共查询到20条相似文献,搜索用时 31 毫秒
1.
Based on the horizontal crustal strain derived from GPS data and the rate accumulation intensity calculated from across-fault vertical deformation, the strain characteristics in the periods of 1992–1995, 1995–1996 and 1996–1999 in Baotou-Datong area is studied in the paper. From the comparison between the crustal strains before and after the M=6.4 Baotou earthquake occurred on May 3, 1996, it is considered that the high-magnitude area with predominant compressive strain might be the seismogenic zone for a coming strong earthquake. The area with the simultaneous higher surface strain, principal compressive strain, shear strain and tendency accumulation might be the place with higher risk of strong earthquakes. Generally, the area with low strain and predominant tensile strain might have a small possibility for strong earthquake development, which belongs to a stable area. The evolution of horizontal strain obtained from GPS measurements carried out in Baotou-Datong area in the period of 1992–1999 reflects the total developing and ending processes of the seismic episode from 1996 to 1998. The area with high and predominant compressive strain and the strain gradient zone can be considered as one of the indicators for determining the strong earthquake risk area in the future. 相似文献
2.
Introduction Since the 1990s, GPS technique has been widely used in the crustal deformation measurement in China, which has promoted the development in geodynamic study. More and more attentions have been paid to GPS data in the study on crustal movement by the vast geoscientists and many significant results have been achieved (HUANG, et al, 1996; LI, et al, 1998; GUO, 2000). The North China is one of the areas to establish GPS monitoring networks earlier in China. After the establis… 相似文献
3.
Through numerical simulation for GPS data, aseism/c negative dislocation model for crustal horizontal movement during 1999-2001 in the northeast margin of Qinghai-Xizang block is presented, combined with the spatial distri-bution of apparent strain field in this area, the characteristics of motion and deformation of active blocks and their boundary faults, together with the place and intensity of strain accumulation are analyzed. It is shown that: a) 9 active blocks appeared totally clockwise motion from eastward by north to eastward by south. Obvious sinistral strike-slip and NE-NEE relative compressive motion between the blocks separated by Qilianshan-Haiyuan fault zone was discovered; b) 20 fault segments (most of them showed compression) locked the relative motion between blocks to varying degrees, among the total, the mid-east segment of Qilianshan fault (containing the place where it meets Riyueshan-Lajishan fault) and the place where it meets Haiyuan fault and Zhuanglanghe fault, more favored accumulation of strain. Moreover, the region where Riyueshan-Lajishan fault meets north boundary of Qaidam block may have strain accumulation to some degree, c) Obtained magnitude of block velocities and locking of their boundaries were less than relevant results for observation in the period of 1993-1999. 相似文献
4.
A quantitative research for present-time crustal motion in Fujian Province, China and its marginal sea 总被引:2,自引:0,他引:2
Based on the Chinese mainland GPS network (1994~1996), Fujian GPS network (1995~1997), cross fault deformation network (1982~1998), precise leveling network (1973~1980) and focal mechanism solutions of the recent several tens years, we synthetically and quantitatively studied the present-time crustal motion of the southeast coast of Chinese mainland-Fujian and its marginal sea. We find that this area with its mainland together moves toward SE with a rather constant velocity of 11.2(3.0 mm/a. At the same time, there is a motion from the Quanzhou bay pointing to hinterland, with a major orientation of NW, extending toward two sides, and with an average velocity of 3.0(2.6 mm/a. The faults orienting NE show compressing motions, and the ones orienting NW show extending motions. The present-time strain field derived from crustal deformation is consistent with seismic stress field derived from the focal mechanism solutions and the tectonic stress field derived from geology data. The principal stress of compression orients NW (NWW) - SE (SEE). Demarcated by the NW orienting faults of the Quanzhou bay and Jinjiang-Yongan, the crustal motions show regional characteristics: the southwest of Fujian and the boundary of Fujian and Guangdong are areas of rising, the northeast of Fujian are areas of sinking. The horizontal strain rate and the fault motion of the former are both greater than the later. The side-transferring motion of Hymalaya collision zone and the compression of the west pacific subduction zone affect the motion of the research area. The amount of motion affected by the former is larger than the later, but the former is homogeneous and the later is not, which indicates that the events of strong earthquakes in this region relate more directly with western pacific subduction zone. 相似文献
5.
Introduction In the years when the reliable data could not be obtained and in the analysis of strain property and magnitude in history, the intensity, property and activity pattern of strain field were mainly inferred on the bases of geometric characters of surface traces and behaviors (especially the faults) as well as the characteristics of petrology (XIE, et al, 1993; Molnar, Tapponnier, 1975, 1977; Tapponnier, Molnar, 1977; FU, et al, 2000). However, they are the averaged results accumu… 相似文献
6.
