中国大陆现今水平形变动态特征

2001~2004大陆水平应变场大致沿玉树、阿尼玛沁、鲜水河、小江等断裂带形成一条由东西走向转为南北走向的应变高值带.2004~2007高值带向局部收缩,并维持前期高值.新疆于田M_S7.3、四川汶川M_S8.0分别位于该高值带的东段、西段剪应变梯度带上,具备大尺度形变背景.分析认为昆仑山M_S8.1对青藏高原内部块体、川滇块体的相对运动产生重大影响,导致震中两侧一系列断裂带附近区域水平差异运动处于较高水平,印尼M_S8.7地震则有利于上述区域应变能进一步积累.此外,2001~2004、2004~2007应变分布特征总体从无序趋向有序,体现构造应力场经历调整与再积累过程.现阶段太平洋板块、菲律宾板块俯冲作用可能有所增强.     

Present-day horizontal deformation status of continental China and its driving mechanism

Based on velocity data of 933 GPS sites and using the methods of Ordinary Kriging interpolation and shape function derivation, this study has obtained the strain rate field of continental China in the spherical coordinates. In comparison with previous research results, it is found that such a strain rate field can be described by both the continuous deformation and block motions in the continent. The Tibetan Plateau and Tianshan region are characterized by continuous deformation which is distributed across the whole area. Within the blocks of South China, Tarim, Ordos, and Northeast China, little crustal deformation and deformation occurs primarily on the faults along their boundaries, which can be explained by the model of block motion. In other regions, such as the Yinshan-Yanshan block, North China block, and East Shandong-Yellow Sea, deformation patterns can be explained by both models. Besides, from southwest to northeast of continental China, there are three remarkable extensional zones of NW trending. These results imply that the NNE directed push of the India plate is the primary driving force accounting for the internal deformation of continental China. It produces the uplift, hori-zontal shortening and vertical thickening of the Tibetan Plateau as well as radiation-like material extru-sion. Of these extruded materials, one part accommodates the eastward "escape" of other blocks, generating convergence and compression of western China and widespread extension and local com-plicated deformation in eastern China under the joint action of the surrounding settings. The other part opens a corridor between the South China block and Tibetan Plateau, flowing toward southeast to the Myanmar range arc and filling the gap there which is produced by back-arc extension due to plate subduction.     

Numerical analysis of contemporary hori-zontal tectonic deformation fields in China from GPS data

Introduction To correctly understand the tectonic deformation of continental lithosphere, its dynamical mechanics and seismic activity, we should firstly acquire the velocity field and strain field of lithospheric tectonic motion with fine resolution and consistent accuracy (Molnar and Lyon-Caen, 1989; Molnar, 1990). And the quality, distribution and density of observed data are the basis for studying crustal tectonic deformation. In the past, crustal deformation is usually determined indi-r…     

近几年山西断裂带水平形变的初步分析

以沿山西断裂带布设的GPS监测网的6期复测资料(1999~2004)所计算的近期趋势性运动速率为基础,获得了2005、2006年山西断裂带相对于近期趋势性运动的偏离结果。结果显示:(1)趋势性差异运动信息不显著,运动信息明显的点数只占十分之一,它们分别是S21、S20、S30和S33(位于太原以南),量级最大约6mm/a;(2)尽管单站趋势性运动信息不显著,但整体模拟计算表明,1999~2004年似乎有南北相对运动的迹象,相对变化最大约2.0mm/a;(3)2005年有偏离趋势运动的迹象,且背离趋势运动方向,最大量级约7mm;(4)截至2006年的累计偏离量最大约6mm;这表明2006年基本未发生累计偏离。由于变化相对平稳,这可能预示着山西断裂带内近期地震活动强度不太可能明显提高。     

Determination of active units with different kinematic property and their activity pattern in North China based on the data from GPS remeasurements

IntroductionWith the most feasible and powerful technical support provided by the high-precision GPS measurement for the study on horizontal crustal deformation, the obtainment of various-scale horizontal movement data and its study over the whole world is now in the ascendant, and its applicable fields is now expanding successively. In China, besides the GPS monitoring networks for different applications arranged by many agencies and departments, the key scientific project Crustal Movement…     

南北地震带水平形变及其动态特征

通过对南北带1999~2001、2001~2004年GPS资料的处理与分析,结果显示:南北地震带是我国水平运动的转化带与形变带;差异活动最显著的断裂带是川滇菱形块体的东边界带和青藏高原东北缘(祁连带);动态活动最突出的地区是川滇地区。其形变相对突出的地域主要位于川滇块体的东北界和西南端,变形指数最大为2.5~3.5,而其它地区一般在1.5以内。所以,川滇地区是现在乃至今后一段时间内可能成为的重点孕震地区,我们应给予重点关注。     

