共查询到20条相似文献,搜索用时 359 毫秒
1.
拉分盆地指沿着走滑断裂带弯曲部位,由于拉张而产生的地形上的低洼处,多形成于走滑断裂带次级断裂的间列部位.拉分盆地研究对于探讨走滑断裂扩展方式及分段性意义重大;分布于大型走滑断裂带上的拉分盆地,对于断裂带上地震临震预测具有一定的指示作用;此外,该类盆地往往与油气资源、成矿热液的运移、聚集、产出关系密切.本文在综述前人对拉... 相似文献
2.
The Gondwana successions (1–4 km thick) of peninsular India accumulated in a number of discrete basins during Permo-Triassic period. The basins are typically bounded by faults that developed along Precambrian lineaments during deposition, as well as affected by intrabasinal faults indicating fault-controlled synsedimentary subsidence. The patterns of the intrabasinal faults and their relationships with the respective basin-bounding faults represent both extensional and strike-slip regimes. Field evidence suggests that preferential subsidence in locales of differently oriented discontinuities in the Precambrian basement led to development of Gondwana basins with varying, but mutually compatible, kinematics during a bulk motion, grossly along the present-day E–W direction. The kinematic disparity of the individual basins resulted due to different relative orientations of the basement discontinuities and is illustrated with the help of a simple sandbox model. The regional E–W motion was accommodated by strike-slip motion on the transcontinental fault in the north. 相似文献
3.
根据羊街盆地充填特征和构造演化,认为该盆地是在走滑构造活动中,局部伸展拉陷条件下形成的。南北走向的小江断裂左行走滑活动,控制了拉分盆地构造的形成和发展,成盆期末又发生了构造反转变形,同时提出了盆地形成和构造反转的地球动力模式。 相似文献
4.
Joachim Neugebauer 《地学学报》1994,6(4):359-365
Fault blocks passing bends or stepovers in a fault zone must adapt their margins to the uneven fault trace. Two cases of adaption are distinguished for extensional bends or stepovers (transtension): (1) The fault margins close up behind a single bend ('knickpoint') of a strike-slip fault and a 'closing-up structure' (new term) arises or (2) fault-block margins are extended behind a releasing bend (double bend) or stepover parallel to the displacement and a pull-apart basin originates. The dosing up described here is accomplished by acute-angled synthetic strike-slip faults that dissect the straight fault in front of a knickpoint to form a zig-zag block boundary behind it. Crustal extension is also involved in the closing-up structure, but in a different way from typical pull-apart basins.
The closing-up structure illustrated was developed behind an extensional knickpoint in the North Anatolian Fault west of Lake Abant, NW Turkey, where the process of closing up continues to this day. The kinematic model of this closing-up structure is supported by displacements and ruptures observed during the 1967 Mudurnu valley earthquake and the 1957 Abant earthquake. 相似文献
The closing-up structure illustrated was developed behind an extensional knickpoint in the North Anatolian Fault west of Lake Abant, NW Turkey, where the process of closing up continues to this day. The kinematic model of this closing-up structure is supported by displacements and ruptures observed during the 1967 Mudurnu valley earthquake and the 1957 Abant earthquake. 相似文献
5.
走滑造山带与盆地耦合机制 总被引:61,自引:6,他引:55
走滑造山带是大陆山链主要类型之一,走滑断层按卷入深度可分为转换断层、平移断层、变换断层和捩断层等。压缩弯曲和伸展弯曲可以形成走滑挤压带和走滑伸展带等。走滑挤压作用常形成走滑造山带及正花状构造,并在造山带两侧或一侧可以形成走滑挤压盆地;走滑伸展作用可以形成走滑盆岭构造及负花状构造,并在走滑带形成拉分盆地或楔形裂陷。印度板块的楔入及西伯利亚板块的阻滞在中国大陆中形成滑移线场,并在中国东部及中西部广大地区发育走滑造山带与走滑盆地的耦合,同时调节中国大陆中、西部的收缩与中国大陆东部的滑逸或蠕散,因此在中西部以发育走滑造山带及走滑-挠曲盆地为主,而在东部以发育走滑盆岭带及拉分盆地为主。 相似文献
6.
