石榴石成核越位对尼泊尔中部小喜马拉雅层序P-T演化的意义

IF 3.5 2区 地球科学 Q1 GEOLOGY
Shashi Tamang, Chiara Groppo, Frédéric Girault, Franco Rolfo
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引用次数: 2

摘要

最近的研究表明,动力学因素可以显著影响石榴石的成核,相对于平衡预测延迟其出现。石榴石成核的过度步进发生在接触和区域变质环境中,其程度极不相同:控制这种高度可变的过度步入程度的因素尚不清楚。本研究的重点是小喜马拉雅层序上部(upper‐LHS;尼泊尔中部)的巴罗夫反转变质堆中的铝变质精英中的石榴石成核和生长,目的是(i)研究大块岩石成分是否(以及如何)会影响石榴石成核的超越,以及(ii)石榴石成核超越对巴罗变质序列的P–T演化的影响。提供了六个千枚片岩的详细岩相、微观结构和成分数据,这些片岩含有石榴石、十字石和/或蓝晶石的斑晶。假设在其变质演化的每个阶段都达到了平衡,则它们的P–T演化通过热力学正向建模(即,等化学相图与等温气压测量相结合)受到约束。石榴石核生长的P–T条件、预测在这些P–T状态下稳定的组合和模拟的石榴石反应边界之间的比较表明,所研究的样品经历了不同程度的表观热(ΔT)和/或压(ΔP)超越石榴石成核。我们认为,大块岩石中MnO和CaO的含量可能影响了反应中石榴石的表观ΔT和ΔP超越:更具体地说,大块岩石MnO含量越高,表观ΔT超越越明显,而大块岩石CaO含量越低,ΔP超越越大。然而,与平衡预测相比,石榴石出现的有效延迟不同,石榴石成核的明显ΔT超越可能反映了石榴石丰度达到0.5%的临界阈值,低于该阈值,在薄片中不容易检测到石榴石。在峰值P–T条件下,动力学因素在控制石榴石边缘生长方面似乎不那么关键,这证实了通过基于石榴石边缘和基质组合组成的平衡方法限制的峰值变质条件可以被认为是可靠的。总体而言,所研究样本的P–T路径的特征是前进加热与构造过载(峰值P条件为9.5–10.5 kbar,580–590°C),然后在挖掘过程中加热(峰值温度条件为8.2–8.9 kbar,610–630°C),支持那些预测主中央推力活动减缓(或静止)一段时间的热力学模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Implications of garnet nucleation overstepping for the P–T evolution of the Lesser Himalayan Sequence of central Nepal

Recent studies have demonstrated that kinetic factors can significantly influence garnet nucleation, delaying its appearance with respect to the equilibrium predictions. Overstepping of garnet nucleation occurs in both contact and regional metamorphic settings, with extremely variable degrees: The factors controlling such highly variable degrees of overstepping are still unclear. This study focuses on garnet nucleation and growth in aluminous metapelites from the Barrovian inverted metamorphic pile of the upper portion of the Lesser Himalayan Sequence (Upper-LHS; central Nepal), with the aim of (i) investigating if (and how) the bulk-rock composition can influence overstepping of garnet nucleation and (ii) which are the implications of garnet nucleation overstepping for the P–T evolution of a Barrovian metamorphic sequence. Detailed petrographic, microstructural and compositional data are presented for six phyllitic schists, containing porphyroblasts of garnet, staurolite and/or kyanite. Their P–T evolution is constrained through thermodynamic forward modelling (i.e., isochemical phase diagrams combined with isopleth thermobarometry), assuming that equilibrium was attained at every stage of their metamorphic evolution. Comparison between the P–T conditions inferred for the growth of garnet core, the assemblages predicted to be stable at these P–T conditions and the modelled garnet-in reaction boundary suggests that the studied samples have experienced different degrees of apparent thermal (ΔT) and/or baric (ΔP) overstepping of garnet nucleation. We suggest that the bulk-rock MnO and CaO amounts might have influenced the apparent ΔT and ΔP overstepping of the garnet-in reaction: more specifically, the higher the bulk-rock MnO content, the more pronounced the apparent ΔT overstepping, whereas the lower the bulk-rock CaO content, the greater the ΔP overstepping. However, rather than an effective delay of garnet appearance with respect to equilibrium predictions, the apparent ΔT overstepping of garnet nucleation could reflect the attainment of the critical 0.5% threshold of garnet abundance, below which garnet is not readily detected in thin section. Kinetic factors seem much less critical in controlling the growth of the garnet rim at peak P–T conditions, confirming that peak metamorphic conditions constrained through equilibrium approaches based on the composition of garnet rim and of the matrix assemblage can be considered as reliable. Overall, the P–T paths of the studied samples are characterized by prograde heating coupled with tectonic overload (peak-P conditions of 9.5–10.5 kbar, 580–590°C), followed by heating during exhumation (peak-T conditions of 8.2–8.9 kbar, 610–630°C), supporting those thermo-mechanical models that predict a period of slowdown (or quiescence) of the Main Central Thrust activity.

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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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