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1.
全球地壳运动的背景场及其研究进展 总被引:1,自引:0,他引:1
全球地壳运动是在全球地壳运动背景场中发生的,其背景场的运动参数是表征地壳运动的最基本特征。由于现今板块运动模型ITRF序列均忽略板块边界部分,并且板块以NUVEL1A模型来划分,由此建立的全球板块运动模型不能作为一个严格的全球地壳运动背景场。利用区域速度场和ITRF2000速度场建立一个包括非刚体的板块边界区域和刚体板块的全球地壳运动模型,其板块总角动量ΙLΙ=0.131°/Ma,即不为零,存在整体旋转,由此建立无整体旋转(NNR)模型,并评述其研究进展。 相似文献
2.
中国大陆现今构造变形GPS观测数据与速度场 总被引:64,自引:6,他引:58
利用 1991— 1999年间 36 2个全球定位系统 (GPS)测站的观测资料 ,初步获得了中国大陆及周边地区现今地壳水平运动的统一速度场。该速度场主要涵盖青藏高原 ,天山 ,塔里木、川滇 ,河西走廊 ,福建东南沿海等重要构造活动区 ,测定精度总体优于 2~ 3mm/a ,速度场站点的分布和测定精度基本上满足中国大陆现今构造变形和动力学研究的需求。现代大地测量第一次比较全面、定量地展示出中国大陆在周边板块作用下大幅度构造变形的图像 ,为模拟大陆岩石圈动力过程提供了基础性的运动学约束条件。 相似文献
3.
亚洲板块运动欧拉参数的确定及其板内形变的分析 总被引:1,自引:0,他引:1
板块运动的欧拉参数是表征板块运动的最基本特征。地质模型和独立空间技术实测资料建立的ITRF序列模型都将欧亚板块视为一个整体,由于80%的台站集中在西欧,因此整个欧亚作为一个背景场来研究亚洲区域形变,不能真正反映亚洲板内形变。本文利用国际地球自转服务(IERS)发布的ITRF2000速度场,独立确定亚洲区域板块运动欧拉参数,进而分析亚洲区域现今板内形变,并与地质模型NNR-NUVEL1A和ITRF2000VEL模型得到的结果进行比较,揭示亚洲区域现今运动特征:中南部形变最大,向北逐渐减小,东西向拉伸,南北向收缩;亚洲东部地区相对于亚洲是一稳定的区域;另外亚洲西伯利亚地区不属于亚洲区域块体,而属于独立的稳定的欧亚构造块体,具有刚性块体特征。 相似文献
4.
东亚地区现代地壳运动特征与构造变形 总被引:4,自引:1,他引:4
根据“中国地壳运动观测网络”首次发布的GPS观测结果以及国际地球自转服务中心在 2 0 0 0年发布的ITRF97下的站速度矢量和“东南亚地球动力学项目”GPS网的观测结果 ,讨论了东亚地区现今地壳运动和构造变形特征。在ITRF97参考系下 ,中国大陆东部现今地壳运动以向南东方向(12 0 130°)运动为主 ,量值平均为 35mm/a ,西部受印度板块向北东碰撞的影响 ,运动方向发生偏转 ,呈显北东—近东西向运动 ,但这种影响涉及的范围达到了准噶尔盆地北缘一线 ,说明碰撞型板块边界对板内变形的影响远大于俯冲型板块边界。平均来看 ,75 %以上的印度板块相对于欧亚板块间的南北向缩短是通过地壳增厚变形来吸收的 ,这意味着在调节整个青藏高原构造变形的过程中 ,逆断和地壳增厚起了主要的作用。东南亚块体总体上与欧亚板块的运动有所差异 ,相对于欧亚大陆有 10mm/a左右向东的运动。菲律宾板块南部向西的运动速度只有 2 4mm/a。包括华南地块在内的东南亚块体的运动不仅仅是与印度板块的碰撞过程有关 ,也应当与沿着东南亚块体东边界的俯冲过程有关。 相似文献
5.
