减压实验中地质体辉石晶体的通道变化

IF 0.9 4区地球科学 Q4 MINERALOGY

Journal of Mineralogical and Petrological Sciences Pub Date : 2022-01-01 DOI:10.2465/jmps.211219

Shota Okumura, S. Okumura, A. Miyake

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引用次数: 0

摘要

1914年日本樱岛火山喷发的浮石中的大地辉石晶体显示出不同的晶体面组合(即“通道”)。为探讨地质体辉石通道是否依赖于岩浆减压条件，对含水樱岛英安岩岩浆进行了等温单步减压实验。岩浆在920°C、120 MPa、氧逸度不超过Ni - NiO平衡上方1 log单位的水饱和条件下保持24小时。然后，对照实验立即淬火，而其他实验则减压至20、10或5 MPa的最终压力并保持3小时，然后淬火。对照实验和20 MPa淬火的地质体辉石呈八角形，减压至较低压力的地质体辉石呈六角形。在20 MPa实验中，由于斜长石的结晶局部增加了熔体中辉石的过饱和，部分辉石呈近斜长石的六角形结晶。我们认为，随着有效过冷程度的增加，地质体辉石岩的路径由八角形变为六角形，从而反映了岩浆在火山导管中上升过程中的减压历史。

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Tracht change of groundmass pyroxene crystals in decompression experiments

Groundmass pyroxene crystals in pumice from the 1914 eruption of Sakurajima in Japan show varied combinations of crystallographic faces (i.e., ‘ tracht ’ ). To investigate whether the groundmass pyroxene tracht depends on magma decompression conditions, we performed isothermal single – step decompression experiments on hydrous Sakurajima dacite magma. The magma was held under water – saturated conditions at 920 °C, 120 MPa, and oxygen fugacity conditions no more oxidizing than one log unit above Ni – NiO equilibrium for 24 h. Then, a control experiment was immediately quenched, whereas others were decompressed to ﬁ nal pressures of 20, 10, or 5 MPa and held for 3 h before quenching. Groundmass pyroxenes in the control experiment and that quenched at 20 MPa showed octagonal shapes, whereas those decompressed to lower pressures characteristically had hexagonal shapes. Some pyroxenes in the 20 MPa experiment were hexagonal near plagioclase crystals because plagioclase crystallization locally increased the supersaturation of pyroxene in the melt. We conclude that the tracht of groundmass pyroxenes changes from octagonal to hexagonal as the degree of e ﬀ ective undercooling increases and thus re ﬂ ects the decompression history of a magma during its ascent in a volcanic conduit.

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来源期刊

Journal of Mineralogical and Petrological Sciences 地学-矿物学

CiteScore

1.80

自引率

14.30%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Mineralogical and Petrological Sciences (JMPS) publishes original articles, reviews and letters in the fields of mineralogy, petrology, economic geology, geochemistry, planetary materials science, and related scientific fields. As an international journal, we aim to provide worldwide diffusion for the results of research in Japan, as well as to serve as a medium with high impact factor for the global scientific communication Given the remarkable rate at which publications have been expanding to include several fields, including planetary and earth sciences, materials science, and instrumental analysis technology, the journal aims to encourage and develop a variety of such new interdisciplinary scientific fields, to encourage the wide scope of such new fields to bloom in the future, and to contribute to the rapidly growing international scientific community. To cope with this emerging scientific environment, in April 2000 the journal''s two parent societies, MSJ* (The Mineralogical Society of Japan) and JAMPEG* (The Japanese Association of Mineralogists, Petrologists and Economic Geologists), combined their respective journals (the Mineralogical Journal and the Journal of Mineralogy, Petrology and Economic Geology). The result of this merger was the Journal of Mineralogical and Petrological Sciences, which has a greatly expanded and enriched scope compared to its predecessors.