共查询到20条相似文献,搜索用时 31 毫秒
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福建沿海、台湾海峡GPS观测分析及地球动力学特征研究 总被引:1,自引:1,他引:1
利用 3期GPS联测结果所获得的福建沿海地壳水平运动信息 ,采用ITRF94全球框架为基础的GPS测站地壳运动模型及其处理软件 ,对所获得的观测数据进行处理和精度分析。得到福建省高精度的GPS测站大地坐标、边长及其位移矢量 ,其精度达到 1 7×10 - 8。计算了福建地壳运动速率、主应变率 ,东西与南北向线应变率、面应变率、剪应变率、大地转动率和最大剪应变率等值线并给出了它们的分布图象。根据多年形变和现今GPS观测资料 ,分析福建地壳垂直运动与水平运动 ,显示区域应力场优势分布特征。最后 ,对福建沿海及台湾海峡地壳动力学特征作了初步的探讨 相似文献
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南北地震带和青藏块体东部近期大地形变与地震特征 总被引:8,自引:1,他引:8
通过研究南北地震带及青藏块体东部地区20多年来大地形变场演化特征及其与地震活动的呼应关系,发现大地形变既具有时空分布的不均匀性,各分区形变场又具有同时段的宏观相似性;继承性运动是现代地壳运动的总趋势,而运动方式为波浪式,涌动式推进。地壳运动过程中存在着区域为能积累阶段和释放调整阶段,这可能是地震活动的相对平静与活跃的动力机制。 相似文献
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Li Yanxing Shen Jianhua and Wang MinFirst Crustal Deformation Monitoring Center SSB Tianjin ChinaDepartment of Scientific Programming Earthquake Monitoring SSB. Beijing China 《中国地震研究》1995,(3)
The Global Positioning System (GPS) is a new method to monitor the crustal deformation for earthquake prediction.Now a four-dimensional crustal deformation monitoring network applying GPS techniques has been established in North China,which is an important seismic monitoring area.Results with high precision have been achieved in the first measurement since a series of advanced methods and measures were adopted,and thus a good foundation has been laid for future researches on earthquake prediction and geodynamics. 相似文献
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首先, 利用“中国地壳运动观测网络”和“中国构造环境观测网络”截至2013年的GPS区域站观测资料, 结合地质构造, 简要分析了2014年2月12日新疆于田7.3级地震前大区域地壳水平运动变形背景; 接着, 对青藏块体东北缘地区GPS和精密水准两种不同类型资料反映的地壳运动变形与应变积累状态进行了对比分析研究; 最后, 结合地震活动动力环境, 研究和探讨了于田7.3级地震的发生对青藏块体东北缘地震活动的可能影响。 我们认为, 此次于田7.3级地震发生在近年来中国西部边邻强构造活动环境和内陆地壳强烈差异运动显著的背景下, 同时也是青藏块体及其边缘构造应力场较强的时段; 于田7.3级地震左旋走滑错动和应力传递, 可能会加速青藏块体东北缘具有高应变积累的构造断裂部位(尤其是祁连山构造带、 西秦岭以南的甘青川交界)破裂释放。 相似文献
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ntroductionThehighprecisionGPSmeasurementhasprovidedanefectivetechnicalmethodfortheresearchofcrustalhorizontalmovement.In19... 相似文献
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华北地区近期地壳水平运动与应力应变场特征 总被引:49,自引:7,他引:42
利用华北GPS监测网 1 992年、1 995年、1 996年的观测资料 ,应用最小二乘配置给出了华北地区相对水平位移场、应变场的分布图像 .经初步研究表明 :华北地区 1 992-1 995年间的水平位移和应变场表现为整体性不均匀的压性运动 ,1 995- 1 996年测区东部仍以水平压性运动为主 ,但测区西部则主要表现为张性运动 .水平运动 (方向、大小 )发生显著变化和应变高值区的地带主要位于块体边界带和主要断裂带附近 .燕山断块南边界的北东向断裂存在着较显著的左旋运动 .区内最大剪应变、面膨胀的高值区在天津、北京、唐山一带 .结合非连续变形数值分析方法 (DDA)初步分析认为 ,1 992- 1 995年GPS观测结果显示的华北地区存在东、西部构造应力作用的明显差别 ,华北东部以东西向压应力作用为主 ,而西部的南北向构造应力作用又明显大于东部 . 相似文献
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太原盆地的应力场特征 总被引:6,自引:0,他引:6
通过对太原盆地大量震源机制解资料的研究,揭示了该盆地的地壳应力场特征,认为其地壳应力场具有显著的局部小区域应力场特征,即以北西-北北西向水平拉张、北东-北东东向挤压作用为主,而震源类型多为走滑-近走滑,兼有一定的斜滑分量,指明该应力场控制着太原盆地的中小地震活动。得出太原盆地的平均应力场与华北区域应力场完全一致,太原盆地的地壳应力场及地震活动仍严格受华北区域应力场的作用与控制的结论。 相似文献
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华北GPS地形变监测网的建立 总被引:4,自引:4,他引:4
全球定位系统GPS是利用监测地壳运动进行地震预测的新手段。华北是一个重要的地震监视区。应用GPS技术在华北布设了一个四维地形变监测网。由于采取了一系列先进的方法和措施,首次观测获得了高精度的成果,为今后大震预测和地球动力学的研究奠定了基础。 相似文献
