东亚北部地区现代板块构造的运动学分析   总被引：4，自引：1，他引：3       下载免费PDF全文

魏东平  濑野徹三 《地球物理学报》2000,43(1):54-63

从原欧亚板块划出阿穆利亚微板块,并建立一个包括太平洋、北美、欧亚、鄂霍次克及菲律宾海等板块在内的６板块系统,利用地震滑移矢量,转换断层走向,洋中脊扩展速率,以及最新的ＧＰＳ观测资料,采用Ｍｏｎｔｅ－Ｃａｒｌｏ盒子法,反演得到该６板块系统的欧拉运动矢量．本文得到的有关欧拉矢量为：ＡＭ-ＥＵ（６０．４２°Ｎ,１２３．２５°Ｅ,０．０２５°／Ｍａ）,ＡＭ-ＯＫ（５３．２０°Ｎ,１４１．９５°Ｅ,０．４７６°／Ｍａ）以及ＡＭ-ＰＨ（５０．８４°Ｎ,１５８.１３°Ｅ,１.２０４°／Ｍａ）,ＡＭ－ＥＵ的欧拉运动极点位于贝加尔隆起的东北及斯塔诺夫山脉的西北,并给出在贝加尔隆起有０．４－０．７ｍｍ／ａ的扩张,与从地质学证据得到的估计结果一致;由ＡＭ－ＯＫ及ＡＭ－ＰＨ欧拉运动矢量可以分别得到日本海东缘的６-１５ｍｍ／ａ及日本南海地槽带的５１－６６ｍｍ／ａ收敛速率,与最新的ＧＰＳ观测结果并不一致．因此,东亚北部地区存在独立的南中国微板块及其它亚尺度的微板块,可以更好地描述该地区现今板块构造的运动规律．  相似文献   

海南省东方地区1992年小震群剪切波分裂研究   总被引：20，自引：8，他引：20       下载免费PDF全文

高原  郑斯华  王培德 《地球物理学报》1996,39(2):221-232

１９９２年１月海南省东方县发生小震群活动，本文利用在震中附近设立的５台ＤＣＳ－３０２数字磁带加速度地震仪记录的近场资料，进行了剪切波分裂的研究采用相关函数方法，通过对１８个做了精确定位的地震事件共４２条有效记录的分析，计算出了快剪切波的偏振方向为１１３°±１８Ｏ°，慢剪切波的时间延迟为（３．１±１．１）ｍｓ／ｋｍ，裂隙密度的平均值为０．００９７±０．００３３．结合该地区的地震活动性，分析了区域应力变化对时间延迟的影响，并根据ＥＤＡ理论讨论了分裂剪切波的时间延迟的变化特征，发现快、慢剪切波的到时差（时间延迟）随地震活动性及应力积累而变化，并推断出该区的主压应力场为北西西方向．  相似文献   

利用地震矩张量反演阿尔金断裂带现今运动学特征   总被引：5，自引：0，他引：5       下载免费PDF全文

王卫东  李少睿 《地震地质》1999,21(2):76-175

利用地震矩张量反演断裂形变带运动学参数的方法,应用于阿尔金断裂带现今运动学特征的研究。结果表明,阿尔金断裂带以沿Ｓ１４°Ｅ的压缩运动为主,压缩速率为１．１３ｍｍ／ａ;同时,断裂带还以０．１７ｍｍ／ａ的速率发生左旋剪切运动  相似文献   

利用地震矩张量反演汾渭断裂系现今运动学特征          下载免费PDF全文

王卫东  张兴忠  王平 《地震工程学报》1998,20(1):81-84

探讨了利用地震矩张量反演断裂形变带运动学参数的方法,将其应用于汾渭断裂带现今运动学特征的研究．结果表明,汾渭断裂带的运动呈Ｎ２２°Ｗ方向拉伸,Ｎ６８°Ｅ方向压缩．其平均拉伸位移速率为０．１５ｍｍ／ａ．  相似文献   

