1999年台湾集集地震震后地表变形的力学机制          下载免费PDF全文

付真  张海明  蔡永恩 《地球物理学报》2013,56(8):2681-2689

1999年台湾集集地震震后450天的GPS观测资料显示了几十到几百毫米的地表位移.下地壳的震后黏性松弛和断层无震蠕变产生的震后滑动是用来解释地表震后变形的两个主要机制.本文利用接触问题的黏弹性有限元(LDDA)方法,以GPS观测数据作为约束,分别考察了黏性松弛和震后滑动机制对地表震后变形的影响.计算结果表明,黏性松弛机制产生的地表位移与观测数据吻合较好,通过试错法由震后GPS观测约束得到的下地壳黏度为10¹⁷Pa·s,而上地幔黏度对计算结果影响不大.考察震后滑动机制对地表变形的影响时,在LDDA方法中结合了速率状态摩擦定律,结果显示震后滑动机制不能很好地解释震后450天的观测数据,它产生的地表变形只在震后50天内与观测大致吻合,之后位移值基本不随时间变化.这些结果有助于增进对集集地震震后变形机制的认识.  相似文献   

昆仑山M_s 8.1级地震震后变形场数值模拟与成因机理探讨   总被引：2，自引：0，他引：2       下载免费PDF全文

邵志刚  傅容珊  薛霆虓  黄建华 《地球物理学报》2008,51(3):805-816

2001年11月14日,在青海和新疆交界处发生了昆仑山M_s8.1级强烈地震,GPS后观测显示,此次地震震后形变不仅在断裂南北两侧存在很大的差异,而且在短时间调整后断裂南北两侧表现为同向运动.本文以观测的地震形变为约束,通过有限元数值模拟分析昆仑山地震震后形变的物理机制.建立有关的有限元虚功方程,通过有限元数值方法模拟震后形变,从理论上分析介质的非均匀性、黏滞性松弛、流体调整对震后形变的影响.采用网格搜索确定昆仑断裂南北两侧下地壳的黏滞系数分别为5.0×10¹⁷Pa·s, 9.0×10¹⁸Pa·s左右,正是这十余倍的差异引起了断裂两侧震后形变的非对称性和同向运动,这一差异既是长期地质作用的结果,又是现代地球动力学环境的决定因素之一.通过数值模拟定性讨论了断裂北侧地表形变在震后短期内的调整,对于靠近断裂附近的测点可能是黏弹性松弛和孔隙流体调整共同作用的结果,所以在分析短期震后形变时综合考虑黏弹松弛和孔隙流体调整是很有必要的.  相似文献   

Rapid afterslip and short-term viscoelastic relaxation following the 2008 M_W7.9 Wenchuan earthquake     

Zhigang Shao Rongjiang Wang  Yanqiang Wu  Langping Zhang Institute of Earthquake Science  China Earthquake Administration  Beijing  China GFZ German Research Center for Geosciences  D- Potsdam  Germany 《地震学报(英文版)》2011,(2):163-175

Significant postseismic deformation of the 2008 M W 7.9 Wenchuan earthquake has been observed from GPS data of the first 14 days after the earthquake. The possible mechanisms for the rapid postseismic deformation are assumed to be afterslip on the earthquake rupture plane and viscoelastic relaxation of coseismiclly stress change in the lower crust or upper mantle. We firstly use the constrained least squares method to find an afterslip model which can fit the GPS data best. The afterslip model can explain n...  相似文献   

Combined GPS and InSAR Models of Postseismic Deformation from the Northridge Earthquake     

A. Donnellan  J. W. Parker  G. Peltzer 《Pure and Applied Geophysics》2002,159(10):2261-2270

--Models of combined Global Positioning System (GPS) and Interferometric Synthetic Aperture Radar (InSAR) data collected in the region of the Northridge earthquake indicate that significant afterslip on the main fault occurred following the earthquake. Additional shallow deformation occurred to the west of the main rupture plane. Both data sets are consistent with logarithmic time-dependent behavior following the earthquake indicative of afterslip rather than postseismic relaxation. Aftershocks account for only about 10% of the postseismic motion. The two data sets are complimentary in determining the postseismic processes. Fault afterslip and shallow deformation dominate the deformation field in the two years following the earthquake. Lower crustal deformation may play an important role later in the earthquake cycle.  相似文献   

