Numerical simulation of the influence of lower-crustal flow on the deformation of the Sichuan-Yunnan Region

On the basis of distribution of active fault and regional rheological structure, a three-dimensional finite element model of Sichuan-Yunnan region, China, is constructed to simulate contemporary crustal motion and stress distri- bution and discuss the dynamic mechanism of crustal motion and deformation in the Sichuan-Yunnan region. Lin- ear Maxwell visco-elastic model is applied, which includes the active fault zones, the elastic upper crust and vis- cous lower crust and upper mantle. Four different models with different boundary conditions and deep structure are calculated. Some conclusions are drawn through comparison. Firstly, the crustal rotation about the eastern syntaxis of the Himalaya in the Sicuan-Yunnan region may be controlled by the special dynamic boundary condition. The drag force of the lower-crust on the upper crust is not negligible. At the same time, the main active fault zones play an important role in the contemporary crustal motion and deformation in Sichuan-Yunnan region.     

Seismotectonic destruction of the Earth’s crust in the zone of interaction of the northeastern side of the Baikal rift and the Aldan-Stanovoy block

The paper presents the modern structural-tectonic pattern and a tectonodynamic model of the zone of interaction of the most seismically active northeastern side of the Baikal rift zone (BRZ) and the conjugate system of seismogenic structures of the Aldan-Stanovoy block, where disastrous events with M ≥ 6.0 have been reported. Regularities in the structural formation of active faults and their kinematics are discussed. The faults form block structures accumulating significant tectonic strain. Motions between large tectonic blocks cause sudden release of the strain, which results in catastrophic events (M ≥ 6.0) with focal mechanisms of definite kinematic type.     

Kinematic features of the seismogenic fault of the Tangshan earthquake and the recurrence period of large earthquakes

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Manifestation of the Lunar–Solar Tide and Free Oscillations of the Earth in the Variations of the Magnetic Field

The results of processing and analyzing the instrumental observations of the Earth’s magnetic field at the Geophysical Observatory Mikhnevo of the Institute of Geosphere Dynamics of the Russian Academy of Sciences (IGD RAS) for 2010–2015 are presented. Quasi-harmonic components with the periods close to the lunar–solar tidal waves are revealed in the spectra of geomagnetic variations over a period of 0.4 to 30 days. The elliptical S₁ tidal wave which is detected in the geomagnetic variations has modulations with periods of 1/3, 1/2, and 1 year. The spectra of the geomagnetic variations contain peaks corresponding to the free oscillations of the Earth. The analysis of the time series of the magnetic field for the period of the strong earthquakes in the absence of geomagnetic disturbances revealed the fine structure of the Earth’s fundamental spheroidal mode ₀S₂, which splits into five singlets. The established features of the spectrum of geomagnetic variations are helping the development of the new method for studying the deep structure of the Earth and the properties of the inner geospheres for estimating the viscosity of the Earth’s outer core and dynamics of the current systems in the outer (liquid) core, as well as for exploring, with the use of empirical data, the general regularities governing the regimes of energy exchange processes in the geospheres.     

Oil contamination of sedimentary shores of the Galápagos Islands following the wreck of the Jessica

Sediment samples were collected from sandy beaches at a variety of sites in the southern Galápagos Archipelago to assess levels of hydrocarbon contamination following the wreck of the oil tanker Jessica. Hydrocarbon levels in sediments were generally very low by international standards ranging between 0.4 and 48.9 ppm, with contamination attributable to the Jessica only detected at three sites Santa Fe, Playa Estación (Puerto Ayora, Santa Cruz) and Long Beach (Isabela). There was evidence of residual hydrocarbon contamination from sources other than the wreck of the Jessica.     

Tomographic study of the deep tectonics in the Yecheng-Shiquanhe area of the Tibetan Plateau

The profile crossing the west Kunlun region cov-ers the area between the Tarim Basin and the Kara-korum Fault, which is the highest (~5000 m a.s.l.) andthe most narrow part (400—500 km from north tosouth) of the Tibetan Plateau, thus attracting great at-tention of the geological community because of itsunique tectonic features. The Geological Bureau of Xinjiang Uygur Auton-omous Region and Chinese Academy of Sciences(CAS) carried out mineral exploration and geologicalmapping in th…     

Dynamical diagnosis of the breakup of the stratospheric polar vortex in the Northern Hemisphere