京津唐地区地壳结构与强震的发生──I．P波速度结构   总被引：22，自引：5，他引：22  

孙若昧  刘福田 《地球物理学报》1995,38(5):599-607,T001

用１９８４－１９９１年发生在京津唐地区（３７°－４１°Ｎ，１１２．５°－１２０°Ｅ）的２５０５个地震的２２２３４条Ｐ波到时进行的层析成像，揭示了地震活动性与速度图像间的联系：１．公元１０００年以来该区强震震中在上地壳的投影大多分布在高速块体内或高速块体与低速块体相交地带，偏高速体的一侧．２．唐山地震和三河－平谷地震所处的构造背景相似，均未依傍大断层，处在介质速度变化剧烈部位．３．宁河与唐山、滦县分别位于规模大小、位置深浅不同的两个不同的高速块体处，可以解释唐山地震序列震源深度分布东北浅西南深的总体特征．４．唐山地震可能是由一条北西向的地下隐伏断层扩展的结果．  相似文献   

帕米尔地区地震活动及震源机制解的分布特征   总被引：2，自引：0，他引：2  

高国基  戈澍漠 《内陆地震》1997,11(4):302-308

帕米尔地区存在一个明显的ＮＥ－ＳＷ向中，深源地震带，中，深源地震震源机制分布具有明显的区域特征，兴都库什地区震源断错以倾滑逆断层为主，Ｔ轴仰角几乎垂直，帕米尔弧形构造东侧分布的地震以走滑性质为主，Ｐ轴仰角接近水平，当深度为１００～２００ｋｍ时在弧形构造南侧形成了一个明显的北东向的正断层分布。中，深源地震主压应力方向随深度增加由ＮＷ向逐渐变为ＮＥ向，主压应力Ｐ轴仰角平缓。  相似文献   

利用GPS观测结果研究华北地区现今构造应力场   总被引：8，自引：1，他引：7  

徐菊生  李延兴 《地壳形变与地震》1999,19(2):81-89

根据１９９２年和１９９５年两期ＧＰＳ测量结果所获得的位移场和应变场,结合丰富的地质资料,利用有限元方法对华北地区现今构造应力进行了模拟。计算结果表明;华北地区现今构造应力场主压应力方向为ＮＥＥ,其边界力除受ＮＥ５５°－ＳＷ２３５°方向的压应力作用外,同时还受到ＳＥ１２０°－ＮＷ３００°方向的拉张力作用,其中ＮＥ－ＳＷ的压应力量值较大,约为ＳＥ－ＮＷ向拉应力的两倍,这个结果与震源机制解所获得的应力场  相似文献   

基于多种GPS数据研究福建及其邻近海域1994-1997年地壳水平运动   总被引：18，自引：4，他引：14  

周硕愚  吴云  秦小军  帅平  施顺英  邓干金  周昕  刘序俨  林继华 《地球物理学报》2000,43(4):471-479

为研究中国大陆东南部的边缘海动力学,基于中国大陆和福建区域的ＧＰＳ观测网 以及环绕中国大陆的ＩＧＳ（Ｉｎｔｅｒｎａｔｉｏｎａｌ ＧＰＳ Ｓｅｒｖｉｃｅ）跟踪站在１９９４—１９９７年间的测量数据, 建立块体运动和块内变形两种力学模型,研究了福建及其邻近海域现今地壳水平运动速度场 和应变率场．结果表明：无论在中国大陆还是在中国大陆周边框架内,或相对于台湾而言,福 建及其邻近海域均整体地向着东南或东偏南方向,即指向海洋的方向作水平运动．运动平均 速率为１１．２±３．０ｍｍ／ａ（福建网）或１４．０±４．０ｍｍ／ａ（全国网）．然而在福建区域内还存在着 一种由海洋指向大陆内部的北西向运动,其运动平均速率为 ３．０± ２．６ｍｍ／ ａ．区域应变率场 主压应变方位为ＮＷ（ＮＷＷ）－ＳＥ（ＳＥＥ）．印度板块对欧亚板块的碰撞通过中国大陆内部各 块体间的侧向传递和菲律宾海板块对台湾（欧亚大陆东南沿）的仰冲与挤压,同时作用到福建 及其邻近海域。此种联合作用现今仍在继续进行中,前者的影响比后者更强烈,但前者形成的 速率场均匀,而后者不均匀。  相似文献   

1993年10月26日托来6.0级地震前地震活动性异常特征          下载免费PDF全文

毕秋菊  蒋小泉  范世宏  齐玉芳  朱建平  王爱君 《地震工程学报》1994,16(3):88-92

１９９３年１０月２６日托来６．０级地震前地震活动性异常特征１前言１９９３年１０月２６日在甘青交界托来附近（Ｎ３８°３６＇，Ｅ９８°４２＇）发生了一次Ｍｓ６．０级地震。地震发生之前，在河西祁连山地区（Ｎ３６°－４０°，Ｅ９７°－１０３°）多项地震活动性...  相似文献   

