GPS观测得到的1998～2003年中国大陆地壳应变   总被引：4，自引：0，他引：4  

顾国华  王丽凤 《地震》2006,26(3):1-8

利用1998年9月至2003年9月底中国地壳运动观测网络基准站与基本站GPS观测所获得的多期水平位移结果, 计算了由观测站组成的各三角形的应变。 鉴于量级不大的应变时空变化的复杂性, 试图用统计的方法分析基本网观测得到的2001年11月14日昆仑山口西M_S8.1大地震前后的应变。 此次地震前中国大陆, 特别是中国大陆西部变形有加剧过程, 且中国大陆西部最大剪应变方向总体上保持稳定。 这表明, 此次大地震前有明显的应变能积累; 而在震中附近2000～2001年地震前应变速率很低, 出现闭锁或成核现象。 由最接近震中三角形计算得到的最大剪应变方向确定地震断层走向为N89.3°E。 震后2002年的变形仍然较大, 但2002～2003年中国大陆, 特别是东部, 变形最小。  相似文献   

GPS水平位移时间序列地震短期信息特征分析   总被引：3，自引：0，他引：3  

张晶  顾国华 《地震》2006,26(1):40-46

对GPS基准站连续观测水平位移时间序列数据的时-频特征进行了分析, 为了突出局部变化的信息, 在中国大陆东部选取一组参考点进行相似变换。 利用小波分析和傅里叶分析方法对资料进行处理, 分析结果表明, 2001年11月14日昆仑山口西8.1级大地震前中国大陆西部部分测点水平位移序列出现短期变化信号。  相似文献   

利用GPS观测结果对我国地壳水平形变强度的分析   总被引：7，自引：2，他引：5  

顾国华  符养  王武星 《地震》2004,24(2):1-6

介绍利用中国地壳运动观测网络区域网(包括基本网与基准网)1999年与2001年2期GPS观测所获得的中国大陆地壳水平位移速率结果, 研究块体的划分、 块体位移与块体变形, 提出了用位移(速率)离散度分析块体或局部水平变形强度的方法, 分析了中国大陆现今地壳运动的基本特征及2001年11月14日昆仑山口西8.1级大地震前的地壳水平运动。  相似文献   

中国大陆地壳运动观测研究进展   总被引：1，自引：0，他引：1  

游新兆  杨少敏  王琪 《地震》2012,32(2):31-39

本文利用国家重大科技基础设施“中国大陆构造环境监测网络”1972个站两期GNSS观测资料绘制2009—2011年中国大陆地壳运动图。 该图反映了2011东日本大地震同震形变对我国东部地壳运动及变形状态的巨大影响, 也反映2008汶川地震和2001昆仑山口西地震震后变形对青藏高原构造应力场的调整过程, 较为完整地展示印度板块挤压下青藏高原的变形状态。  相似文献   

中国大陆1998～1999年地壳运动观测结果   总被引：26，自引：4，他引：22       下载免费PDF全文

顾国华  牛红叶  郑贵明  许永江  孟国杰  孙世英  方颖 《地震学报》2000,22(6):561-567

介绍了中国地壳运动观测网络1998～1999年基准站GPS观测概况,简要介绍了用伯尔尼（Bernese）软件对GPS观测数据的处理结果,详细介绍了所获取的1998年９月初～1999年７月初基准网地壳运动,包括各基准站位移与网内各部分的应变．在所述观测期间,我国东部地区较为稳定．相对东部地区,西南部地区以向北运动为主,位移量约17ｍｍ,受北北东向挤压为主;西北部地区以北西向运动为主,位移量约11ｍｍ;而云南地区以向南运动为主,位移量约14ｍｍ．我国中部南北地震带则是一强烈的剪切变形带．网内最大主应变量为2.910-8．观测结果表明,印度板块向北挤压依然是影响我国地壳运动的主要因素．   相似文献   

中国地壳运动观测网络基准站水平位移向量时间序列   总被引：6，自引：2，他引：6  

顾国华  张晶  王武星 《地震》2003,23(2):39-47

根据中国地壳运动观测网络基准网1998年9月初至2002年6月底GPS连续观测结果，结合各基准站的水平位移的分量时间序列，试图利用空间上更直观、更清晰的水平位移向量方法进一步说明中国地壳运动观测网络基准网水平位移测量精度、水平方向点位稳定性及2001年11月14日昆仑山口西8．1级大地震前后的地壳水平运动时空演化过程。  相似文献   

