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海原-六盘山断裂是青藏高原东北缘的大型边界断裂带,是中国大陆典型的地震危险区。地壳构造加载特征的定量研究有助于分析区域孕震环境,参考青藏高原东北缘GPS形变和岩石圈精细结构等资料,本文建立海原-六盘山断裂带周缘的三维岩石圈分层模型,分析现今构造加载作用下区域地壳形变和应力演化特征。数值计算结果显示:青藏高原东北缘现今处于以北东-南西向的水平挤压为主导和北西-南东向的水平引张的变形特征。青藏高原东北缘中-下地壳流变性质影响上覆脆性地壳应力环境,中地壳较低粘滞系数对应的模型地壳应力计算值与研究区实际地壳应力场相近。海原断裂中-西段构造加载作用显著,具有相对较高的库仑应力积累和最大剪应力分布;而六盘山断裂周缘地壳应力和最大剪应力小于海原断裂带。构造应力积累的空间分布差异说明六盘山断裂具有较弱的构造孕震环境,而研究区走滑型断裂的孕震加载作用显著。尽管六盘山处于较低的应力状态,但仍不能轻易忽视其长期存在的强震空区所暗示的发震潜力。 相似文献
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In this paper, supposing that the earth is a spherically symmetric, perfectly elastic and isotropic, we derive the equation of the variation of relative sea level, utilize our previous results of the surface load Love numbers for PREM (1981) model, and compute the global relative sea level rise on the assumption that 10 meters thickness of Antarctic ice sheet would be melted in the future fifty years. 相似文献
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《Gondwana Research》2013,24(4):1455-1483
The crust and upper mantle in mainland China were relatively densely probed with wide-angle seismic profiling since 1958, and the data have provided constraints on the amalgamation and lithosphere deformation of the continent. Based on the collection and digitization of crustal P-wave velocity models along related wide-angle seismic profiles, we construct several crustal transects across major tectonic units in mainland China. In our study, we analyzed the seismic activity, and seismic energy releases during 1970 and 2010 along them. We present seismogenic layer distribution and calculate the yield stress envelopes of the lithosphere along the transects, yielding a better understanding of the lithosphere rheology strength beneath mainland China. Our results demonstrate that the crustal thicknesses of different tectonic provinces are distinctively different in mainland China. The average crustal thickness is greater than 65 km beneath the Tibetan Plateau, about 35 km beneath South China, and about 36–38 km beneath North China and Northeastern China. For the basins, the thickness is ~ 55 km beneath Qaidam, ~ 50 km beneath Tarim, ~ 40 km beneath Sichuan and ~ 35 km beneath Songliao. Our study also shows that the average seismic P-wave velocity is usually slower than the global average, equivalent with a more felsic composition of crust beneath the four tectonic blocks of mainland China resulting from the complex process of lithospheric evolution during Triassic and Cenozoic continent–continent and Mesozoic ocean–continent collisions. We identify characteristically different patterns of seismic activity distribution in different tectonic blocks, with bi-, or even tri-peak distribution of seismic concentration in South Tibet, which may suggest that crustal architecture and composition exert important control role in lithosphere deformation. The calculated yield stress envelopes of lithosphere in mainland China can be divided into three groups. The results indicate that the lithosphere rheology structure can be described by jelly sandwich model in eastern China, and crème brulee models with weak and strong lower crust corresponding to lithosphere beneath the western China and Kunlun orogenic belts, respectively. The spatial distribution of lithospheric rheology structure may provide important constraints on understanding of intra- or inter-plate deformation mechanism, and more studies are needed to further understand the tectonic process(es) accompanying different lithosphere rheology structures. 相似文献
