陆相火成岩磷灰石中的挥发性系统学:从微观分析到岩浆过程解码

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Wei-Ran Li, Olivier Bernard, Sri Budhi Utami, Marcus Phua
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引用次数: 0

摘要

由于磷灰石能够吸收各种挥发性成分,而且常见于火成岩中,因此被认为是研究陆地和地外岩浆系统中岩浆挥发物的有力工具。以往的研究大多利用磷灰石来研究单个岩浆系统或区域。然而,人们对在不同地质环境下形成的陆地岩浆磷灰石的挥发性系统学了解甚少。在这项研究中,我们筛选了大量有关陆地火成岩中磷灰石的数据汇编(n > 20,000),根据构造环境、岩石类型和体岩成分对数据进行了分类,并对 F-Cl-OH-S-CO2 含量进行了统计分析(卤素数据约为 11,000 个,其他挥发物数据较少)。我们发现,与其他构造环境相比,来自火山弧的磷灰石保留了较高的 Cl 特征,而且不同火山弧的 Cl 含量中值也不同。各种类型和成分的火成岩中的磷灰石在某些岩石组中显示出重叠的 F-Cl-OH 成分和特征。具体来说,金伯利岩中的磷灰石具有贫Cl的特征,而深成岩中的磷灰石可能比火山岩中的磷灰石含有更高的F和更低的Cl。利用现有的分区模型进行的计算表明,OH(或 F)含量高的磷灰石并不一定表示富含 H2O(或贫含 H2O)的液体,因为它可能是岩浆温度高(或低)的结果。我们的工作可能会为利用磷灰石研究岩浆在不同构造环境下的成因和演化、俯冲带的挥发物循环以及火山-岩浆联系中的挥发行为提供一个新的视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Volatile systematics in terrestrial igneous apatite: from microanalysis to decoding magmatic processes

Volatile systematics in terrestrial igneous apatite: from microanalysis to decoding magmatic processes

Apatite has been recognized as a robust tool for the study of magmatic volatiles in terrestrial and extraterrestrial systems due to its ability to incorporate various volatile components and its common occurrence in igneous rocks. Most previous studies have utilized apatite to study individual magmatic systems or regions. However, volatile systematics in terrestrial magmatic apatite formed under different geological environments has been poorly understood. In this study, we filtered a large compilation of data for apatite in terrestrial igneous rocks (n > 20,000), categorized the data according to tectonic settings, rock types, and bulk-rock compositions, and conducted statistical analyses of the F–Cl–OH–S–CO2 contents (~ 11,000 data for halogen and less for other volatiles). We find that apatite from volcanic arcs preserves a high Cl signature in comparison to other tectonic settings and the median Cl contents differ between arcs. Apatite in various types and compositions of igneous rocks shows overlapping F–Cl–OH compositions and features in some rock groups. Specifically, apatite in kimberlite is characterized as Cl-poor, whereas apatite in plutonic rocks can contain higher F and lower Cl contents than the volcanic counterparts. Calculation using existing partitioning models indicates that apatite with a high OH (or F) content does not necessarily indicate a H2O-rich (or H2O-poor) liquid because it could be a result of high (or low) magma temperature. Our work may provide a new perspective on the use of apatite to investigate volatile behavior in magma genesis and evolution across tectonic settings, volatile recycling at subduction zones, and the volcanic-plutonic connection.

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来源期刊
Contributions to Mineralogy and Petrology
Contributions to Mineralogy and Petrology 地学-地球化学与地球物理
CiteScore
6.50
自引率
5.70%
发文量
94
审稿时长
1.7 months
期刊介绍: Contributions to Mineralogy and Petrology is an international journal that accepts high quality research papers in the fields of igneous and metamorphic petrology, geochemistry and mineralogy. Topics of interest include: major element, trace element and isotope geochemistry, geochronology, experimental petrology, igneous and metamorphic petrology, mineralogy, major and trace element mineral chemistry and thermodynamic modeling of petrologic and geochemical processes.
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