Determination of active units with different kinematic property and their activity pattern in North China based on the data from GPS remeasurements

Based on the high-accuracy data obtained from the GPS measurements carried out in 1992, 1995 and 1996, the isochronous active units with different kinematic property inside the North China area have been distinguished, 4 active units and 1 transition zone with distinct differential movement have been determined. They are Ordos-Yinshan unit, Yanshan unit, Shanxi-Hebei-Shandong (Jin-Ji-Lu) unit, Jiaodong-Liaoning-Shandong (Jiao-Liao-Lu) unit and Yanshan-Hebei (Yan-Ji) transition zone. The relative movements among the neighboring units in this period have been given. 1 The compressive movement between Ordos-Yinshan unit and Yanshan unit is not obvious with an amount of 0.4±1.3 mm/a. 2 Jin-Ji-Lu unit moves E40°S off the Ordos-Yinshan unit and the magnitude is 4.4±1.0 mm/a. 3 Relative to the Yan-Ji transition zone of differential movement, Yanshan unit shifts W38°N with a value of 2.4±1.3 mm/a and Jin-Ji-Lu unit moves eastward 35° by south with an amount of 2.3±0.9 mm/a. 4 Jin-Ji-Lu unit has a tensional left-lateral movement of 4.7±1.4 mm/a in the direction of E37°S relative to Yanshan unit. 5 Some area near Tanlu belt which is located in the southern part of Jin-Ji-Lu block has a southward movement 14° by west with a magnitude of 1.5±1.1 mm/a off the Jin-Ji-Lu unit. 6 Relative to Jin-Ji-Lu unit, Jiao-Liao-Lu unit has a trend of clockwise movement with a tensional right-lateral motion at the north end which neighbors Yanshan unit and a compressive motion at the south end. It should be noted that the errors given in the paper are obtained based on the divergence among the displacements of the sites in the unit, rather than the value calculated from the displacement error of the sites. The analyzed results indicate that: 1 Shanxi tectonic zone and Yan-Ji transition zone are the major tectonic active zones to show the frame and magnitude of interior relative movement in North China area, and others are the secondary tectonic active zones; 2 The complete horizontal deformation in the North China area is not homogeneous nor successive; 3 The kinetic model of North China area might be "mantle dragging plus boundary coupling". Foundation item: The National Key Basic Research Project Mechanism and Prediction of Continental Earthquakes (G1998040700).     

基于GPS的华北地区地壳水平形变特征研究

利用中国大陆构造环境监测网络2009、2011年2期的GPS数据资料,计算得到华北地区相对于稳定的欧亚板块的区域水平速度场。根据水平速度场,基于连续变形假说,采用三角形方法计算了区域应变场特征值,并用GMT绘制了其分布图像。结合地震地质资料对该区的地壳水平形变特征进行分析研究,得出了有意义的结论:(1)水平相对运动与应变率场分布显示,板块交界处的断裂带及其附近区域地壳运动差异显著,应变率量值较为突出;(2)山西断陷带的活动方式与地质结果具有差异性;(3)区内最大剪应变、面膨胀的高值区主要位于环渤海的京津唐地区、山西断陷带中南部及郯庐断裂带中南段。     

Discussion on the dynamic mechanism of Great North China area based on the observed stress data

Introduction The Great North China, located at longitude 106E to 124E and latitude 31N to 42N, in-cludes three secondary active tectonic blocks, Ordos, Yanshan and North China plain (Figure 1). The geological tectonics of these three secondary blocks is much different from each other. As a stable block with high rigidity, the Ordos block is mostly surrounded by down-faulted basins with an inactive interior since Cenozoic, although the fault zones along its boundary are strongly active wi…     

华北近十年来水平运动动态与地震活动危险区的讨论

根据华北地区1999年和2001年两期高精度GPS观测结果，通过与1992，1995，1996年和1999年这几期资料的比较，发现近两年的运动与前有所不同，主要表现为：（1）阴山单元和鄂尔多斯单元之间显示为压性运动的性质，但比较微弱，它们之间的边界带上似乎有左旋走滑运动，但从整体上看并不显著。（2）晋冀鲁单元和燕山单元的整体活动性不如以前，各单元内部存在着较明显的差异运动，并山单元和晋冀鲁单元的北部存在着比较显著的东西向挤压，北京地区则表现为南北向挤压。（3）晋冀鲁单元南部与胶辽鲁苏单元的南部的趋势活动呈张性，优势运动方向为东南，这样的结果可能表明，华北目前存在着应力扰动行为，大同与天津之间的区域是受其影响最大的地区，该区有可能成为未来几年中强地震活动的一个主体地区。     