基于GPS观测研究2010年青海玉树M_S7.1地震震后地壳形变特征及其机制          下载免费PDF全文

孟国杰  苏小宁  徐婉桢  任金卫  杨永林  Nikolay V. Shestakov 《地球物理学报》2016,59(12):4570-4583

2010年4月14日青海玉树M_S7.1地震发生在青藏高原东南部甘孜-玉树地震带,在震后7~10天内,我们快速建立了由15个GPS测站组成的跨地震破裂带观测剖面,包括1个连续站,3个半连续站和11个流动站,对所有站进行了240多天的观测,获取了该次地震的震后形变时空特征.采用欧拉矢量和位错模型解算了背景速度场,并从GPS观测的形变场中扣除该分量.采用分层黏弹性位错模型计算余震引起的地表形变,结果表明余震对部分测站的位移造成不可忽视的影响.采用对数模型拟合位移时间序列,表明特征衰减时间为6.7±1.2天.利用最速下降法反演震后余滑时空分布,反演结果表明震后断层活动以左旋滑动为主,断层南盘具有少量的抬升.在空间分布上,余滑主要位于同震破裂区的两侧,西北侧的余滑几乎达到地表,而东南区的余滑基本在同震破裂区的下方,余滑最大的区域位于结古镇东南下方10~20 km的深度范围.随着震后离逝时间的增加,2个余滑区在空间上保持不变,余滑区的面积逐渐扩大.余滑的矩释放为（1.5~5.1）×10¹⁸Nm,相当于1个M_W6.1~6.4地震释放的能量.分层岩石圈黏弹性模型计算的地壳孔隙弹性反弹形变与地表观测值相差较大,不能解释观测到的震后变形.采用麦克斯维尔流变体模型计算下地壳和上地幔松弛引起的地表形变,显示出其对地表形变的贡献较小.GPS观测得到的震后形变所具有的快速衰减特征,以及余滑模型能够较好地拟合GPS地表形变,表明2010年玉树M_S7.1地震后早期阶段的地壳形变主要是由余滑机制决定的.  相似文献   

Mechanisms of Transient Postseismic Deformation Following the 2001 Mw 7.8 Kunlun (China) Earthquake     

Faqi Diao  Xiong Xiong  Rongjiang Wang 《Pure and Applied Geophysics》2011,168(5):767-779

Using global positioning system (GPS) technology, significant postseismic surface displacements were observed within the first 4 months after the 2001 Mw 7.8 Kunlun earthquake which occurred in China. In this study, we investigated the mechanisms that may have possibly contributed to the postseismic deformations that have been observed. Based on the modeling results, we find that an afterslip model can interpret postseismic displacements in the near field even when the fault plane is extended to the bottom of the crust (~70 km). Models based on the viscoelastic relaxation theory showed a large discrepancy in the spatial pattern of the deformation compared with what has been observed. Thus, we infer that both mechanisms cannot interpret the observed postseismic deformation independently. A combination of afterslip and viscoelastic relaxation can further improve the data fit, especially at sites far from the fault. With maximum afterslip of ~0.4 m occurring at a depth of 10 km in the central section, the combined model shows that the estimated afterslip occurred mostly on and below the coseismic rupture plane, as well as on its eastern extension. The estimated moment released by the afterslip in the first 4 months is almost 40% of that released by the coseismic slip. The best-fitting viscoelastic relaxation model shows a “weak” upper mantle with a viscosity of ~1.0 × 10¹⁸ Pa s. The combined model also suggests the existence of a lower crust with viscosity larger than 1.0 × 10¹⁸ Pa s, although it cannot be constrained accurately.  相似文献   

Postseismic Deformation Following the 2010 $$M = 7.2$$ El Mayor-Cucapah Earthquake: Observations,Kinematic Inversions,and Dynamic Models     

