主(51%),多震型次之(29%),孤立型最少(20%);同一序列类型中,随着地震震级增大,主余型地震所占的比例增加,多震型、孤立型逐渐减少,7.0级以上地震以主余型为主,无孤立型地震;对于不同破裂类型,逆冲型地震中主余型最多,多震型地震更可能为走滑和正断性质的地震。2)主余型和多震型地震序列的主震与最大余震震级的线性关系相对较好;绝大多数地震的最大余震多发生在震后20d内,主余型最大余震集中在震后3d内发生,多震型地震中次大地震集中在震后12d内发生,孤立型地震的最大余震多发生在地震当天。3)地震序列空间分布显示,主余型地震分布相对较广,多震型地震主要集中在川西巴塘—理塘、川东马边—昭通一带、川北松潘和滇西北云龙、姚安、龙陵及附近区域,甘孜-玉树断裂带、鲜水河断裂带NW段及四川盆地等地更易发生孤立型地震。4)地震序列类型的空间分布可能与本区域的地质构造和历史地震活动存在一定的关系。     

2020年5月18日云南巧家MS 5.0地震总结

系统总结2020年5月18日云南巧家M_S 5.0地震发生前出现的地震活动和地球物理观测异常,其中：①地震活动异常：震前存在震群活动、Benioff应变比和地震发生率异常等中短期异常;②地球物理观测异常：震中200 km范围内分布重力、地磁、水位、水温、断层氢等测项,其中异常测项15项,大部分为趋势异常,异常台项比较低（5%）,短临异常不突出,巧家电磁波为地震的短期异常;③综合方法：多参数概率谱计算结果在震前出现异常。对巧家M_S 5.0地震序列进行跟踪研究,发现：主震与最大余震的震级差为1.6（M_L震级）,主震释放能量占序列总能量的99.64%,属主余型地震序列;主震震源机制显示为走滑型,根据余震分布,认为发震断层位于莲峰断裂和昭通-鲁甸断裂之间的NS向次级断裂。综合分析认为,在巧家M_S 5.0地震发生前,地震活动具有背景异常逐渐向中短期转变的过程,地球物理观测异常以趋势异常为主,短期异常不突出。     

1998年泾阳4.8级地震的一些特征

分析了 1 998年泾阳MS4.8地震的一些特征 .该次地震序列类型属孤立型 ,与陕西关中地区历史强震多以主 余震型为主的特征不同 .震源机制解显示 ,该次地震的断层错动以左旋走滑为主 ,主压应力方向为NE～SW ,与大华北区域应力场的方向吻合     

新疆及周缘构造破裂特征及地震序列类型

横亘新疆境内的天山及其周边的西昆仑、阿尔金和阿尔泰是中国大陆著名的强构造运动区和地震活动带。在对新疆构造区应力环境、动力过程、断层运动变形特征和地震序列分析讨论的基础上,对新疆及其周缘主要构造区地震破裂方式和序列类型进行研究,得出如下结论:(1)西昆仑构造区受来自青藏块体和塔里木块体NS和NW向水平压应力和垂向力的作用,构造运动呈现出走滑与逆冲特征,震源破裂以走滑型为主,数量较少的逆断型地震主要分布在西昆仑帕米尔一侧的深震挤压区,正断型地震主要出现在西昆仑与阿尔金交汇的拉张盆地及附近。该区主余型地震占63%,6级以上地震序列也存在多震类型。(2)阿尔金断裂带位于西昆仑北缘断裂和北祁连断裂过渡带,受青藏块体向北和向西的推挤,断裂本身的左旋位移量通过两端逆冲挤压而转化,使得青藏高原北边界不断向外扩展。在此力源下,阿尔金断裂带震源破裂以走滑为主,也有少量的逆冲型地震。地震序列中主余型和孤立型地震占比相同(占44%)。(3)在印度板块和亚欧大陆碰撞效应影响下,天山地区产生近NNE向水平压应力,构造运动显现出带旋性特征的逆冲和走滑,震源破裂方式与之相吻合。而天山构造大跨度的空间展布、扩展形式的多样性和地震破裂的两重性,又影响到地震序列类型的多样性,使得主余型、孤立型和多震型地震在不同构造部位呈现优势分布。(4)阿尔泰的构造运动可能受到了来自印度板块与亚欧板块碰撞的远程效应和西伯利亚块体南向运动的双向影响,形成NNE和SW向水平挤压力,主要大型发震断裂做右旋剪扭错动,而一些深断裂则以逆冲运动为主。震源破裂呈现出走滑(占64%)和部分的逆冲(占27%),6级以上地震序列主要为主余型,5级左右地震则多为孤立型。     