硬戈壁沙漠杂波研究          下载免费PDF全文

常满  白承玺  周平  胡扬学 《地球物理学报》1996,39(Z1):78-83

对新疆库尔勒地区硬戈壁沙漠地杂波进行了研究．得到了Ｃ波段低擦地角（０．１°－７°）下有色杂波值，其值范围为－６０－－２０ｄＢ；并进行了白化处理，得到相应此有色杂波的白色杂波值，其值为一常数－２５ｄＢ，其电压幅度为±０．８Ｖ，不随擦地角变化．  相似文献   

中国台湾南部及其周边岛屿现今地壳形变的位错模型   总被引：22，自引：3，他引：22       下载免费PDF全文

何玉梅  姚振兴 《地球物理学报》2002,45(5):638-645

通过建立非震形变的位错模型,用混合全局反演方法,拟合了中国台湾南部1990-1995年间的GPS观测资料.根据地质构造和地震观测,构筑了包括6个刚性块体和19个断层的简单模型.反演结果表明,菲律宾海板块以(69±2)mm/a,方向为317°±2°的速度与欧亚板块会聚,其中约一半的会聚率在台东纵谷消耗掉,另外部分则平均分配在其西边的块体交界处.菲律宾海板块和中央山脉地质区均向西北方向挤压,过了中央山脉后,块体运动呈扇形分布,与应力方向一致.西部麓山地质区与滨海平原地质区交界处的断层均以逆冲分量为主,由南向北倾角逐渐变小,断层宽度一般为10km左右,均表现为强锁定,历史上的大地震多发生在这个地区.  相似文献   

基于应变率场的全球地震活动特征模拟探索     

王武星  石耀霖 《地震》2013,33(4):123-134

本文提出利用全球应变率资料模拟全球地震活动特征的基本思想, 并作了初步探索。 利用GSRM的全球应变率场结果, 初步设计了模拟全球地震活动时空分布特征的细胞自动机模型。 该模型把地球考虑为一个自组织的整体系统, 制定了细胞自动机的演化规则, 获得了模拟的人工地震目录。 初步的模拟结果基本反映了全球地震活动的主要分布特征, 体现了全球构造活动强弱的主要格局, 初步达到了利用GPS等实测资料计算的应变率作为细胞自动机网格状态及其改变量来模拟复杂的全球地震活动特征的实验目的。  相似文献   

HOLOCENE LEFT-LATERAL SLIP RATE OF THE LENGLONGLING FAULT,NORTHEASTERN MARGIN OF THE TIBETAN PLATEAU          下载免费PDF全文

GUO Peng  HAN Zhu-jun  JIANG Wen-liang  MAO Ze-bin 《地震地质》2017,39(2):323-341

The Lenglongling Fault(LLLF) is a major active left-lateral strike-slip fault along the northeastern margin of the Tibetan plateau. Fault slip rate is of great significance for researching the dynamics of tectonic deformation in NE Tibetan plateau and understanding the activity and seismic risk of the fault. However, slip rate of the LLLF, which remains controversial, is limited within~3~24mm/a, a relatively broad range. Taking Niutougou site(37.440 2°N, 102.094 0°E)and Chailong site(37.447 3°N, 102.063 0°E) in the upstream of Talihua gully in Menyuan County, Qinghai Province as the research objects, where faulted landform is typical, we analyzed the displacement evolution model and measured the slip amounts by back-slip of the faulted landform using high-resolution DEM from Terrestrial LiDAR and high-precision satellite images of Google Earth, and by collecting and testing samples from stratigraphic pit excavated in the faulted landform surface and stripping fresh stratigraphic section, we determined the abandonment age of the surface. Holocene slip rate obtained from Niutougou site and Chailong site is(6.4±0.7)mm/a and(6.6±0.3)mm/a, respectively, which have a good consistency. Taking into account the error range of the slip rate, the left-lateral slip rate of the LLLF is(6.6±0.8)mm/a since Holocene, which is between the previons results from geological method, also within the slip rate range of 4.2~8mm/a from InSAR, but slightly larger than that from GPS((4.0±1.0)mm/a). Late Quaternary slip rate of Qilian-Haiyuan fault zone, which displays an arc-shape distribution, turns to be the largest in LLLF region. The most intensive uplift in the LLLF region of the NE Tibetan plateau confirms the important role of the LLLF in accommodating the eastward component of movement of Tibetan plateau relative to the Gobi-Ala Shan block from one side.  相似文献   