印尼8.7级大震前后GPS观测站的地壳水平与垂直位移时间序列结果   总被引：8，自引：3，他引：5  

顾国华 《地震》2006,26(2):19-28

利用IGS及中国地壳运动观测网络GPS连续观测站6年多时间的观测结果, 以中国大陆东部的稳定点组作为水平位移与垂直位移解的参考基准, 得到了2004年12月26日印尼苏门答腊8.7级与2005年3月28日8.5级大震前后GPS观测站的地壳水平及垂直位移时间序列的结果。 尽管所采用的GPS站点少, 且分布范围大, 但仍可看到在如此大的地震震前、 同震与震后地壳运动的特征, 为今后观测研究提供了十分有意义的结果。 文中所采用稳定点组基准有效消除水平位移场的平移与旋转, 而局部椭球面的不平性对计算区域地壳运动结果, 特别是对垂直位移的影响很小, 说明了位移解所描述的大范围区域位移场是合理的。 这两次地震的同震水平位移及震后的垂直位移影响量级达数厘米, 范围达远离8.7级地震震中4500 km之外, 甚至更远。  相似文献   

中国大陆现今地壳水平运动基本特征   总被引：39，自引：4，他引：39       下载免费PDF全文

顾国华  申旭辉  王敏  郑贵明  方颖  李鹏 《地震学报》2001,23(4):362-369

介绍利用中国地壳运动观测网络基本网、基准网1998年和2000年GPS观测结果所获得的中国大陆地壳水平运动信息．简要介绍这两次GPS观测概况，以及用GAMIT / GLOBK软件对所获得GPS观测数据的处理及精度分析．基准网与基本网各年观测结果得到的网内点位精度、水平分量精度平均为2mm左右，高程分量精度平均为5mm 左右，由两期观测得到的水平位移分量的精度平均为3mm 左右． 得到的1998年9月初至2000年6月中旬基本网、基准网中的地壳运动，包括以位于东部的一组稳定点为基准的各观测站位移、网内各部分的应变及部分地区的旋转量．根据所获得的我国大陆较为完整而详细的地壳水平运动图象，分析了中国大陆现今地壳运动的主要特征．在所述观测期间，我国东部地区变形较小，相对较为稳定．相对位于东部的稳定点组，东北块体向北运动，位移量约10mm；华南块体向东南运动，位移量约9mm．相对东部地区，西北部新疆地区以北西向运动为主，位移量约26mm；西南西藏地区以向北运动为主，位移量约32mm；西藏东部与云南地区形成非常明显的顺时针旋转构造运动，旋转中心位于26.5N，95.5E，旋转量为0.0045，旋转位移平均为12mm 左右．我国中部南北地震带是一强烈而复杂的变形带．GPS测量结果表明，印度板块向北挤压是影响我国地壳运动的主要因素．   相似文献   

区域网GPS观测得到的2008年汶川MS8.0地震前的地壳水平运动     

顾国华  王武星  徐岳仁  李文军  中国北京 《地震学报》2009,31(6):597-605

2008年5月12日汶川（31.0°N,103.4°E）MS8.0大地震发生在中国地壳运动观测网络区域网GPS观测站相当密集的地区．1000个站的GPS 非连续观测区域网分别在1999,2001,2004年和2007年作了4次观测．震前区域网GPS观测站得到的水平位移表明,汶川大地震主要力源是印度板块向北对中国大陆的挤压,但同时也受到东部与南部板块的挤压．与其它地区相比,震前震中附近水平位移最显著的特点是,汶川地震发生在南北地震带上位移分叉部位,即震中北部明显向东北位移,震中南部明显向东南位移,而震中附近的水平位移则明显小于其北面和南面的水平位移．简要讨论了应变计算结果的精度．为获取地震前的异常信息,分别采用趋势曲面拟合和统计方法研究了汶川地震前（1999—2007年）区域网的应变积累,寻找震中的大致区域．除了2001年昆仑山口西大地震震中及其周围地区外,1999—2007年震前区域网的应变积累的趋势曲面拟合表明,汶川地震发生在中国大陆第一剪应变积累大、范围最广的区域的东侧,且在此区域内积累较大的面压缩区的东北边缘．应变分量的统计分析表明,震前其分布在此区域及其附近同样有明显的异常,剪应变和面膨胀积累均增强．   相似文献   

2011年日本9.0级地震前后GPS基线时间序列分析     

张风霜  占伟  孙东颖 《地震研究》2012,35(2):190-200

利用1999年初至2011年9月中国地壳运动观测网络基准站及中国大陆周边包含日本境内的IGS基准站的资料,分析了2011年3月11日日本9.0级地震前日本境内及周边IGS基准站基线时间序列的变化情况。讨论了该地震对中国大陆GPS基准站的同震影响,并对地震后中国大陆GPS基线时序结果的变化情况进行了总结分析。通过分析认为,日本大震后我国东部地区部分GPS基线开始转折拉伸,因而一定程度上缓解了这些基线的趋势性缩短,但是东部地区仍然有部分GPS基线的变化趋势基本不受日本地震的影响,近几年以来的趋势性异常至今仍然存在。  相似文献   

