晋陕断陷带现代构造应力场与地震断错研究

本文在分析晋陕断陷带1965年以来的地震P波初动资料的基础上,通过单个震源机制解的统计分析、构造分区地震综合断层节面解、震源机制分区地震综合断层节面解,讨论了该断陷带的现代构造应力场与地震断错类型,讨论了区域构造应力场与局部构造应力场的关系及地震断错的应力状态.     

山西地区应力场变化与地震的关系

收集了1970～2006年37年的小震初动符号建立了震源机制解数据库,研究了山西断陷带小震综合机制解时空演化特征.结果表明:山西断陷带小震综合机制解以走滑正断层为主,断陷带两端以拉张作用为主,中部地区以剪切作用为主,忻定盆地、太原盆地的区域应力场与华北区域应力场差异较大.利用沿山西断裂带布设的GPS监测网1996～2007年12期复测资料,分析了山西断裂带水平运动与地震活动的关系.结果表明:山西断裂带现主要受NWW-SEE向压应力场、NNE-SSW向张应力场的控制.1998～1999年有一次较为明显的应力扰动,空间上表现为北强南弱,接着发生了1999年11月1日大同-阳高5.6级地震.     

鄂尔多斯周缘地震活动震源机制与地震形变

本文叙述了鄂尔多斯周缘地震活动震源机制与地震形变的基本特征,讨论了在区域构造应力场作用下,块体周缘断陷带与断裂带组成的共轭剪切破裂上的现代地震断错力学性质和强震活动构造背景.     

北京及邻区震源机制解及应力场特征

<正>1研究背景利用大量地震震源机制解反演地壳应力场,可获得区域应力场状态,有助于解释地震成因、断裂活动等现象。北京及邻区（39.0°—41.0°N,115.0°—118.0°E）位于NE向山西地震带、华北平原地震带与NW向张渤带交会区域,新构造运动强烈,活动断裂构造发育,主要由山西断陷带、太行山隆起区、燕山隆起区、北京坳陷、大兴隆起、冀中坳陷、沧县隆起等地质构造单元构成。复杂的地质构造背景使该区地震活动强烈而频繁,有历史记录以来,研究区域共发生6级以上地震13次,最大地震为1679年三河—平谷8.0级地震。     

山西地区震源机制一致性参数时空特征分析

利用山西数字地震台网记录到的中小地震波形资料,采用层状介质中点源位错模型的广义透射系数的快速算法和理论地震图拟合直达波最大振幅比来求取小震震源机制解的方法,计算了2001年—2012年山西地区281个中小地震震源机制解,根据优势分布得到山西地区现今平均构造应力场分布,计算震源机制解应力主轴与相应的区域构造应力场主轴之间的震源机制一致性参数,分析一致性参数时空分布与中等地震活动的关系。结果显示,2001年以来山西5次ML≥5.0地震前均有震源机制趋于一致性现象,震中分布在一致性参数低值附近或高低值过渡区域。     

京西北盆岭构造区现代构造应力场的非均匀特征

京西北盆岭构造区包括延矾、怀涿、蔚广、阳原、灵丘、怀安及张家口多个活动断陷盆地.通过对该区大量活动断层擦痕的测量,利用由断层滑动资料反演构造应力张量的计算方法,获得研究区24个测点的构造应力张量数据;同时利用格点尝试法对研究区两个不同应力分区的中小地震震源机制解进行了分析.依据断层滑动与震源机制解两类资料的分析计算结果,初步给出了研究区现代构造应力场的非均匀特征：延矾盆地区域（B区）断层滑动反演的构造应力张量与震源机制解类型均表现为走滑型,表明该区受控于NEE-SWW向挤压、NNW-SSE向拉张的区域构造应力作用.怀涿、蔚广等盆地所在的山西断陷带北部尾端区域（A区）断层滑动反演的构造应力张量与震源机制解类型以正断型为主,表明怀涿、蔚广等盆地所在的山西断陷带北部尾端区域（A区）受近NNW-SSE向拉张的局部构造作用相对于延矾盆地更为显著.现代构造应力场的非均匀分布反映了京西北盆岭构造的差异特征.     

利用多个震源机制解求祁连山西段平均应力场方向

祁连山西段由于受到多个构造块体的共同约束,表现出复杂的地球物理特性和地质特性。本文利用14个中强地震震源机制解和2001-2012年66个中小地震震源机制解分析了区域应力场特征。结果显示,地震的震源性质以走滑和逆冲为主,印证了祁连山西段基本构造变形特征;三个区域应力张量的定量结果显示,最大主压应力σ1方向在NE向,水平挤压作用明显,且具有一定的分区特征,表明局部应力场受到局部构造的影响。     

