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青藏高原羌塘中部中—上奥陶统达瓦山组的建立及意义 总被引:3,自引:2,他引:1
首次在藏北羌塘中部达瓦山地区识别出一套复理石沉积,厚度大于3000m,未见顶底,岩石组合以变质砂岩、杂砂岩和千枚岩为主,夹双峰式火山岩,火山岩岩性为流纹岩和玄武岩。用LA-ICP-MS同位素测定技术对流纹岩夹层中的锆石进行了U-Pb同位素测定,获得锆石的年龄为454.0±2.0Ma和458.3±1.8Ma,时代为中晚奥陶世达瑞威尔—桑比期,代表了达瓦山组的主体形成时代。在剖面测制和区域对比的基础上建立了中—上奥陶统达瓦山组,代表冈瓦纳大陆北缘中—晚奥陶世裂谷型深水-半深水复理石沉积。中—上奥陶统达瓦山组的发现和建立完善了该区中晚奥陶世的地层系统,进一步确定该区中—晚奥陶世洋盆的存在,对冈瓦纳大陆北缘中—晚奥陶世岩相古地理研究具有重要意义。 相似文献
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将前人对黄土高原黄土地层划分的研究成果进行全面总结、分析,结合洛川、宝鸡、西峰3个经典剖面,利用土壤
地层学、沉积学、磁性地层学、古生物学、年代学、地球化学等研究方法对黄土高原的黄土地层进行详细对比以及进一步
细分。将早、中更新世界线调整为B/M极性倒转开始的对应层位——L9顶部。根据岩性和气候旋回周期的差异性等,将离
石黄土三分,S8/L9作为离石黄土内部划分的一条新界线,S1~L5划分为上离石黄土,S5~S8划分为中离石黄土,L9~L15划分为
下离石黄土。在分析过程中发现关键层位(S0,L1,S1,S5,L9,L15,L33) 的年龄具有差异性。 相似文献
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We present three 3D numerical models of deep subduction where buoyant material from an oceanic plateau and a plume interact with the overriding plate to assess the influence on subduction dynamics,trench geometry,and mechanisms for plateau accretion and continental growth.Transient instabilities of the convergent margin are produced,resulting in:contorted trench geometry;trench migration parallel with the plate margin;folding of the subducting slab and orocline development at the convergent margin;and transfer of the plateau to the overriding plate.The presence of plume material beneath the oceanic plateau causes flat subduction above the plume,resulting in a "bowed" shaped subducting slab.In plateau-only models,plateau accretion at the edge of the overriding plate results in trench migration around the edge of the plateau before subduction is re-established directly behind the trailing edge of the plateau.The plateau shortens and some plateau material subducts.The presence of buoyant plume material beneath the oceanic plateau has a profound influence on the behaviour of the convergent margin.In the plateau + plume model,plateau accretion causes rapid trench advance.Plate convergence is accommodated by shearing at the base of the plateau and shortening in the overriding plate.The trench migrates around the edge of the plateau and subduction is re-established well behind the trailing edge of the plateau,effectively embedding the plateau into the overriding plate.A slab window forms beneath the accreted plateau and plume material is transferred from the subducting plate to the overriding plate through the window.In all of the models,the subduction zone maintains a relatively stable configuration away from the buoyancy anomalies within the downgoing plate.The models provide a dynamic context for plateau and plume accretion in Phanerozoic accretionary orogenic systems such as the East China Orogen and the Central Asian Orogen(Altiads),which are characterised by accreted ophiolite complexes with diverse geochemical affinities,and a protracted evolution of accretion of exotic terranes including oceanic plateau and terranes with plume origins. 相似文献
105.
Metamorphic history of the South Tibetan Detachment System,Mt. Everest region,revealed by RSCM thermometry and phase equilibria modelling 总被引:2,自引:0,他引:2
J. M. COTTLE D. J. WATERS O. BEYSSAC M. J. JESSUP 《Journal of Metamorphic Geology》2011,29(5):561-582
This study combines microstructural observations with Raman spectroscopy on carbonaceous material (RSCM), phase equilibria modelling and U–Pb dating of titanite to delineate the metamorphic history of a well‐exposed section through the South Tibetan Detachment System (STDS) in the Dzakaa Chu valley of Southern Tibet. In the hanging wall of the STDS, undeformed Tibetan Sedimentary Series rocks consistently record peak metamorphic temperatures of ~340 °C. Temperatures increase down‐section, reaching ~650 °C at the base of the shear zone, defining an apparent metamorphic field gradient of ~310 °C km?1 across the entire structure. U–Th–Pb geochronological data indicate that metamorphism and deformation at high temperatures occurred over a protracted period from at least 20 to 13 Ma. Deformation within this 1‐km‐thick zone of distributed top‐down‐to‐the‐northeast ductile shear included a strong component of vertical shortening and was responsible for significant condensing of palaeo‐isotherms along the upper margin of the Greater Himalayan Series (GHS). We interpret the preservation of such a high metamorphic gradient to be the result of a progressive up‐section migration in the locus of deformation within the zone. This segment of the STDS provides a detailed thermal and kinematic record of the exhumation of footwall GHS rocks from beneath the southern margin of the Tibetan plateau. 相似文献
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