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本文利用GPS观测对丽江—小金河断裂带的现今断层运动和变形状态进行了分析和探讨.丽江—小金河断裂带两侧地块地壳变形差异显著,GPS速度剖面结果显示断裂带两侧存在地壳变形不连续现象;进一步以GPS速度场为约束,基于负位错模型反演的丽江—小金河断裂带的断层闭锁空间分布结果显示,以木里为界,北东段断层强闭锁从地表向深部延伸至15km左右,西南段断层闭锁程度较高的区域位于5~15km范围内,浅层表现为弱闭锁的状态;滑动亏损速率结果显示,两闭锁段的滑动亏损速率相差近4mm·a~(-1),说明丽江—小金河断裂带西南段的背景滑动速率明显高于北东段.基于数值模拟分析了西南段浅层蠕滑运动对周边断层的影响,结果表明西南段的浅层左旋滑动对北东段闭锁区和西南段深部强闭锁区均为正影响. 相似文献
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本文首先沿走向将鲜水河断裂带划分为炉霍、道孚、乾宁、康定和磨西五个断裂段,利用沿断裂带布设的跨断层短基线、短水准场地测量资料计算了近场的断层活动参数,利用覆盖断裂带相对较大区域的重力、GPS观测资料计算了重力场动态变化、GPS速度场.基于重力场动态变化和GPS速度场采用蚁群算法和粒子群算法(具有全局优化的优势)分别反演计算了五个断裂段断层活动参数,将结果中的走滑分量作为五个断裂段的现今走滑速率.通过对以上三类现今走滑速率及五个断裂段的地质平均滑动速率进行融合与对比分析,将重力资料反演计算结果作为断裂带整体走滑速率,与跨断层短基线、短水准测量计算的断层滑动速率结果进行对比分析,初步判定了各跨断层短基线、短水准场地所跨断裂的性质,最终给出了五个断裂段的现今整体左旋走滑速率和部分分支断裂左旋走滑速率,结果为:(1)炉霍段为9.13mm·a~(-1),虾拉沱区域西支断裂为2.46mm·a~(-1),东支断裂为5.84mm·a~(-1).(2)道孚段为8.57mm·a~(-1),东南段沟普区域西支断裂为1.78mm·a~(-1),东支断裂为6.79mm·a~(-1).(3)乾宁段为7.67mm·a~(-1).(4)康定段为6.14mm·a~(-1).(5)磨西段为4.41mm·a~(-1).本文还定性讨论了断裂带两侧重力、GPS测点覆盖范围内活动地块的三维弹塑性变形和古地震、历史地震造成的永久位错. 相似文献
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为了综合分析讨论鲜水河断裂带的三维运动与变形动态特征和地震危险性,利用川滇地区1999—2007和2013—2017 2期GPS速度场资料,反演计算了鲜水河断裂带的闭锁程度和平行与垂直断层的滑动亏损速率动态分布;利用布设在鲜水河断裂带附近的1980—2017年跨断层短水准资料,通过计算断层年均变化速率分析了断裂带垂直运动特征。GPS反演结果显示:1999—2007期鲜水河断裂SE段处于强闭锁状态,中段闭锁程度逐渐减弱,到NW段基本为蠕滑状态;2013—2017期鲜水河断裂SE段滑动亏损积累速率明显减弱,只有道孚—八美段之间有一小段闭锁较强,NW段依然大部分为蠕滑状态,只有炉霍SE部一段断层地表至10km深度闭锁稍有增强。水准结果显示:鲜水河断裂NW段侏倭、格篓、虚墟和沟普场地年均垂直变化速率较大,断层垂向活动较为活跃;SE段龙灯坝、老乾宁和折多塘场地年均垂直变化速率很小,断层垂向活动处于闭锁状态;汶川地震后断层垂向活动变化并不明显。综合分析认为鲜水河断裂SE段的地震危险性较高,而汶川地震降低了断层滑动亏损和应力应变能积累速率,可能在一定程度上缓解了鲜水河断裂尤其SE段的地震紧迫性。 相似文献
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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
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首先应用1999-2007年的GPS观测资料分析海原断裂带的运动特征,看出期间该断裂带GPS站点运动速度由南向北逐渐衰减,在NWW和NE走向断层两盘的运动差异较为明显,断层的活动以走滑运动为主.然后依据地质、地球物理等资料给出反演参数初值,利用水平形变资料对断裂三段的走滑速率及断层下界深度进行反演.结果为从西到东断裂带各段走滑速率分别为8.25 mm/a、5.49 mm/a和5.97 mm/a,断层底部深度依次为22.8 km;13.3 km;11.1 km.综合分析认为毛毛山-老虎山断裂运动速度明显高于海原断裂速度,在速度变化梯度较大的毛毛山断裂存在6级以上地震空区,推测具有发生强震的危险性. 相似文献
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通过对郯庐断裂带中南段近20年的跨断层定点水准测量资料的处理与分析,初步总结了郯庐断裂带中南段断层垂直形变的时空活动特征。2000—2019年郯庐断裂带中南段断层垂直形变活动整体水平不高,平均合成速率为0.19 mm/a,但具有明显的分时活动特征。2000—2010年槐柏—宿迁段活动相对较大,新沂—临沂段活动相对较小,宿迁和新沂之间存在相对闭锁段;2011—2019年整体活动速率有所降低,但安丘测点活动速率相对2000—2011年增大明显。郯庐断裂带中南段的活动特征和近20年来该地区地震活动情况存在一定的对应关系。 相似文献
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本文利用华北地区1999-2001年,2001-2004年,2004-2007年及2007-2009年四期GPS速度场资料,基于块体的整体旋转与均匀应变模型,分析了郯庐断裂带中南段的运动及变形特征。结果显示:潍坊—郯城段主要为右旋走滑的变形特征,而郯城—庐江段则为左旋滑动的变形特征,两段垂直断层方向上的变形表现为“张压交替”的特征。基于刚体运动模型,计算了扣除环渤海湾区域整体刚性运动的华北地区GPS速度场,并分析了环渤海湾区域块体的变形状态,结果显示环渤海区虽然各期的变形特征不同,特别是郯庐带附近,各期的运动特征差异较大,但基本可反映燕山—渤海地震带是运动特征差异的分界线,且每期郯庐带各站点的一致性运动明显。 相似文献
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利用川滇南部GPS站点速度资料,采用Kriging插值和有限单元中形函数(拉格朗日差值函数)求导原则,计算了川滇南部主应变速率.在此基础上,引入Kostrov地震矩率计算方法,由主应变速率求得了研究区的地震矩率,进而借助于Ward地震平均复发间隔公式计算了研究区地震(MS≥6.5)平均复发间隔.计算结果表明,川滇南部不同震级档地震复发间隔空间分布总体上与区内主要活动断裂展布基本吻合;地震复发间隔低值区主要分布在地震活动水平和滑动速率较高的安宁河—则木河—小江断裂带、丽江—小金河断裂西南段、红河断裂西北段.所得的结果与利用历史地震资料获得的结果基本一致.该方法对于历史地震资料缺乏或不完整地区和活动断层定量研究程度较低的地区有着潜在的应用价值. 相似文献