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A method for computing crustal horizontal velocities and strain-rates using repeated GPS survey and other crustal deformation measurement was presented in detail. Based on the data taken from the Crustal Deformation Monitoring-Networks with GPS in the whole country and North China, we derived the average horizontal velocities of the points of the networks and simulated the horizontal velocity and strain-rate fields in the corresponding areas. From these results, we can conclude: (1) GPS can effectively detect current crustal motion and deformation, and (2) the method presented in the paper is valid, and through its use, calculated results can provide more information about current crustal motion and deformation than direct observation data. 相似文献
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General characteristics of the recent horizontal crustal movement in Chinese mainland 总被引:5,自引:0,他引:5
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
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回顾了GPS观测技术应用于地壳运动与形变中的相关理论与方法,重点介绍了水平应变的计算方法与描述地壳运动与形变场的各种数学物理方法,讨论了提取地壳运动与形变信息过程中存在的问题. 相似文献
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采用有限元方法模拟了近20万年来青藏高原岩石圈形变演化过程,探讨了印度-欧亚大陆的碰撞对中国大陆岩石层形变和应力场的影响以及它们与强地震活动性的关系.结合现代GPS、地震和地质学观测的结果,对比分析了中国大陆在百万年、十万年和十年尺度上的形变和构造应力场的基本格局.研究表明:(1)印度-欧亚大陆的碰撞以及印度大陆的持续向北推进、挤压所产生的应力环境,一直主导了以青藏高原为核心的我国西部地域岩石圈构造、运动和演化,但其影响随着远离青藏高原地区而逐渐变小.(2)断层滑移和重力势作用对于青藏高原东西部以及塔里木盆地的影响相当大,它们导致青藏高原岩石层东西向形变速率增大,对青藏高原的中南部地区产生拉张效应,同时导致塔里木盆地出现整体的右旋趋势.(3)青藏高原区域水平方向形变速率和GPS观测结果吻合较好.但在垂直方向上,一些地区计算结果与观测数据相差较大,这说明单纯的挤压作用不是现代青藏高原隆升的惟一机制.现代青藏高原的隆升可能与其他驱动机制,如地幔对流、重力均衡以及剥蚀作用等有关.(4)印度板块的挤压作用基本上决定了中国大陆西部的主压应力场分布.(5)印度板块的碰撞对中国大陆的强地震活动性有重要影响,但华北地区是个例外,该地区的地震活动性很强而印度板块的挤压在该区域产生的影响却很小,说明其他的驱动力在一定程度上活化了华北地块. 相似文献
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On the Consistency of Large Earthquake Moment and Strain Rate Inferred from GPS Data in North China 总被引:2,自引:0,他引:2
Wan Yongge 《中国地震研究》2005,19(3):249-258
INTRODUCTIONStudyingthe relation between the accumulation of crustal strain and the release rate of seismicmoment is animportant subject of earth science research.It is also one of the important methods ofestimatingthe future seismic risk(Ward,1994;1998a;… 相似文献
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Yang Guohua 《中国地震研究》2004,18(2):114-124
Based on high-precision data obtained in the past decade from GPS re-measurement in the North China Network, the Crustal Movement Observation Network of China (CMONOC) and GPS measurement along the Shanxi graben zone, the status and evolution of horizontal crustal movement in the North China region are analyzed. The results show that (1) the Yanshan tectonic zone (Zhangjiakou-Bohai Sea zone)is an active one with the largest horizontal strain in the North China region; The largest tendency differential movement of adjacent blocks is seen between the Yanshan block and the North China plain block; about 2mm/a (left lateral) ; (2)The significant horizontal differential movement along the boundaries of the North China region is characterized by right-lateral strike-slip movement at the middle-north segment on its west boundary (composed of Yinchuan and other active tectonic zones) and compressive movement at the south segment; while the Yinshan rift zone located along the west segment on its north boundary is dominated by tensile movement. Other boundaries and zones have no obvious differential movement; (3) On the whole, measurements of each period differ from one another, which might result from the nonlinear movement component as well as from the error effect. In the paper, results of the relative movement and strain in different periods are given for different blocks and boundary zones. 相似文献