华北地区现今地壳运动动力学初步研究

本文基于GPS、断层形变等观测资料,实现华北地区构造运动有限元数值模拟,研究其现今地壳运动及形变动力学机理.结果表明,鄂尔多斯地块、华南地块、东北亚地块等周边构造块体的相对运动基本决定了华北地区现今表面运动及应力场格局.而另一方面,当考虑区域下部岩石层较快速的“拖动”作用时,表面速度场可以得到更好模拟,并同时形成共轭分布的剪应力梯度带.可见太平洋板块的俯冲作用、印-欧板块的碰撞挤压作用等可能造成岩石层深部、浅部运动差异,从而对研究区现今地壳运动产生深刻影响.此外,地形重力作用、断层分布及区域流变结构非均匀性也对现今地壳运动具有一定影响作用,但处于次要地位.     

近10年华北地壳水平运动的若干特征

根据近10年华北网高精度GPS复测资料、“中国地壳运动观测网络”GPS复测资料、山西断陷带的GPS资料等，分析了华北地区最近10年来地壳水平运动状态与演化，结果表明：①燕山构造带(张渤带)是华北地区水平应变最大的活动构造带，相邻块体的趋势性差异运动以燕山块体与华北平原块体之间为最大，约2mm／a(左旋)；②华北地区周边差异性水平运动最显著的特征为该区西界中北段(银川等活动构造带组成)呈右旋走滑活动，南段以压性活动状态为主，该区北界西段的阴山断陷带以拉张活动为主，其它各界带的差异活动均不太明显；③从整体上看，每个时段的结果均有所不同，这其中除了误差因素外，可能还包含着运动的非线性成分。与此同时，文中也给出了华北各个块体、边界带不同时段的相对运动和应变结果。     

GPS测定的2020年阿拉斯加MW7.8地震震时地表动态变形及永久同震形变场

以UNAVCO公布的阿拉斯加地区GPS 1 Hz和30 s采样观测数据为基础,采用双差定位方法分别对两种采样率的数据进行处理分析,获得2020年7月22日阿拉斯加M_W7.8地震震时地表动态变形及同震三维形变场。结果显示,震中270 km范围内高频GPS震时波形明显,最大振幅达600 mm。根据各个GPS站的动态形变波形振幅及响应时间认为,其振幅和响应时间受地震的破裂传播方向和场地效应影响较大。静态同震位移矢量指向震中,同震位移大小基本符合随震中距离增大而减小的特征,除站点AC13外,其中距离震中最近站点的最大水平位移达26.7 cm。GPS测定的同震形变表明,2020年阿拉斯加地震是发生在阿拉斯加阿留申俯冲大断裂的一次逆冲型地震。     

青藏高原东北缘岩石圈变形及其机理

为了解青藏高原东北缘岩石圈变形特征,进一步研究该地区地壳运动的壳-幔耦合机理,本文通过处理分析该地区1999～2007年多期GPS观测数据、1972~2000年水准测量数据和1992年及2007年相对重力测量资料,获得了该区域地壳水平运动速度场、较长时间段的垂直形变场和相对重力变化场.分析发现青藏高原东北缘东西部的变化特征存在明显差异：西部以北东向地壳缩短运动为主,而东部以顺时针旋转为主;东部以地壳隆升为主,速率在2.1 mm/a左右,而西部隆升的速率小于1 mm/a;相对重力变化则表现为在整体增大的背景下东部升高速率较大,平均为9.0×10-8 m·s-2·a-1,而西部较小,平均值为3.1×10-8 m·s-2·a-1.我们还发现,地壳不同变形形式的转换不是渐变的,而是发生在较窄的一个转换带内.这个转换带的整体走向为NEE,北部位于金昌与武威之间,中部在祁连山东部、门源以西,南部位于德令哈以东青海湖以西.最后结合前寒武纪构造格架、重力均衡异常资料和地震SKS分裂结果对形成这种运动态势的机理进行了探讨,我们认为岩石圈物质侧向流动、岩石圈结构及壳-幔耦合方式差异可能是导致东部与西部岩石圈变形差异主要动因.     