Sridevi Jade H. J. Raghavendra Rao M. S. M. Vijayan V. K. Gaur B. C. Bhatt Kireet Kumar Saigeetha Jaganathan M. B. Ananda P. Dileep Kumar 《International Journal of Earth Sciences》2011,100(6):1293-1301
Deformation rates derived from GPS measurements made at two continuously operating stations at Leh (34.1°N, 77.6°E) and Hanle
(32.7°N, 78.9°E), and eight campaign sites in the trans-Himalayan Ladakh spanning 11 years (1997–2008), provide a clear picture
of the kinematics of this region as well as the convergence rate across northwestern Himalaya. All the Ladakh sites move 32–34 mm/year
NE in the ITRF2005 reference frame, and their relative velocities are 13–16 mm/year SW in the Indian reference frame and ~19 mm/year W
with reference to the Lhasa IGS station in southeastern Tibet. The results indicate that there is no statistically significant
deformation in the 200-km stretch between the continuous sites Leh and Hanle as well as between Leh and Nubra valley sites
along the Karakoram fault, whereas the sites in and around the splayed Karakoram fault region indicate surface deformation
of 2.5 mm/year. Campaign sites along the Karakoram fault zone indicate a fault parallel surface motion of 1.4–2.5 mm/year
in the Tangste and western Panamik segment of the Karakoram fault, which quantifies the best possible GPS-derived dextral
slip rate of 3 mm/year along this fault during this 11-year period. Baselines of Ladakh sites show convergence rates of 15–18 mm/year
with respect to south India and 12–15 mm/year with respect to Delhi in north India and Almora in the Himalaya ~400 km north-northeast
of Delhi. These constitute an arc normal convergence of 12–15 mm/year across the western Himalaya, which is consistent with
arc normal convergence all along the Himalayan arc from west to east. Baseline extension rates of 14–16 mm/year between Lhasa
and Ladakh sites are consistent with the east–west extension rate of Tibetan Plateau. 相似文献
6.
Since the advent of plate tectonics different global reference frames have been used to describe the motion of plates and trenches. The difference in plate motion and trench migration between different reference frames can be substantial (up to 4 cm/yr). This study presents an overview of trench migration velocities for all the mature and incipient subduction zones on Earth as calculated in eight different global reference frames. Calculations show that, irrespective of the reference frame: (1) trench retreat always dominates over trench advance, with 62–78% of the 244 trench segments retreating; (2) the mean and median trench velocity are always positive (retreating) and within the range 1.3–1.5 cm/yr and 0.9–1.3 cm/yr, respectively; (3) rapid trench retreat is only observed close to lateral slab edges (< 1500 km); and (4) trench retreat is always slow far from slab edges (> 2000 km). These calculations are predicted by geodynamic models with a varying slab width, in which plate motion, trench motion and mantle flow result from subduction of dense slabs, suggesting that trench motion is indeed primarily driven by slab buoyancy forces and that proximity to a lateral slab edge exerts a dominant control on the trench migration velocity. Despite these four general conclusions, significant differences in velocities between such reference frames remain. It is therefore important to determine which reference frame most likely describes the true absolute velocities to get an understanding of the forces driving plate tectonics and mantle convection. It is here proposed that, based on fluid dynamic considerations and predictions from geodynamic modelling, the best candidate is the one, which optimises the number of trench segments that retreat, minimizes the trench–perpendicular trench migration velocity (vT) in the centre of wide (> 4000 km) subduction zones, maximizes the number of retreating trench segments located within 2000 km of the closest lateral slab edge, minimizes the average of the absolute of the trench–perpendicular trench migration velocity (|vT|) for all subduction zones on Earth, and minimizes the global upper mantle toroidal volume flux (To) that results from trench migration and associated lateral slab migration (i.e. slab rollback or slab roll-forward). Calculations show that these conditions are best met in one particular Indo-Atlantic hotspot reference frame, where 75% of the subduction zones retreat, vT in the centre of wide subduction zones ranges between − 3.5 and 1.8 cm/yr, 83% of the trench segments located within 2000 km of the closest lateral slab edge retreat, the average of |vT| is 2.1 cm/yr, and To = 456 km3/yr (lower limit) and 539 km3/yr (upper limit). Inclusion of all the incipient subduction zones on Earth results in slightly greater fluxes of 465 km3/yr (lower limit) and 569 km3/yr (upper limit). It is also found that this reference frame is close to minimizing the total sub-lithospheric upper mantle volume flux (K) associated with motion of continental keels located below the major cratons. It is stressed, however, that K is an order of magnitude smaller than To, and thus of subordinate importance. In conclusion, the Indo-Atlantic hotspot reference frame appears preferable for calculating plate velocities and plate boundary velocities. 相似文献
7.
JIN Shuanggen ZHU Wenyao Shanghai Observatory Chinese Academy of Sciences Shanghai 《《地质学报》英文版》2003,77(1):59-63
The relative Euler vectors of the Pacific, Philippine, Amurian, Okhotsk, N. Honshu and South China plates or blocks are deduced from earthquake slip vectors, transform fault azimuths and spreading rates, which are consistent with new results derived from the International Terrestrial Reference Frame ITRF2000 velocity field, the velocity field of GPS stations in China and the GPS measurement data of the GEONET network in Japan. Based on the two groups of Euler vectors, analysis and comparative study of the relative motions and deformations of the tectonic blocks in East Asia reveal the present-day motion characteristics of the blocks. 相似文献
8.
