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.     

Preliminary Study on Horizontal Deformation and Tectonic Activity in the Northern Part of North China Using GPS Remeasurement Results

In this paper, the baseline variation and displacement vector was analyzed using the calculated results of GPS measurements carried out from 1995 to 1996 in North China. Based on these analytical results, we studied the recent tectonic activity. In general, the regional extension is dominant in the direction of proximately EW, but there is a difference in the SN direction. Extension is significant in the Shanxi fault-depression zone and Bohai region, while compression with strike-slip is characterized along the Yishui-Tancheng segment of the Tanlu fault zone. The baseline shortening zone is distributed along the Baotou-Zhangjiakou-Ninghe areas. It is a boundary zone of regional variation where many differences of crustal horizontal deformation are discovered between the southern part and the northern part of this zone. The baseline shortening zone in NE direction is distributed along the Jianchang-Tangshan-Gucheng area. It is consistent with the Tangshan-Xingtai seismic zone which indicates that tectoni     

Current Activity Characteristics of the Fault Zone Along the Northern Margin of West Qinling Range Revealed by GPS Measurementl

The fault zone along the northern margin of West Qinling Range is a major active fault zonein the key seismic monitoring area in the southeastern part of Gansu Province.In order tostudy the current activity characteristics of this fault,GPS monitoring network has beenarranged along both sides of the fault and 3 measurements have been made from 1996 to1998.The result indicates that obvious differential movement exists along the north and southsides of the fault and the eastward movement on the south side is 3.8mm/a larger than thaton the north side.In the GPS network,the shortened side is generally in the trend of EW andthe extended side is basically NW to SE.The principal compressional stress trend in this areais about EW and the sinistral motion is obvious in the eastern part of the fault(nearWushan).The measured results also indicate that the displacement rate has decreased by50% and the compressional strain has increased by 100% as compared the data of 1997～1998 with those of 1996～1997,which shows t     

山西地震带形变应变场及中强地震危险性分析

利用沿山西断裂带布设的 GPS监测网的四期复测资料 (1 996～ 1 999年 ) ,分析了山西断裂带近期水平运动状态及与位于监测区北端 1 999年 1 1月 1日大同 -阳高 5.6级地震的关系 ,在震源区、忻州地区和介休东北地区出现了 3处相对较高的应变区 (1× 1 0 - 6)。山西断裂带主要受来自于 NWW- SEE向压应力场、NNE- SSW向张应力场的控制 ,不存在走滑运动。从长趋势看 ,今后应注意的是上述 3个运动单元的接合部位     

2008年汶川8.0级地震前横跨龙门山断裂带的震间形变

利用区域GPS和水准测量资料,结合地震构造背景的分析,本文研究2008年汶川8.0级地震前横跨龙门山断裂带地区的震间地壳形变,探讨引起这种形变的活动构造与动力学模式,并由此认识汶川地震的孕育与成因机制.主要结果表明：1997～2007年期间,自龙门山断裂带中段朝北西约230 km的地带内存在垂直于断裂的水平缩短变形、以及平行于断裂的水平右旋剪切变形,缩短率为1.3×10^-8/a （即：0.013 mm/km/a）,角变形速率为2.6×10^-8/a;同一地带在1975～1997年期间还表现出垂直上隆变形,上隆速率在龙门山前山断裂与中央断裂之间仅0.6 mm/a,而至龙门山后山断裂及其以西达2～3 mm/a.这些反映了在汶川地震之前至少10～30余年,龙门山断裂带中段的前山与中央断裂业已闭锁、并伴有应变积累.造成这种形变的主要原因是：以壳内的低速层为“解耦”带,巴颜喀拉地块上地壳朝南东的水平运动在四川盆地西缘受到华南地块的阻挡、转换成龙门山断裂带中段的逆冲运动;由于该断裂段的震间闭锁,致使西侧的巴颜喀拉地块的上地壳发生横向缩短以及平行断裂的右旋剪切变形.然而,龙门山断裂带北段在1997～2007年期间除了有大约0.9 mm/a的右旋剪切变形外,横向的缩短变形极微弱,这可能与该断裂段西侧的岷江、虎牙、龙日坝等断裂带吸收了巴颜喀拉地块朝东水平运动的大部分有关.另外,汶川地震前,横跨龙门山断裂带中段与北段的地壳形变特征的差异,与汶川地震时能量释放的空间分布吻合.     