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Introduction The Global Position System (GPS) may provide information about the crust movement of high precision in a large area, which significantly improve the capability of monitoring crustal movement over the area. In the last decade, studies on the global plate movement, the large scale block motions, the high-resolution crust movement of related monitored regions and tectonic de-formation fields have become the hotspot of spatial geodesy (ZHU et al, 2003; Wang et al, 2001; HUANG et… 相似文献
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《中国地震研究》2016,(1)
In order to obtain deformation parameters in the south segment of Longmenshan fault zone,Euler datum transformation and the least square collocation for data interpolation and smoothing are used to process GPS displacement time series data in the south segment of Longmenshan fault zone,and the rigid and elastic-plastic block motion model is used to calculate the strain parameters in each subarea. Conjoint analysis of displacement,velocity of each station and strain parameters of each subarea reveals that the influence of the Wenchuan earthquake on the south segment of Longmenshan fault zone increases from southeast to northwest,causing a highest deformation rate 6 times the background value and heightening the influence of the hidden faults on the difference of the earth surface along its two sides,which leads to the seismic risk of the southern segment increasing from north to south. The comparison of seismic risk among subareas based on the tectonic and seismicity background indicates that the most dangerous area is on the southeast of Longmenshan faults,and the background strain accumulation and the promoting effect of the Wenchuan earthquake advanced the occurrence of Lushan earthquake and the sinistral strike-slip on the rupture plane. The Wenchuan earthquake also caused a slight two-year long continuous strain release in the south segment of Xianshuihe fault,but the influence is far less than the effect of the compressive strain caused by the Sichuan-Yunnan block. 相似文献
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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
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利用截止2007年最新的、跨祁连山构造带红外测距观测资料,结合区域GPS观测所得形变背景,获取跨断层水平应变强度时空演变特征,分析其与2002年玉门Ms5.9级、2003年民乐Ms6.1.级等地震孕育一发生过程的关系。结果表明:①震前数月至1年左右,震中所在断层段(或整个构造带)应变加速或相对其它断层段显著,压性为主;其内一定数量场地最大剪应变强度明显“增强”或面应变强度“压性增强”(至绝对值2.0左右及以上),震后减弱或呈现张性转折。②2004年下半年以来祁连山构造带总体恢复压性变化为主的应力场状态,反映一定程度应力应变积累特性;2007年构造带西段压性应变明显增强。 相似文献
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DEFORMATION CHARACTERISTICS AND KINEMATIC PARAMETERS INVERSION OF HAIYUAN FAULT ZONE BASED ON TIME SERIES INSAR 
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下载免费PDF全文 Located at the bend of the northeastern margin of Qinghai-Tibet Plateau, the Haiyuan fault zone is a boundary fault of the stable Alashan block, the stable Ordos block and the active Tibet block, and is the most significant fault zone for the tectonic deformation and strong earthquake activity. In 1920, a M8.5 earthquake occurred in the eastern segment of the fault, causing a surface rupture zone of about 240km. After that, the segment has been in a state of calmness in seismic activity, and no destructive earthquakes of magnitude 6 or above have occurred. Determining the current activity of the Haiyuan fault zone is very important and necessary for the analysis and assessment of its future seismic hazard.