Horizontal crustal movement in Chinese mainland before and after the great Kunlun Mountain M=8.1 earthquake in 2001     

顾国华  张晶  王武星 《地震学报(英文版)》2003,16(6)

Introduction The great Kunlun Mountain earthquake occurred on November 14, 2001 on the border be-tween Xinjiang and Qinghai in west China (36.2N, 90.9E). It was the largest earthquake oc-curred in Chinese mainland in the last 50 years. The Crustal Movement Observation Network of China (CMONOC) established in 1998 mainly for the purpose of earthquake prediction with only 25 fiducial stations for continuous GPS observations, has recorded the precious information of the crustal movement …  相似文献   

Horizontal crustal movement in Chinese mainland before and after the great Kunlun Mountain M =8.1 earthquake in 2001     

Gu Guo-hua  Zhang Jing  Wang Wu-xing 《地震学报(英文版)》2003,16(6):676-685

The continuous GPS observation at the fiducial stations in the Crustal Movement Observation Network of China (CMONOC) recorded the crustal movement of Chinese mainland before and after the great Kunlun Mountain earthquake of M=8.1 on November 14, 2001, especially the horizontal crustal movement in the western part of China. Based on the datum defined by a group of stable stations with small mutual horizontal displacements for a few years, the time series of horizontal displacements at fiducial stations were obtained. Significant anomalous horizontal displacements had appeared at the fiducial stations in the western part of China since early November 2000 and several earthquakes with the magnitudes about 6.0 had occurred in Yunnan and Sichuan Provinces. The northward components of the horizontal displacement at the fiducial stations in west China had decreased significantly and even changed in the opposite sense since mid April 2001. After the earthquake, the northward displacements still decreased and there were significant westward displacements. The process of the crustal movement in the western part of Chinese mainland (in reference to east China) suggests that the main force source for this earthquake came from the northward pushing of the Indian plate. The great earthquake released a large amount of energy, as a result, the action applied by the Indian plate to Chinese mainland diminished significantly and after the great earthquake, the seismic activity in Chinese mainland decreased considerably until the end of 2002. Foundation item: The National Development and Programming Project for Key Basic Research (95-13-03-07).  相似文献   

Horizontal crustal movement in Chinese mainland before and after the great Kunlun Mountain <Emphasis Type="Italic">M</Emphasis>=8.1 earthquake in 2001     

Gu Guo-hua  Zhang Jing  Wang Wu-xing 《地震科学（英文版）》2003,16(6):676-685

The continuous GPS observation at the fiducial stations in the Crustal Movement Observation Network of China (CMONOC) recorded the crustal movement of Chinese mainland before and after the great Kunlun Mountain earthquake of M=8.1 on November 14, 2001, especially the horizontal crustal movement in the western part of China. Based on the datum defined by a group of stable stations with small mutual horizontal displacements for a few years, the time series of horizontal displacements at fiducial stations were obtained. Significant anomalous horizontal displacements had appeared at the fiducial stations in the western part of China since early November 2000 and several earthquakes with the magnitudes about 6.0 had occurred in Yunnan and Sichuan Provinces. The northward components of the horizontal displacement at the fiducial stations in west China had decreased significantly and even changed in the opposite sense since mid April 2001. After the earthquake, the northward displacements still decreased and there were significant westward displacements. The process of the crustal movement in the western part of Chinese mainland (in reference to east China) suggests that the main force source for this earthquake came from the northward pushing of the Indian plate. The great earthquake released a large amount of energy, as a result, the action applied by the Indian plate to Chinese mainland diminished significantly and after the great earthquake, the seismic activity in Chinese mainland decreased considerably until the end of 2002.  相似文献   

Horizontal crustal movement in Chinese mainland from 1999 to 2001   总被引：3，自引：0，他引：3  

顾国华  符养  王武星 《地震学报(英文版)》2004,17(Z1)

Introduction In the Crustal Movement Observation Network of China (CMONOC) there are 25 fiducialstations, 56 basic stations and 1 000 regional stations. They are scattered on 10 major blocks inChinese mainland with high density of observation stations on the blocks of high seismic activityin the regional networks. 10 major blocks or regions (they will be referred to as blocks in the paper,a letter is used as a symbol for each block) were divided during the design of the regionalnetwo…  相似文献   