《Comptes Rendus Geoscience》2018,350(5):222-230
A set of two-dimensional finite-element elastic models are presented to provide insights on the evolution of transtensional pull-apart basins between two right-stepping, right-lateral fault segments. Three representative fault segment interaction geometries are modelled, showing underlapping, neutral and overlapping segments. Despite the simplifications of the 2D model, overall results are obtained that might help understanding the formation of pull-apart basins. Firstly, the orientations of the local σ1 and σ3 tensional stress directions markedly depend on the segment's position. Secondly, the mean normal stress is extensional in a transtensional basin between segments, while the region outside the step is characterized by more compressive mean normal stresses. Thirdly, the angle of offset between the fault segments is one of the most important parameters controlling the geometries of the transtensional pull-apart basins: connected depocenters with basin high and lozenge shape in the case of underlapping steps, spindle shape or lazy S or Z shape in the case of neutral steps, and broadly elongate rhomboidal to sigmoidal basins in the case of overlapping steps. Generally, en-échelon basin margin system, dual opposing asymmetric depocenter, intrabasin relative structural high, and wide basin width can be used as indicators that a pull-apart basin is developing in transtension zones. 相似文献
7.
拉分盆地是一种与走滑断裂带密切相关的特殊拉张构造,因其重要的构造意义,及其与火山活动、中小地震群集、特殊的成矿作用间的伴生关系而受到研究者的高度重视。关于拉分盆地的形成演化过程,已有较多的研究成果,但是由于研究手段的限制,缺少对盆地演化中次级断裂扩展过程的研究。基于离散元的数值计算方法是研究断裂扩展方式的理想方法。本文采用基于离散元的颗粒流方法,揭示纯走滑拉分盆地发育过程中的断裂扩展和连接过程,为拉分盆地演化机理和断裂扩展提供新的研究方法。同时,根据主走滑断层与块体运动方向的夹角不同,建立不同的张扭性拉分盆地模型,系统研究张扭性盆地的断裂扩展和演化机理。将上述理论研究结果与死海盆地等经典拉分盆地实例相结合,探讨了死海盆地、土耳其Cinarcik盆地、哥伦比亚El Paraiso盆地等的形成演化机理和断裂扩展方式。 相似文献
8.
Cretaceous deformation history of the middle Tan-Lu fault zone in Shandong Province, eastern China 总被引:13,自引:0,他引:13
Based on field analysis of fault-slip data from different rock units of the Cretaceous basins along the middle part of the Tan-Lu fault zone (Shandong Province, eastern China), we document polyphase tectonic stress fields and address the changes in sense of motion of the Tan-Lu fault zone during the Cretaceous. The Cretaceous deformation history of the Tan-Lu fault zone can be divided into four main stages. The first stage, during the earliest Cretaceous, was dominated by N-S extension responsible for the formation of the Jiaolai basin. We interpret this extension to be related to dextral strike-slip pull-apart opening guided by the Tan-Lu fault zone. The second stage, during the middle Early Cretaceous, was overwhelmingly rift-dominated and characterized by widespread silicic to intermediate volcanism, normal faulting and basin subsidence. It was at this stage that the Tan-Lu-parallel Yi-Shu Rift was initiated by E-W to WNW-ESE extension. The tectonic regime then changed during the late Early Cretaceous to NW-SE-oriented transpression, causing inversion of the Early Cretaceous rift basin and sinistral slip along the Tan-Lu fault zone. During the Late Cretaceous, dextral activation of the Tan-Lu fault zone resulted in pull-apart opening of the Zhucheng basin, which was subsequently deformed by NE-SW compression. This deformation chronology of the Tan-Lu fault zone and the associated Cretaceous basins allow us to constrain the regional kinematic models as related to subduction along the eastern margin of Asia, or related to collision in the Tibet region. 相似文献
9.
