东南极洲Sør Rondane山脉的超高温变质作用和熔融包裹体

IF 0.9 4区地球科学 Q4 MINERALOGY

Journal of Mineralogical and Petrological Sciences Pub Date : 2022-01-01 DOI:10.2465/jmps.220325

Fumiko Higashino, Tetsuo Kawakami

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引用次数: 0

摘要

本文报道了南极东部朗丹山(SRM)超高温变质岩的首次露头。SRM东部Balchenfjella的泥质片麻岩含中长辉石，经三元长石测温，其UHT条件(bb0 ~ 900℃)。超高温中辉长岩既存在于基体中，也以石榴石包裹体的形式存在。石榴石在中长岩旁边也有纳米花岗岩类包裹体，这被解释为UHT熔体。在石英原生相区绘制了重积分的纳米花岗岩组成，归类为花岗岩。在An - Ab - Or和Qz - Ab - Or空间中，即使纳米花岗岩结晶也能提供合适的初始熔体成分，而镁的富集则是由于纳米花岗岩包裹体与主石榴石之间局部的铁-镁逆行交换反应。虽然SRM中的变质岩是高度退变的，但研究表明，UHT条件下的微结构证据被部分保存。对超高温变质作用的时间和面积范围的进一步研究有助于我们了解SRM的构造模式。

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Ultrahigh–temperature metamorphism and melt inclusions from the Sør Rondane Mountains, East Antarctica

This paper reports the ﬁ rst outcrop occurrence of an ultrahigh – temperature (UHT) metamorphic rock from the Sør Rondane Mountains (SRM), East Antarctica. A pelitic gneiss from Balchenfjella, eastern SRM, contains mesoperthite that gave UHT condition (>900 °C) by ternary feldspar thermometry. The UHT mesoperthite is present both in the matrix and as an inclusion in garnet. The garnet also has nanogranitoid inclusions next to the mesoperthite, which are interpreted to be an UHT melt. The re – integrated nanogranitoid composition is plotted in the primary phase region of quartz and classi ﬁ ed as granite. Even crystallized nanogranitoids can provide appropriate original melt composition in the An – Ab – Or and Qz – Ab – Or spaces, whereas Mg concentration is enriched due to local retrograde Fe – Mg exchange reaction between the nanogranitoid inclusions and the host garnet. Although metamorphic rocks in the SRM are highly retrogressed, this study revealed that the micro-structural evidence of UHT condition is partially preserved. Further investigation of timing and areal extent of UHT metamorphism helps us to understand the tectonic model of the SRM.

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来源期刊

Journal of Mineralogical and Petrological Sciences 地学-矿物学

CiteScore

1.80

自引率

14.30%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Mineralogical and Petrological Sciences (JMPS) publishes original articles, reviews and letters in the fields of mineralogy, petrology, economic geology, geochemistry, planetary materials science, and related scientific fields. As an international journal, we aim to provide worldwide diffusion for the results of research in Japan, as well as to serve as a medium with high impact factor for the global scientific communication Given the remarkable rate at which publications have been expanding to include several fields, including planetary and earth sciences, materials science, and instrumental analysis technology, the journal aims to encourage and develop a variety of such new interdisciplinary scientific fields, to encourage the wide scope of such new fields to bloom in the future, and to contribute to the rapidly growing international scientific community. To cope with this emerging scientific environment, in April 2000 the journal''s two parent societies, MSJ* (The Mineralogical Society of Japan) and JAMPEG* (The Japanese Association of Mineralogists, Petrologists and Economic Geologists), combined their respective journals (the Mineralogical Journal and the Journal of Mineralogy, Petrology and Economic Geology). The result of this merger was the Journal of Mineralogical and Petrological Sciences, which has a greatly expanded and enriched scope compared to its predecessors.