High-pressure homogenization of olivine-hosted CO₂-rich melt inclusions in a piston cylinder: insight into the volatile content of primary mantle melts

IF 1.8 3区地球科学 Q2 MINERALOGY

European Journal of Mineralogy Pub Date : 2022-05-24 DOI:10.5194/ejm-34-325-2022

R. Buso, D. Laporte, F. Schiavi, N. Cluzel, Claire Fonquernie

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引用次数: 1

Abstract

Abstract. Experimental homogenization of olivine-hosted melt inclusions representative of near-primary basic and ultrabasic magmas is a powerful approach to investigate the nature of their source regions and the melting conditions in Earth's mantle. There is growing evidence that the total CO2 contents of olivine-hosted melt inclusions may reach values of the order of a single to several weight percent, especially in intraplate continental basalts. To be able to homogenize melt inclusions with such high CO2 contents, we developed a technique allowing for heat treating of the melt inclusions under hydrostatic pressures up to 3–4 GPa in a piston cylinder, using thick-walled Au80–Pd20 containers and molten NaCl as the surrounding medium for the inclusion-bearing olivines. We applied this technique to olivine phenocrysts from Thueyts basanite, Bas-Vivarais volcanic province, French Massif Central. Thueyts melt inclusions were chosen because of their high CO2 contents, as indicated by up to 1.19 wt % dissolved CO2 in the glasses and by the presence of shrinkage bubbles containing abundant carbonate microcrystals in addition to a CO2 fluid phase. The homogenization experiments were conducted at pressures of 1.5 to 2.5 GPa, temperatures of 1275 and 1300 ∘C, and run durations of 30 min. In all the melt inclusions treated at 2.5 GPa–1300 ∘C and half of those treated at 2 GPa–1300 ∘C, we were able to completely homogenize the inclusions, as indicated by the disappearance of the starting bubbles, and we obtained total CO2 contents ranging from 3.2 wt % to 4.3 wt % (3.7 wt % on average). In all the other melt inclusions (equilibrated at 1.5 or 2 GPa and 1300 ∘C or at 2.5 GPa–1275 ∘C), we obtained lower and more variable total CO2 contents (1.4 wt % to 2.9 wt %). In the inclusions with the highest total CO2 contents, the size of the shrinkage bubble was in most cases small (<5 vol %) to medium (<10 vol %): this is a strong argument in favor of an origin of these melt inclusions by homogeneous entrapment of very CO2-rich basanitic liquids (∼ 4 wt %) at pressures of 2 to 2.5 GPa. The lower total CO2 contents measured in some inclusions could reflect a natural variability in the initial CO2 contents, due for instance to melt entrapment at different pressures, or CO2 loss by decrepitation. An alternative scenario is heterogeneous entrapment of basanitic liquid plus dense CO2 fluid at lower pressures but still at least on the order of 1 GPa as indicated by dissolved CO2 contents up to 1.19 wt % in the glasses of unheated melt inclusions. Whatever the scenario, the basanites from the Bas-Vivarais volcanic province were generated in a mantle environment extremely rich in carbon dioxide.

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活塞柱中富含橄榄石的富CO2熔体包裹体的高压均质化：初级地幔熔体挥发性含量的洞察

摘要代表近原生基性和超基性岩浆的橄榄石熔融包体的实验均匀化是研究其源区性质和地幔熔融条件的有力方法。越来越多的证据表明，以橄榄石为主体的熔体包裹体的总CO2含量可能达到单一到几个重量百分比的理论值，尤其是在板内大陆盐中。为了能够使具有如此高CO2含量的熔融夹杂物均匀化，我们开发了一种技术，允许在高达3-4的静水压力下对熔融夹杂物进行热处理活塞柱中的GPa，使用厚壁Au80–Pd20容器和熔融NaCl作为含夹杂物橄榄石的周围介质。我们将这项技术应用于法国中部大区下维瓦雷斯火山省Thueyts碧玄岩的橄榄石斑晶。选择Thueyts熔体包裹体是因为它们的CO2含量高，如高达1.19所示 wt % 溶解在玻璃中的CO2，以及除了CO2流体相之外还含有大量碳酸盐微晶的收缩气泡的存在。均化实验在1.5至2.5的压力下进行 GPa，温度为1275和1300 ∘C、运行持续时间为30 最小值在2.5下处理的所有熔体夹杂物中 GPa–1300 ∘C和2时治疗的一半 GPa–1300 ∘C、我们能够完全均匀化夹杂物，正如启动气泡的消失所表明的那样，我们获得了3.2范围内的总二氧化碳含量 wt % 至4.3 wt % （3.7 wt % 平均而言）。在所有其他熔体夹杂物中（在1.5或2下平衡 GPa和1300 ∘C或2.5 GPa–1275 ∘C），我们获得了更低、更可变的总CO2含量（1.4 wt % 至2.9 wt %). 在总CO2含量最高的包裹体中，收缩气泡的大小在大多数情况下都很小（<5 vol %) 至中等（<10 vol %): 这是一个有力的论点，有利于这些熔体包裹体的起源，通过均匀包裹富含二氧化碳的碱性液体（～ 4. wt %) 在2至2.5的压力下 GPa。在一些包裹体中测得的较低的总CO2含量可能反映了初始CO2含量的自然变化，例如，由于在不同压力下的熔融，或由于爆裂而导致的CO2损失。另一种情况是在较低的压力下，碱性液体加上致密CO2流体的非均匀包埋，但仍至少在1的数量级 GPa，由高达1.19的溶解CO2含量表示 wt % 在未加热的熔融夹杂物的玻璃中。无论在什么情况下，来自下维瓦赖火山省的碧玄岩都是在二氧化碳含量极为丰富的地幔环境中产生的。

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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.

High-pressure homogenization of olivine-hosted CO2-rich melt inclusions in a piston cylinder: insight into the volatile content of primary mantle melts

Abstract

High-pressure homogenization of olivine-hosted CO₂-rich melt inclusions in a piston cylinder: insight into the volatile content of primary mantle melts