Simple models for late Holocene and present-day Patagonian glacier fluctuations and predictions of a geodetically detectable isostatic response   总被引：1，自引：0，他引：1  

Erik R. Ivins  & Thomas S. James 《Geophysical Journal International》1999,138(3):601-624

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Deep crustal structure and rheology of the Gascoyne volcanic margin,western Australia     

Frey  Øivind  Planke  Sverre  Symonds  Phillip A.  Heeremans  Michel 《Marine Geophysical Researches》1998,20(4):293-311

Interpretation of deep seismic reflection data across the Gascoyne Margin reveals six distinct seismic facies units related to the tectono-magmatic breakup history. On the outer Exmouth Plateau four large scale units are identified: (1) an extensively block-faulted upper crust; (2) a middle-crustal unit of discontinuous, undulatory reflectors; (3) a reflection-free deep crustal unit; and (4) a lower-crustal band of low-frequency, high-amplitude reflectors. Two additional units are found near the continent-ocean boundary (COB); (5) seaward-dipping reflectors (SDR); and (6) landward-dipping reflectors in the lower crust below the SDR. The lower-crustal high-reflectivity band, located near the top of a high-velocity unit (V_p > 7 kms^–1), is interpreted as magmatic underplating. There is a spatial correlation between the underplated area and the presence of extensive upper-crustal block-faulting and intrusive rocks in the shallow crust. The undulatory middle-crustal reflector unit is also only identified in the outer plateau area, and is interpreted as a zone in which the upper-crustal faults terminate. The inner parts of the margin consist of a deep basin showing little upper-crustal faulting and no evidence of middle crustal deformation or underplating. Theoretical modeling of the effect of rifting and magmatic underplating on crustal strength profiles suggests that the brittle-ductile transition may migrate at least 5 km upwards during several million years after the underplating event. Based on the seismic interpretation and crustal strength modeling we propose that the seismic structure of the outer Exmouth Plateau is severely modified by a transient change in the crustal rheological structure associated with magmatic underplating.  相似文献   

岩石圈流变结构研究进展     

李志勇  曾佐勋 《华南地质与矿产》2004,(1):68-73

岩石圈流变学研究,近年来国外已取得较大进展。国内学者在岩石圈热结构、强度剖面和盆地流变学演化、构造流变计等方面取得了丰富的成果。岩石圈流变性取决于岩石圈的地热状态、物质组成和结构,并量化为岩石圈总强度。不同构造区的地热状态可由地表热流值获得,岩石圈的物质组成和热力学结构可由地球物理资料获得,在此基础上可得出岩石圈流变性在区域上的变化。岩石圈流变性的空间变化产生了构造上的软弱带,成为极易变形区域。岩石圈流变性及岩石圈总强度反映的岩石圈热力学性质在盆地的形成过程中也起了重要作用,它决定了岩石圈的变形位置、盆地的几何形状及格局。构造流变计用来研究不同尺度地质体的流变结构和地质体的流变学演化,具有很好的发展前景。  相似文献   

浅谈边坡稳定性分析方法   总被引：9，自引：0，他引：9  

彭德红 《上海国土资源》2005,(3):44-47

综述边坡稳定性分析方法及其研究的一些新进展,从定性、定量、非确定性、流变以及动力分析等方面进行了详细论述,指出各种方法的优缺点。  相似文献   

并联型软岩温度-渗流-应力耦合三轴流变仪的研制     

陈卫忠  李翻翻  马永尚  雷江  于洪丹  邢天海  郑有雷  贾晓东 《岩土力学》2019,40(3):1213-1220

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韧性剪切带形成的岩石流变学特征   总被引：2，自引：0，他引：2       下载免费PDF全文

王思敬  韩贝传  孙惠文 《地质科学》1992,(3):269

 本文应用流变学有限元法,建立了韧性剪切带内的温度、应力、应变和位移之间的关系。并对加速蠕变和应变软化两种情况,给出了不同时刻韧性剪切带内的温度、应力、应变、应变率、位移和粘滞系数的分布特征,描述了岩石递进变形的规律。  相似文献   

沉积盆地动力学的研究现状、问题与展望   总被引：1，自引：0，他引：1       下载免费PDF全文

何登发 《地质科学》2016,(2):309-328

沉积盆地动力学研究沉积盆地在地质历史时期的地质结构特征、成因机制及其对成矿、成藏的控制作用, 是地球动力学研究的重要组成部分.30多年来, 沉积盆地动力学经历了沉积盆地的板块构造分类与构造环境解释、盆地动力学的兴起, 盆地综合建模与盆地系统动力学3个发展阶段; 在沉积盆地的深部构造背景、盆-山关系、沉降机制、充填模式及其对能源、矿产的控制方面取得重要进展.目前, 在对不同层次、不同尺度、不同机制的盆地动力学综合分析, 全3-D和4-D盆地动力学模型的构建与检验, 及学术界与工业界的充分结合等方面面临重要挑战.需解决一系列关键科学问题: 沉积盆地的深部结构、过程与盆地形成; 沉积盆地的构造-气候古地理; 多旋回沉积盆地叠合动力学过程与原型盆地演化; 叠合盆地复合成矿(藏)系统流体运聚及其资源、能源效应等.基于大数据综合集成、多学科交叉渗透、观测技术与分析方法的不断进步与完善, 盆地动力学将在其结构构造、形成演化及其控矿(藏)的4-D综合模型方面取得突破, 并为人类社会、经济发展做出贡献.  相似文献   