VORTEX MOTION OF THE CRUST DEFORMATION IN THE TIBETAN PLATEAU AND ITS FORELANDFromtheresultsofthecooperativeprojectbetweenChengduInstituteofGeologyandMineralResources
andMassachusettsInstituteofTechnology 相似文献
9.
Milyukov V. K. Mironov A. P. Ovsyuchenko A. N. Gorbatikov A. V. Steblov G. M. Korzhenkov A. M. Drobyshev V. N. Khubaev Kh. M. Agibalov A. O. Sentsov A. A. Dogan U. Ergintav S. 《Geotectonics》2022,56(1):41-54
Geotectonics - The paper presents the velocity field of the Western Caucasus and Ciscaucasia based on GNSS observations. In the ITRF2014 reference frame, this field shows the coordinated movement... 相似文献
10.
国际大地测量协会(IAG)2003年 7月在日本札晃举行了近 8天的学术讨论会。现将讨论会中关于我国近邻国家大地基准现代化,低轨卫星(LEO)解算地球重力场的新方法---《一步法》,及GPS数据处理方法的新进展等进行扼要介绍。《国际地面参考框架(ITRF)》一直作为全球的大地测量坐标框架,它目前存在的主要问题是它的框架点是一律被假定作常速运动的,但实际情况与ITRF的这一假定是不一致的。在这次大会上我国的近邻国家如日本、蒙古、新西兰、韩国、马来西亚等报告了本国大地坐标系统、坐标框架的更新和现代化,以及地区大地水准面的精化工作。通常利用二步法从低轨卫星的轨道信息求定地球重力场及其时变,大会上报告的一步法是对这一经典方法的重大改进和突破。GPS数据处理方法的新进展中比较突出的有:顾及观测数据短暂性相关影响的GPS连续运行网坐标及其移动速度的解算方案;含有系统误差的GPS观测数据的解算等。 相似文献
11.
地球表层运动和变形的GPS描述 总被引:3,自引:1,他引:3
利用IERS所公布的分在全球各大构造板块上的 6 5 7个GPS、SLR和VLBI连续观测站在ITRF框架下的速度场资料 ,采用刚体板块运动 +板块整体均匀应变 +板块内局部不均匀应变的变形分析模型 ,研究了全球各主要板块的运动和变形。结果表明板块的整体变形在统计上均不显著。在一级近似上板块间表现出来的整体相对运动显著 ,根据这些运动参数定量研究了板块边界的相对运动的大小和性质。认为地球的双重不对称变形可能主要表现为南北、东西两半球所含的板块边界的运动方式不同所致。板块内的局部不均匀变形明显 ,为板块内部可能应划分成次一级的活动地块提供了佐证。由于观测点分布的密度和均匀性不足 ,本文未能就板内不均匀变形作进一步的深入讨论。 相似文献
12.
J. Paul F. Blume S. Jade V. Kumar P. S. Swathi M. B. Ananda V. K. Gaur Roland Burgmann Roger Bilham B. Namboodri Dave Mencin 《Journal of Earth System Science》1995,104(1):131-146
We report the results of the South Indian Strain Measuring Experiment (SISME) designed to determine whether strain related
to microseismicity in the past century may have deformed the networks of the 19th century Great Trigonometrical Survey of
India (GTS). More than a dozen GTS points were measured between Mangalore, Madras, and Kanyakumari in southernmost India using
GPS geodesy to determine regional deformation. Detailed measurements were made near two of the original baselines of the survey
to determine the reliability of dilatational strain data for the network. The regional measurements revealed negligible regional
dilatational (+ 11.2 + 10 microstrain) and shear strain changes (0.66± 1.2μradians) in the southernmost 530 km of India. In
addition to these measurements, we determined the rate of northward and eastward motion of a point in Bangalore (1991–1994)
in the ITRF92 reference frame to be 39 ± 3.5 mm/year, and 51 ± 11 mm/year respectively. This is consistent with NUVEL-1A plate
motion estimate for India. Simultaneous measurements to a point near Kathmandu reveal that the Indian plate and the Southern
Himalaya are moving approximately in unison, placing an upper limit on the rate of creep processes beneath the lesser Himalaya
of ≈6 mm/year, and suggesting relatively rigid behavior of the Indian plate north of Bangalore. The stability of the Indian
plate is confirmed by the absence of significant changes in the lengths of the two baselines at Bangalore and Cape Comorin,
which, within the limits of experimental error have not changed since 1869. The measurements place an upper limit for recent
deformation in the southern peninsula, and hence a lower limit for the renewal time for intraplate earthquakes in the region
of approximately 10,000 years, assuming shear failure strain of approximately 100 μradians. This, in turn, implies that recurrence
intervals for Peninsular Earthquakes far exceed the length of the written historic record, suggesting that the characterisation
of seismic recurrence intervals from historical studies is likely to be fruitless. In contrast, the SISME experiment demonstrates
that the noise level of geodetic studies based on 19th century GTS data is less than 0.02 μstrain/year, providing considerable
scope for delineating regions of anomalously high seismogenic strain, by GPS measurements at all available trig points of
the 19th century GTS survey. 相似文献
13.
