青藏高原及其周边地区的侏罗纪综合地层学、生物群落和古地理演化

IF 6 2区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
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引用次数: 0

摘要

摘要 青藏高原在侏罗纪经历了一次独特的地质演化,其驱动力是古特提斯的终止和新特提斯的减少。印度板块从冈瓦纳北缘分离,从南半球向北漂移。鉴于地层的年代是重建地质历史的基础,本研究旨在通过综合岩石地层学、古生物学、等辐射测年、磁地层学和其他技术方面的材料,为青藏高原地区的侏罗纪地层建立一个新的多重地层和年代学框架,并重点关注最新进展和发现。新框架包括来自高原四个主要分区的侏罗系:巴颜喀拉山、羌塘、拉萨-甘孜和南西藏(喜马拉雅山)。最终,提出了一个更完整、更精细的生物地层序列,包括高原上最常见的化石和对侏罗纪地层具有重要意义的化石,其中包括海相地层中的氨虫、双壳类、腕足类、有孔虫、放射虫和甲藻囊胞,以及陆相沉积中的花粉、孢子和叶绿体。这一生物地层学框架与 2020 年地质年表的侏罗纪国际标准分区通过标准或有代表性的蛛形纲物种或属进行了关联。根据这一框架,我们构建了侏罗纪地层在高原不同盆地之间的横向相关性。本研究的古生物学相关性表明,侏罗纪时期拉萨-甘孜地块与羌塘地块的关系比与南西藏喜马拉雅地块的关系更为密切。同时,拉萨-甘孜地块与羌塘地块具有相似的东特提斯北缘海洋动物群特征。这与认为雅鲁藏布特提斯是一个小型弧后盆地的观点形成了鲜明对比。地层学、古生物学和沉积学的综合分析表明,班公错-怒江特提斯可能在晚三叠世开始断裂,在早侏罗世晚期随着洋壳的形成而逐渐形成。然而,在中侏罗世末期,当羌塘地块开始俯冲到拉萨-甘孜地块之下时,该地块发展到高潮而失败。在早白垩世,这两个地块最终合并。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Jurassic integrative stratigraphy, biotas, and paleogeographical evolution of the Qinghai-Tibetan Plateau and its surrounding areas

Abstract

The Qinghai-Tibetan Plateau experienced a unique geological evolution during the Jurassic, driven by the termination of the Palaeotethys and the reduction of the Neotethys. The Indian Plate separated from the northern margin of Gondwana and drifted northward from the Southern Hemisphere. Given that the timing of strata serves as the basis for reconstructing geological history, the present work aimed to develop a new multiple stratigraphic and chronologic framework for the Jurassic strata of the Qinghai-Tibetan Plateau region via a synthesis of the material on lithostratigraphy, palaeontology, iso-radiometric dating, magnetostratigraphy, and other techniques with an emphasis on recent progress and findings. The new framework included the Jurassic System from the four major subdivisions of the plateau: the Baryan Har, Qiangtang, Lhasa-Gandise, and Southern Xizang (Himalaya). Ultimately, a more complete, refined biostratigraphic sequence was proposed, comprising the most common fossils in the plateau and those that are stratigraphically significant for the Jurassic stratigraphy, including ammonites, bivalves, brachiopods, foraminifera, radiolarians, and dinoflagellate cysts for the marine strata, and pollen and spores, and charophytes for the terrestrial sediments. This biostratigraphic framework was correlated with the Jurassic international standard zonation of the Geological Time Scale 2020 via standard or representative species or genera of ammonites. Based on this framework, we constructed a lateral correlation of the Jurassic strata between different basins of the plateau. The palaeontologic correlation in the present work shows that the Lhasa-Gandise Block had a closer relationship with the Qiangtang Block than with the Southern Xizang Himalaya during the Jurassic Period. Meanwhile, the Lhasa-Gandise Block and Qiangtang Block shared similar marine fauna features of the north marginal East Tethys. This contrasts the opinion suggesting that the Yarlung Zangbo Tethys was a small back-arc basin. A combination of stratigraphical, palaeontological, and sedimentological analyses implies that the Bangong Co-Nujiang Tethys may have begun rifting in the Late Triassic, evolving to the birth at the late Early Jurassic with the formation of ocean crust. However, this resulted in failure after it grew into the climax at the end of the Middle Jurassic when the Qiangtang Block began subducting under the Lhasa-Gandise Block. In the Early Cretaceous, the two blocks finally merged.

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来源期刊
Science China Earth Sciences
Science China Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
9.60
自引率
5.30%
发文量
135
审稿时长
3-8 weeks
期刊介绍: Science China Earth Sciences, an academic journal cosponsored by the Chinese Academy of Sciences and the National Natural Science Foundation of China, and published by Science China Press, is committed to publishing high-quality, original results in both basic and applied research.
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