Mechanism of Structure Variations at Rifted Margins in the Central Segment of South Atlantic: Insights from Numerical Modeling     

WANG Zhichen  LI Jianghai  FENG Zhiqiang  WANG Lijie  LIU Chen 《《地质学报》英文版》2023,97(4):1229-1242

Rifted margins in the central South Atlantic portray spatial variability in terms of preserved width and thickness, which relates to complex rift-related fault activities. However, there is still a lack of systematic and quantitative explanations for the causes of the variations that are observed along the paired rifts. To elucidate this issue, 2D viscous-plastic thermomechanical numerical models are applied to capture the behavior of deformation, in which we investigate the effects of extensional rate, crustal strength and thickness on crust-mantle coupling, and timing of transition from rifting to breakup. Our numerical experiments demonstrate that crust-mantle decoupling accounts for crustal hyperextension, and that incorporating moderate-intensity rheology into lower crust may yield insights into the hyper-extended crust and asymmetric architecture observed in the central South Atlantic. The results also suggest that undulations in lithospheric basement cause asymmetric mantle upwelling. The lower crust of fold belts takes priority to be thermally weakened over craton and induces rift migration simultaneously. A new mechanism for the formation of failed rift is described, where the mechanical decoupling derived from thermally weakened lower crust gives access to dual rift migration. These results reinforce the interpretation on how crustal rheology shapes margins architectures and highlight the first-order effects of crust-mantle coupling.  相似文献   

“构造地质学”发展方向的一些思考     

侯泉林  LU Lucy Xi  程南南 《岩石学报》2021,37(8):2271-2275

构造地质学是地质学的核心基础学科,其发展方向是目前构造地质学家面临的挑战之一。本文从构造作用的本质出发,试图对构造地质学的发展方向进行思考。构造作用本质上是岩石和矿物对应力作用的响应,包括物理响应和化学响应,进而用数学方法进行表达:(1)物理响应主要表现为变形,包括脆性变形和韧性变形。岩石的力学性能决定了其变形特征。岩石圈力学性能在时间和空间上的不均一性一直是研究岩石圈变形行为的巨大挑战。需要结合野外观测、岩石力学和流变学研究,并借助多尺度模拟方法来建立不同时间尺度和空间尺度下岩石的变形行为和变形准则。(2)化学响应主要指构造应力作用下岩石和矿物发生化学变化的过程,即应力化学作用。变形变质作用、剪切带成矿作用、剪切带石墨化、应力生气和生烃等方面都可能存在应力化学过程,但其详细过程和反应机理还需要进一步探究。(3)运用数值模拟、量子计算对以上这些构造过程进行数学表达,也是构造地质学未来发展值得关注的方向。总之,构造地质学未来的发展方向应是与物理学、化学乃至数学等基础学科的深度融合。  相似文献   

Viscoelastic relaxation of the upper mantle and afterslip following the 2014 MW8.1 Iquique earthquake     

《地震研究进展（英文）》2021,1(1):100002

An improved understanding of postseismic crustal deformation following large subduction earthquakes may help to better understand the rheological properties of upper mantle and the slip behavior of subduction interface. Here we construct a three-dimensional viscoelastic finite element model to study the postseismic deformation of the 2014 M_W8.1 Iquique, Chile earthquake. Elastic units in the model include the subducting slab, continental and oceanic lithospheres. Rheological units include the mantle wedge, the oceanic asthenosphere and upper mantle. We use a 2 ​km thick weak shear zone attached to the subduction fault to simulate the time-dependent stress-driven afterslip. The viscoelastic relaxation in the rheological units is represented by the Burgers rheology. We carry out grid-searches on the shear zone viscosity, thickness and viscosity of the asthenosphere, and they are determined to be 10¹⁷ ​Pa ​s, 110 ​km and 2 ​× ​10¹⁸ ​Pa ​s, respectively. The stress-driven afterlsip within the first two years is up to ~47 ​cm and becomes negligible after two years (no more than 5 ​cm/yr). Our results suggest that a thin, low-viscosity oceanic asthenosphere together with a weak shear zone attached to the fault are required to better reproduce the observed postseismic deformation.  相似文献