伊通地堑断层系统与构造样式 总被引:14,自引:4,他引:10
与走滑相关的盆地构造一般比较复杂,主要表现为断层系统较复杂和构造样式类型丰富。通过对三维地震资料进行系统的构造解析,结合区域地质和钻井资料的分析表明,伊通地堑的断层系统在平面上主要由近东西向的张性正断层和北东走向的张剪性断层组成,反映盆地具右旋走滑的应力体制;断层在演化序列上分为4个类型,与盆地的形成和演化之间存在良好的对应关系。地堑构造样式以"基底卷入型"为主,从盆地的动力学机制的角度,它属于"走滑—拉分型",进一步可将它概括为5种类型的构造样式,而且每一个断陷都以一种构造样式占主体,其展布具有明显的规律性。构造样式的差异是造成不同断陷具有独特油气分布规律的主导因素。 相似文献
10.
11.
The North Anatolian Fault (NAF) zone is 1500 km long, extending almost up to the Greek mainland in the west. It is a seismically active right-lateral strike-slip fault that accommodates the relative motion between the Turkish block and Black Sea plate. The Sea of Marmara lies along the western part of the NAF and shows evidence of subsidence. In this area pure strike-slip motion of the fault zone changes into extensional strike-slip movement that is responsible for the creation of the Sea of Marmara and the North Aegean basins. The northern half of the Sea of Marmara is interpreted as a large pull-apart basin. This basin is subdivided into three smaller basins separated by strike-slip fault segments of uplifted blocks NE-SW. Basinal areas are covered by horizontally layered sedimentary sequences. Uplifted blocks have undergone compressional stress. All the blocks are subsiding and are undergoing vertical motions and rotations relative to one another. The uplifted blocks exhibit positive Bouguer gravity anomalies. According to gravity interpretation, there is relative crustal thinning under the Sea of Marmara. The northern side of the Sea of Marmara is marked by a distinctive deep-rooted magnetic anomaly, which is dissected and shifted southward by strike-slip faulting. The southern shelf areas of the Sea of Marmara are dominated by short-wavelength magnetic anomalies of shallow origin. 相似文献
12.
Understanding the roles of Cenozoic strike-slip faults in SE Asia observed in outcrop onshore, with their offshore continuation has produced a variety of structural models (particularly pull-apart vs. oblique extension, escape tectonics vs. slab-pull-driven extension) to explain their relationships to sedimentary basins. Key problems with interpreting the offshore significance of major strike-slip faults are: (1) reconciling conflicting palaeomagnetic data, (2) discriminating extensional, and oblique-extensional fault geometries from strike-slip geometries on 2D seismic reflection data, and (3) estimating strike-slip displacements from seismic reflection data.Focus on basic strike-slip fault geometries such as restraining vs. releasing bends, and strongly splaying geometries approach the gulfs of Thailand and Tonkin, suggest major strike-slip faults probably do not extend far offshore Splays covering areas 10,000’s km2 in extent are characteristic of the southern portions of the Sagaing, Mae Ping, Three Pagodas and Ailao Shan-Red River faults, and are indicative of major faults dying out. The areas of the fault tips associated with faults of potentially 100 km+ displacement, scale appropriately with global examples of strike-slip faults on log–log displacement vs. tip area plots. The fault geometries in the Song Hong-Yinggehai Basin are inappropriate for a sinistral pull-apart geometry, and instead the southern fault strands of the Ailao Shan-Red River fault are interpreted to die out within the NW part of the Song Hong-Yinggehai Basin. Hence the fault zone does not transfer displacement onto the South China Seas spreading centre. The strike-slip faults are replaced by more extensional, oblique-extensional fault systems offshore to the south. The Sagaing Fault is also superimposed on an older Paleogene–Early Miocene oblique-extensional rift system. The Sagaing Fault geometry is complex, and one branch of the offshore fault zone transfers displacement onto the Pliocene-Recent Andaman spreading centre, and links with the West Andaman and related faults to form a very large pull-apart basin. 相似文献
13.
