从模拟实验的结果看底辟发育的力学机制     

Zhang Jiahua 《地球科学》1986,(3)

底辟构造在我国东部沉积盆地中有广泛的分布,并蕴藏有丰富的油气资源。作者模拟了隐刺穿构造的发育过程及其变形特征,从而分析底辟发育的力学机制。实验结果表明,底辟的形成时间和底辟核的形态对底辟变形有重大影响。绝大多数隐刺穿构造。在其顶部都发育一个地堑断裂系,这是底辟构造的共同特征。  相似文献   

伊通地堑上地幔剪切带   总被引：3，自引：1，他引：3  

张小鸥 《地震地质》1995,17(2):167

通过研究糜棱岩型幔源包体的变形显微构造、位错亚构造及组构特征，确定它是上地幔剪切带的代表物质。该带形成温度为７２９～８２８℃、压力为１．１０～１．３８ＧＰａ、差异应力为９７～１５０ＭＰａ、应变速率为ＩＯ￣（－１４）～１Ｏ￣（－１２）ｓ￣（－１）、等效粘滞度为１０～１０００ＥＰａ·ｓ和深度为３７～４５ｋｍ。这是一种与地幔底辟作用有关的规模较小的缓倾斜剪切带，也是应变集中带，能导致上地幔地震波速各向异性，并与地震活动有关  相似文献   

环太平洋地震带与柯里奥利力   总被引：5，自引：0，他引：5       下载免费PDF全文

杨学祥  朮洪亮 《地震工程学报》1995,17(4):13-16

柯里奥利力是地球自转的一种惯性力，它使垂直下降的物体向东偏转，垂直上升的物体向西偏转，是形成环太平洋地震带中东西两岸构造应力差别的根本原因。  相似文献   

Microseismicity of the ultraslow-spreading Gakkel ridge, Arctic Ocean: a pilot study     

Vera Schlindwein  Christian Müller  Wilfried Jokat 《Geophysical Journal International》2007,169(1):100-112

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黔东南地区重力场特征及雷公山地堑系地质意义的初论     

王亮 《贵州地质》2002,19(1):44-51

通过采用先进的重力数据处理软件，对黔东南地区的1：20万布格重力场和剩余重力场等资料，进行了综合处理，重力解译，地质分析，获得了不少新信息和新认识，不仅证实了区内NE向断裂的存在，还发现了EW，NW，SN向的断裂构造，这是开展1：20万区域重力调查和运用先进的重力数据处理技术的一个重要成果。  相似文献   

青藏高原的隆升：青藏高原的岩石圈结构和构造地貌   总被引：20，自引：1，他引：20       下载免费PDF全文

崔军文  李朋武等 《地质论评》2001,47(2):157-163

笔者回顾青藏高原隆升研究的历史，剖析各种隆升动力学模式，依据着青藏高原岩石圈组成的构的强烈不均一性和、三分性”，“对称性”构造地貌格局，提出了青藏高原隆升是印度地块和塔里木一可拉善地块双向不均一俯冲和青藏腹地深层热隆扩展联合作用的结果，俯冲是高原隆升的重要机制，而热隆扩展是高原隆升的直接原因。  相似文献   

Stochastic sketching of infiltration-advance isochrones     

W. O. Rasmussen 《Stochastic Environmental Research and Risk Assessment (SERRA)》1996,10(3):209-229

A technique has been developed for predicting the irregular advance pattern often observed as water spreads on the surface of the ground. The technique is a combination of stochastic sketching, potential theory, probability theory, and a mass balance equation in the form of an advance equation. The technique can be used on flat as well as sloping terrain and addresses any form of obstructions or constraints to the flow of the water. The stochastic sketching portion of the technique uses cellular automata with transition probability movement rules to sketch the dynamics of small volume water elements in the defined environment. Randomly selected small volume flow path segments are computed and plotted. The envelope of these segments defines the wetted area and the advance front. Several examples are presented showing the patterns produced for various situations.  相似文献   

Anomalous structural evolution of the Shimanto Accretionary Prism at Murotomisaki, Shikoku Island, Japan     

James  Hibbard  Daniel  Karig Asahiko  Taira 《Island Arc》1992,1(1):133-147

Abstract The Late Oligocene-Early Miocene Nabae Sub-belt of the Shimanto Accretionary Prism was created coevally (ca 25-15 Ma) with the opening of the Shikoku back-arc basin, located to the south of the southwest Japan convergent margin. The detailed geology of the sub-belt has been controversial and the interaction of the Shimanto accretionary prism and the opening of the Shikoku Basin has been ambiguous. New structural analysis of the sub-belt has led to a new perception of its structural framework and has significant bearing on the interpretation of the Neogene tectonics of southwest Japan. The sub-belt is divided into three units: the Nabae Complex; the Shijujiyama Formation; and the Maruyama Intrusive Suite. The Nabae Complex comprises coherent units and mélange, all of which show polyphase deformation. The first phase of deformation appears to have involved landward vergent thrusting of coherent units over the mélange terrane. The second phase of deformation involved continued landward vergent shortening. The Shijujiyama Formation, composed mainly of mafic volcanics and massive sandstone, is interpreted as a slope basin deposited upon the Nabae Complex during the second phase of deformation. The youngest deformational pulse involved regional flexing and accompanying pervasive faulting. During this event, mafic rocks of the Maruyama Intrusive Suite intruded the sub-belt. Fossil evidence in the Nabae Complex and radiometric dates on the intrusive rocks indicate that this tectonic scheme was imprinted upon the sub-belt between ～23 and ～14 Ma. The timing of accretion and deformation of the sub-belt coincides with the opening of the Shikoku Basin; hence, subduction and spreading operated simultaneously. Accretion of the Nabae Sub-belt was anomalous, involving landward vergent thrusting, magmatism in newly accreted strata and regional flexing. It is proposed that this complex and anomalous structural history is largely related to the subduction of the active Shikoku Basin spreading ridge and associated seamounts.  相似文献   

Development of grabens and associated fault-drags: An experimental study     

Sugata Hazra 《Journal of Earth System Science》1995,104(3):489-498

Experiments on extensional faulting were performed with semi-brittle talc-sand beds resting on a ductile clay base. The experiments show that the development of graben in the talc-sand beds is controlled by the deformation in the ductile basement. Graben-like structures form only when there is a non-uniform stretching in the basement. Uniform extension at the basement level fails to produce any such structures. Grabens initiate as large synclinal structures (sag). The sag is generated either by a downward flexing of the talc-sand bed on a ductile basement or by non ****-uniform thinning of beds. Listric master faults bounding the grabens intersect the basement at high angles. The master faults that initiate as curved shear planes rotate further with continued extension. At the initial stage, the graben structures are associated with normal drags, and with progressive deformation, drag patterns change from normal to a reverse one.  相似文献   

New radiolarian ages from the Troodos ophiolite and their tectonic implications   总被引：3，自引：0，他引：3  

Soichi  Osozawa Makoto  Okamura 《Island Arc》1993,2(1):1-6

Abstract Newly obtained radiolarian biostratigraphic age combined with previous isotopic age of the Troodos ophiolite shows that the ophiolite becomes systematically younger from east to west: Turonian, early Campanian, and late Campanian. The youngest late Campanian part of the ophiolite is directly covered by the volcaniclastic sediment derived from an active island arc, whereas the older part is covered by pelagic radiolarite. These facts constitute evidence that the Troodos ophiolite was probably emplaced during the subduction of an active spreading ridge.  相似文献