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Tectonic activity is intense and destructive earthquakes occur frequently in the northern section of the North-South Seismic Belt(NSSB). After the May 12, 2008 Wenchuan earthquake, the North-South Seismic Belt enters a new period of high seismicity. On July 22, 2013, the Minxian-Zhangxian earthquake occurred, which broke the 10-years seismic quiescence of magnitude 6 of the area, indicating an increasing trend of strong earthquakes in the region. Earthquake is the product of crustal movement. Understanding the dynamics of the process of crustal movement may provide basis for earthquake prediction. GPS measurement can provide high-precision, large-scale, quasi-real-time quantitative crustal movement data, that allows us to explore the evolution of crustal movement and its relationship with earthquake, thus providing the basis for determining the seismic situation. Since 2009, the density of mobile GPS measurement stations has significantly improved in the Chinese mainland, and moreover, the Wenchuan earthquake has brought about adjustment of the regional crustal deformation regime. So the introduction of the latest repeat GPS data is important for understanding the features of crustal movement in the northern section of the North-South Seismic Belt. In this paper, we obtained the GPS velocity field, fault profile and baseline time series and analyzed the dynamics of recent crustal movement in the northern section of the North-South Seismic Belt using the 1999a-2014a GPS data of mobile and continuous GPS measurement stations. The results show that: the Qilianshan Fault has a high strain accumulation background. There are locked portions on the Liupanshan Fault, especially in the region of Jingning, Pingling, Dingxi, Longxi. In 2004-2009a, the degree of locking of the Liupanshan Fault got higher. In 2009—2013a, crustal movement on the northern section of the North-South Seismic Belt weakened compared with 1999-2004, 2004-2009, and showed some features as follows: ① The velocity field weakened more markedly near the Qilian-Haiyuan-Liupanshan faults; ②The velocity decreased more significantly in the region north of Qilianshan-Haiyuan Fault than that of the south, resulting in enhanced thrust deformation on the Qilianshan Fault in 2009-2013a and the decreased sinistral shear deformation on the Qilianshan Fault and Haiyuan Fault; ③the velocity field decreased more remarkably at 50km west of Liupanshan Fault, compared to the east region, which led to the locked range on the Liupanshan Fault extending to the range of 100km near the fault zone during 2009-2013 from the previous locked range of 50km near the fault. The GPS baseline time series analysis also reveals a number of structural features in the region: Yinchuan Graben is continuing extending, and the extension in the west is stronger than that in the east. On the southern end of Yinchuan Graben, the deformation is very small. 相似文献
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Horizontal movement and strain characteristics in Tianshan and its adjacent region with GPS deformation data 总被引:1,自引:0,他引:1
Introduction The Tianshan Mountain is the youngest cordillera in the present-day continental Asia, and its tectonic evolution is closely related to the collision and subduction between Indian Plate and Eurasian Plate in the Himalayas orogen since Cenozoic… 相似文献