The research on climate change in polar regions, especially on the role of polar in the global climate system, has gain unprecedented level of interest. It has been the key scientific issue of the International Polar Year program (IPY, 2007―2008). In this paper, we dealt with the debate upon the breakup time of the stratospheric polar vortex in boreal spring. An observational study of the relation between strato- spheric polar vortex breakup and the extra-tropical circulation was performed. The mean breakup date―when the winter westerly at the core of polar jet turns to summer easterly―is about April 10. The breakup time has large interannual variation with a time span of about 2 months. It also has a long-term trend with the 1990s and 2000s witnessing more and more late breakups of polar vortex. Composite of wind speed at the core of polar jet for the extremely early and late breakup years shows that late years have two periods of westerly weakening while early breakup years have only one. The first weakening in the late years happens in middle January with wind speed dropping sharply from more than 40 m s?1 to about 15 m s?1. This is accompanied with anomalous activities of planetary waves in both strato- sphere and troposphere; while the second weakening in the late breaking years is mainly the results of diabatic heating with very weak wave activities. In early breakup years, the transition from westerly to easterly is rapid with wind speed dropping from more than 30 m s?1 to less than ?10 m s?1 within a month. This evolution is associated with a strong bidirectional dynamical coupling of the stratosphere and troposphere. The circulation anomalies at low troposphere are also analyzed in the extremely early and late breakup years. It shows that there are significant differences between the two kinds of extreme years in the geopotential height and temperature composite analysis, indicating the dynamical cou- pling of stratosphere and troposphere with the evolution of stratospheric polar vortex.     

Characteristics of the Activity of the Lintong-Chang＇an Fault in the Late Pleistocene

Analysis of fault outcrops and trench sections indicates fault displacements of 0.2m - 6.0 m on the bottom paleosol layer of the Epipleistocene with the maximum rate of 0.047 mm/a and an average displacement of 1.1 meters. The activity appears as fissures on the fault surface in the late Epipleistocene and there is no obvious displacement. The fault activity is weak and the most active segment is the Bailuyuan segment.     

County Shelter Planning from the Perspective of the Demands of the Vulnerable?Based on the Survey of the 6·17 Changning Earthquake

县域避难场所规划建设薄弱,灾后老年人等避难弱者的需求不能得到充分满足。长宁“6·17”地震发生后,笔者赴灾区调研,对老人、妇女、儿童等避难弱者进行访谈,深入了解避难弱者的避难经历、对避难场所的认知及相关需求,总结避难弱者在灾后初期、中期、后期阶段的需求变化及对避难空间的诉求。在避难弱者需求视角下提出县域避难场所规划提升措施,包括建立避难弱者数据库、优化避难场所选址、提高避难场所建设标准、加强对避难弱者“定制化”的防灾宣传和避难引导等,以保障避难弱者的生命安全,提升避难生活质量。     

Study of the Seismicity of Strong Earthquakes in the Yunnan Area

INTRODUCTIONYunnanis located in the east margin of the collision zone between the India Plate and theEurasian Plate on the Chinese Continent , where crustal movement is violent and moderate-strongearthquakes are frequent withlarge magnitudes and wide distributions .It is also a place of particularinterest to geo-science researchers both at home and abroad. Since 1970 , 8 earthquakes withmagnitude 7·0 have occurred here .It is a perfect site to study seismicity.Whether or not seismicit…     

利用PSInSAR时间序列研究拉奎拉地震位移场变化特征

对2009年4月6日意大利拉奎拉(LAquila)Mw6.3级地震9景ENVISAT重轨单视复数据采用双轨模式进行永久散射体(Persistent Scatterer,PS)处理,获得了此次地震时序位移场,结合PS位移场Delaunay算法数值分析,结果表明:1)Envisat干涉雷达完整而清晰地探测到了地震前后位移场变化过程及其在不同阶段与震源断裂相关的不同形变特征:震前蠕动位移-明显变形-震期快速突变-震后量级明显减缓的持续变形;2)在此次分析的约54×59km2区域内,震中以西为大面积上升区,视线向最大上升量为130mm;震中以东为下降区域,但下降集中在破裂区,主要在发震过程及震后形成,视线向最大下沉量为210mm,与GPS监测结果一致;3)地震产生的破裂主要分布在约22×14km2范围内,沿NW走向、SW倾斜的Paganica-S.Demetrio正断层展布,方向约135°;4)本文为探索利用PSInSAR时间序列进行地震趋势预测提供了一个较好的案例.     