Horizontal crustal movement in Chinese mainland from 1999 to 2001     

Gu Guo-hua  Fu Yang  Wang Wu-xing 《地震学报(英文版)》2004,17(1):52-60

The paper introduces the horizontal crustal movement obtained from GPS observations in the regional networks (including the basic network and the fiducial network) of the Crustal Movement Observation Network of China (CMONOC) carried out in 1999 and 2001. This paper is characterized by the acquisition of the horizontal displacement velocities during the period from 1999 to 2001 at the observation stations in the regional networks with datum definition of a group of stable stations with small mutual displacements in east China. Based on the most detailed map of horizontal crustal movement in Chinese mainland, the division of blocks, their displacements and deformations are studied. An approach to analysis of the intensity of the horizontal crustal deformation is proposed. The general characteristics of the recent horizontal crustal movement in Chinese mainland and that before the Kunlunshan earthquake of M=8.1 on November 14, 2001 are analyzed. Foundation item: The National Development and Programming Project for Key Basic Research (95-13-03-07).  相似文献   

General characteristics of the recent horizontal crustal movement in Chinese mainland   总被引：5，自引：0，他引：5  

顾国华  申旭辉  王敏  郑贵明  方颖  李鹏 《地震学报(英文版)》2001,14(4):384-393

1 Introduction of GPS observation dataThe Crustal Movement Observation Network of China (CMONOC) is a major scientific project in China organized by China Seismological Bureau and paticipated by the Bureau of Surveying and Mapping of the General Staff, the Chinese Academy of Sciences and the National Bureau of Surveying and Mapping. Based on the observation data of 25 fiducial stations and 56 basic stations in CMONOC (Figure 1 and Table 1), collected from August 26 to September…  相似文献   

Crustal Movement Observed by GPS and Earthquake Activity in the Chinese Mainland and its Neighborhood     

Guohua Gu 《Pure and Applied Geophysics》2006,163(11-12):2575-2583

The general characteristics of the recent horizontal crustal movement in the Chinese Mainland and the horizontal crustal movements before the Kunlun Mountain earthquake of M8.1 on Nov. 14, 2001 and two earthquakes of M 8.0 and M 7.9 occurred in Sept. 2003 around the Chinese Mainland are analyzed with GPS data obtained in the Crustal Movement Observation Network of China (CMONOC). Relative vertical displacements observed in the last five years at fiducial stations show that there was a significant correlation between the length of day and the vertical displacements at most stations in western China.  相似文献   

中国大陆GPS连续观测站测得的日本9.0级地震同震位移与震前变化     

赵国强  李鹏 《地震》2012,32(2):129-134

利用中国大陆GPS连续观测站资料, 获取了2011年3月11日日本9.0级地震造成的连续站同震位移。 计算结果表明, 位于我国东部尤其是东北地区的台站在水平方向都有明显的同震位移, 且离震中越近同震位移量越大, 其中绥阳站的水平同震位移量最大, 达到33 mm。 通过对时间序列分析发现, 有明显同震位移的连续站, 震前水平方向的运动速度都有放缓的趋势, 可能是一种形变前兆现象。 这些GPS观测到的同震位移及震前运动速度异常, 对于进一步研究前兆地壳运动、 地震动力学特征以及精化中国大陆地壳运动速度场都有重要意义。  相似文献   

Horizontal crustal movement before the great Wenchuan earthquake obtained from GPS observations in the regional network          下载免费PDF全文

Guohua Gu  Wuxing Wang  Yueren Xu  Wenjun Li 《地震科学（英文版）》2009,22(5):471-478

The great Wenchuan earthquake of M8.0 on May 12, 2008, occurred in an area with dense GPS observation stations in the regional network of the Crustal Movement Observation Network of China (CMONOC). Non-continuous observations were carried out at the 1 000 GPS stations of the regional network in 1999, 2001, 2004 and 2007. The horizontal displacements at GPS stations in the regional network before the Wenchuan earthquake show that the main driving tectonic force of the earthquake was the northward pushing of the Indian plate, added at the same time by the pushing of plates on the east and south. In comparison to the displacements in other regions, the horizontal displacements near and around the seismic area is characterized by diverging eastward displacements, that is, the stations to the north of the epicenter moved in the ENE direction while those to the south of epicenter moved in ESE direction with smaller displacements at stations near the epicenter. The accuracy of the estimated strain results is briefly discussed. In order to obtain the anomalous information before the earthquake, the methods of both best fits by trend surface and statistics have been used in the study for finding the future epicentral area from the strain accumulations in the regional network observed from 1999 to 2007 before the Wenchuan earthquake. Besides the epicentral area of the western Kunlun mountain pass earthquake of M8.1 in 2001, the results of best fits by trend surfaces of the strain accumulations from 1999 to 2007 in the regional network show that the Wenchuan earthquake occurred at the eastern fringe of a large area with relatively large accumulations of the first shear strains and also at the northeastern fringe of a smaller area with significant accumulated areal compressions. The statistics of the accumulations of the strain components demonstrates that they also showed anomalous distribution patterns in this area and its neighborhood with increasing accumulations of both shear strains and areal compressions.  相似文献