华北地区近期地壳水平运动与应力应变场特征 总被引:49,自引:7,他引:42
利用华北GPS监测网 1 992年、1 995年、1 996年的观测资料 ,应用最小二乘配置给出了华北地区相对水平位移场、应变场的分布图像 .经初步研究表明 :华北地区 1 992-1 995年间的水平位移和应变场表现为整体性不均匀的压性运动 ,1 995- 1 996年测区东部仍以水平压性运动为主 ,但测区西部则主要表现为张性运动 .水平运动 (方向、大小 )发生显著变化和应变高值区的地带主要位于块体边界带和主要断裂带附近 .燕山断块南边界的北东向断裂存在着较显著的左旋运动 .区内最大剪应变、面膨胀的高值区在天津、北京、唐山一带 .结合非连续变形数值分析方法 (DDA)初步分析认为 ,1 992- 1 995年GPS观测结果显示的华北地区存在东、西部构造应力作用的明显差别 ,华北东部以东西向压应力作用为主 ,而西部的南北向构造应力作用又明显大于东部 . 相似文献
7.
Introduction According to the negative dislocation model (Matsu′ura et al, 1986), the relative motion be-tween active blocks under contemporary crustal movement is likely to be partially blocked on the boundaries. Suppose the lower ductile zone of boundary could slip freely, while due to the fric-tional resistance, etc., the upper brittle zone would restrict such kind of relative motion, so as to give rise to stress and strain accumulation. Namely, the surface displacement in the block bound-… 相似文献
8.
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。 相似文献
9.
Based on GPS velocity during 1999-2007, GPS baseline time series on large scale during 1999-2008 and cross-fault leveling data during 1985-2008, the paper makes some analysis and discussion to study and summarize the movement, tectonic deformation and strain accumulation evolution characteristics of the Longmenshan fault and the surrounding area before the MS8.0 Wenchuan earthquake, as well as the possible physical mechanism late in the seismic cycle of the Wenchuan earthquake. Multiple results indicate that:GPS velocity profiles show that obvious continuous deformation across the eastern Qinghai-Tibetan Plateau before the earthquake was distributed across a zone at least 500km wide, while there was little deformation in Sichuan Basin and Longmenshan fault zone, which means that the eastern Qinghai-Tibetan Plateau provides energy accumulation for locked Longmenshan fault zone continuously. GPS strain rates show that the east-west compression deformation was larger in the northwest of the mid-northern segment of the Longmenshan fault zone, and deformation amplitude decreased gradually from far field to near fault zone, and there was little deformation in fault zone. The east-west compression deformation was significant surrounding the southwestern segment of the Longmenshan fault zone, and strain accumulation rate was larger than that of mid-northern segment. Fault locking indicates nearly whole Longmenshan fault was locked before the earthquake except the source of the earthquake which was weakly locked, and a 20km width patch in southwestern segment between 12km to 22.5km depth was in creeping state. GPS baseline time series in northeast direction on large scale became compressive generally from 2005 in the North-South Seismic Belt, which reflects that relative compression deformation enhances. The cross-fault leveling data show that annual vertical change rate and deformation trend accumulation rate in the Longmenshan fault zone were little, which indicates that vertical activity near the fault was very weak and the fault was tightly locked. According to analyses of GPS and cross-fault leveling data before the Wenchuan earthquake, we consider that the Longmenshan fault is tightly locked from the surface to the deep, and the horizontal and vertical deformation are weak surrounding the fault in relatively small-scale crustal deformation. The process of weak deformation may be slow, and weak deformation area may be larger when large earthquake is coming. Continuous and slow compression deformation across eastern Qinghai-Tibetan Plateau before the earthquake provides dynamic support for strain accumulation in the Longmenshan fault zone in relative large-scale crustal deformation. 相似文献
10.
Horizontal movement and strain characteristics in Tianshan and its adjacent region with GPS deformation data 总被引:1,自引:0,他引:1
Introduction The Tianshan Mountain is the youngest cordillera in the present-day continental Asia, and its tectonic evolution is closely related to the collision and subduction between Indian Plate and Eurasian Plate in the Himalayas orogen since Cenozoic… 相似文献
11.
Current tectonic deformation and seismogenic characteristics along the northeast margin of Qinghai -Xizang block 总被引:2,自引:0,他引:2
Introduction The northeast margin of Qinghai-Xizang block has become the place with close attentions from geo-specialists at home and abroad for its significant tectonic movement and intensive seismicity. Quite a number of achievements have been obtained from the studies on geological structures and strong earthquake activities (DING, LU, 1989, 1991; GUO, et al, 1992, 2000; GUO, XIANG, 1993; HOU, et al, 1999; Tapponnier, et al, 1990; Gaudemer, et al, 1995). In the Development Program… 相似文献
12.