尼泊尔M_W7.8地震InSAR同震形变场及断层滑动分布

采用DInSAR技术和欧空局2014年新发射的Sentinel-1A/IW数据,获取了2015年4月25日尼泊尔M_W7.8地震的InSAR同震形变场.所用InSAR数据扫描范围东西长约500 km,南北宽约250 km,覆盖了整个变形区域,揭示了形变场的全貌及其空间连续变化形态.此次地震造成的地表形变场总体呈现为中部宽两端窄的纺锤形,从震中向东偏南约20°方向延伸,主要形变区东西长约160 km,南北宽约110 km,由规模较大的南部隆升区和规模较小的北部沉降区组成,南部最大LOS向隆升量达1.1 m,北部最大LOS向沉降量约在0.55 m.在隆升和沉降区之间干涉纹图连续变化,没有出现由于形变梯度过大或地表破裂而导致的失相干现象,表明地震断层未破裂到地表.基于InSAR形变场和部分GPS观测数据,利用弹性半空间低倾角单一断层面模型进行了滑动分布单独反演和联合反演,三种反演结果均显示出一个明显的位于主震震中以东的滑动分布集中区,向外围衰减很快,主要滑动发生于地下7~23 km的深度范围内.InSAR单独反演的破裂范围,特别是东西向破裂长度大于GPS单独反演的破裂长度,而InSAR单独反演的最大滑动量则低于GPS单独反演的滑动量.因此认为联合反演结果更为可靠.联合反演的破裂面长约150 km,沿断层倾向宽约70 km,最大滑移量达到4.39 m,矩震级为M_W7.84,与之前用地震波数据和GPS数据反演的结果一致.     

2008年新疆乌恰Mw6.7地震震源机制与形变特征的InSAR研究

2008年10月5日新疆乌恰M_w6.7级地震发生在南天山、帕米尔高原及塔里木盆地交汇地带,基于地震波反演的震源机制解确定的震源深度存在较大差异.本文利用日本ALOS卫星的PALSAR图像,获得了本次地震的同震形变场,基于卫星视线向（LOS）和方位向（Azimuth）的形变,采用均匀弹性半无限位错模型和有界最小二乘（BVLS）算法,以网格矩形位错元法对发震断层的几何产状、滑移及分布进行了估算,结果表明本次地震以逆断破裂为主,断层面上最大位错量接近3.4 m,形变中心位于73.8040°E,39.5335°N,深度约5 km,震级估算为M_w6.6;地震发生在走向46°,倾角48°的断层上,发震断层长30 km,宽14 km,闭锁深度9 km,符合该地区浅源地震多发的构造特点,发震断层为乌合沙鲁断裂带.InSAR反演的滑移形变主要集中于地下2~7 km,表明乌恰地震为浅源地震,可能与该断层附近历史地震未完全释放的残余应力积累有关.同时,InSAR反演的断层位错分布呈现双破裂特征,震级分别为M_w6.5和M_w6.1,可能与本次地震的主震和余震相对应,也可能是由主震激发而产生的两组破裂.     

A Rupture Model for the 1999 Chi-Chi Earthquake from Inversion of Teleseismic Data Using the Hybrid Homomorphic Deconvolution Method

This study investigates the kinematics of the rupture process of the M _L 7.3 Chi–Chi, Taiwan, earthquake on September 21, 1999. By applying the proposed hybrid homomorphic deconvolution method to deconvolve teleseismic broadband P-wave displacement recordings of the earthquake, this study derives the apparent source time functions (ASTFs) at ten stations located around the epicenter. To further characterize the fault, the kinematic history of the rupture was inverted from ASTFs using a genetic algorithm, coupled with nonlinear iterative technique. The calculated ASFTs reveal that the total rupture event lasted for approximately 27 s. Static slip distribution images indicate that most slip occurred at shallower portions of the fault plane, especially 20–55 km north of the epicenter. The maximum slip reached 20 m at 45 km north of the epicenter, and the average slip throughout the observed rupture area was approximately 2 m. Large asperities on the fault appeared at 25–35 km and 40–50 km north of the hypocenter, and coincided with relatively high rupture velocity. This suggests that the earthquake’s energy may have been released quickly. The rupture velocity decreased upon encountering an asperity, and increased again after passing the asperity. This implies that the rupture required more time to overcome the resistances of the asperities. The maximum rupture velocity was 3.8 km/s, while the average rupture velocity was approximately 2.2 km/s. The rise time distribution suggests that larger slip amplitudes generally correspond to shorter rise times on the subfaults.     