鄂尔多斯块体周缘地震类型研究

分析1970-2010年鄂尔多斯周缘发生的114次显著地震序列,结果表明,主余型序列占57％,孤立型序列占32％,多震型序列占11％.根据地震类型的空间分布特点,对鄂尔多斯周缘地震进行分区,各分区主余型地震占多数,多震型地震主要集中在鄂尔多斯北缘和东缘中北段,孤立型地震在鄂尔多斯西缘南段、南缘和东缘南段比例较高.     

STUDY ON THE SEISMOGENIC FAULT AND DYNAMICS PARAME-TERS OF THE 2014 MS6.6 JINGGU EARTHQUAKE IN YUNNAN

On October 17, 2014, a M_S6.6 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 M_S6.6 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 M_L ≥ 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.     

全球大陆7级浅源大地震强余震震级和空间分布特征

本文收集了1967—2007年全球大陆(不包括中国大陆)29次7.0~7.9级浅源大地震的余震资料。根据震源机制解结果把这29次地震序列分为走滑型和非走滑型, 其中17次是走滑型, 12次是非走滑型, 并分别研究了走滑型和非走滑型地震序列强余震震级分布特征和空间分布特征。研究结果表明, 强余震与主震震级差服从指数分布, 统计得到了走滑型地震序列B值为0.58, 非走滑型地震序列B值为1.07。走滑型地震序列强余震与主震距离的优势分布范围是10～45 km, 而非走滑型地震序列强余震与主震的距离优势分布为20～59 km, 并且强余震与主震震中距服从正态分布。     

Spatial distribution features of sequence types of moderate and strong earthquake in Chinese mainland

Introduction Through studying ″foreshock″ and sequence features of strong earthquakes with focal mechanism of strike-slip or thrust occurred in the shallow subduction zone or in the continental thrust belt respectively, Reasenberg (1999) suggested that precursory representation and the se- quence features are related tightly to the rupture mechanism of the mainshock. This implies that the rupture pattern of the mainshock is probably one of the important factors affecting the features of afte…     

川滇地区走滑型地震烈度衰减特征研究

为分析走滑型地震的烈度衰减特征, 我们搜集并整理1900年以来川滇地区的145个5级以上震例和其中70个5级以上、 破裂方式以走滑型为主的典型震例, 利用联合椭圆衰减模型, 建立该区域此类型地震烈度衰减关系。 对比已有研究成果, 结果表明, 川滇地区破裂方式以走滑型为主的地震烈度衰减速度慢于西南地区, 可能与该地区地震破裂方式、 动力学过程等有关, 但与川滇地区和中国西部的衰减规律相比没有明显差异。 本文给出的烈度衰减关系在该区域此类地震的灾害快速评估和地震应急中具有一定参考价值, 其他区域的适用性需进一步分析。     

云南地区现代构造应力场研究

利用云南及周边地区中强地震震源机制解资料,采用对震源机制参数进行统计的方法,详细分析了地震断层类型和云南地区的现代构造应力场特征.结果表明,云南地区发生的中强地震走滑型地震占绝大多数,比例为80%,正断型和正走滑型与逆断型和逆走滑型地震所占的比例相当,分别约为8%.云南地区应力场接近水平,地震错动面的倾角较陡.云南地区...     

西藏地区地震类型特征研究

对1970年以来西藏地区139组5级以上地震序列类型进行统计及特征分析,发现西藏地区中强以上地震序列以主—余型和孤立型为主,约占79.1%。随主震震级的增加,主—余型所占比例逐渐增加,孤立型和多震型所占比例减少。绝大多数地震的最大震级余震在主震后3个月内发生。西藏地区多震型地震主要发生西藏中强以上地震活跃时段,因此在西藏及邻区5级以上地震频度较高时需注意多震型地震的发生。从地震序列类型空间分布来看,孤立型地震和主—余型地震大多发生在构造相对单一的地区,而多震型地震则大多发生在构造复杂且存在多组构造交汇的区域。     

2014年云南鲁甸MS6.5地震序列的双差定位

本文采用双差定位方法对云南鲁甸M_S6.5地震震后16天的地震序列进行重定位研究.重定位结果显示,主震位于27.11°N,103.35°E,震源深度约15 km;地震序列主要呈“L”形优势分布,分为SSE向和近EW向两支,并均呈现近垂直的震源分布特征,显示此次地震为走滑型,并存在两个不同方向的破裂面.虽然此次地震发生于NE向昭通断裂及其反冲断裂（龙树断裂、大岩洞断裂）附近,但这些断裂均为逆冲型断裂,被排除了作为发震断裂的可能性;鲁甸地震发生在呈放射性分布的多条断裂的交汇部位,SSE向破裂分支与包谷垴断裂的方向一致,近EW向破裂分支与小河断裂南端的走向一致. 鲁甸地震可能已将包谷垴断裂和小河断裂在深部贯通.     

