格陵兰东南部Kangerlussuaq基底石榴石中太古代熔体和流体包裹体

Q4 Earth and Planetary Sciences

Mineralogia Pub Date : 2022-01-01 DOI:10.2478/mipo-2022-0001

G. Nicoli, Kerstin Gresky, S. Ferrero

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引用次数: 2

摘要

摘要本文报道了迄今为止在东格陵兰中太古代基底中发现的第一个无水熔体包裹体。通过光学显微镜观察和显微罗曼光谱分析，我们发现变沉积混辉岩中的石榴石含有原生多晶聚集体，可以很有信心地解释为原熔净熔体的液滴，即纳米花岗岩。在某些情况下，它们在初级流体-熔体不混相条件下与同期流体包裹体共存。利用最新的相平衡模型对变质压力和温度条件进行了重新评价，并结合纳米花岗岩类和流体包裹体的识别，表明在T ~1000℃和P > ~ 7 kbar范围内，存在coh流体存在的变质峰平衡和部分熔融。迄今为止，这是在部分熔融环境中石榴石生长过程中最古老的纳米花岗岩和流体-熔体不混溶现象。

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Mesoarchean melt and fluid inclusions in garnet from the Kangerlussuaq basement, Southeast Greenland

Abstract The present work reports the first anatectic melt inclusions found so far in the Mesoarchean basement in East Greenland. Using optical microscope observations and MicroRaman spectroscopy, we show that garnets in metasedimentary migmatite contain primary polycrystalline aggregates which can be confidently interpreted as former droplets of anatectic melt, i.e. nanogranitoids. In some cases, they coexist with coeval fluid inclusions under conditions of primary fluid-melt immiscibility. The re-evaluation of the metamorphic pressure and temperature conditions with up-to-date phase equilibria modelling, combined with the identification of nanogranitoids and fluid inclusions, suggests metamorphic peak equilibration and partial melting in presence of a COH-fluid at T ~1000°C and P > 7 kbar. To date, this is the oldest verified occurrence of nanogranitoids and fluid-melt immiscibility during garnet growth in a partially molten environment.

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来源期刊

Mineralogia Earth and Planetary Sciences-Geology

CiteScore

0.80

自引率

0.00%

发文量

期刊介绍： - original papers in the scope of widely understood mineralogical sciences (mineralogy, petrology, geochemistry, environmental sciences, applied mineralogy etc.) - research articles, short communications, mini-reviews and review articles