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GPS技术应用于中国地壳运动研究的方法及初步结果 总被引:10,自引:0,他引:10
文中主要就中国利用GPS等空间测地资料研究地壳运动、构造变形 ,以及用于地震预测探索方面 ,从方法技术和近年来取得的一些初步结果进行了概要性论述。介绍了利用GPS技术资料研究地壳水平运动速度场、水平应变场、建立地壳运动模型等方法研究的进展。由GPS观测给出的地壳水平运动初步结果表明 :中国大陆现时水平运动在全球参考系中为整体向东 ,并兼有顺时针扭转运动。西部地区构造形变强烈 ,整个青藏块体及其边界带 ,以及新疆西部是应变值最高的区域 ,水平应变场主压应变优势分布方向为近NE向 ,空间差异显著 ,反映了印度板块碰撞推挤和青藏块体强烈构造运动的影响。中国大陆东部水平运动的差异性不显著。强震分布于地壳运动的大小、方向显著变化的区域 ,大地震通常发生在水平剪应变高值区或其边缘 ,尤其是与区域主干断裂的构造活动背景相一致的剪应变率高值区。 相似文献
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We present relative sea level (RSL) curves in Antarctica derived from glacial isostatic adjustment (GIA)predictions based on the melting scenarios of the Antarctic ice sheet since the Last Glacial Maximum (LGM)given in previous works.Simultaneously,Holocene-age RSL observations obtained at the raised beaches along the coast of Antarctica are shown to be in agreement with the GIA predictions.The differences from previously published ice-loading models regarding the spatial distribution and total mass change of the melted ice are significant.These models were also derived from GIA modelling; the variations can be attributed to the lack of geological and geographical evidence regarding the history of crustal movement due to ice sheet evolution.Next,we summarise the previously published ice load models and demonstrate the RSL curves based on combinations of different ice and earth models.The RSL curves calculated by GIA models indicate that the model dependence of both the ice and earth models is significantly large at several sites where RSL observations were obtained.In particular,GIA predictions based on the thin lithospheric thickness show the spatial distributions that are dependent on the melted ice thickness at each sites.These characteristics result from the short-wavelength deformation of the Earth.However,our predictions strongly suggest that it is possible to find the average ice model despite the use of the different models of lithospheric thickness.By sea level and crustal movement observations,we can deduce the geometry of the post-LGM ice sheets in detail and remove the GIA contribution from the crustal deformation and gravity change observed by space geodetic techniques,such as GPS and GRACE,for the estimation of the Antarctic ice mass change associated with recent global warming. 相似文献
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刘宇平 陈智梁 唐文清 赵济湘 张选阳 张清志 Robert W. King Burrcel C. Burchfiel Leigh H. Royden 《沉积与特提斯地质》2003,23(4):1-8
通过1991—2001年期间在青藏高原东部及周边地区的GPS测量,获得该地区不同参考框架下的地壳运动速度场,其测量的速度精度高于2mm/yr。印度板块与华北地块之间的地壳形变分为喜马拉雅及高原南部、高原中部(拉萨—格尔木)和高原北部(格尔木—金塔)三部分,它们分别吸收了印度板块与欧亚板块汇聚速率的43%、24%和32%。在欧亚框架下和相对于成都,印度板块和华南地块之间存在着以东喜马拉雅构造结为轴心的顺时针巨型涡旋构造——滇藏涡旋构造,运动速度分别为26~6mm/yr和24~7mm/yr,总体上从北东方向转变为南东和南西方向,有别于青藏高原中部的北东方向。滇藏涡旋和东喜马拉雅构造结的形成与南迦巴瓦—阿萨姆“犄角”的楔入作用有关。 相似文献
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中国西部大陆岩石圈的有效弹性厚度研究 总被引:8,自引:0,他引:8
中国西部是地球上陆地隆升最显著的地区, 有世界上新构造运动最强烈的青藏高原、规模巨大的左行走滑位移的阿尔金断裂系和中亚地区最大的板块内部造山带———天山褶皱造山带.作为印度板块与欧亚板块相互碰撞的会聚带, 本区是研究岩石圈动力学的有利场所.主要运用重力资料和地形资料来研究中国西部地区显著上地壳结构和其上地幔变形之间的关系.依据岩石圈流变学的理论, 在空间域采用垂直和水平受力的多个变刚度的三维有限差分方法来计算弹性板的有效弹性厚度.模拟结果显示中国西部地区的岩石圈有效弹性厚度存在明显的横向不均匀性, 从6~10 km的造山带区域的有效弹性厚度变到大于60 km的古陆区域的有效弹性厚度.青藏高原地区的岩石圈有效弹性厚度平均为30 km, 塔里木盆地的有效弹性厚度为40~50 km, 南、北天山的岩石圈有效弹性厚度分别为10~15 km和30 km左右, 阿尔金断裂在东经90°以西部分的岩石圈有效弹性厚度要小于90°以东部分. 相似文献