RESEARCH ON ACTIVITY OF ZHANGJIAKOU-BOHAI FAULT ZONE BASED ON GPS OBSERVATIONS          下载免费PDF全文

CHEN Fu-chao  GUO Liang-qian  ZHENG Zhi-jiang 《地震地质》1979,42(1):95-108

The northwestern section of the Zhangjiakou-Bohai fault zone starts in the west of Zhangjiakou, extending southeast through Huailai, Shunyi and Tianjin and entering into the Bohai Sea, with a width up to several tens of kilometers, narrow in the west and wide in the east. The Neogene-Quaternary has extended in the northwest and southeast direction, forming a large regional active structure. There are many earthquakes of magnitude 7 or above in the history on the Zhangjiakou-Bohai fault zone and it is also a strong earthquake activity zone in eastern China. Therefore, the modern tectonic activities of this fault zone have an important impact on regional seismic hazard, and are of great significance for earthquake prediction and disaster reduction. In this paper, using the mobile GPS station observation data of 1999, 2007, 2009, 2011, 2013 and 2015, and with the rigid-linear elastic block motion model equation proposed by LI Yan-xing, the horizontal deformation rate and strain rate of the Zhangjiakou-Bohai fault zone of the five adjacent periods of 1999-2007, 2007-2009, 2009-2011, 2011-2013 and 2013-2015 were calculated, the tectonic activity characteristics and evolution of the fault zone were studied. The results show that in the five periods, the average deformation rate of the Zhangjiakou-Bohai fault zone is 1. 74mm/a, the left-lateral strike-slip rate is 1.59mm/a, and the compression rate is -0.59mm/a. The Zhangjiakou-Bohai fault zone is characterized by left-lateral strike-slip and compression on the whole, and the left-lateral strike-slip rate is greater than the compression rate at each period. The strike-slip rate is significantly greater than the compression rate, indicating that the activity of Zhangjiakou-Bohai fault zone is dominated by left-lateral strike-slip faulting with compression. The minimum principal strain rate of the Zhangjiakou-Bohai fault zone in the five periods varies from -12.06×10^-9/a to -4.62×10^-9/a, and the average minimum principal strain axis direction is N63.9°E, with little change in direction. The maximum principal strain rate varies from 1.55×10^-9/a to 5.99×10^-9/a, and the average maximum principal strain axis direction is N333.9°W, the direction does not change much. The strike of the Zhangjiakou-Bohai fault zone is NWW(the overall strike is calculated by N300°W), and the normal strain rate of the fault zone is -5.87×10^-9/a(being compressional), and the shear strain rate is 12.70×10^-9/a. The shear strain rate on the fault zone is about twice the value of the normal strain rate, and the shear strain rate of the fault zone is greater than the normal strain rate, which indicates the shear stress of the 5 periods of 1999-2007, 2007-2009, 2009-2011, 2011-2013 and 2013-2015 is relatively significant, suggesting that the fault plain is dominated by left-lateral shear stress. This suggests that the Japan 3·11 earthquake has little effect on the deformation strain of the Zhangjiakou-Bohai fault zone, and it does not change the nature of activity of the fault zone. The tectonic activity is still inheriting. Since the tectonic activity of the Zhangjiakou-Bohai fault zone has gradually decreased after the Japan 3·11 earthquake, the deformation strain evolution trend has gradually returned to a unified consistent state. Therefore, the deformation strain state of the Zhangjiakou-Bohai fault zone does not have the condition for strong earthquakes.  相似文献   