利用几何大地测量监测数据考察某一岩石圈板块或块体的运动 ,目前的主要方法是选择某一相对稳定点或直接选择地固参考系作为运动参考系 ,计算被考察的板块或块体相对于该相对稳定点的运动或在地固参考系中的运动。显然 ,这种计算结果无法全面直观地表达被考察板块或块体的内部相对运动 ,以及周围板块或块体相对于被考察板块或块体的运动。文中首次尝试了直接选择被考察板块或块体即欧亚板块东南部块体作为参考块体 ,利用一种高精度的几何大地测量监测数据 ,即国际地球参考框架 (ITRF)速度场计算了欧亚板块东南部块体在ITRF参考系中的线性运动模型 ,从而建立了欧亚板块东南部块体的块体参考系 ,并在该块体参考系中计算欧亚板块东南部块体内部及周围板块现今三维相对运动 ,进而分析中国大陆及周围板块的现今相对运动规律 ,以及板块边界处板块的现今相对运动规律。 相似文献
14.
Laishram Sunil Singh V. K. Gahalaut Arun Kumar 《Journal of the Geological Society of India》2014,83(5):513-516
We report results of 9 years of GPS measurements of crustal deformation at Imphal, Manipur, a site located in the Indo-Burmese wedge of northwest Sunda arc. The analysis of these measurements suggests that the site moves at a rate of about 36.3±0.5 mm/year towards N55° in the ITRF2008. With respect to the Indian plate it moves at a rate of 16.7 mm/year towards N222°, i.e., predominantly towards southwest. The site is located about 15 km east of the Churachandpur Mao fault (CMF), which is reported to accommodate part of the India-Sunda motion. The site motion is not significantly affected by the earthquakes that occurred in the nearby region. However, the 2004 Sumatra-Andaman earthquake caused a coseismic displacement of ~ 3–5 mm predominantly towards southwest. The site motion is almost linear, with some seasonal variation, and does not show any evidence of accelerated slip or slow earthquake on the CMF or along the plate boundary. 相似文献
15.
Triaxial shear tests are performed to assess the effects of displacement velocity and confining pressure on shear strengths and dilations of tension-induced fractures and smooth saw-cut surfaces prepared in granite, sandstone and marl specimens. A polyaxial load frame is used to apply confining pressures between 1 and 18 MPa with displacement velocities ranging from 1.15 × 10−5 to 1.15 × 10−2 mm/s. The results indicate that the shearing resistances of smooth saw-cut surfaces tend to be independent of the displacement velocity and confining pressure. Under each confinement the peak and residual shear strengths and dilation rates of rough fractures increase with displacement velocities. The sheared-off areas increase when the confining pressure increases, and the displacement rate decreases. The velocity-dependent shear strengths tend to act more under high confining pressures for the rough fractures in strong rock (granite) than for the smoother fractures in weaker rocks (sandstone and marl). An empirical criterion that explicitly incorporates the effects of shear velocity is proposed to describe the peak and residual shear strengths. The criterion fits well to the test results for the three tested rocks. 相似文献
16.
Observed Tertiary palaeolatitudes in central Asia are more southerly (by about 1600 km on average) than those predicted from the Eurasian reference palaeopoles. Subsequent northward displacements of the central Asian terranes are unlikely to have been this large. In this study we analyse to what extent non-dipole fields, especially octupole fields, can explain this phenomenon. A global (zonal) octupole field manifests itself in two ways. (1) Because the reference APWP is based mostly on results from the UK and North America, its palaeopoles will be far-sided as seen from the North Atlantic, but near-sided as seen from eastern Asia, giving predicted palaeolatitudes that are too high. (2) An octupole field contribution produces observed palaeolatitudes, as calculated with the dipole formula for central Asia, that are too low. Both effects therefore increase the palaeolatitude anomalies in Asia. We find that an octupole/dipole field ratio (G3) of 0.06 or greater will reduce the palaeolatitude discrepancies significantly and is of the same magnitude as the G3 estimate of a recent analysis of Early Tertiary European and North American data. 相似文献
17.