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地球内部构造和动力学的地震学研究 总被引:2,自引:0,他引:2
扼要论述地震学研究在地球内部构造和动力学领域中取得的新进展。我国人工震源的观测在青藏高原、下扬子、大别造山带、华北地震区等获得了一批地壳细结构的成果,已广泛地用于地球动力学研究中。天然地震观测资料的层析成像取得了我国大陆地壳上地幔三维结构的图像。虽然大多数结果提供了地球动力学的背景,但就其分辨率而言还不足于进行有效的大陆动力学研究。笔者认为,提高最终三维模型的分辨率是当前地震学研究的关键之一。美国的两个地震学研究小组根据各自研究工作,揭示了地球内核自转比地幔和地壳部分快,是地震学对地球科学的重大贡献。 相似文献
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本文从印度大陆与亚洲大陆新生代碰撞前缘的多阶段构造变形与隆升过程,对比了我国南海北部大陆边缘盆地,东部渤海湾盆地的构造-沉积-岩浆事件,它们在时间上具准同时性,表现在两大陆碰撞构造变形和抬升的高峰时期正好与盆地伸展、拉张,快速构造沉降时期相对应;当构造转入相对稳定(松弛)阶段,表现为高原剥蚀夷平,岩浆活动频繁,盆地构造沉降速率减缓阶段.青藏高原多阶段构造-岩浆事件还与我国季风形成和发展以及全球新生代3次变冷事件具某种对应联系,认为深部地幔脉动上涌的热力效应可能是诱发高原季风,行星西风增强,高纬度降温的驱动力之一.它和高原地形增高引发大气热机效率增大起着互补作用,使青藏高原成为诱发我国大气环流变化的启动区. 相似文献
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壳内低速层与地震活动关系 总被引:11,自引:0,他引:11
本文根据华北、扬子地台、青藏高原等地区的速度结构、介质特征、地震活动分布等特征,认为地壳中的低速层是在地壳中的弱化层,它与壳内低阻或高导层相对应,在地质构造上反映中地壳大型层间韧性剪切带,与地震活动的层状分布深度范围相对应,粘滑机制是壳内地震活动非常重要的机制,反映了岩石变形呈脆韧性过渡状态。 相似文献
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LI Dahu LIAO Hu DING Zhifeng ZHAN Yan WU Pingping XU Xiaoming ZHENG Chen 《《地质学报》英文版》2018,92(1):16-33
The special seismic tectonic environment and frequent seismicity in the southeastern margin of the Qinghai–Tibet Plateau show that this area is an ideal location to study the present tectonic movement and background of strong earthquakes in mainland China and to predict future strong earthquake risk zones. Studies of the structural environment and physical characteristics of the deep structure in this area are helpful to explore deep dynamic effects and deformation field characteristics, to strengthen our understanding of the roles of anisotropy and tectonic deformation and to study the deep tectonic background of the seismic origin of the block's interior. In this paper, the three-dimensional(3D) P-wave velocity structure of the crust and upper mantle under the southeastern margin of the Qinghai–Tibet Plateau is obtained via observational data from 224 permanent seismic stations in the regional digital seismic network of Yunnan and Sichuan Provinces and from 356 mobile China seismic arrays in the southern section of the north–south seismic belt using a joint inversion method of the regional earthquake and teleseismic data. The results indicate that the spatial distribution of the P-wave velocity anomalies in the shallow upper crust is closely related to the surface geological structure, terrain and lithology. Baoxing and Kangding, with their basic volcanic rocks and volcanic clastic rocks, present obvious high-velocity anomalies. The Chengdu Basin shows low-velocity anomalies associated with the Quaternary sediments. The Xichang Mesozoic Basin and the Butuo Basin are characterised by lowvelocity anomalies related to very thick sedimentary layers. The upper and middle crust beneath the Chuan–Dian and Songpan–Ganzi Blocks has apparent lateral heterogeneities, including low-velocity zones of different sizes. There is a large range of low-velocity layers in the Songpan–Ganzi Block and the sub–block northwest of Sichuan Province, showing that the middle and lower crust is relatively weak. The Sichuan Basin, which is located in the western margin of the