Recent movement changes of main fault zones in the Sichuan-Yunnan region and their relevance to seismic activity

The Wenchuan earthquake occurred near the "triple junction" linking the Bayan Har block, the South China block, and the Sichuan-Yunnan rhombic block, and its influences on the surrounding blocks and the main fault zones in the Sichuan-Yunnan region, i.e., the block boundary zone, cannot be ignored. In this paper, changes of movement and stress of the fault zones before and after a strong earthquake were simulated based on the GPS repetition survey results recently obtained during 1999–2007, 2009–2011, and 2011–2013 with a two-dimensional finite-element contact model and the "block- loading" method. The results show that, before the Wenchuan earthquake, the movement of the Longmenshan fault zone was very slow and its compressive stress accumulated rapidly; after the Wenchuan earthquake, movements toward the E-SSE direction of the Bayan Har, southwestern Yunnan, and rhombic blocks were enhanced, and the dextral and horizontal compressive speeds and annual accumulative compressive stress of the Longmenshan fault zone increased markedly by factors of 4.5, 2.1, and 2.5, respectively. The southern Xianshuihe, Anninghe, Zemuhe, Daliangshan, and Lijiang-Xiaojinhe fault zones accumulated compressive stress rapidly, forming enhanced compressive stress zones along a NE strike crossing the central part of the Sichuan-Yunnan region. The tensional movement of the Xianshuihe fault zone was enhanced and the slip movement in the central part of the zone was reversed in a short time. The changes are tightly related to the medium-intensity earthquakes that occurred during the same period in this region, revealing that the spatial migration of seismic activity is related to changes of movement of the blocks.     

Relation of surface movements in West Bohemia to earthquake swarms

GPS observations in the Western Bohemia/Vogtland earthquake swarm region revealed indications of horizontal displacements of low amplitude, and no clear long-term trend in 1993–2007. On the other hand, in 1998–2001 there was relatively significant active movement along NNE-SSW oriented line that we called the “Cheb-Kraslice GPS Boundary” (ChKB), identical with an important limitation of earthquake activity. The most impressive were dextral (right-lateral) movements in the 1998–1999 period followed by reverse sinistral (left-lateral) movements in 1999–2000 that correlate with prevailing motion defined by fault plane solutions of the Autumn 2000 earthquake swarm. Before the February 2004 micro-swarm, two points located on opposite sides of the Mariánské Lázně fault showed extension in the order of about 7 mm in the same NNE-SSW direction of ChKB. The new NOKO permanent GPS station in Novy Kostel showed the peak-to-peak vertical changes up to 10 mm before and during the February 2007 micro-swarm. Annual precise levelling campaigns in the local network around Novy Kostel revealed regular vertical displacements during the 1994, 1997 and 2000 earthquake swarms. The points around the Novy Kostel seismological station showed uplift during the active periods, including the micro-swarm February 2004. However, no such indication was observed on levelling points in the period of the February 2007 swarm. Long-term vertical displacements depend on the same direction NNE-SSW (ChKB) as the GPS displacements. Both geodetic techniques have revealed oscillating displacements, GPS horizontal, and levelling vertical, rather than any long-term trends in the study period 1993–2007. The displacements exhibited significant spatial and temporal relation to tectonic activity (earthquake swarms) including their coincidence with the seismologically determined sense of motion along the fault plane during earthquakes.     

Activity Tendency and Dynamic Characteristics of Shanxi Fault Zone

INTRODUCTIONTheShanxifaultzoneisoneofthemajorseismiczonesinNorthChinaandmanymoderateandsmallearthquakeshaveoccurredthere (WangXiuwen ,1995 ) .TheM6 1Datongearthquakewhichoccurredatthenorthernendofthefaultin 1989isoneofthem (YangGuohuaetal.,1994 ) .Inordertomakeearthquakepredictionsandtostudytherelationshipbetweentheseismicityandfaultactivityofthefault,theSeismologicalBureauofShanxiProvinceestablishedaGPSmonitoringnetworkalongthefaultfromthesouthtothenorthin 1995 .Now ,thereisalarge…     