利用2013~2017年3期GPS观测资料,通过结合区域构造背景分析呼图壁MS6.2地震震中及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动态变化特征。结果表明,呼图壁地震前发震构造南部区域地壳速率高于北部区域运动速率,造成发震构造两盘运动速率不同,地壳能量积蓄。呼图壁地震释放了区域积蓄的应变能量,由于区域构造因素,影响范围较小。震前震中附近区域处于压缩环境,易于聚集应变能量;震时震中区出现面膨胀等值线密集高梯度带,是地壳应变能量交换和释放剧烈区域。震中区最大剪应变变化不大,反映呼图壁地震逆冲性质,最大剪应变高值区对地震危险性有预示作用。 相似文献
13.
IntroductionShanxi is a significant seismic activity area in North China (WANG, 1995), named as Shanxi fault zone. One can see how important it is by the name. Up to now, a large number of achievements have been obtained from the studies mainly by the geological method. In order to improve the seismic research and carry out earthquake monitoring and prediction in this area, a GPS horizontal deformation monitoring network is established along the fault from the north to the south by the Se… 相似文献
14.
全球定位系统(GPS)观测和信息处理技术的发展, 为获取高精度地壳水平运动和相关的应用研究提供了良好的基础. 应用中国地壳运动观测网络中心提供的1999—2007年GPS水平形变速率观测结果, 研究了地壳水平形变面应变率梯度与强震发生的关系, 探索了地震中长期预测对强震危险区的判识方法. 结果表明, 中国大陆2001—2011年发生的大部分MS6.8以上强震, 地震地点均位于面应变梯度高-低值过渡区与块体边界带相交汇的部位; GPS面应变率梯度可以作为中长期强震危险区判识的一种方法, 与最大剪应变率分布相比, 缩小了强震孕育地点的判识范围. 文章最后给出了中国大陆地区未来10年或稍长时间的强震危险区. 相似文献
15.
四川地区地质构造复杂,地壳活动剧烈,为了深入揭示该区“Y”型构造区地壳1999年以来近20年的动态演化规律,基于1999—2017年7期GPS数据,解算各周期网格速度场、应变率场,研究地壳应变场演化过程。结果表明:①2008年以前的3期GPS速度场相对稳定,汶川地震后,速度场变化最大的龙门山断裂带由4.0—5.0 mm/a增至8.0—10.0 mm/a;②汶川震后,“Y”型构造区最大剪应变高值区出现在汶川以东,由2.0×10-8/a增到22.0×10-8/a;龙门山断裂带以SE或SEE向主压应变为主,变化速率约5.0×10-8/a—12.0×10-8/a,鲜水河断裂由震前NS向主拉应变转为震后EW向主压应变,安宁河断裂东侧由震前SE向主压应变6.0×10-8/a减至震后的2.0×10-8/a;面膨胀结果显示,由震前低密度梯度带瞬间变为平行于龙门山断裂带走向的高密度变化区,且存在以金川至都江堰、北川至青川为条带的2个正负交替过渡区;③汶川地震发生压应力释放后,该区SEE向压性特征又逐渐增强,且持续至2017年,释放了龙门山断裂带地壳内部SEE向压应力多年累积能量,但汶川地震对鲜水河断裂与安宁河断裂的整体运动状态则无明显触发作用。 相似文献
16.
利用青藏块体东北缘地区 1993与 1999年GPS观测获得的地壳水平运动速度场结果 ,初步研究了该区的应变场与构造变形。该区应变场以近NE向的主压应变为主体 ,伴随着近NW向的张性应变。河西走廊中、东段 ,尤其是武威断块是压应变最强的区域。应变场形成的剪应变以近EW向的左旋剪切为主体 ,表明该区NWW向的块体边缘主干断裂的活动方式是左旋走滑兼挤压。剪应变高值区主要分布于青藏块体东北边界带的武威、祁连一带。甘青块体与阿拉善块体之间整体左旋扭动速率约为 6mm/a。配合非连续变形分析法 (DDA)数值模拟 ,初步分析了该区的构造应力场背景 ,认为该区相对水平运动和构造变形分布特征不仅是印度板块推挤应力场作用的结果 ,还可能与来自西侧南强北弱的向东的动力作用有关 相似文献
17.