山东地区现今构造应力场与地震活动

应用现代中小地震的震源机制解,推断了山东地区的现今构造应力场,分析了区域构造应力场整体与局部变化特点。在此基础上,探讨了区域构造应力场与地震活动的关系。     

运城盆地的现今构造活动及现代地壳应力场的基本特征

大量震源机制解结果表明，运城盆地存在以水平拉张为主要特点的局部小区域应力场，盆地北部水平挤压分量占优势。这些特点不同于山西断陷带其它诸盆地局部小区域应力场的特点。由这些震源机制解结果中所有Ｐ轴、Τ轴做出的运城盆地的平均应力场，与华北区域地壳应力场和山西平均应力场的结果基本一致。说明运城盆地在宏观上、整体上仍严格受华北区域应力场的控制，其局部小区域应力场也是在华北区域应力场范畴内活动     

区域构造应力场的某些变化特征

应用现代中小地震的震源机制解 ,以山东地区为例 ,推断了该区的现今构造应力场 ,分析了区域构造应力场整体与局部变化特点。在此基础上 ,探讨了区域构造应力场与地震活动的关系     

Characteristics of recent tectonic stress field in Jiashi, Xinjiang and adjacent regions

Introduction The Pamirs region where Jiashi is located is one of the most active regions of continental plate dynamics in China. Frequent earthquakes here, especially several strong earthquakes oc- curred in 1997 and 2003, have provided excellent conditions for studying the tectonic stress field in this region and a large number of results (GAO and WEN, 2000; GAO et al, 2004; XU, 2001; ZHOU et al, 2001) have been obtained. Although different methods and data were used, under- standings …     

构造"稳定"区强震长期预测的简便途径--以张北地震为例

作为强震长期预测基础的地震带、潜在震源区的划分,仍然依据地震构造类比和地震活动重复两原则。现有的强震长期预测方法在构造“稳定”区,即没有活动构造、没有历史地震(包括古地震)资料的条件下,无能为力。通过张北地震资料的分析,高精度地震定位并结合波形数据反演震源机制的结果表明：在稳定而统一的构造应力场的作用下,沿其最大剪切应力方向上的小地震集中成带,并且持续活动、震源机制的优势取向与应力场吻合,小震带便可以看作属于现今活动的震源断层,在地震长期预测工作中可以作为划分潜在震源区的依据。构造“稳定”区发生的强震属于新破裂。     

FOCAL MECHANISM SOLUTION AND TECTONIC STRESS FIELD CHARACTERISTICS OF THE MIDDLE TIANSHAN MOUNTAINS,XINJIANG

The middle part of the Tianshan Mountains in Xinjiang is located in the north-central part of the Tianshan orogenic belt, between the rigid Tarim Basin and Junggar Basin. It is one of the regions with frequent deformation and strong earthquake activities. In this paper, 492 M_S>2.5 earthquake events recorded by Xinjiang seismograph network from 2009 to 2018 were collected. The M_S3.5 earthquake was taken as the boundary, the focal mechanism solutions of the earthquake events in this region were calculated by CAP method and FOCEMEC method respectively. At the same time the focal mechanism solutions of GCMT recorded historical earthquake events in this region were also collected. According to the global stress map classification standard, the moderate-strong earthquakes in the region are mainly dominated by thrust with a certain slip component, which are distributed near the combined belts of the Tarim Basin, Junggar Basin, Turpan Basin and Yili Basin with Tianshan Mountains. The thrust component decreases from south to north, while the strike-slip component increases. The spatial distribution characteristics of the tectonic stress field in the middle section of the Tianshan Mountains in Xinjiang are obtained by using the damped regional-scale stress field inversion method. The maximum principal compressive stress in axis the study area rotated in a fan shape from west to east, the NW direction in the western section gradually shifted to NE direction, its elevation angle is nearly horizontal, in the state of near horizontal compression. The minimum principal compressive stress axis is nearly EW, and the elevation angle is nearly vertical. Influenced by large fault zones such as Kashi River, Bolhinur, Nalati, Fukang, the southern margin of the Junggar and the north Beiluntai, the local regional stress field presents complex diversity. Under the influence of the northward extrusion of Pamir and Tarim blocks, the whole Tianshan is shortened by compression, but its shortening rate decreases from south to north and from west to east, the stress shape factor increases gradually from west to east, the intermediate principal compressive stress axis exhibits a change in compression to extension. There are some differences in the characteristics of tectonic stress field between the north and south of Tianshan Mountains. The regional maximum principal compressive stress axis is 15° north by east on the south side, while it is nearly NS on the north side. The deformation of the Tianshan Mountains and the two basins on both sides is obviously larger than that in the inside of the mountain. Changes in the crustal shortening rate caused by the rotation of the rigid Tarim block and Junggar block to the relatively soft Tianshan block, as well as the uplifts of Borokonu and Bogda Mountains, the comprehensive influence of the material westward expansion constitute the stress field distribution characteristics of the north and south sides of the middle section of Tianshan Mountains. The recent two M_S6.6 earthquakes in the region caused the regional stress field to rotate counterclockwise. The post-earthquake stress field and the main source focal mechanism solution tend to be consistent. The seismic activity in the study area is week in the south and strong in the north. The focal depth is about 20km. Most strike-slip earthquakes occur near the junction belt of the Tianshan and Junggar Basin.     

analyzing the variation characteristics of stress field in hetao seismic belt using focal mechanism data