首都圈及晋冀蒙交界地区地壳垂直形变及地震危险性分析

根据首都圈及晋冀蒙地区1998—2002年、2002—2006年精密水准复测资料,分析了该地区近年来地壳垂直形变状态与特征,结果表明:北京、天津和河北等平原地区,由于过量开采地下水导致了大空间、大量级的地面沉降,致使无法获取该区域垂直向构造运动的真实信息。能够获得构造运动信息的只有北部燕山地区及太行山以西地区。山西断陷带北部中段近期的趋势性运动出现反向趋势。以忻州为中心梯度变化明显,有明显的四象限分布图像,且与"北高南低"的地形地貌不相关,反映出这一时段区域应力场处于加强态势。但从量级及规模上都小于大同—阳高地震前孕震体的变形。     

Construction of GPS MonitoringNetwork,Characteristics of RecentCrustal Movement,and Relationbetween Stress Field andEarthquake Activity in the NingxiaRegion

INT正ODU**!0厂Nln以la Is located In the nol’th segmentdthe North－southselsnuc Belt,Whlchls thejuncturedthe Qinghai－Xizang(Dbet)block,Alxa block and Odos block．In that region,the tectonic activity。svery strong;。y strong earthquakes occu。d In history,such as the 1739 ingluo M。8．0 earthqu拙eandl920 Halyuan M。8．5 eafthquake,etc．; Merately strongeaFthquakes are still veryactlve atpresent,onlyln the Wuzhong－un斟m area,there have been7 e血hquakes tvlth M。＞5．0 to occ…     

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8.0级地震前GPS与跨断层资料反映的运动与变形演化特征

为了研究与总结2008年5月12日汶川8.0级地震前GPS与跨断层资料反映的龙门山断裂带及其周边地区的运动、构造变形、应变积累演化过程,以及汶川地震临震阶段可能的物理机制,本文综合1999~2007期GPS速度场、1999~2008年大尺度GPS基线时间序列、1985~2008年跨断层短水准等资料进行了相关分析与讨论。结果表明:(1)GPS速度剖面结果显示,宽达500km的川西高原在震前有明显的连续变形,而四川盆地一侧和跨龙门山断裂带基本没有变形趋势,表明震前川西高原在持续不断地为已经处于闭锁状态的龙门山断裂带提供能量积累。(2)GPS应变率结果显示,震前龙门山断裂带中北段的NW侧EW向挤压变形明显,变形幅度从远离断裂带较大到靠近断裂带逐渐减小,而断裂带变形微弱;龙门山断裂带西南段周边形成了显著的EW向挤压应变集中区,应变积累速率明显大于中北段。(3)断层闭锁程度反演结果显示,除了汶川地震的震源位置闭锁相对较弱,且西南段有大概20km宽度断层在12~22.5km深度为蠕滑状态以外,震前整条龙门山断裂基本处于强闭锁状态。(4)大尺度GPS基线结果显示,跨南北地震带区域的NE向基线从2005年开始普遍出现压缩转折,反映NE向地壳缩短的相对运动增强。(5)跨断层短水准场地结果显示,震前年均垂直变化速率和形变累积率很低,表明断层近场垂向活动很弱、闭锁较强。通过以上分析认为,在相对小尺度的地壳变形中,震前龙门山断裂带深浅部均处于强闭锁状态,断裂带水平与垂直变形都很微弱,这可能经历了一个缓慢的过程,而且越是临近地震的发生,微弱变形的范围可能越大;在相对大尺度的地壳变形中,震前龙门山断裂带西侧的巴颜喀拉块体东部地区经历了地壳缓慢且持续的缩短挤压变形,为龙门山断裂带应变积累持续提供了动力支持。     

5.12汶川地震后龙门山断裂带东北段现今地应力测量结果分析

5.12汶川大地震发生后,在龙门山断裂带东北段,开展了6个钻孔的原地应力测量工作.测量钻孔分别位于龙门山中央断裂带上下两盘的平武、北川、江油和广元等地.钻孔孔深在200~500 m之间,共取得了72个测试段的地应力测量数据,以及其中33个测段的印模定向试验数据,由此获得了每个测点处地应力的赋存状态,包括地应力量值随孔深的变化以及地应力作用方向.根据库仑准则,结合Byerlee定律对各测点实测数据进行分析,可以看出,龙门山断裂带上盘现今地应力的作用强度高于下盘.其上、下两盘现今地应力赋存状态特征及其差异性显示出该区域处于不均衡的应力环境,容易导致断裂失稳而产生新的活动;印模定向试验数据表明,龙门山断裂带东北段的北川、江油、平武的最大水平主应力优势方向为NEE向;广元附近为NWW或近东西方向.结合已有的研究成果,初步得到龙门山断裂带现今地应力作用方向的分段性特征,即大致以北川为界,龙门山断裂带东北段应力方向显示了与西南段不同的特征.其西南段现今地应力的优势作用方向为北西方向,而龙门山断裂带东北段,自江油、北川、平武一带至广元、青川附近,其现今地应力的最大水平主压应力的优势作用方向呈现了NEE→NWW的赋存状态和变化趋势.本文获得的研究结果对于认识5.12汶川特大地震的动力学机制具有一定的借鉴和启示作用.     