《International Geology Review》2012,54(8):701-713
Compressional or extensional troughs occupied by at least two sedimentary fills of dissimilar age, origin, facies, internal structure, and deformation pattern are herein termed superimposed basins. The lower and older fill of such basins is inherited from the latest compressional paleotectonic regime, and therefore is highly deformed (folded to thrust faulted). In contrast, the upper fill (neotectonic fill) is nearly flat, or undeformed, resting on the erosional surface of the lower fill with an angular unconformity. Superimposed basins occur mostly in or adjacent to recently active extensional terrains and recent strike-slip fault zones cutting across suture zones. Within the framework of neotectonics, recent geologic studies such as field geologic mapping, measured stratigraphic sections, aerial photography, and remote-sensing studies conducted in Turkey have shown that a number of well-developed and preserved superimposed basins occur along and adjacent to the North Anatolian transform fault (NATF), obliquely crossing the late Tertiary Izmir-Ankara-Erzincan suture zone (IAESZ). One such superimposed basin is the Refahiye, previously and erroneously interpreted to be a strike-slip basin of Pliocene age. In contrast, this study demonstrates that it is a well-preserved superimposed basin consisting of a combination of both an early-formed, early-middle Miocene piggy-back basin (the older Refahiye basin) and a newly developing strike-slip basin (the Kova basin). The Refahiye basin, located on the southern block of the Niksar-Erzincan segment of the Northern Anatolian fault master strand (NAFMS), contains two fills: (1) lower-middle Miocene latest paleotectonic fill (lower fill), and (2) Plio-Quaternary neotectonic fill (upper fill). The lower fill consists mostly of fluvial red clastics approximately 1 km thick with intercalations of gypsum lenses and shallow-marine reefal limestone of early-middle Miocene age. It is intensely folded, thrust-faulted, and not confined the present-day configuration of the Refahiye basin. The lower fill and its deformational structures, such as folds and thrust faults, are crossed and displaced dextrally by an active strike-slip fault system, the NATE In contrast, the upper fill, which rests on the erosional surface of the lower fill with an angular unconformity, consists of Plio-Quaternary terrace conglomerates, Quaternary imbricated gravels, and fine-grained Quaternary plain sediments (mostly silt and clay); these were deposited within a newly developing strike-slip basin—the Kova pull-apart basin—superimposed on the lower fill of the Refahiye basin. The upper fill is undeformed and nearly flat-lying. All these characteristics reveal that the present configuration of the Refahiye basin is a superimposed basin, herein termed the Refahiye superimposed basin. 相似文献
14.
用物理模拟实验研究走滑断裂和拉分盆地 总被引:6,自引:1,他引:5
本文按照下地壳和岩石圈地幔塑性流动控制上地壳构造变形的思想,采用脆延性双层模型,在考虑模型相似性的条件下,通过延性层流动驱动脆性层进行走滑断裂和拉分盆地模拟实验。实验结果表明,在左行走滑阶段发育两条"S"型左行右阶断裂带;在右行走滑改造阶段,早期左行右阶断裂带被改造为"Z"型右行右阶断裂带。走滑断裂发育过程中共有三种类型的拉张伸展:(1)"S"型破裂逐渐伸展,形成多个菱形盆地;(2)几个相邻的斜列"S"型断裂在剪切作用下端部被错断连通,形成"地堑-地垒"构造;(3)在右行走滑阶段,沿右行右阶断裂拉张形成拉分盆地。先存的上隆拱张断裂限制了走滑断裂的位置和方向。脆性层强度对走滑断裂的形成和发展具有约束作用,脆性层结构对脆延性的层间耦合作用和走滑断裂特征具有显著影响。 相似文献
15.
16.
玉树断裂带左旋走滑活动标志及其几何学
与运动学特征 总被引:2,自引:1,他引:1
玉树断裂带位于甘孜-玉树断裂带北西段,是一条总体呈NWW向展布的左旋走滑活动断裂带.沿断裂带发育错断水系与冲沟、拉分盆地、地震地表破裂与断裂破碎带等一系列反映玉树断裂带左旋走滑活动的典型地质-地貌标志.在室内遥感解译的基础上,结合最新的野外实地调查成果,对沿玉树断裂带上反映其左旋走滑活动的地质-地貌标志进行了总结,并对断裂带的几何学与运动学特征进行了综合分析.结果表明,玉树断裂带总长约150km,总体走向120~130°,自西向东可划分为呈左阶雁列分布的陇蒙达-结隆段、结隆-结古段和结古-查那扣段3段.沿该断裂带发育的串珠状拉分断陷盆地规模的大小反映出玉树断裂带自西向东拉张效应逐渐减弱、挤压效应逐渐增强的特点.玉树2010年7.1级地震的宏观震中处于晚第四纪活动性最为显著的中段,而仪器震中恰好处于该断裂带的不连续部位,进一步证明雁列走滑活动断裂带上的不连续部位通常是强震活动的初始破裂区域. 相似文献
17.