Christopher Rollins  Sylvain Barbot  Jean-Philippe Avouac 《Pure and Applied Geophysics》2015,172(5):1305-1358

Due to its location on a transtensional section of the Pacific-North American plate boundary, the Salton Trough is a region featuring large strike-slip earthquakes within a regime of shallow asthenosphere, high heat flow, and complex faulting, and so postseismic deformation there may feature enhanced viscoelastic relaxation and afterslip that is particularly detectable at the surface. The 2010 \(M = 7.2\) El Mayor-Cucapah earthquake was the largest shock in the Salton Trough since 1892 and occurred close to the US-Mexico border, and so the postseismic deformation recorded by the continuous GPS network of southern California provides an opportunity to study the rheology of this region. Three-year postseismic transients extracted from GPS displacement time-series show four key features: (1) 1–2 cm of cumulative uplift in the Imperial Valley and \(\sim\)1 cm of subsidence in the Peninsular Ranges, (2) relatively large cumulative horizontal displacements \(>\)150 km from the rupture in the Peninsular Ranges, (3) rapidly decaying horizontal displacement rates in the first few months after the earthquake in the Imperial Valley, and (4) sustained horizontal velocities, following the rapid early motions, that were still visibly ongoing 3 years after the earthquake. Kinematic inversions show that the cumulative 3-year postseismic displacement field can be well fit by afterslip on and below the coseismic rupture, though these solutions require afterslip with a total moment equivalent to at least a \(M = 7.2\) earthquake and higher slip magnitudes than those predicted by coseismic stress changes. Forward modeling shows that stress-driven afterslip and viscoelastic relaxation in various configurations within the lithosphere can reproduce the early and later horizontal velocities in the Imperial Valley, while Newtonian viscoelastic relaxation in the asthenosphere can reproduce the uplift in the Imperial Valley and the subsidence and large westward displacements in the Peninsular Ranges. We present two forward models of dynamically coupled deformation mechanisms that fit the postseismic transient well: a model combining afterslip in the lower crust, Newtonian viscoelastic relaxation in a localized zone in the lower crust beneath areas of high heat flow and geothermal activity, and Newtonian viscoelastic relaxation in the asthenosphere; and a second model that replaces the afterslip in the first model with viscoelastic relaxation with a stress-dependent viscosity in the mantle. The rheology of this high-heat-flow, high-strain-rate region may incorporate elements of both these models and may well be more complex than either of them.  相似文献   

2010年马乌莱MW8.8地震震后形变三维黏弹性数值模拟          下载免费PDF全文

张懿行  胡岩  Segun Steven Bodunde 《地震学报》2021,43(2):180-193

2010年智利马乌莱MW8.8地震发生在纳斯卡板块与南美板块的板块边界处,引起了显著的同震和震后效应.GPS台网数据显示记录到的同震海向位移最大约5 m,垂向沉降最大约50 cm.在经过对俯冲效应、季节变化等效应的校正后,震后6年的海向最大位移约68 cm,垂向抬升最大约20 cm.马乌莱地震显著的震后形变对该区域的地...  相似文献   

Spatio-temporal Slip, and Stress Level on the Faults within the Western Foothills of Taiwan: Implications for Fault Frictional Properties     

Ya-Ju Hsu  Jean-Philippe Avouac  Shui-Beih Yu  Chien-Hsin Chang  Yih-Min Wu  Jochen Woessner 《Pure and Applied Geophysics》2009,166(10-11):1853-1884