Study on Dynamic Characteristics of Crustal Deformation in the Yunnan Area Using GPS

Based on the GPS velocity field data of 1999-2007 and 2011-2013,we used the least squares configuration method and GPS velocity profile results to synthetically analyze the dynamic evolution characteristics of crustal deformation in the Yunnan area before and after the Wenchuan earthquake. The dynamic evolution of GPS velocity field shows that the direction is gradually changed from the south in the southern part of the Sichuan-Yunnan block to the south-west in the southern Yunnan block and there is a clear relative motion characteristic near the block boundary fault zone. Compared with the GPS velocity of 1999-2007, the results of 2011-2013 also reflect segmental deformation characteristics of the block boundary fault zone. Southeast movement shows a significant increase, which may be related to crustal deformation adjustment after the Wenchuan earthquake. The dynamic evolution of strain parameters shows a pattern of "extension in the middle and compression at both ends" in the whole area and the distribution of deformation (shear, extension or compression) is closely related to the background motion and deformation characteristics of the main fault zone. Compared with the results of the period of 1999-2007, the extensional deformation zone of 2011-2013 is expanded eastward and southward. The compressional deformation of the eastern boundary (the Xiaojiang fault zone) of the Sichuan-Yunnan block is no longer significant, which is mainly concentrated in the northern section of the Xiaojiang fault zone and may be related to the post-seismic deformation adjustment of the Wenchuan earthquake. The GPS velocity profile results show that the left-lateral slip velocity of the Xiaojiang fault zone reduced gradually from north to south (10mm/a-5mm/a), and the width of the northern section is wider. The right-lateral slip rate of the Honghe fault zone is about 4mm/a, and the deformation width is wider. The dynamic results show that the Wenchuan earthquake has little effect on the deformation modes of these two fault zones.     

玉树MS7.1级地震前的形变应变场变化特征

基于1999～2007年和2007～2009年的GPS站点观测数据计算的速度场,分析了青藏亚板块的运动特征.利用块体(旋转与线性应变)弹性运动公式计算可可西里-巴颜喀拉块体和羌唐块体的应变率、可可西里-玉树断裂带的运动速度和应变率,研究了玉树7.1级地震前的形变应变特征.结果表明:可可西里-巴颜喀拉块体处于青藏亚板块运...     

芦山地震断层的滑动分布与汶川地震断层的关系

本文利用2013年芦山M_S7.0级地震同震GPS数据反演了芦山断层几何与断层滑动分布,结果表明:芦山地震发震断层具有南陡北缓、上陡下缓的特征,低倾角的区域位于发震断层北段且靠近映秀断层的一侧;滑动分布模型的最大滑动量为0.82m,其深度为13.67km与小震发生集中平均深度12.5km接近.我们选取1998—2014年龙门山断裂带区域地壳形变观测数据,拟合获得了龙门山断裂带走向方向上的速度分量,发现在汶川M_S8.0地震与芦山M_S7.0地震之间宽度约30km破裂空区,龙门山断裂带西南段与东北段的形变分量以破裂空区为界方向相反.断裂带东北段(汶川地震主要发震断层)的形变分量方向与断层右旋走滑运动方向一致,而在断裂带西南段(芦山地震发震断层)的形变分量方向与断层左旋走滑运动方向一致.芦山地震走滑方向与汶川地震走滑方向相反是因为该断裂带构造运动在特有几何构造下受青藏高原东南向挤压,遇龙门山中段岩石圈楔状构造的阻挡,在汶川M_S8.0地震与芦山M_S7.0地震间的地震空区,形成了构造运动向其两侧分流的结果.     

