Genesis of andesitic magma erupted at Yufu Volcano, Kyushu Island, Southwest Japan arc: Evidence from the chemical compositions of amphibole phenocrysts

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Journal of Petrology Pub Date : 2024-02-29 DOI:10.1093/petrology/egae018
Ikuo Okada, Tomoyuki Shibata, Masako Yoshikawa, Hidemi Ishibashi, Takeshi Sugimoto, Yasutaka Hayasaka
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Abstract

The major- and trace-element compositions of amphiboles in andesite from Quaternary Yufu Volcano, northeastern Kyushu, Japan were analysed to investigate the generation processes of andesitic magma from Yufu Volcano. The amphiboles in andesite from Yufu volcano can be divided into two groups based on major-element composition: pargasite and magnesio-hornblende. To estimate temperature, pressure, and major- and trace-element compositions of melts in equilibrium with amphiboles, we used the recently proposed methods that can calculate temperature, pressure, major element compositions, and partition coefficients of trace-element between amphibole and melt using only the major-element compositions of amphibole. The estimated temperature, pressure, and major-element composition of melt in equilibrium with the amphibole phenocrysts indicate that each group crystallised under different conditions. These differences suggest that two magma chambers at different depths existed beneath Yufu Volcano and that the andesitic magma of Yufu Volcano was formed by mixing of the two magmas. The trace-element compositions of melts in equilibrium with the pargasite and magnesio-hornblende, estimated by applying the partition coefficients calculated from major-element compositions of amphibole to trace-element compositions of amphiboles, indicate magma derived from slab melt and the partial melting of crustal material, respectively. Because magma is a mixture of minerals and melt, we estimate the chemical compositional ranges of the two end-member magmas on the Y versus SiO2 diagram from the mixing relationship between amphibole and estimated melt, as well as phenocrysts of plagioclase, clinopyroxene, and orthopyroxene. The overlap of the estimated compositional range with the whole-rock composition represents the chemical compositions of the end-members of magma mixing, yielding estimates of the mafic (SiO2 ≈ 45 wt%) and felsic (SiO2 ≈ 68 wt%) end-member magmas. Furthermore, we estimate the concentrations of other elements in the end-member magmas by substituting the estimated SiO2 concentrations of the magmas into linear regression equations between the whole-rock contents of other elements and SiO2. The trace-element compositions of the mafic and felsic end-member magmas, as estimated in this study, have similar features to those of gabbroids and Cretaceous granitic rocks, respectively, that are presumed to lie beneath Yufu Volcano. These similarities could be explained by the possibility that the compositions of the end-member magmas were influenced by basement rocks.
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日本西南弧九州岛由布火山喷发的安山岩岩浆的成因:闪石表晶化学成分的证据
通过分析日本九州东北部汤布火山第四纪安山岩中闪石的主要元素和痕量元素组成,研究了汤布火山安山岩岩浆的生成过程。根据主要元素组成,由布火山安山岩中的闪长岩可分为两类:副长石和镁角闪石。为了估算与闪长岩平衡的熔体的温度、压力、主要元素和微量元素组成,我们采用了最近提出的方法,即仅利用闪长岩的主要元素组成就可以计算温度、压力、主要元素组成以及闪长岩与熔体之间的微量元素分配系数。与闪石表晶平衡的熔体的估计温度、压力和主要元素组成表明,每一组闪石都是在不同的条件下结晶的。这些差异表明,在由布火山下存在两个不同深度的岩浆室,由布火山的安山质岩浆是由这两个岩浆混合形成的。根据闪石的主要元素成分和闪石的微量元素成分计算出的分配系数估算出的与副长石和菱镁角闪石处于平衡状态的熔体的微量元素成分表明,岩浆分别来自板块熔体和地壳物质的部分熔化。由于岩浆是矿物和熔体的混合物,我们根据闪石和估计的熔体以及斜长石、倩辉石和正辉石的表晶之间的混合关系,在Y与SiO2的关系图上估算出两种终成岩浆的化学成分范围。估算的成分范围与整个岩石成分的重叠部分代表了岩浆混合末端成分的化学成分,从而估算出黑云母(SiO2 ≈ 45 wt%)和长石(SiO2 ≈ 68 wt%)末端成分岩浆的化学成分。此外,我们还通过将岩浆中二氧化硅浓度的估算值代入其他元素全岩含量与二氧化硅之间的线性回归方程,来估算终成岩浆中其他元素的浓度。本研究估算的岩浆痕量元素组成与玉府火山下的辉长岩和白垩纪花岗岩的痕量元素组成相似。末段岩浆的成分可能受到基底岩石的影响,从而解释了这些相似性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Petrology
Journal of Petrology 地学-地球化学与地球物理
CiteScore
6.90
自引率
12.80%
发文量
117
审稿时长
12 months
期刊介绍: The Journal of Petrology provides an international forum for the publication of high quality research in the broad field of igneous and metamorphic petrology and petrogenesis. Papers published cover a vast range of topics in areas such as major element, trace element and isotope geochemistry and geochronology applied to petrogenesis; experimental petrology; processes of magma generation, differentiation and emplacement; quantitative studies of rock-forming minerals and their paragenesis; regional studies of igneous and meta morphic rocks which contribute to the solution of fundamental petrological problems; theoretical modelling of petrogenetic processes.
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