Yangtze platform, shows high-velocity characteristics. The results also reveal that there are continuous low-velocity layer distributions in the middle and lower crust of the Daliangshan Block and that the distribution direction of the low-velocity anomaly is nearly SN, which is consistent with the trend of the Daliangshan fault. The existence of the low-velocity layer in the crust also provides a deep source for the deep dynamic deformation and seismic activity of the Daliangshan Block and its boundary faults. The results of the 3D P-wave velocity structure show that an anomalous distribution of high-density, strong-magnetic and high-wave velocity exists inside the crust in the Panxi region. This is likely related to late Paleozoic mantle plume activity that led to a large number of mafic and ultra-mafic intrusions into the crust. In the crustal doming process, the massive intrusion of mantle-derived material enhanced the mechanical strength of the crustal medium. The P-wave velocity structure also revealed that the upper mantle contains a low-velocity layer at a depth of 80–120 km in the Panxi region. The existence of deep faults in the Panxi region, which provide conditions for transporting mantle thermal material into the crust, is the deep tectonic background forthe area's strong earthquake activity. 相似文献
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Mohamed K.Salah 《地学前缘(英文版)》2013,4(2):213-222
The Sinai Peninsula has been recognized as a subplate of the African Plate located at the triple junction of the Gulf of Suez rift, the Dead Sea Transform fault, and the Red Sea rift. The upper and lower crustal structures of this tectonically active, rapidly developing region are yet poorly understood because of many limitations. For this reason, a set of P- and S-wave travel times recorded at 14 seismic stations belonging to the Egyptian National Seismographic Network (ENSN) from 111 local and regional events are analyzed to investigate the crustal structures and the locations of the seismogenic zones beneath central and southern Sinai. Because the velocity model used for routine earthquake location by ENSN is one-dimensional, the travel-time residuals will show lateral heterogeneity of the velocity structures and unmodeled vertical structures. Seismic activity is strong along the eastern and southern borders of the study area but low to moderate along the northern boundary and the Gulf of Suez to the west. The crustal Vp/Vs ratio is 1.74 from shallow (depth ≤ 10 km) earthquakes and 1.76 from deeper (depth > 10 km) crustal events. The majority of the regional and local travel-time residuals are positive relative to the Preliminary Reference Earth Model (PREM), implying that the seismic stations are located above widely distributed, tectonically-induced low-velocity zones. These low-velocity zones are mostly related to the local crustal faults affecting the sedimentary section and the basement complex as well as the rifting processes prevailing in the northern Red Sea region and the ascending of hot mantle materials along crustal fractures. The delineation of these low-velocity zones and the locations of big crustal earthquakes enable the identification of areas prone to intense seismotectonic activities, which should be excluded from major future development projects and large constructions in central and southern Sinai. 相似文献