Based on analysis of background of geological tectonic movement and strong earthquake activity, we first obtained the focal mechanism solutions using amplitude ratio and CAP method, then determined the characteristic of average stress field of the study area by inversion of the stress field. On this basis, we selected the source mechanism consistency parameter as the inspection index to obtain the latest changes of stress field in Hetao seismic zone based on its temporal and spatial analysis. Two methods were used in the stress field inversion for comparison and analysis, which are average stress axis tensor and LSIB(Linear stress inversion bootstrap, LSIB). According to the geological tectonic movement and focal mechanism solutions of M_S≥4.0 earthquakes from 1970, we judge that the stress field evolution process of Hetao seismic belt is controlled jointly by vertical difference movement and horizontal shear movement, resulting in that the normal fault and strike-slip fault mechanisms are dominating.Taking into account the station layout of the study area, and in order to ensure the accuracy of calculation, we calculated 224 earthquakes focal mechanism solutions by using amplitude ratio and CAP method, including 164 earthquakes with 2.8≤M_L<3.5, 42 earthquakes with 3.5≤M_L<4.0, and 18 earthquakes with M_L≥4.0; The statistical results on type of focal mechanisms show that, there are 142 strike-slip earthquakes(63.4%), 50 normal fault earthquakes(22.3%)and 32 thrust fault earthquakes(14.3%). In this study period(from 2001 to 2012), most earthquakes had a strike-slip mechanism in Hetao seismic belt, this is one of the inherent characteristics of the stress field.The result of average stress axis tensor and LSIB shows that, the azimuth of maximum compressional stress is 47°～52°, direction is NE-SW; The azimuth of minimum compressional stress is 313°～322°, direction is NW-SE; This indicates that, the stress field characteristics of Hetao seismic belt and its sub-block are not completely consistent. Linhe Basin exhibits coordinated stress field characteristics with Hetao seismic belt, but Hubao Basin exhibits regional differences, direction of compressive stress has clockwise deflection in Baotou area, and the compressive stress direction is NEE. This heteropical character of stress field is also confirmed by horizontal projection distribution of stress axis of historical strong earthquakes and recent moderate and small earthquakes. Since 2003, the temporal sequence curve of consistency parameter of Hetao seismic belt had a downward trend, this change was caused by focal mechanism consistency parameter of Linhe to Wuhai area, which indicates that this structural position is possible to be a priority area for stress accumulation and accelerated release in future.     

用CAP方法反演2010年6月5日山西阳曲M_S4.6地震震源机制解

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。     

1998年张北地震序列构造应力张量变化特征的研究

根据张北地震序列的地震活动特征,利用张北震区1998年1月～1999年3月间145个3 级左右地震的震源机制解资料,应用Gephart(1990)的应力张量反演方法,研究张北地震序列构造应力张量的总体变化特征和时序变化特征;研究发现强余震发生前,应力张量的波动幅度不是很大,震源及附近地区的构造应力作用较强,强余震发生后,应力因发生破裂而重新分布。而且震源区的构造应力场方向与华北地区的构造应力场方向基本一致,说明张北主震和强余震都是在华北统一构造应力场的作用下发生的。     

玉树和汶川地震前后区域水平形变的空间分布

以1999—2007年和2009—2010年两个时间段的GNSS观测资料为基础, 借助于多核函数解析、 滤波和应变场的无偏算法以及区域无旋转基准, 在运动场连续变化的条件下获得了玉树M_S7.1和汶川M_S8.0地震前后青藏高原东南地域运动与形变场, 并得到如下基本认知: ① 玉树和汶川地震前震源区构造活动在空间和较长时间上明显弱化, 最大正应变和最大剪切应变均处在区域构造活动的最低水平。 ② 与地震破裂相应的旋剪形变最大部位既不位于震源区也不远离震源区, 似乎存在某种协调有序活动, 玉树地震发震构造断裂带基本上处在区域右旋活动与左旋活动的过渡区上, 而左旋活动最大条带却为平行于该断裂带且相距约150 km的东北构造活动区内; 汶川地震发震构造断裂虽处在右旋活动的龙门山断裂带上, 但右旋活动最大条带为平行于该断裂带且相距约200 km的西北活动区内。 ③ 玉树地震震时较大水平形变的范围较小, 汶川地震震后水平形变仍较突出。 ④ 理塘—德巫断裂带的北段及周边地区应给予关注, 面应变为象限分布图像, 最大正应变和最大剪切应变均显示闭锁的迹象。     

汶川地震前后太原盆地应力场变化特征研究

利用小震震源机制解、地震视应力、GPS测量结果等资料,对汶川地震前后太原盆地应力场变化特征进行了研究。结果表明,汶川地震对太原盆地构造应力场的影响较为显著,不仅改变了应力场的方向,也改变了应力值的大小;应力场特征由震前NNE-SSW向拉张应力的局部小区域应力场为主,转为震后NEE-SWW向挤压应力为主且接近华北地区应力场。该变化态势有利于局部应变能积累,因而可能是太原盆地中小地震活跃的诱发因素。