18.
新生代期间中国西部发生了多次强烈的构造运动, 经历了复杂的构造-地貌演化历史.地质构造背景和地球动力学过程则控制了中国西部大陆新生代期间的构造-地貌演化.盆-山系统是中国西部新生代构造的基本格局, 盆-岭体系是中国西部新生代的主要地貌单元.根据盆地的几何学、动力学与构造演化特征, 中国西部新生代盆地可以划分为压陷盆地、断陷盆地、走滑拉分盆地以及残留海-前陆盆地4类.这些新生代封闭盆地均被造山带所围限, 而盆地与山脉之间由挤压型活动断裂(逆冲断层和走滑断层)所分割.新生代以来印度板块与欧亚板块的碰撞以及其后印度板块的向北俯冲挤压, 对中国西部新生代沉积盆地的发育和演化产生了重大影响.中国西部新生代盆地构造岩相古地理演化与板块运动和构造隆升之间存在明显的耦合. 相似文献
19.
The Main Recent Fault of the Zagros Orogen is an active major dextral strike-slip fault along the Zagros collision zone, generated by oblique continent–continent collision of the Arabian plate with Iranian micro-continent. Two different fault styles are observed along the Piranshahr fault segment of the Main Recent Fault in NW Iran. The first style is a SW-dipping oblique reverse fault with dextral strike-slip displacement and the second style consists of cross-cutting NE-dipping, oblique normal fault dipping to the NE with the same dextral strike-slip displacement. A fault propagation anticline is generated SW of the oblique reverse fault. An active pull-apart basin has been produced to the NE of the Piranshahr oblique normal fault and is associated with other sub-parallel NE-dipping normal faults cutting the reverse oblique fault. Another cross-cutting set of NE–SW trending normal faults are also exist in the pull-apart area. We conclude that the NE verging major dextral oblique reverse fault initiated as a SW verging thrust system due to dextral transpression tectonic of the Zagros collision zone and later it has been overprinted by the NE-dipping oblique normal fault producing dextral strike-slip displacement reflecting progressive change of transpression into transtension in the collision zone. The active Piranshahr pull-apart basin has been generated due to a releasing damage zone along the NW segment of the Main Recent Fault in this area at an overlap of Piranshahr oblique normal fault segment of the Main Recent Fault and the Serow fault, the continuation of the Main Recent Fault to the N. 相似文献
20.
阿尔金断裂晚新生代左旋走滑位错的地质新证据 总被引:20,自引:5,他引:20
通过对沿阿尔金断裂中段 (位于东经 88°至 92°)发育的晚第三纪走滑盆地沉积历史和走滑变形过程的野外观测以及对第四纪索尔库里盆地形成和演化过程的沉积环境复原的分析 ,提出了阿尔金断裂中段晚新生代左旋走滑位错的地质新证据。研究表明 ,晚第三纪走滑盆地经历了中新世晚期至上新世早期斜张走滑拉分和上新世晚期以来左旋错动的演化过程 ,沉积体沿断裂的错位分布特征指示至少发生了 80 km的左旋走滑位错。发育于阿尔金山链内部的索尔库里盆地起源于晚第三纪早期强烈的侵蚀作用 ,成为柴达木盆地快速沉积的主要物源区。该侵蚀盆地于中晚更新世闭合并演化成一个独立的沉积盆地。通过侵蚀盆地外流通道的复原指示阿尔金断裂自晚第三纪以来累积了 80~ 1 0 0 km的左旋位错。在此基础上 ,结合穿越断裂构造的 级区域水系形成的洪积裙宽度和主干河道沿断裂迹线的拐折长度 ,探讨了阿尔金断裂晚新生代左旋走滑位错量沿走向分布的特征 ,估算了左旋走滑速率 相似文献