Characteristics of ground cracks caused by the MS 6.4 Yangbi earthquake and the corresponding tectonic significance

An M_S 6.4 earthquake occurred near Yangbi County, Dali Bai Autonomous Prefecture, Yunnan Province, at 21:48 on May 21, 2021. The earthquake location is characterized by complex geological structures, with multiple active faults distributed around the epicenter that is located at the west edge of the Sichuan-Yunnan rhombic block (25.67°N, 99.87°E). A total of 42 ground cracks are found by earthquake field investigations. The cracks are mainly concentrated in the Ⅷ degree area on the west side of the Yangbi River. Among these, 9 coseismic tectonic ground cracks generated by shear fractures are found in three villages (i.e., Akechang, Meijia-Lijia, and Huajiazhuang), which are distributed along the strike of the northwest-trending linear folds, showing the tectonic characteristics of right-lateral tension or left-stepping cracks. The structural attribute of ground cracks sustains the kinematic properties of the Weixi-Qiaohou fault, namely right-lateral strike-slip.     

中国大陆7级大地震强余震震级和空间分布特征

本文研究了中国大陆1966年以来15次7.0～7.9级地震序列强余震空间分布和震级分布特征。 研究结果表明: ① 强余震与主震震级差(ΔM)与频度(N)的统计关系服从指数分布, 统计得到了全部序列平均B值为0.72, 12个走滑型地震序列平均B值为0.73; ② 走滑型地震序列强余震优势分布范围是5~59 km, 非走滑型序列优势分布为10~29 km, 并且强余震与主震震中距离服从正态分布。     

2020年云南巧家M_S 5.0地震震源机制解与发震断层归属

2020年5月18日云南巧家发生M_S 5.0地震,基于国家和区域数字地震台网14个宽频带台的波形资料,利用CAP方法进行反演,得到其震源机制:节面Ⅰ:走向175°,倾角70°,滑动角-18°;节面Ⅱ:走向271°,倾角73°,滑动角-159°;震源矩心深度约9 km。结合主震震中位置、余震序列空间分布、地震烈度等值线图及区域地质背景,讨论此次巧家MS 5.0地震的发震断层,初步判定,包谷垴—小河断裂的雁列状次级隐伏构造走向SSE,具高角度左旋走滑性质,可能为其发震断层。     

2007年宁洱6.4级地震研究

根据云南宁洱地区地质构造、 历史强震资料、 云南监测中心区域台及现场流动台数字化观测台网测定的2007年宁洱6.4级地震序列资料及1970年以来宁洱地区6级地震序列等, 深入分析研究了宁洱地区中强地震活动规律、 宁洱6.4级地震的余震时空展布以及参数变化等特征, 并利用2007年宁洱6.4级地震地震现场数字化观测流动台测定的余震波资料研究了该序列地震波动力学特征。 研究结果认为, 宁洱6级地震活动在空间上具有较高的原地重复性, 在时间上具有强弱交替活动的韵律; 2007年6月3日宁洱6.4级地震的余震展布方向与穿过震区NW向宁洱断裂的走向大致一致, 宁洱6.4级地震可能是由无量山断裂活动构造加剧所引起;根据2007年6月3日宁洱6.4级地震序列及历次宁洱6级地震序列时序发展特征分析研究得出, 宁洱6.4级地震序列能量主要集中在震后3天内释放, 4.9级以上余震发生在主震当天, 地震序列早期参数和3.0级以上余震的垂直方向P波最大振幅与S波最大振幅非线性关系等显示, 宁洱6.4级地震序列具有较明显的主-余震型特征。     

2021年5月21日漾濞MS 6.4地震前地震活动异常分析

2021年5月21日漾濞发生M_S 6.4地震,震前地震活动异常明显,中长期阶段云南地区3级地震活动水平较低,滇西北地区出现长达456天的4级地震平静;短临阶段震中区附近出现3—4级地震条带;临震阶段中小地震活动由外围地区开始向震中区迁移,震中区出现直接前震。     

