Symplectite formation in ultramafic achondrites by impact percolation of a sulfide melt

IF 4.5 1区地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS

Geochimica et Cosmochimica Acta Pub Date : 2024-08-13 DOI:10.1016/j.gca.2024.08.011

Z. Váci , P.M. Kruttasch , M.J. Krawczynski , R.C. Ogliore , K. Mezger

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引用次数: 0

Abstract

The ungrouped dunitic achondrite Northwest Africa (NWA) 12217 contains symplectic spinel-pyroxene veins that are mineralogically identical to symplectites in other ultramafic planetary materials. The morphology and amount of chromite present in these features relative to the Cr in their olivine hosts suggest an exogenous origin. Petrological experiments show that a Cr laden sulfide liquid reacts with olivine to produce pyroxene by scavenging Mg and Fe from olivine to crystallize chromite. The liquid infiltrates cracks and grain boundaries within the olivine and produces a vein-like symplectic chromite-pyroxene mineralogy similar to that observed in NWA 12217. This process is likely responsible for forming the symplectites in the related ultramafic achondrites NWA 12319, 12562, and 13954, along with many other achondrites. The nucleosynthetic Cr isotopic composition of chromites appears to be in disequilibrium with that of silicates in NWA 12217, suggesting that the liquids responsible for the symplectite forming reaction are at least partially sourced from a different parent body and result from an impact.

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硫化物熔体的冲击渗滤作用在超基性闪长岩中形成共闪长岩

西北非（NWA）12217号未成组闪长岩含有交辉尖晶石-辉石脉，在矿物学上与其他超基性行星物质中的交辉石相同。与橄榄石中的铬相比，这些特征中铬铁矿的形态和含量表明其来源于外源。岩石学实验表明，含铬的硫化物液体与橄榄石发生反应，通过清除橄榄石中的镁和铁而生成辉石，从而使铬铁矿结晶。液体渗入橄榄石内部的裂缝和晶界，产生类似于在 NWA 12217 中观察到的脉状交辉铬铁矿-辉石矿物学。这一过程很可能是形成相关超基性闪长岩 NWA 12319、12562 和 13954 以及许多其他闪长岩中的交辉石的原因。在 NWA 12217 中，铬铁矿的核合成铬同位素组成似乎与硅酸盐的核合成铬同位素组成不平衡，这表明造成共辉石形成反应的液体至少部分来自不同的母体，并且是撞击的结果。

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

Geochimica et Cosmochimica Acta 地学-地球化学与地球物理

CiteScore

9.60

自引率

14.00%

发文量

437

审稿时长

6 months

期刊介绍： Geochimica et Cosmochimica Acta publishes research papers in a wide range of subjects in terrestrial geochemistry, meteoritics, and planetary geochemistry. The scope of the journal includes: 1). Physical chemistry of gases, aqueous solutions, glasses, and crystalline solids 2). Igneous and metamorphic petrology 3). Chemical processes in the atmosphere, hydrosphere, biosphere, and lithosphere of the Earth 4). Organic geochemistry 5). Isotope geochemistry 6). Meteoritics and meteorite impacts 7). Lunar science; and 8). Planetary geochemistry.