1999年台湾集集大地震的地表断层破裂特征

野外考察结果表明 ,1999年 9月 2 1日台湾集集大地震是由车笼埔断层发生逆冲作用造成的。地震产生的地表破裂长约 80km ,具有明显的挤压逆断层特征 ,其活动方式为具左旋性质的逆倾滑动。实测逆冲断层以 30°～ 50°的角向西北逆冲而上。断层的垂直位移量 ,南段约 2～ 3m ,北段约 3～ 8m ;断层的水平位移量 ,南段 0～ 3m ,北段 3～ 5m ;垂直断层的水平缩短量 ,南段 2～ 3m ,北段 3～ 6m。从台湾西部麓山带的地质构造剖面分析 ,地震震源恰好位于台湾西部麓山带中生代基底与其上的沉积盖层的界面的深度 ,而西部麓山带第三纪地层和其下的基底的分离面为一滑动面 (decolle ment)。在菲律宾海板块的挤压作用下 ,沿该区中生代基底之上滑动面的错动导致了地震的发生     

利用GNSS资料研究新源-和静MS6.6地震前后地壳形变与地震关系

利用2009-2011年三期GNSS观测资料,获得新源—和静6.6级地震前后震中附近区域水平运动速率、主应变率、面膨胀率及最大剪应变率,分析得出:(1)研究区整体呈挤压缩短趋势,南部区域运动速率总体高于北部,而中部区域运动速率高于东西两侧,这与区域构造特点有关。新源—和静MS6.6地震之后,研究区西北部区域的应力场能量得到较大的吸收和释放。(2)从研究区应变分析中可以看出,沿断层出现的主应变率正负交替区域与地震的发生有一定关系。从面膨胀等值线图可以看出,两个面收缩区之间区域是地震发生的重要区域。剪应变区域变化可以反映出地震的破裂方向。     

汶川、 芦山地震前后四川地区应力场时空演化

基于四川地区2000年1月~2014年6月M_L≥3.0地震震源机制解, 首先分析了四川地区各次级地块和不同断裂带的地震震源机制类型及整体应力场特征, 其次以汶川8.0级、 芦山7.0级地震为例, 研究两次强震发生前后四川各次级地块的主压应力时空演化特征。 获得的主要认识为: ① 四川各次级地块的地震震源机制比较紊乱, 反映了块体内部构造的复杂性, 而断裂带的地震震源机制则相对比较单一, 与其运动类型一致; ② 四川各次级地块及断裂带的整体应力方向比较一致, 优势方位呈现NW和NWW向, 倾角接近水平; ③ 汶川8.0级、 芦山7.0级地震发生前, 震中所在的龙门山断裂带中南段及川青地块的主压应力方位均出现过较好的一致性, 而在芦山地震后, 龙门山断裂带及川青、 川中地块的主压应力优势方位则转变为NE向。     

2015年尼泊尔强震序列对中国大陆的应力影响

基于2015年尼泊尔地震序列的破裂模型及均匀弹性半空间模型,计算了该地震序列传递到中国西藏境内发生在定日县地震和聂拉木县地震的应力.2015年尼泊尔地震序列导致定日县地震和聂拉木地震节面和滑动方向的库仑应力增加(2~3)×103 Pa和(2.4~3.1)×105 Pa,表明这两个地震受到尼泊尔地震序列的触发.其次,我们计算了2015年尼泊尔地震序列在中国大陆及其附近主要活动断层上产生的库仑应力变化.喜马拉雅主山前逆冲断裂和青藏高原内部的拉张正断层上的库仑应力有较大的增加,而青藏高原的走滑断裂,如阿尔金断裂、东昆仑断裂、玉树玛曲断裂、班公错断裂西部、嘉黎断裂的库仑应力有较大的降低.天山南北两侧的断裂库仑应力降低.而华北及东北、华南地区的库仑应力变化几乎可以忽略不计.最后,计算了该地震序列造成的水平应力变化.水平面应力在2015年尼泊尔地震序列北向(青藏高原大部和新疆区域)增加(拉张),而在地震序列东侧的西藏南部和川滇地区南部降低(压缩),在华北和东北仅有少许增加,在华南地区有少许降低.在中国西部,主压应力表现为以2015年地震序列为圆心的向外辐射状,而主张应力方向与同心圆切线方向大体一致.水平主压应力方向在东北地区为北东向,在华北地区为北东东向,在华南地区为南东东向.这种模式与现今构造应力场方向相似,表现了2015尼泊尔地震序列所代表的印度板块和欧亚板块的碰撞是中国大陆构造变形的主要动力来源.