Tracing remnant of subducted Indian felsic crust: Insight from zircon studies

B. Mukherjee, Tania Saha
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Abstract

Zircon is a common mineral in nature that survives varied pressure and temperature conditions in the subduction process. It has excellent ability to reveal progressive metamorphic history. Hence it is useful in reconstruct the subduction tectonics in the collisional orogenic belts. In the Tso Morari Gneiss of Indus Suture Zone, Himalaya, eclogite boudins have registered imprint of subduction related ultrahigh-pressure (UHP) metamorphism, this imprint is however missing in the host gneisses. To search the missing link, zircons of the gneisses are studied. The zircons overgrowth and the numerous mineral inclusions indicating, metamorphic responses of the gneisses. The Raman spectra of minerals show, cores of the zircon consist of apatite and quartz, and in the surrounding overgrowth preserves quartz-coesite, c-polymorphs, and other metamorphic minerals. The distribution pattern of these minerals in the zircons is consistent with the Th/U ratios ranging 0.30 to 0.01 recognizes inner magmatic and outer metamorphic domains. The U-Pb ages from inner magmatic, at c. 500 Ma, and from outer metamorphic growth at c.45-42 Ma, suggests the former is the protolith age and later is metamorphic ages of the gneisses. The tectonic interpretation reveals, the subduction of Indian felsic crust to UHP depth (>100km) at c. 45 Ma. Thematic collection: This article is part of the Mesozoic and Cenozoic tectonics, landscape and climate change collection available at: https://www.lyellcollection.org/topic/collections/mesozoic-and-cenozoic-tectonics-landscape-and-climate-change
追踪印度熔岩地壳俯冲残余:锆石研究的启示
锆石是自然界中一种常见的矿物,在俯冲过程中能在不同的压力和温度条件下生存。它具有揭示渐进变质历史的卓越能力。因此,它有助于重建碰撞造山带的俯冲构造。在喜马拉雅山印度河断裂带的措莫拉里片麻岩中,闪长岩包岩记录了与俯冲有关的超高压(UHP)变质作用的印记,但在寄主片麻岩中却没有这种印记。为了寻找这一缺失的环节,我们对片麻岩中的锆石进行了研究。锆石的过度生长和大量矿物包裹体表明了片麻岩的变质反应。矿物的拉曼光谱显示,锆石的核心由磷灰石和石英组成,在周围的杂生层中保留了石英-斜长石、c-多晶体和其他变质矿物。这些矿物在锆石中的分布模式与内部岩浆域和外部变质域的 Th/U 比值 0.30 至 0.01 是一致的。从内部岩浆的 U-Pb 年龄(约 500 Ma)和外部变质生长的 U-Pb 年龄(约 45-42 Ma)来看,前者是片麻岩的原岩年龄,后者是片麻岩的变质年龄。构造解释显示,印度长岩地壳在约 45 Ma 时俯冲到超高压深度(>100km)。 专题文集:本文是中生代和新生代构造、地貌和气候变化文集的一部分,可在以下网址查阅:https://www.lyellcollection.org/topic/collections/mesozoic-and-cenozoic-tectonics-landscape-and-climate-change。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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