黑根山洋俯冲和闭合的制约因素:中国内蒙古中部的岩浆和沉积记录

Jianzhou Tang, Zhicheng Zhang, Gaoxue Yang, Ke Li, Yan Chen, Cong Ding, Z. Ji, Qi Wang
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引用次数: 0

摘要

来自中国内蒙古中部火山沉积序列、花岗岩和蛇绿岩遗迹的岩石学、地质年代和地球化学数据被用来重建黑根山洋的俯冲和最终关闭。地质年代测定和汇编揭示了乌里雅苏台大陆边缘岩浆活动的四个阶段(约 360-355 Ma、348-320 Ma、320-310 Ma 和 310-275 Ma)。约 356 Ma 的 I 型 Halatumiao 岩浆活动。356 Ma的I型哈拉图庙花岗闪长岩和阿曼乌苏蛇绿岩遗迹与俯冲有关,哈拉图庙花岗闪长岩提供了乌里雅苏台大陆边缘下的黑根山洋在约360-355 Ma向北俯冲的确凿证据。360-355 Ma.约约348-320Ma和320-310Ma火山岩和花岗岩构成了与二连浩特-赫根山蛇绿岩带大致平行的两条线状岩浆岩带,记录了乌里雅苏台大陆边缘大陆弧岩浆活动的两个阶段。总体而言,约360-310 Ma的弧岩浆活动总体而言,约 360-310 Ma 的大陆弧岩浆活动显示了乌里雅苏台大陆边缘先向陆地迁移,然后向海洋迁移的现象,这表明黑根山洋正在向前俯冲,随后板块陡峭化。相比之下,约310-275 Ma岩浆岩以I型和A型长粒火山岩、花岗岩和尖晶岩为主,这些岩浆岩是后发的,与延伸有关,在乌里雅苏台大陆边缘和二连浩特-黑根山蛇绿岩带普遍存在。在二连浩特-黑根山蛇绿岩带阿曼乌苏地区的本巴图地层和阿木山地层之间发现了一个成因转变。早期的碎屑岩来源于索尼左旗弧带的早古生代岩石,而晚期的碎屑岩则来源于二连浩特-黑根山蛇绿岩带的早石炭世蛇绿岩遗迹。与延伸相关的岩浆岩的产地转变和普遍的岩浆岩赋存意味着晚石炭世黑根山洋的关闭。中亚东南造山带北部的晚石炭世大洋闭合事件还可通过锆石的 Hf 同位素组成在约 360-310 Ma 和 310-275 Ma 之间的转变得到证明。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Constraints on the subduction and closure of the Hegenshan Ocean: Magmatic and sedimentary records from central Inner Mongolia, China
Petrological, geochronological, and geochemical data from the volcano-sedimentary sequences, granitoids, and ophiolite relics of central Inner Mongolia, China, were used to reconstruct the subduction and final closure of the Hegenshan Ocean. Geochronological dating and compilation reveal four phases (ca. 360−355 Ma, 348−320 Ma, 320−310 Ma, and 310−275 Ma) of magmatism in the Uliastai continental margin. The ca. 356 Ma I-type Halatumiao granodiorite and Amanwusu ophiolite relics are subduction-related, and the Halatumiao granodiorite provides solid evidence of the northward subduction of the Hegenshan Ocean beneath the Uliastai continental margin at ca. 360−355 Ma. The ca. 348−320 Ma and 320−310 Ma volcanic rocks and granitoids constitute two linear magmatic belts roughly parallel to the Erenhot-Hegenshan ophiolite belt, which record two phases of continental arc magmatism in the Uliastai continental margin. Overall, the ca. 360−310 Ma arc magmatism shows landward migration and then oceanward migration in the Uliastai continental margin, which indicates advancing subduction and subsequent slab steepening of the Hegenshan Ocean. By contrast, the ca. 310−275 Ma magmatic rocks are dominated by I- and A-type felsic volcanic rocks, granites, and dikes, which are post-accretionary, extension-related, and pervasive in the Uliastai continental margin and Erenhot-Hegenshan ophiolite belt. A provenance shift was identified between the Benbatu and Amushan formations of the Amanwusu area of the Erenhot-Hegenshan ophiolite belt. The early detritus was derived from the early Paleozoic rocks in the Sonid Zuoqi arc belt, whereas the late detritus originated from the Early Carboniferous ophiolite relics in the Erenhot-Hegenshan ophiolite belt. The provenance shift and emplacement of pervasive extension-related magmatic rocks imply a Late Carboniferous closure of the Hegenshan Ocean. The Late Carboniferous oceanic closure event in the north of the southeast Central Asian Orogenic Belt is also evidenced by the transition of Hf isotopic composition of zircons dated between ca. 360−310 Ma and 310−275 Ma.
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