2017年8月8日四川九寨沟7.0级地震InSAR同震形变场及断层滑动分布反演

基于InSAR技术,利用欧空局升降轨Sentinel-1A/IW宽幅数据,获取了2017年8月8日四川九寨沟7.0级地震InSAR同震形变场,并以升降轨InSAR观测结果为约束,反演了断层滑动分布,基于三种不同接收断层计算了同震库仑应力变化.结果表明,同震形变场发生在塔藏断裂、岷江断裂和虎牙断裂交汇的三角地带,升降轨干涉位移均显示本次地震的形变场影响范围约为50 km×50 km,形变场长轴方向为NW向,升降轨观测的形变量相反,反映断层运动性质以走滑运动为主,升降轨数据观测得到的最大LOS （Line of Sight,视线向）形变量分别为~22 cm和~14 cm.非对称形变场反映出断层两侧的运动差异.反演结果显示,最大滑动量约为1 m,平均滑动角为-9°,矩震级为M_W6.5,地震破裂主要集中在地下1~15 km深度范围内,但整体而言本次地震破裂较为充分,基本将该区域1973年及1976年4次 > M_W6.0地震的破裂空区完全破裂.考虑到塔藏断裂和虎牙断裂的运动性质,可初步判定发震断层为虎牙断裂北侧延伸分支.基于三种不同接收断层模型的同震库仑应力变化计算结果反映出该区域以应力释放为主,进一步触发较大走滑型余震的可能性不大.     

智利M_W8.3地震与M_W8.8地震的震源过程及其引起的库仑应力特征

2015年9月17日6时54分32秒(北京时间)智利中部伊拉佩尔附近(震中31.57°S,71.67°W)发生了一次M_w8.3大地震,在此次地震震中以南约500 km处的马乌莱地区曾于2010年2月27日14时34分11秒发生过一次M_w8.8强震(震中36.12°S,72.90°W),两次地震余震分布区之间有约75 km的地震空区.本文利用远场体波与面波波形,基于有限断层模型,反演了这两次地震的震源破裂过程.结果显示这两次地震均为逆冲型大地震,2015年伊拉佩尔M_w8.3地震的平均滑动角度为107°,平均滑动量为2.43 m,平均破裂速度为1.82 km·s~(-1),标量地震矩为3.28×10~(21)Nm,95%的标量地震矩在104 s内得到了释放.最大滑动量约8 m,位于沿走向75 km,深度8 km处.2010年马乌莱M_w8.8地震的平均滑动角度为109°,平均滑动量为4.95 m,平均破裂速度1.90 km·s~(-1),标量地震矩为1.86×10~(22)Nm,95%的标量地震矩在121 s内得到了释放.最大滑动量约12.5 m,位于沿走向100 km,深度21 km处.2015年伊拉佩尔M_w8.3地震浅部更大的滑动量应该是其引起了较大海啸的一个原因.基于破裂滑动分布,我们计算了这两次地震引起的周边俯冲带上静态库仑应力变化,结果显示两次地震均显著增加了周边俯冲带上的库仑应力,2010年马乌莱地震使得2015.年伊拉佩尔地震震源区附近的库仑应力增加了(0.01~0.15)×10~5Pa,从应力积累的角度看,2010年马乌莱地震有利于2015年伊拉佩尔地震的发生,对后者的发生起到了促进作用.     

2014年3月10日加州西北岸M_w6.9级地震震源破裂过程

2014年3月10日13时18分(北京时间)美国加利福尼亚州西北岸发生Mw6.9级地震,震中位于戈尔达板块内部.本文利用国际地震学研究联合会(IRIS)地震数据中心提供的远场体波数据,通过波形反演的方法来研究此次地震的震源破裂过程,并分析未造成重大人员伤亡及诱发海啸的原因,为该地区地球动力学的研究提供依据.选取19个方位角覆盖均匀的远场P波垂向波形记录和13个近场P波初动符号进行约束,基于剪切位错点源模型确定此次地震的震源机制解.结合地质构造背景资料,确定断层破裂面的走向.在考虑海水层多次反射效应的影响下,采用18个远场P波垂向波形数据和21个远场SH波切向波形数据,利用有限断层模型,将断层面剖分为17×9块子断层单元来模拟破裂面上滑动的时空分布,通过波形反演的方法获得此次地震的震源破裂过程.利用海水层地壳模型,剪切位错点源模型的反演结果为:走向323°,倾角86.1°,滑动角-180°,震源深度为10.6km.有限断层模型的反演结果表明,此次地震的破裂过程相对简单,主要滑动量集中于震源上方35km×9km的区域内,破裂时间持续19s左右,平均破裂传播速度约为2.7km·s-1,较大滑动量均沿着走向分布,最大滑动量为249cm.此次地震为发生在戈尔达板块内部的一次Mw6.9级的陡倾角走滑型地震.此次地震为单纯的走滑型地震,断层面接近竖直方向,且发生在洋壳底部,因此破坏力不大,不会对沿岸城市造成重大损失.陡倾角断层在走滑错动的过程中不会使海底地形发生大幅度变化,不会引起大面积水体的突然升降,因此不会诱发大规模海啸.     