We use preseismic, coseismic, and postseismic GPS data of the 1999 Chi-Chi earthquake to infer spatio-temporal variation of fault slip and frictional behavior on the Chelungpu fault. The geodetic data shows that coseismic slip during the Chi-Chi earthquake occurred within a patch that was locked in the period preceding the earthquake, and that afterslip occurred dominantly downdip from the ruptured area. To first-order, the observed pattern and the temporal evolution of afterslip is consistent with models of the seismic cycle based on rate-and-state friction. Comparison with the distribution of temperature on the fault derived from thermo-kinematic modeling shows that aseismic slip becomes dominant where temperature is estimated to exceed 200° at depth. This inference is consistent with the temperature induced transition from velocity-weakening to velocity-strengthening friction that is observed in laboratory experiments on quartzo-feldspathic rocks. The time evolution of afterslip is consistent with afterslip being governed by velocity-strengthening frictional sliding. The dependency of friction, μ, on the sliding velocity, V, is estimated to be ${{\partial \mu }/{\partial \, {\rm ln}\, V}} = 8 \times 10^{ - 3}$ . We report an azimuthal difference of about 10–20° between preseismic and postseismic GPS velocities, which we interpret to reflect the very low shear stress on the creeping portion of the décollement beneath the Central Range, of the order of 1–3 MPa, implying a very low friction of about 0.01. This study highlights the importance of temperature and pore pressure in determining fault frictional sliding.  相似文献   

Viscoelastic relaxation of the upper mantle and afterslip following the 2014 MW8.1 Iquique earthquake     

《地震研究进展（英文）》2021,1(1):100002

An improved understanding of postseismic crustal deformation following large subduction earthquakes may help to better understand the rheological properties of upper mantle and the slip behavior of subduction interface. Here we construct a three-dimensional viscoelastic finite element model to study the postseismic deformation of the 2014 M_W8.1 Iquique, Chile earthquake. Elastic units in the model include the subducting slab, continental and oceanic lithospheres. Rheological units include the mantle wedge, the oceanic asthenosphere and upper mantle. We use a 2 ​km thick weak shear zone attached to the subduction fault to simulate the time-dependent stress-driven afterslip. The viscoelastic relaxation in the rheological units is represented by the Burgers rheology. We carry out grid-searches on the shear zone viscosity, thickness and viscosity of the asthenosphere, and they are determined to be 10¹⁷ ​Pa ​s, 110 ​km and 2 ​× ​10¹⁸ ​Pa ​s, respectively. The stress-driven afterlsip within the first two years is up to ~47 ​cm and becomes negligible after two years (no more than 5 ​cm/yr). Our results suggest that a thin, low-viscosity oceanic asthenosphere together with a weak shear zone attached to the fault are required to better reproduce the observed postseismic deformation.  相似文献   

利用GPS观测资料分析2008年于田Ms7.3地震的同震位移及震后形变   总被引：3，自引：0，他引：3       下载免费PDF全文

王凡  陈为涛  王敏  沈正康  王阎昭  万永革 《地球物理学报》2011,54(9):2250-2255

2008年3月21日新疆于田发生Ms7.3级地震.本文通过处理、分析GPS数据,得到破裂断层北侧100 km附近的同震位移及震后形变信息.在观测区域GPS点监测到10 mm左右的同震位移,其中最大为南向14 mm,东向5 mm.同震位移呈现一致性的东南向运动特征,证实于田地震存在显著的左旋走滑分量.震后台站向西南方向运...  相似文献   

1990年青海共和7.0级地震震后垂直形变研究          下载免费PDF全文

郝明  沈正康  王庆良 《地震学报》2010,32(5):557-569

根据1990年青海共和地震震后地表垂直形变,通过模型拟合得到了支配共和地区震后形变场时空演化的形变源及其力学机制.分析穿过断层的震前1期和震后6期水准数据,结果表明震后垂直形变具有以下特征:①震后震区上盘继续发生继承性的大幅度上升,其中震后头一年上升速率最大;②震后上升区范围显著,范围随时间变化不大,但较同震形变上升区范围增大;③震后相邻测站高差观测值的时间序列明显具有对数衰减特征或指数衰减特征,衰减特征时间分别为0.165年和1.344年.本文还发展了一个利用水准数据与连续介质位错模型研究震后形变机制的新方法.该方法用相邻水准点之间的原始高差观测值而非它们相对参照点的积分值来约束连续介质位错模型,可以有效减少误差累积带来的偏差并充分利用观测数据.利用这一方法的初步分析结果表明,断层震后滑移和介质黏弹性松弛共同导致了共和地震震后形变.前者表现为发生在断层面及其延伸部分的滑移,特别是位于主破裂上方沉积层内的滑移;后者则表现为下地壳与上地幔内的黏弹性松弛,黏滞系数为1020Pa.s量级.  相似文献   

