印度锡隆-梅加拉亚片麻岩复合体索纳帕哈二辉石黑云母花岗岩的地球化学、莫纳兹岩(U-Pb-Th)地质年代和 P-T 伪吸积模型:对构造-变质演化和全球泛非相关性的影响

IF 0.7 4区 地球科学 Q4 GEOCHEMISTRY & GEOPHYSICS
Bikash Mahanta, Divya Prakash, Manish Kumar, Saurabh Singh, Rajeev Kumar Pandey, Chandra Kant Singh, Suparna Tewari
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引用次数: 0

摘要

摘要暴露在高品位区域变质带中的花岗岩和作为玄武岩管道中的析出岩被认为是了解地壳深部的窗口,因此在制约地壳过程和演化模型方面发挥着关键作用。在此,我们对位于索纳帕哈尔地区南部的双辉黑云母花岗岩的构造-变质历史进行了详细调查。这包括进行独居石化学年代测定、分析岩石学和地球化学特征、应用地温测量法、进行相平衡建模以及追踪压力-温度(P-T)路径。利用传统测温仪和 winTWQ 对黑云母花岗岩的变质 P-T 条件进行了估算,结果显示温度超过 800°C,压力约为 8.6 千巴,代表了高温花岗岩面变质。根据 P-T 假动作得到的变质演化路径表明,P-T 演化路径为顺时针方向,因此标志着等温减压和快速隆起。对痕量元素和稀土元素(REE)的地球化学研究表明,原岩的性质为透辉玄武岩,来自靠近俯冲带的后弧盆地。此外,还利用原始地幔归一化微量元素蛛网图对所分析的岩石进行了研究。结果表明,大离子亲岩元素(Th、U、K、Pb)富集,高场强元素(Nb、Ta、Ti)贫化。Nb 和 Ti 的负异常以及 Th、K 和 Pb 值的升高表明可能存在地壳污染。所研究岩石的独居石化学数据显示其变质峰值年龄为 521.3 ± 4.20 Ma,与全球泛非碰撞后期的昆加造山运动相吻合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Geochemistry, Monazite (U–Pb–Th) Geochronology, and P-T Pseudosection Modelling of Two-Pyroxene Mafic Granulite from Sonapahar, Shillong Meghalaya Gneissic Complex, India: Implication for Tectono-Metamorphic Evolution and Global Pan-African Correlation

Geochemistry, Monazite (U–Pb–Th) Geochronology, and P-T Pseudosection Modelling of Two-Pyroxene Mafic Granulite from Sonapahar, Shillong Meghalaya Gneissic Complex, India: Implication for Tectono-Metamorphic Evolution and Global Pan-African Correlation

Geochemistry, Monazite (U–Pb–Th) Geochronology, and P-T Pseudosection Modelling of Two-Pyroxene Mafic Granulite from Sonapahar, Shillong Meghalaya Gneissic Complex, India: Implication for Tectono-Metamorphic Evolution and Global Pan-African Correlation

Granulites exposed in high-grade regional metamorphic belts and exhumed as xenoliths in basaltic pipes are considered as window into the deep crust thus play a key role in constraining models of crustal processes and evolution. Here we present a detailed investigation of the tectono-metamorphic history of the two-pyroxene mafic granulite located in the southern region of the Sonapahar area. This involves conducting monazite chemical dating, analyzing petrological and geochemical characteristics, applying geothermobarometry, performing phase equilibria modeling, and tracing a pressure-temperature (P-T) path. Metamorphic P-T conditions estimated for the mafic granulite using conventional thermobarometer and winTWQ shows temperature in excess of 800°C and pressure of about 8.6 kbar, stand for high temperature granulite facies metamorphism. The metamorphic evolution path obtained from P-T pseudosection suggest a clockwise P-T evolution path, thus signify isothermal decompression and indicate rapid upliftment. Geochemical study of trace and rare earth elements (REE), suggest protolith is of tholeiite basalt in nature that is derived from back arc basin setting near to subduction zone. Additionally, the analyzed rock was examined using primitive mantle-normalized trace element spider diagram. The results indicate an enrichment in large-ion lithophile elements (Th, U, K, Pb) and a depletion in high field-strength elements (Nb, Ta, Ti). The presence of negative anomalies in Nb and Ti, coupled with elevated values of Th, K, and Pb, suggests the possibility of crustal contamination. Monazite chemical data from the studied rock reveals a peak metamorphism age of 521.3 ± 4.20 Ma, which corresponds to the Kuunga Orogeny in the later phase of global Pan-African collision.

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来源期刊
Geochemistry International
Geochemistry International 地学-地球化学与地球物理
CiteScore
1.60
自引率
12.50%
发文量
89
审稿时长
1 months
期刊介绍: Geochemistry International is a peer reviewed journal that publishes articles on cosmochemistry; geochemistry of magmatic, metamorphic, hydrothermal, and sedimentary processes; isotope geochemistry; organic geochemistry; applied geochemistry; and chemistry of the environment. Geochemistry International provides readers with a unique opportunity to refine their understanding of the geology of the vast territory of the Eurasian continent. The journal welcomes manuscripts from all countries in the English or Russian language.
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