FOCAL MECHANISM SOLUTIONS AND STRESS FIELD OF THE 2019 CHANGNING,SICHUAN MAINSHOCK AND ITS MODERATE-STRONG AFTERSHOCKS(MS≥4.0)

A M_S6.0 earthquake with shallow focal depth of 16km struck Changning County, Yibin City, Sichuan Province at 22:55: 43(Beijing Time)on 17 June 2019. Although the magnitude of the earthquake is moderate, it caused heavy casualties and property losses to Changning County and its surrounding areas. In the following week, a series of aftershocks with M_S≥4.0 occurred in the epicentral area successively. In order to better understand and analyze the seismotectonic structure and generation mechanism of these earthquakes, in this paper, absolute earthquake location by HYPOINVERSE 2000 method is conducted to relocate the main shock of M_S6.0 in Changning using the seismic phase observation data provided by Sichuan Earthquake Administration, and focal mechanism solutions for Changning M_S6.0 main shock and M_S≥4.0 aftershocks are inferred using the gCAP method with the local and regional broadband station waveforms recorded by the regional seismic networks of Sichuan Province, Yunnan Province, Chongqing Municipality, and Guizhou Province. The absolute relocation results show that the epicenter of the main shock is located at 28.35°N, 104.88°E, and it occurred at an unusual shallow depth about only 6.98km, which could be one of the most significant reasons for the heavier damage in the Changning and adjoining areas. The focal plane solution of the Changning M_S6.0 earthquake indicates that the main shock occurred at a thrust fault with a left-lateral strike-slip component. The full moment tensor solution provided by gCAP shows that it contains a certain percentage of non-double couple components. After the occurrence of the main shock, a series of medium and strong aftershocks with M_S≥4.0 occurred continuously along the northwestern direction, the fault plane solutions for those aftershocks show mostly strike-slip and thrust fault-type. It is found that the mode of focal mechanism has an obvious characteristic of segmentation in space, which reflects the complexity of the dislocation process of the seismogenic fault. It also shows that the Changning earthquake sequences occurred in the shallow part of the upper crust. Combining with the results from the seismic sounding profile in Changning anticline, which is the main structure in the focal area, this study finds that the existence of several steep secondary faults in the core of Changning anticline is an important reason for the diversity of focal mechanism of aftershock sequences. The characteristics of regional stress field is estimated using the STRESSINVERSE method by the information of focal mechanism solutions from our study, and the results show that the Changning area is subject to a NEE oriented maximum principal stress field with a very shallow dipping and near-vertical minimum principal stress, which is not associated with the results derived from other stress indicators. Compared with the direction of the maximum principal compressive stress axis in the whole region, the direction of the stress field in the focal area rotates from the NWW direction to the NEE direction. The Changning M_S6.0 earthquake locates in the area with complex geological structure, where there are a large number of small staggered fault zones with unstable geological structure. Combining with the direction of aftershocks distribution in Changning area, we infer that the Changning M_S6.0 earthquake is generated by rupturing of the pre-existing fault in the Changning anticline under the action of the overall large stress field, and the seismogenic fault is a high dip-angle thrust fault with left-lateral strike-slip component, trending NW.     

基于Sentinel-1A数据反演漾濞MS6.4地震的同震形变场及断层几何参数

2021年5月21日晚21时48分,云南省大理州漾濞县(震中:25.67°N,99.87°E)发生M_S6.4地震,震源深度8 km。为快速获得此次地震同震形变场及断层几何参数,研究该次地震的发震构造等,文章基于震前、震后的sentinel-1A卫星升降轨SAR数据进行二轨法差分雷达干涉测量(DInSAR),并基于Okada弹性半空间位错模型反演断层几何参数。研究结果如下:(1)此次地震造成的同震形变场长约19 km,宽约20 km;(2)升轨雷达视线向最大形变约为8.2 cm,降轨雷达视线向最大形变约为8.7 cm;(3)地震断层走向为313.7°,倾角为87°,滑动角为175°,为右旋走滑型断层,最大滑动量为0.79 m,反演得出的地震矩为1.48×10~(18) N·m,矩震级为M_W6.1。在川滇块体向南挤出的构造背景下,块体西边界的维西—乔后断裂、红河断裂发生右旋走滑,本次地震便是维西—乔后断裂南段分支断裂右旋走滑活动的体现。