1999年台湾集集地震震源破裂过程   总被引：21，自引：5，他引：16       下载免费PDF全文

王卫民  赵连锋  李娟  姚振兴 《地球物理学报》2005,48(1):132-147

使用GPS同震位移资料和远场P波记录,研究了1999年台湾集集地震震源破裂过程．根据地质构造和余震分布引入了一个由弯曲断层面构造的三段“铲状”断层模型．在使用静态GPS位移资料反演集集地震的断层破裂滑动分布时,由于集集地震断层北部近地表破裂的复杂性,在位错模型中考虑拉张分量对地表同震位移的贡献,可更好地同时拟合GPS观测资料的水平和垂向分量．而纯剪切位错弹性半空间模型和分层地壳模型都无法同时拟合水平和垂向GPS观测资料．在此基础上,同时使用静力学同震位移资料和远场地震波形记录,反演集集地震的震源破裂过程．结果表明,一种垂直于断层面的“挤压性”(负)拉张分量几乎集中分布于地震断层的浅部和北部转折处,而这一带地表破裂远较没有(负)拉张分量出现的南部断层复杂．“冒起构造”的数字模拟表明,这种在集集地震破裂转折处及北部断裂带广为出现的典型破裂造成的地表位移可以用具有负拉张分量(挤压)的逆冲断层更好地模拟．而这种负拉张分量(挤压)的分布正是地震破裂性质和几何复杂性的综合反映,震源破裂过程也显示北部转折处破裂在空间和时间上的复杂性.高滑区域与余震分布表现为负相关.  相似文献   

联合GPS和GRACE观测研究日本M_W9.0地震震后变形机制          下载免费PDF全文

梁明  王武星  张晶 《地球物理学报》2018,61(7):2691-2704

利用GPS和GRACE观测数据研究了日本M_W9.0地震的震后变形特征.GPS观测显示,区域震后位移呈现随指数函数变化特征,变化速率符合大森公式的衰减特性;近五年的震后水平位移累积已达到东向60~165 cm,南向20~65 cm的量值,距震中较远站点已超过同震变化量,且震后变形仍然持续.GRACE观测到显著的震后重力变化,地震破裂两侧的重力变化总体均呈上升趋势,但海洋侧的变化速率较快.联合震后余滑和黏弹性位错理论对震后变形进行了模拟,探索了GPS和GRACE观测的综合应用方法.研究发现,综合考虑震后余滑和黏滞性松弛效应可以对日本地震的震后变形做出较合理的解释,震后初期余滑起主要作用,1至2年以后逐渐减弱,黏滞性松弛作用逐渐增强.在震后变形模拟和区域黏滞性结构反演中形成GPS和GRACE观测结合应用的方法,先基于震后GPS形变估算区域黏滞性结构,而后利用GRACE观测修正深部的黏滞系数,并综合利用这两种观测微调浅层黏滞系数,最终确定区域黏滞性结构.基于该方法反演了日本震源区的地幔黏滞性结构,地震断层破裂两侧的流变参数存在差异,大陆侧的地幔顶层黏滞系数在1.0×10¹⁹ Pa·s量级,而海洋侧的则略小于大陆的,在6.0×10¹⁸ Pa·s量级.  相似文献   