Coseismic Slip from the 6 October 2008, M w6.3 Damxung Earthquake, Tibetan Plateau, Constrained by InSAR Observations

Coseismic deformation fields of the 6 October 2008 M _w6.3 Damxung earthquake were obtained from interferometric synthetic aperture radar by using three descending and two ascending Envisat images. Significant coseismic surface deformation occurred within 20?km?×?20?km of the epicenter with a maximum displacement of ~0.3?m along the satellite line of sight. We model a linear elastic dislocation in a homogeneous half space and use a nonlinear constraint optimized algorithm to estimate the fault location, geometry and slip distribution. The results indicate a moment magnitude M _w6.3, and the earthquake is dominated by oblique normal and right-lateral slip with a maximum slip of 2.86?m at depth of 8?km. The rupture plane is about 15?km?×?14?km with strike S190°W and dip 55° to NW, located at a secondary fault of the Southeastern Piedmont of the Nyainqentanglha Mountains. Slip on normal faults in the Tibetan Plateau contributes to the rift evolution.     

2016年印尼苏门答腊岛海域MW7.8地震震源运动学特征

根据中国和全球地震台网记录的波形记录,采用W震相矩张量反演、反投影分析及有限断层模型反演方法,研究了2016年3月2日印尼7.8级地震破裂过程,分析讨论印尼地震震源运动学特征.结果表明：此地震为一次对称的双侧破裂走滑型事件,北北东─南南西向的断层节面（走向5°/倾角85°）为发震断层面.标量地震矩约6.19×10²⁰ Nm,矩震级为7.79,最大的滑动量约11 m,位于破裂起始点北东,沿着断层走向约30 km处.破裂平均速度2.0~2.2 km·s^-1,破裂持续时间35 s,破裂在5~25 s内释放的能量,约占总能量的97%.最终形成了总长度90 km左右的断层.印尼地震具有破裂持续时间短、破裂速度慢、高滑动能量带相对集中等显著特点.本研究对进一步增进海洋岩石圈地震的震源特性认识有重要参考意义.     

基于区域地震波形的2017年新疆精河MS6.6地震破裂方向性及发震构造研究

2017年8月9日的新疆精河MS6.6地震是近年来天山北缘发生的最大地震,震中位于由多条逆冲断层组成的库松木契克断裂带内.由于震源较深、构造形变复杂、区域地震台站相对稀疏,仅根据震源机制解、余震分布和InSAR观测结果等难以直接判定发震构造.本文针对倾滑型地震发展了一种基于区域地震波形的破裂方向性测定方法,利用余震作为参考地震进行路径校正,根据主震和参考地震的波形时移差和Pn-Pg到时差分别确定主震在水平方向和深度方向的破裂尺度,进而推断同震破裂的延展方向和延伸尺度.本文在反演了主震的点源参数后,应用新发展的方法测定了地震的破裂方向性.点源反演结果显示,精河地震是一个发生在中地壳的高角度逆冲地震,矩震级约6.2,质心深度21km,震源持续时间5.5s,两个双力偶节面分别为102°/45°/106°(NP1)和259°/47°/74°(NP2).破裂方向性分析结果显示,地震的破裂面为南倾的NP1节面,地震沿着破裂起始点向西南方向、向下破裂,总破裂长度约11.5km,其中,沿深度的破裂范围约7km,沿水平的破裂范围约9km,平均破裂速度约2.1km·s-1.综合区域地质资料、卫星影像等判定本次地震的发震断层为精河南断层,地震可能只破裂了断层的下段(17~25km),并未破出地表.