First measurements of the Fe oxidation state of spinel inclusions in olivine single crystals from Vulture (Italy) with the in situ synchrotron micro-Mössbauer technique

IF 1.8 3区地球科学 Q2 MINERALOGY

European Journal of Mineralogy Pub Date : 2023-08-21 DOI:10.5194/ejm-35-665-2023

Giulia Marras, G. Carnevale, A. Caracausi, S. Rotolo, V. Stagno

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引用次数: 1

Abstract

Abstract. The redox state of the Earth's upper mantle (i.e., oxygen fugacity, fO2) is a key variable that influences numerous processes occurring at depth like the mobility of volatile species, partial melting, and metasomatism. It is linked to the oxidation state of peridotite rocks, which is normally determined through the available oxythermobarometers after measuring the chemical composition of equilibrated rock-forming minerals and the Fe3+ in redox-sensitive minerals like spinel or garnet. To date, accurate measurements of Fe3+ / ∑Fe in peridotites have been limited to those peridotites (e.g., harzburgites and lherzolites) for which an oxythermobarometer exists and where spinel (or garnet) crystals can be easily separated and measured by conventional 57Fe Mössbauer spectroscopy. Wehrlitic rocks have been generally formed by the interaction of a lherzolite with carbonatitic melts and, therefore, have recorded the passage of (metasomatic) fluids at mantle conditions. However, no oxythermobarometer exists to determine their equilibrium fO2. The aim of this study was to retrieve the fO2 of the mantle beneath Mt. Vulture volcano (Italy) through the study of a wehrlitic lapillus emitted during the last eruption (∼ 140 kyr ago) that contain olivines with multiple tiny spinel inclusions with sizes < 40 µm. To our knowledge, the Fe oxidation state of these inclusions has been never determined with the Mössbauer technique due to their small sizes. Here, we present measurements of the Fe3+ / ∑Fe using in situ synchrotron Mössbauer spectroscopy coupled with chemical and spectroscopic analysis of both host olivine and spinel inclusions. The results show Fe3+ / ∑Fe ratios of 0.03–0.05 for olivine and 0.40–0.45 for the included spinels, the latter of which appear higher than those reported in literature for mantle spinel harzburgites and lherzolites. Given the evidence of the mantle origin of the trapped spinels, we propose that the high fO2 (between 0.81 and 1.00 log above the fayalite–magnetite–quartz buffer; FMQ) likely results from the interaction between the pristine spinel lherzolite and a CO2-rich metasomatic agent prior to the spinel entrapment in olivines at mantle depths.

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利用原位同步加速器micro-Mössbauer技术首次测量了意大利Vulture橄榄石单晶中尖晶石包裹体的铁氧化态

摘要地球上地幔的氧化还原状态(即氧逸度，fO2)是影响深层发生的许多过程的关键变量，如挥发性物质的流动性、部分熔融和交代作用。它与橄榄岩的氧化状态有关，通常是通过测量平衡的造岩矿物的化学成分和氧化还原敏感矿物(如尖晶石有机石)中的Fe3+的氧温计来确定的。迄今为止，对橄榄岩中Fe3+ /∑Fe的精确测量仅限于那些存在氧温计的橄榄岩(例如，哈兹布尔岩和伊热橄榄岩)，并且尖晶石(或石榴石)晶体可以很容易地用传统的57Fe Mössbauerspectroscopy分离和测量。威利岩通常是由辉橄榄岩与碳酸盐岩熔体相互作用形成的，因此，它记录了地幔条件下(交代)流体的通过。然而，没有氧温计来测定它们的平衡fO2。这项研究的目的是获取地幔下地幔的fO2。意大利秃鹫火山(Vulture volcano)，通过研究在最后一次喷发(约140年前)释放的微石质小石柱，其中含有橄榄石和多个尺寸< 40 μ m的微小尖晶石包裹体。据我们所知，由于这些包裹体的体积小，它们的铁氧化态从未用Mössbauer技术测定过。本文采用原位同步加速器Mössbauer光谱法，结合对寄主橄榄石和尖晶石包裹体的化学和光谱分析，对Fe3+ /∑Fe进行了测量。结果表明:橄榄石的Fe3+ /∑Fe比值为0.03 ~ 0.05，尖晶石的Fe3+ /∑Fe比值为0.40 ~ 0.45，尖晶石的Fe3+ /∑Fe比值高于文献报道的地幔尖晶石、黑刺石和辉闪石。考虑到被困尖晶石的地幔起源证据，我们提出高fO2(在0.81 ~ 1.00 log之间)在费亚石-磁铁矿-石英缓冲带上;FMQ)可能是在尖晶石被地幔深处的橄榄石包裹之前，原始尖晶石橄榄岩与富含二氧化碳的交代介质相互作用的结果。

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来源期刊

European Journal of Mineralogy 地学-矿物学

CiteScore

2.80

自引率

9.50%

发文量

审稿时长

6-12 weeks

期刊介绍： EJM was founded to reach a large audience on an international scale and also for achieving closer cooperation of European countries in the publication of scientific results. The founding societies have set themselves the task of publishing a journal of the highest standard open to all scientists performing mineralogical research in the widest sense of the term, all over the world. Contributions will therefore be published primarily in English. EJM publishes original papers, review articles and letters dealing with the mineralogical sciences s.l., primarily mineralogy, petrology, geochemistry, crystallography and ore deposits, but also biomineralogy, environmental, applied and technical mineralogy. Nevertheless, papers in any related field, including cultural heritage, will be considered.