2004年苏门答腊地震粘滞性松弛效应对华南地区地壳水平活动的影响     

刘泰  付广裕  邹镇宇 《地震》2019,39(2):37-45

2004年苏门答腊地震后, 不同学者根据不同观测数据(地震波、 GPS), 得到了此次地震的断层滑动模型。 反演过程中使用半无限空间模型时, 无法利用远场观测数据进行约束, 势必影响远场形变的解释。 基于Hoechner等使用的断层几何模型和GPS同震位移数据, 本研究利用球体位错理论反演方法反演了2004年苏门答腊地震断层滑动模型, 得到的矩震级为9.24, 最大滑移量为30.4 m, 由于考虑了曲率的效应, 该模型在远场同震位移的计算结果与GPS数据吻合较好。 然后, 选取了2001—2004年和2004—2007年两期的GPS水平位移速度场, 研究2004年苏门答腊地震对华南地区地壳水平活动的影响, 从两期的GPS水平位移速度场差异可以看出地震后华南块体有向西南方向的运动趋势, 华南块体受到此次地震明显的震后影响。 最后, 基于反演得到的断层模型, 利用Tanaka等提出的粘弹性球体位错理论对华南块体两期GPS水平位移速度场差异进行模拟, 得到华南块体内部粘滞性系数为2×10¹⁹ Pa·s, 当考虑地幔粘滞性松弛效应后, 两期的速度场差异的均方根值由3.2 mm减少为1.9 mm。 可见在研究2004年前后中国大陆GPS水平位移速度场时, 若继续以华南块体为基准, 需考虑此次地震的地幔粘滞性松弛效应。  相似文献   

2001年MW7.8昆仑山地震震后形变观测、机制与青藏高原中北部岩石圈流变:认识与挑战          下载免费PDF全文

赵德政  屈春燕  单新建  张国宏  李彦川  龚文瑜  宋小刚 《地震学报》2021,43(6):804-816

2001年M_W7.8昆仑山地震是近半个世纪以来青藏高原发生的最大震级地震。同震破裂产生的巨大应力扰动驱动控制着显著震后形变。二十年尺度的大地测量数据记录了地震后长时间、大范围、时空依赖的震后形变演化过程及差异,揭示了昆仑山地震破裂段复杂的断层分段震后运动学特征、分段摩擦性质差异和青藏高原中北部岩石圈流变性质/结构横向各向异性。本文简要回顾昆仑山地震后基于二十年尺度时序InSAR和GPS的震后形变观测方法和时空特征,特别是时空密集的InSAR观测,是该构造区震后GPS观测的重要补充及其不可替代的观测手段;总结大范围震后形变模拟方法及其揭示的震后运动过程、多种动力学机制及其关系。最后总结提出昆仑山地震震后形变20年研究取得的科学认识及尚待深入研究的科学问题,一方面要持续性地对东昆仑断裂带大范围地表形变进行观测研究;另一方面,要不断更新震后形变模型,进一步深化对该断裂带地震周期形变、区域构造对周期形变控制作用、复杂断层运动时空演化机制的认识。   相似文献   

基于2001年M_W7.8可可西里地震震后形变模拟研究藏北地区岩石圈流变学结构          下载免费PDF全文

贺鹏超  王敏  王琪  沈正康 《地球物理学报》2018,61(2):531-544

青藏高原岩石圈的流变学结构和形变机制是地学界长期争论的重大科学问题.2001年发生在东昆仑断裂带的M_W7.8可可西里地震造成青藏高原北部地区岩石圈构造应力场的很大改变,引起下地壳与上地幔的快速弛豫形变,从而为研究这一问题提供了难得的机会.本研究采用该区域的GPS震后观测,反演这一地区岩石圈的流变学参数并探讨其形变机制.反演所采用的数据来自45个GPS观测点,其中包括一个中国地壳运动观测网络的基准站,数据最长时间跨度达6.4年.大地震震后形变场主要来源于地壳、上地幔的黏弹性松弛与断层面上的震后余滑,因此本研究同时反演介质的黏滞系数和断层的震后余滑.考虑到东昆仑断层南侧的巴颜喀拉-羌塘地区与北侧的柴达木盆地地区具有明显不同的地壳结构,断层南北两侧采用不同的Burgers体流变学结构,其下地壳-上地幔的短期和长期黏滞系数采用网格搜索法获得;断层震后余滑反演则同时施加近似正比于库仑应力的约束.最终结果显示：东昆仑断层北侧柴达木盆地地区下地壳-上地幔短期和长期黏滞系数分别为5×10¹⁸ Pa·s和1.5×10²⁰ Pa·s;东昆仑断层南侧巴颜喀拉-羌塘地区下地壳-上地幔短期和长期黏滞系数分别为1.5×10¹⁸ Pa·s和1.5×10¹⁹ Pa·s.这一结果表明：巴颜喀拉-羌塘地区下地壳-上地幔黏滞系数显著低于柴达木盆地,意味着巴颜喀拉-羌塘地区下地壳可能存在部分熔融,其地壳形变模式更趋近于连续形变,而柴达木盆地形变模式更趋近于块体运动.研究区下地壳长期黏滞系数比下地壳流模型所主张的黏滞系数高2~3个数量级,表明下地壳流在本地区可能不存在.  相似文献   