Establishment of the GPS Monitoring Network in North China, the Relation of Horizontal Crustal Movement to Stress Field and Seismicity

In the paper, the establishment, measurement, data-processing program and monitoring accuracy of the GPS seismic monitoring network in North China, especially in the Capital-Circle area, have been presented briefly. The relation of horizontal crustal deformation to tectonic movement, stress-field variation and seismicity has been analyzed in detail. The results indicate that the accuracy of GPS measurement has reached the order of 10-9 and the annual rate of horizontal crustal deformation in North China is about 4 ~5 mm. Horizontal crustal movement is a direct indication of the regional stress field. Therefore, by monitoring the time-sequence variation of horizontal crustal motion, it would be possible to investigate the change in the stress field, to analyze the tendency of seismicity and to determine the seismogenic zones.     

华北地区现今水平运动场的动态特征

在整体无旋转基准的基础上, 采用了以提取中、 低频应变信息为主的连续应变模型, 处理并分析了《中国地壳运动观测网络》在华北地区400余个GPS测站的复测资料(1999—2001—2004年)和2006年130余个测站的复测资料, 获得了1999—2004年、 2004—2006年的相对运动速率以及2004—2006年偏离1999—2004年运动的位移结果。 结果表明: ① 华北地区非均匀应变比较明显, 不同时段的结果在空间上的表现形式也不一样; ② 前后两个时段的运动特征具有一定的不一致性; ③ 2006年存在着较明显的偏离位移, 并显示了右旋形变的迹象, 面应变表现为北、 中收缩, 南部膨胀的特征; ④ 近两年东西向的压性作用较前明显, 北京以南地区是运动的转化地区及面应变象限的准中心地区。 这可能表明, 在昆仑山口西8.1级地震之后, 华北地区又进入了常态能量的积累阶段。     

西藏南部地区现今构造变形分析

近十多年来藏南地区GPS网的多期观测结果为研究其构造变形提供了精确数据。本文将该区划分为冈底斯、西喜马拉雅、中喜马拉雅、拉萨4个块体,建立了各块体的弹性运动模型。以藏北高原的旋转框架为参考基准,得到藏南地区的水平形变场和应变场,分析形变场和应变场的空间变化,发现藏南地区存在强烈的S-N向挤压缩短变形,同时也有明显的E-W向伸展变形。南北边界之间的平均缩短速率16.9±2.5mm/a,大约吸收了印度与欧亚汇聚速率的42.4%。在雅鲁藏布江缝合线与班公错—嘉黎断裂之间,从80°E到90°E,地壳E—W向的伸展速率16.3±2.4mm/a。因此,藏南地区现今构造变形是以挤压缩短为主,S-N向挤压缩短与E—W伸展共存的复合变形模式。印度板块向欧亚板块的俯冲推挤是该区域变形的主要驱动力,重力作用对其变形也有重要贡献。     

鲜水河断裂形变场、重力场、磁场动态演化特征与地震

据鲜水河断裂跨断层形变测量、流动重力测量和流动磁力测量资料,求取各点的形变速度、重力变化速率及每年各点的总磁场强度,绘出每期 形变、重力、磁力的二维图像。引入分形理论的数盒子方法,计算每幅图的容量维。研究结果表明：鲜水河断裂形变场的二维图像在地震前后的演变与岩石破坏实验过程输出的图像相似,均经历了“复杂－简单－复杂”的演化过程。相应的分维值也同样呈“高值－低值－高值”变化,且地震发生在分维值达最低后恢复过程中。重力场的二维图像在地震前后的变化特征为“简单－复杂”,分维值呈低值向高值变化。磁场的图像变化则呈“复杂－简单”,分维值变化呈降维特征。     

利用空间大地测量资料研究临汾盆地及边界断裂形变场演化特征

基于临汾盆地及其周缘的GPS和In SAR观测资料,通过计算最大主应变、最小主应变、面应变等水平形变特征量以及罗云山断裂(南段)上盘雷达视线向形变速率,综合研究汶川M 8.0地震前后临汾盆地及边界断裂现今地壳形变特征。结果显示:汶川M 8.0地震的发生引起临汾盆地及周缘形变场的动态调整,罗云山断裂南段至峨嵋台地北缘断裂应变率场由弱张性活动转为较强的压性活动状态,最大面应变率由1.5×10-8/a变为-3.1×10-8/a,SBAS-In SAR结果同时显示,罗云山断裂(南段)上盘于2009年起由下降转为隆起,在形变场动态调整过程中发生河津M 4.8地震,之后该区域应变率场恢复背景状态;汶川M 8.0地震有利于在山西断陷带南段北东东向断裂间形成压性应变积累,对河津地M 4.8地震的发生可能具有促进作用。