To study activity of the Haiyuan fault zone, the degree of fault coupling and the future seismic hazard, domestic and foreign scholars have carried out a lot of research using geology methods and GPS geodetic techniques, but these methods have certain limitations. The geology method is a traditional classical method of fault activity research, but dislocation measurement can only be performed on a local good fault outcrop. There are a limited number of field measurement points and the observation results are not equally limited depending on the sampling location and sampling method. The distribution of GPS stations is sparse, especially in the near-fault area, there is almost no GPS data. Therefore, the spatial resolution of the deformation field features obtained by GPS is low, and there are certain limitations in the kinematic parameter inversion using this method.
In this study, we obtain the average InSAR line-of-sight deformation field from the Maomaoshan section to the mid-1920s earthquake rupture segment of the Haiyuan earthquake in the period from 2003 to 2010 based on the PSInSAR technique. The results show that there are obvious differences between the slip rates of the two walls of the fault in the north and the south, which are consistent with the motion characteristics of left-lateral strike-slip in the Haiyuan fault zone. Through the analysis of the high-density cross-fault deformation rate profile of the Laohushan segment, it is determined that the creep length is about 19km. Based on the two-dimensional arctangent model, the fault depth and deep slip rate of different locations in the Haiyuan fault zone are obtained. The results show that the slip rate and the locking depth of the LHS segment change significantly from west to east, and the slip rate decreases from west to east, decreasing from 7.6mm/a in the west to 4.5mm/a in the easternmost. The western part of the LHS segment and the middle part are in a locked state. The western part has a locking depth of 4.2~4.4km, and the middle part has a deeper locking depth of 6.9km, while the eastern part is less than 1km, that is, the shallow surface is creeping, and the creep rate is 4.5~4.8mm/a. On the whole, the 1920 earthquake's rupture segment of the Haiyuan fault zone is in a locked state, and both the slip rate and the locking depth are gradually increased from west to east. The slip rate is increased from 3.2mm/a in the western segment to 5.4mm/a in the eastern segment, and the locking depth is increased from 4.8km in the western segment to 7.5km in the eastern segment. The results of this study refine the understanding of the slip rate and the locking depth of the different segments of the Haiyuan fault zone, and provide reference information for the investigation of the strain accumulation state and regional seismic hazard assessment of different sections of the fault zone. 相似文献
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Characteristics of Recent Horizontal Crustal Movement and Tectonic Deformation in the Northwest China Region 总被引:1,自引:0,他引:1
INTRODUCTIONThe vector diagramof the crustal horizontal movement of the north margin of Qinghai-Xizang(Tibet) block obtained from GPS measurements of 2001 ~2003 shows that the western part of theregion presents a southwestward movement oppositetothetrend beforethe Nov.14 ,2001 west KunlunMountains PassMS8 .1 earthquake ,which mayreflectthe post-earthquake relaxationand adjustment ofthe region (Zhang Xi ,2004) .It was the variation of regional dynamics that led to instability of thepo… 相似文献
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陕西中部地区跨断层垂直形变与水平应变相关性分析 总被引:1,自引:0,他引:1
利用陕西中部地区近年来跨断层垂直形变资料和由GPS结果给出的水平最大剪应变场资料,对2005年度会商中提出的8处跨断层形变异常点位置,插值拟合出其水平应变值,并与垂直形变数据进行相关性分析发现,临潼-长安断裂垂直形变和水平应变正相关显著;口镇-关山断裂与华山山前断裂呈现负相关;岐山-马召断裂北段正相关显著,而中段与南段相关性差。这可能是由于这些断裂以及各段受力情况不同造成的,其中口镇-关山断裂东段和岐山-马召断裂北段近年来垂直运动幅度大活动强烈,应加以特别关注。 相似文献