GPS measurements of postseismic deformation due to October 8, 2005 Kashmir earthquake     

C. D. Reddy  Sanjay K. Prajapati 《Journal of Seismology》2009,13(3):415-420

Relaxation of the coseismic stresses following an earthquake causes postseismic crustal deformation, which can last for days to years. Continuous monitoring of postseismic deformation facilitates the understanding of the mechanism of deformation and postseismic relaxation and viscous rheology. After the October 8, 2005 Kashmir earthquake, global positioning system data for 8 months, starting from October, 2005 have been analyzed from three continuous sites located at Gulmarg, Amritsar, and Jaipur. The average velocity during the observation period at Gulmarg (8.6 cm/year) is significantly higher than the Indian plate velocity exhibiting postseismic crustal deformation. The velocity at Amritsar (5.9 cm/year) and Jaipur (5.1 cm/year) is comparable to the Indian plate velocity. At Gulmarg, the logarithmic function fits well to the north–south component of postseismic transients (~in the coseismic slip direction). The nature of decay in these transients suggests that the deformation is mainly due to an afterslip, and the second possible contribution may be from the viscous relaxation process. This paper presents the characteristics of postseismic transients and possible contributions from various postseismic mechanisms subsequent to the Kashmir earthquake.  相似文献   

Recent crustal deformation and the earthquake cycle along the Ecuador-Colombia subduction zone     

Scott M White  Robert Trenkamp  James N Kellogg 《Earth and Planetary Science Letters》2003,216(3):231-242

Recent results from Global Positioning System (GPS) measurements show deformation along the coast of Ecuador and Colombia that can be linked to the rupture zone of the earthquake in 1979. A 3D elastic boundary element model is used to simulate crustal deformation observed by GPS campaigns in 1991, 1994, 1996, and 1998. Deformation in Ecuador can be explained best by 50% apparent locking on the subduction interface. Although there have not been any historic large earthquakes (M_w>7) south of the 1906 earthquake rupture zone, 50% apparent elastic locking is necessary to model the deformation observed there. In Colombia, only 30% apparent elastic locking is occurring along the subduction interface in the 1979 earthquake rupture zone (M_w 8.2), and no elastic locking is necessary to explain the crustal deformation observed at two GPS sites north of there. There is no evidence from seismicity or plate geometry that plate coupling on the subduction zone is reduced in Colombia. However, simple viscoelastic models suggest that the apparent reduction in elastic locking can be explained entirely by the response of a viscous upper mantle to the 1979 earthquake. These results suggest that elastic strain accumulation is occurring evenly throughout the study area, but postseismic relaxation masks the true total strain rate.  相似文献   

Modeling transient and long-term postseismic deformation: A case study of 1995 M _W9.5 Chile earthquake     

邵志刚  傅容珊  薛廷虓  查显杰 《地震学报(英文版)》2008,21(4):406-416

In this paper, we firstly use finite element method (FEM) with Burgers model to simulate the postseismic viscoe-lastic relaxation taking 1960 Chile earthquake as an example. The postseismic deformation modeled with Burgers model includes co-seismic deformation, transient postseismic deformation and long-term postseismic deformation. So if we apply Burgers model to calculate postseismic deformation of 1960 Chile earthquake, there is no discrep-ancy phenomenon due to different durations of postseismic deformations that happens in Maxwell model.  相似文献