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根据中法合作项目(1992~1995)取得的新资料,对青藏高原岩石圈结构、变形及地球动力学模式进行了探讨,研究表明:青藏高原是由不同时期从冈瓦纳古陆分离出的微板块拼合而成的.从新生代开始印度板块与欧亚板块发生高角度陆-陆俯冲,青藏高原内部发生以垂直应变为主的缩短变形,中新世以后增厚的岩石圈上地幔发生不均匀剥离,导致高原快速隆升,并使青藏高原以南北挤压为主的变形变为东西拉张为主的变形,部分地区出现火山活动. 相似文献
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青藏高原东缘和扬子西缘的构造带是中国特提斯构造域的重要组成部分,该构造域受欧亚板块与印度板块陆—陆碰撞、高原隆升、块体裂解或拼接挤压等强烈构造活动的影响,记录和保存了多期次的特提斯构造演化历史痕迹。同时,该研究区域也是中国西部地区地壳形变最强烈的地区之一,其浅表形变特征与深部构造之间存在怎样的关联和制约机制是目前国际地球科学的一个研究热点。本研究依据作者十多年来持续在该区域开展的地质—地球物理研究,通过深部地球物理多参数结构成像、沉积盆地分析、地壳形变和强震孕育机制等综合对比分析,发现在青藏高原东缘的下地壳存在低速和高泊松比异常带,该异常体与来自青藏高原上涌的软流圈热物质汇聚,导致从扬子西缘到青藏高原的下地壳和上地幔的深部结构发生显著变化。沿着龙门山断裂带,中、下地壳存在交叠相间的低速(高泊松比)和高速(低泊松比)区域,这些深部结构分布特征与地表形变及前陆盆地隆坳格局具有较好的一致性。基于上述认识,提出了青藏高原东缘—扬子板块的深部接触模式及其相应的盆山耦合关系,阐明了板块碰撞—耦合的深部动力学过程对剧烈地壳形变、盆地隆坳格局和强震诱发的制约关系。本研究成果将为深入认识青藏高原东缘高原急剧隆升、盆地基底结构与隆拗格局,以及强烈地壳形变的深部动力学机制提供参考信息。 相似文献
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An Analysis of Tectonic Geomorphologic Characteristics of the Beipanjiang Basin in the Yunnan-Guizhou Plateau 总被引:1,自引:0,他引:1
Yunlong Fan Baotian Pan Zhenbo Hu Dayin Ren Qiwei Chen Fenliang Liu Zongmeng Li 《地球科学进展》2018,33(7):751-761
The Yunnan-Guizhou Plateau, located on the southeast boundary of the Tibet Plateau, is the second geomorphologic step in China continent. The large area tilting tectonic deformation occurred in this plateau with the uplift of the Tibet plateau since the Cenozoic. The Beipanjiang River rises in eastern Yunnan Province and southeastward across the slope zone from the Yunnan-Guizhou Plateau to the Guangxi Plain, and goes into the Hongshui River by the Wangmo in Guizhou Province. Due to the southeastward extrusion by the Tibetan Plateau, deep incised-valleys formed in the Yunnan-Guizhou Plateau, which have the characteristics of developed fault, complicated geological structure and rugged terrain. The Cenozoic evolution history of the Yunnan-Guizhou Plateau and the response to the uplifting of Tibet Plateau are unclear because of the lack of sedimentation records, and also this has long been a bottleneck to geomorphologic evolution research. Based on DEM data and GIS software, we extracted the geomorphic indexes which included hypsometric integral [HI], drainage basin asymmetry [AF], stream-length gradient index [SL], and valley floor width-to-height ratio [VF]. The results show that four geomorphic indexes can reflect the regional tectonic movement and topographical features. The geomorphology of Beipanjiang Basin is controlled by tectonic action mainly, especially the Yadu-Ziyun Fracture has great impact on the formation of valleys and the development of water system greatly. 相似文献
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通过中国大陆及邻区地震测深剖面的系统构造解析,建立起中国大陆岩石圈地壳厚度与速度结构模型。本文根据地壳厚度与速度结构模型、地壳变形结构样式、地壳地质结构与构造演化、地壳运动学与动力学等四方面标志,将中国大陆岩石圈地壳划分为3类6种地壳结构-动力学型式:克拉通型褶推式结构-挤压动力学型式、克拉通型地垒结构-拉伸动力学型式、增厚型高原扇形结构-碰撞楔入动力学型式、增厚型造山带楔状结构-俯冲楔入动力学型式、减薄型盆岭结构-块体伸展动力学型式和减薄型铲状结构-整体伸展动力学型式。笔者探讨了克拉通型地壳、增厚型地壳和减薄型地壳的基本特征、相互关系及其地质意义。 相似文献
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本文是以地学断面、反射/折射地震和宽频地震资料为地壳密度模型初始约束条件,沿西藏噶尔—新疆布尔津、西藏亚东—内蒙古额济纳旗、新疆阿尔泰—四川成都等3条剖面做布格重力异常反演计算,模拟出中国西部地壳密度结构。中国西部地壳密度结构特征在南北方向存在巨大差异。以西昆仑一阿尔金一祁连山近EW向重力梯度带为界,地壳密度结构可分为南北两个大的密度结构单元,南部地壳密度结构特征为低密度、厚地壳;北部地壳密度结构特征为高密度、薄地壳;中国西部地壳处于地壳均衡状态。地壳上地幔密度不均匀性特征在纵向和横向上都是很明显的。青藏高原内部软流圈具有低密度特征,低密度软流圈产生向上的浮力是青藏高原重要的隆升机制之一。 相似文献