根据华北地区12,15,16,1年高精度GPS观测结果,给出了华北地区各主要构造单元间两个时段(12-16年和16-1年)的相对水平运动.其结果为:①相对于鄂尔多斯单元,阴山单元的运动为(0-2.3)±1.6mm/a,方向约0°-W13°N,属于相对较弱左旋走滑运动.②相对于鄂尔多斯单元,晋冀鲁豫单元的运动为(4.4±1.0)-(2.5±1.5)mm/a,方向约为S50°-30°E,属于右旋型拉张运动;相对于燕山单元,则为(4.7±1.4)-(4.3±1.4)mm/a,方向约为E37°-°S,属拉张型左旋走滑运动.③相对于晋冀鲁豫单元,胶辽鲁苏单元12-16年的运动显示了顺扭的运动特征;16-1年的运动为(2.6±1.5)mm/a,保持顺扭趋势,方向约为W11°S,总体上属于北张南压的右旋走滑运动.分析表明:现今地壳构造活动与现代地壳构造运动性质基本一致,但量值有所差别;地壳运动存在着数年尺度的较明显的波动性,这可能是大陆地壳运动的一个主要特征;16-1年的运动不同于12-16年,主要表现为鄂尔多斯单元北移态势增强,山西断陷带和燕山构造带两侧拉张性有所减弱,可能是张北地震后应力调整与华北地区边界力耦合共同作用的结果. 相似文献
18.
首先, 利用“中国地壳运动观测网络”和“中国构造环境观测网络”截至2013年的GPS区域站观测资料, 结合地质构造, 简要分析了2014年2月12日新疆于田7.3级地震前大区域地壳水平运动变形背景; 接着, 对青藏块体东北缘地区GPS和精密水准两种不同类型资料反映的地壳运动变形与应变积累状态进行了对比分析研究; 最后, 结合地震活动动力环境, 研究和探讨了于田7.3级地震的发生对青藏块体东北缘地震活动的可能影响。 我们认为, 此次于田7.3级地震发生在近年来中国西部边邻强构造活动环境和内陆地壳强烈差异运动显著的背景下, 同时也是青藏块体及其边缘构造应力场较强的时段; 于田7.3级地震左旋走滑错动和应力传递, 可能会加速青藏块体东北缘具有高应变积累的构造断裂部位(尤其是祁连山构造带、 西秦岭以南的甘青川交界)破裂释放。 相似文献
19.
Shengzao Chen 《地震学报(英文版)》1992,5(4):749-758
Seismotectonic characteristics and its relationships with crustal structure have been analyzed in the lower Yangzi—South Yellow
Sea area. The finite element method is employed to evaluate the stress-strain status of the lithosphere, and the dynamic origin
of earthquakes is discussed. The moderate-weak earthquake division is tectonically controlled by three first-degree faults
in the Hangzhou bay—Qinling, Tancheng—Lujiang, and the Yangzi River mouth—Jizhou island. The earthquake frequency is higher
than 70% in the major hypocentral layer of the crust at a depth of 5 to 15 km of which the highest frequency particularly
emerges at a depth of 10 to 15 km, and generally, the depth ranges from 5 to 20 km in the predominant hypocentral layer. The
hypocentral layer is superimposed in the crustal magnetosphere with the mid-crustal low density layer. The results from the
finite element analysis show that the maximum horizontal displacements appear in the hypocentral layer of the crust, and that
the radial hypocentral zones on the flanks of the anomalous mantle, accompanied by the faults or fractured zones, correspond
to the gradient zones of the major principal stresses and strains varying within the lithosphere. Therefore, we could consider
the mechanism of the decoupling-drift of the lithosphere and the crustal sliding or detachment, from the continent to the
sea, as a main dynamogenesis of the earthquakes in the area studied.
The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,14, 164–171, 1992.
This research was supported by the China National Post-Doctoral Research Foundation in part. Some contents on the aeromagnetic
anomalies and their mathematical processes are deleted in revision. 相似文献
20.
基于2013年岷县漳县M6.6地震震源区及其邻区1999年以来的GPS观测资料,通过应变率动态特征分析、多期次GPS剖面分析和基线变形速率的分析讨论了地震的震前变形特征.GPS速度场和块体应变率表明,汶川地震的发生导致了柴达木地块运动与变形状态发生明显调整,但由于西秦岭北缘等深大断裂的存在,岷-秦地块对其响应不明显;GPS连续应变率显示,在汶川地震引起的区域地壳变形调整过程中岷县漳县地震震源区附近的应变积累速率有减缓的迹象;GPS剖面显示,平行于岷县漳县主破裂带的运动分量对汶川地震响应显著,汶川震后表现为剪切变形速率的增强,而垂直于主破裂带的运动分量则对汶川地震响应不明显;震中周边GPS基线变形速率表明,基线伸缩变化率总体呈现NW向拉张、NE向压缩状态,且拉张量明显小于压缩量.上述地壳变形动态特征表明西秦岭北缘断裂及其附近地区的应变积累水平和断层闭锁程度可能处于较高水平,在岷县漳县地震前该区表现出局部“硬化”迹象. 相似文献