Characteristics and Implications of Podiform-Chromite Hosted Silicate Inclusions in the Zedang Ophiolite, Southern Tibet

Goldschmidt Abstracts Pub Date : 2021-09-01 DOI:10.46427/gold2020.904

G. Guo, W. Mao, Ru Y. Zhang, J. Liou, W. Ernst, Jingsui Yang, Xiao-dong Liu, Xiangzhen Xu, Yong Zhang, Bin Wu

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引用次数: 3

Abstract

Abstract The Zedang ophiolite, containing pods of massive chromitite, crops out in the eastern segment of the Yarlung-Zangbo suture zone, Southern Tibet. Chromite grains in the Zedang chromitite bodies have high Cr# [Cr/(Cr + Al)] (0.73–0.82) and Mg# [Mg/(Mg + Fe)] (0.73–0.79), and low TiO2 content (0.13–0.25 wt%); they contain diopside (Di) exsolution lamellae and abundant inclusions of diopside, enstatite, hydrous silicates (e.q., Cr-bearing amphibole), and serpentine. The inclusions occur as isolated single-phase or multiphase (clinopyroxene + amphibole ± platinum group mineral) grains. Diopside lamellae-bearing chromite was probably a precursor CaFe2O4-phase (CF phase) forming at >12.5 GPa. Individual octahedral serpentine inclusions are likely pseudomorphs after isometric ringwoodite. Both the CF phase and ringwoodite crystallized within the mantle transition zone (MTZ). Equilibrium pressure-temperature (P-T) conditions of coexisting clinopyroxene-orthopyroxene (Cpx-Opx) inclusions are 8.5–21.5 ± 1.5 kbar, and 996–1097 ± 30 °C. These P-T conditions suggest that the inferred parental melts of the Zedang chromitites were boninitic. The boninitic liquid in turn was generated from depleted, metasomatized mantle in a supra-subduction zone (SSZ) environment. Linear alignment of hydrous silicate inclusions in chromitites imply fluid infiltration along fracture zones at shallow depths during consolidation of the ophiolite. Based on our new data, we propose a new three-stage model to explain the formation and evolution of the Zedang chromitites. It experienced a long journey from (i) the MTZ forming high-P chromite (containing ultrahigh-pressure minerals), (ii) to the upper mantle attending to the formation of the major part of the chromite, whereas it's host chromitites formed at melt-rock reaction process, and (iii) where high-P chromite was incorporated in low-P neoblastic chromite during subducting slab rollback-induced channel return flow to shallow depths (involving fluid input and alteration).

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藏南泽当蛇绿岩中足形-铬铁矿型硅酸盐包裹体特征及意义

藏南雅鲁藏布缝合带东段的泽当蛇绿岩中含有块状铬铁矿荚果。泽当铬铁矿体中铬铁矿颗粒Cr# [Cr/(Cr + Al)](0.73 ~ 0.82)和Mg# [Mg/(Mg + Fe)](0.73 ~ 0.79)较高，TiO2含量较低(0.13 ~ 0.25 wt%);它们含有透辉石(Di)溶出片层和丰富的透辉石、顽辉石、含水硅酸盐(如含铬角闪孔)和蛇纹石包裹体。包裹体呈孤立的单相或多相(斜辉石+角闪孔±铂族矿物)颗粒。含透辉石片状铬铁矿可能是在>12.5 GPa下形成的cafe2o4相(CF相)前驱体。单个八面体蛇纹石包裹体可能是等长环纹岩后的伪晶。CF相和环woodite均在地幔过渡带(MTZ)内结晶。斜辉石-正辉石(Cpx-Opx)共存包体的平衡压力-温度(P-T)条件为8.5 ~ 21.5±1.5 kbar, 996 ~ 1097±30℃。这些P-T条件提示泽当铬铁矿母熔体为硼质。而渤岩质液体则是在超俯冲带(SSZ)环境下由衰竭交代地幔生成的。铬铁矿中含水硅酸盐包裹体的线性排列表明，在蛇绿岩固结过程中，流体沿浅层裂缝带渗透。在此基础上，我们提出了一个新的三阶段模型来解释泽当铬铁矿的形成和演化。从MTZ形成高磷铬铁矿(含超高压矿物)，到上地幔形成大部分铬铁矿，而其主铬铁矿形成于熔融-岩石反应过程，以及高磷铬铁矿与低磷新母粒铬铁矿合并的过程经历了一个漫长的过程(包括流体输入和蚀变)。

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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