华北主要构造单元及边界带现今水平形变与运动机制   总被引：26，自引：3，他引：26       下载免费PDF全文

杨国华  谢觉民  韩月萍 《地球物理学报》2001,44(5):645-653

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   

渭河盆地及邻区现今地壳形变及构造特征研究          下载免费PDF全文

张永奇  韩美涛  曹建平  郑增记  宋普伟 《地震工程学报》2021,43(1):79-89

基于2009—2014年渭河盆地及邻区GPS资料,利用Shen提出的连续形变场与应变场计算方法,获得渭河盆地及邻区的水平形变场及应变率场,结合构造地质、地震目录等资料对渭河盆地及邻区的现今地壳形变及构造特征进行研究,并得到如下结论:(1)鄂尔多斯地块南缘西段和东段GPS形变场变化差异明显,六盘山—陇县—宝鸡断裂带形变场以挤压变形为主,渭河盆地中部西安—咸阳地区的形变场呈现EW向挤压、SN向拉张特征;(2)主应变率、剪应变率、面应变率变化明显的区域位于鄂尔多斯地块西南缘的六盘山—陇县—宝鸡断裂带、渭河盆地中部的长安—临潼断裂与渭南塬前断裂以及韩城断裂与双泉—临猗断裂附近;(3)未来需要警惕六盘山—陇县—宝鸡断裂带、长安—临潼断裂与渭南塬前断裂以及韩城断裂与双泉—临猗断裂附近的地震危险性。  相似文献   

Spatial variation of crustal strain in the Kachchh region,India: Implication on the Bhuj earthquake of 2001     

《Journal of Geodynamics》2012

The Kachchh province of Western India is a major seismic domain in an intraplate set-up. This seismic zone is located in a rift basin, which was developed during the early Jurassic break-up of the Gondwanaland. The crustal strain determined from the GPS velocity data of post-seismic time period following the 2001 Bhuj earthquake indicates a maximum strain rate of ∼266 × 10⁻⁹ per year along N013°. Focal mechanism solutions of the main event of 26 January 2001 and the aftershocks show that the maximum principal stress axis is close to this high strain direction. Maximum shear strain rate determined from the GPS data of the area has similar orientation. The unusually high strain rate is comparable in magnitude to the continental rift systems. The partitioning of the regional NE–SW horizontal stress (S_Hmax) by the pre-existing EW-striking boundary fault developed the strike–slip components parallel to the regional faults, the normal components perpendicular to the faults, NE-striking conjugate Riedel shear fractures and tension fractures. The partitioned normal component of the stress is considered to be the major cause for compression across the regional EW faults and development of the second-order conjugate shear fractures striking NE–SW and NW–SE. The NE-striking transverse faults parallel to the anti-Riedel shear planes have become critical under these conditions. These anti-Riedel planes are interpreted to be critical for the seismicity of the Kachchh region. The high strain rate in this area of low to moderate surface heat flow is responsible for deeper position of the brittle–ductile transition and development of deep seated seismic events in this intraplate region.  相似文献   

2016年青海门源M_S6.4地震震前应变积累及同震变形特征     

苏小宁  孟国杰 《地震》2017,37(4):1-9

2016年1月21日青海省门源县发生了M_S6.4地震, 发震断裂为冷龙岭北侧断裂, 震中位置与1986年门源6.4级地震相同。 本文收集了本次地震震中及其周边区域1999—2015年GPS观测资料, 解算了GPS速度场、 跨断裂连续观测站基线时间序列和应变率场。 结果显示, 祁连山断裂带为一条宽度约60 km的连续变形带。 在断裂带南侧地壳运动以顺时针旋转为主, 运动量值没有显著差异; 跨过断裂带到达其北部之后, 地壳运动量值明显减小, 显示出该断裂带的强烈活动特征。 冷龙岭断裂左旋走滑速率为6.17±0.41 mm/a, 挤压速率为1.83±0.38 mm/a, 断层闭锁深度为22.1±3.1 km。 利用GPS连续观测站数据解算的地震同震位移显示, 震中西南侧26.8 km处的青海门源(QHME)测站记录到了明显同震位移, 其水平运动方向为北东向, 与逆冲为主的震源机制解一致。  相似文献   

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  

SHUO-YU ZHOU  PING SHUAI  FENG-YING GUO  SHUN-YING SHI 《地震学报(英文版)》2000,13(1):75-83

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   

基于地震各向异性分析郯庐断裂带中段深部构造特征     

苗庆杰  石玉燕  曲均浩  崔鑫  李铂 《内陆地震》2013,(4):328-335

利用郯庐断裂带中段附近10个宽频带台站的远震波形资料,基于上地幔地震各向异性来分析郯庐断裂带中段深部构造特征。本研究得到,郯庐断裂带中段深部平均快波偏振方向为93．8°,即郯庐断裂带中段深部主张应变（张应力）方向,对照GPS资料和地震资料的研究表明,郯庐断裂带中段地壳和深部上地幔的形变存在总体的一致性,即郯庐断裂带中段岩石层的形变具有统一特征,地壳与深部上地幔处于相似的应力应变状态中。  相似文献