M. Meschede 《International Journal of Earth Sciences》1998,87(2):200-205
Geometric constraints derived from the present plate configuration and from plate motion vectors of the Caribbean as well as the North and South American plates within a hotspot reference frame indicate that the thickened Caribbean oceanic crust was formed in a near-American position rather, than at the Galapagos hotspot. A lateral displacement of more than 1000 km between the Caribbean plate and the North and South American plates is related to differences in plate motion velocities during the Cenozoic era. The differential motion between the Caribbean and the American plates results from trench-parallel mantle flow as a response to the westward motion of the American plates. 相似文献
18.
19.
Data from the nation-wide GPS continuous tracking network that has been operated by the Geographical Survey Institute of Japan since April 1996 were used to study crustal deformation in the Japanese Islands. We first extracted site coordinate from daily SINEX files for the period from April 1, 1996 to February 24, 2001. Since raw time series of station coordinates include coseismic and postseismic displacements as well as seasonal variation, we model each time series as a combination of linear and trigonometric functions and jumps for episodic events. Estimated velocities were converted into a kinematic reference frame [Heki, K., 1996. Horizontal and vertical crustal movements from three-dimensional very long baseline interferometry kinematic reference frame: implication for reversal timescale revision. J. Geophys. Res., 101: 3187–3198.] to discuss the crustal deformation relative to the stable interior of the Eurasian plate. A Least-Squares Prediction technique has been used to segregate the signal and noise in horizontal as well as vertical velocities. Estimated horizontal signals (horizontal displacement rates) were then differentiated in space to calculate principal components of strain. Dilatations, maximum shear strains, and principal axes of strain clearly portray tectonic environments of the Japanese Islands. On the other hand, the interseismic vertical deformation field of the Japanese islands is derived for the same GPS data interval. The GPS vertical velocities are combined with 31 year tide gage records to estimate absolute vertical velocity. The results of vertical deformation show that (1) the existence of clear uplift of about 6 mm/yr in Shikoku and Kii Peninsula, whereas pattern of subsidence is observed in the coast of Kyushu district. This might reflect strong coupling between the Philippine Sea plate and overriding plate at the Nankai Trough and weak coupling off Kyushu, (2) no clear vertical deformation pattern exists along the Pacific coast of northeastern Japan. This might be due to the long distance between the plate boundary (Japan trench) and overriding plate where GPS sites are located, (3) significant uplift is observed in the southwestern part of Hokkaido and in northeastern Tohoku along the Japan Sea coast. This is possibly due to the viscoelastic rebound of the 1983 Japan Sea (Mw 7.7) and the 1993 Hokkaido–Nansei–Oki (Mw 7.8) earthquakes and/or associated with distributed compression of incipient subduction there. We then estimate the elastic deformation of the Japanese Islands caused by interseismic loading of the Pacific and Philippine Sea subduction plates. The elastic models account for most of the observed horizontal velocity field if the subduction movement of the Philippine Sea Plate is 100% locked and if that of the Pacific Plate is 70% locked. However, the best fit for vertical velocity ranges from 80% to 100% coupling factor in southwestern Japan and only 50% in northeastern Japan. Since horizontal data does not permit the separation of rigid plate motion and interplate coupling because horizontal velocities include both contributions, we used the vertical velocities to discriminate between them. So, we can say there is strong interplate coupling (80%–100%) over the Nankaido subduction zone, whereas it is about 50% only over the Kurile–Japan trench. 相似文献
20.
小江断裂为川滇地块、华南地块的边界断裂,是一条重要活动断裂。本文利用GPS监测结果,综合处理得到了欧亚框架下的运动速度场,并以此为基础,采用刚性假设下最小二乘法,对小江断裂中南各段的运动速度进行计算。计算结果表明:断裂中段东支断裂运动速度为3.37±3.20mm/a,西支断裂为3.29±2.73mm/a;断裂南段为3.63±1.76mm/a。整个断裂表现为左行走滑为主兼有挤压活动的特征。这一结果与大的构造环境一致,表明在印度板块与青藏高原的挤压碰撞下,高原东部川滇地块受华南地块、印支地块的阻挡作用,小江断裂产生逆时针移动,呈左行走滑特征。 相似文献