硅线石中Fe3+对超高温变质长岩矿物稳定性和共生矿的影响

IF 3.5 2区 地球科学 Q1 GEOLOGY
Bin Wang, Chunjing Wei
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引用次数: 2

摘要

根据含铁硅线石的性质,建立了含Fe3+硅线石的活度模型,并对其进行了测试,并应用于超高温条件下泥质组分的相平衡计算。计算得到的P-T投影和伪截面表明,将Fe3+掺入硅线石中可以较好地解决目前热力学计算和合成实验之间不完美的拓扑匹配,特别是在高氧逸度下。硅线石中的Fe3+显著升高了氧化偏长岩中正辉石+硅线石(Opx + Sil)和蓝宝石+石英(Spr + Qz)的共生关系,升高幅度在50 ~ 70℃左右。计算的配伍图表明,广泛认可的超高温诊断矿物组合Opx + Sil和Spr + Qz通常出现在高Mg/Fe2+比值的偏长岩中,这取决于整体岩石的MgO和氧逸度,而低Mg/Fe2+比值的偏长岩则以石榴石+硅线石(Grt + Sil)组合为特征,在超高温条件下有或没有尖晶石(Spl)。综合比较表明,天然超高温变质岩的基本成岩格架主要受Opx + Sil = Spr + Grt和Grt + Sil = Spl + Spr两个变质反应控制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Fe3+ in sillimanite on mineral stabilities and parageneses in ultrahigh-temperature metapelites
Based on the nature of ferric sillimanite, an activity model for sillimanite containing Fe3+ is constructed, tested and adopted to calculate phase equilibria of pelitic compositions under ultrahigh‐temperature (UHT) conditions. The calculated P–T projections and pseudosections suggest that the incorporation of Fe3+ into sillimanite can fairly solve the current imperfectly topological match between thermodynamic calculations and synthetic experiments, especially at high oxygen fugacity. Fe3+ in sillimanite remarkably elevates the temperature to switch the parageneses of orthopyroxene + sillimanite (Opx + Sil) and sapphirine + quartz (Spr + Qz) in oxidized metapelites, with an increment around 50–70°C. The calculated compatibility diagrams show that the widely approbatory UHT‐diagnostic mineral assemblages of Opx + Sil and Spr + Qz usually occur in metapelites with high Mg/Fe2+ ratios, which depend on both bulk‐rock MgO and oxygen fugacity, whereas the metapelites with low Mg/Fe2+ ratios are characterized by the assemblage of Garnet + sillimanite (Grt + Sil) with or without spinel (Spl) in UHT conditions. Moreover, comprehensive comparisons suggest that the essential petrogenetic framework of natural UHT metapelites is mostly governed by the two metamorphic reactions of Opx + Sil = Spr + Grt and Grt + Sil = Spl + Spr.
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来源期刊
CiteScore
6.60
自引率
11.80%
发文量
57
审稿时长
6-12 weeks
期刊介绍: The journal, which is published nine times a year, encompasses the entire range of metamorphic studies, from the scale of the individual crystal to that of lithospheric plates, including regional studies of metamorphic terranes, modelling of metamorphic processes, microstructural and deformation studies in relation to metamorphism, geochronology and geochemistry in metamorphic systems, the experimental study of metamorphic reactions, properties of metamorphic minerals and rocks and the economic aspects of metamorphic terranes.
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