大洋岛火山中富含二氧化碳的原生熔体的起源和分化:将三维 X 射线层析成像与来自皮科(亚速尔群岛)的橄榄石托管熔体夹杂物的化学微分析相结合

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Thomas D van Gerve, David A Neave, Penny Wieser, Hector Lamadrid, Niels Hulsbosch, Olivier Namur
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引用次数: 0

摘要

确定原生地幔熔体的初始分异对于了解整个岩浆系统至关重要。橄榄石寄生熔融包裹体的化学成分保留了有关此类熔体的地幔来源、结晶行为和挥发性预算的独特信息。最重要的是,熔融包裹体中的二氧化碳含量可以与地幔二氧化碳预算联系起来,为我们提供有关地球碳通量和碳循环的信息。然而,确定熔融包裹体的二氧化碳总含量并不简单,因为通常需要根据溶解在熔体中的二氧化碳和储存在气泡中的二氧化碳来重建。在这里,我们将三维 X 射线计算机断层扫描(CT)与主要、痕量和挥发性元素的地球化学微分析相结合,改进了现有的重建方法。我们的研究表明,与 CT 数据相比,使用二维显微照片的传统重建方法会低估 40% 以上的二氧化碳预算。我们将改进后的方法应用于皮克火山(亚速尔群岛)的玄武岩橄榄石包裹体,以确定地幔羽流背景下富含挥发性原生熔体的形成和分化。这些包裹体的结果得出了 1935-9275 μg/g 的重建二氧化碳总量,这是迄今为止海洋岛屿火山所报告的最高值。利用这些二氧化碳浓度,我们计算出了 105-754 兆帕的夹层压力,这表明岩浆储层由横跨地壳-地幔边界的堆叠山体组成。在岩浆储层中,挥发性饱和熔体的结晶推动了大范围的脱气,导致二氧化碳/钡分馏比达到 3.5-62.2 ,原生地幔二氧化碳损失超过 79%。痕量元素(La、Y)的变化表明,分异是通过两种内成熔体的同时混合和结晶而发生的,这两种内成熔体分别贫乏和富集了痕量元素。地球化学模型显示,富含微量元素的内质熔体占皮科地壳所有熔体的33%,原生熔体在喷发前经历了60%的结晶。地幔熔融模型表明,富集和贫化的原生熔体内质分别是贫碳的蛭石和富碳的辉绿岩的低度和高度熔体。此外,由于皮科岛的深部岩浆主要来自辉绿岩,其二氧化碳富集程度主要受地幔源碳含量的控制。总之,我们的研究表明,通过将三维成像、地球化学微分析和数值建模相结合,熔融包裹体为深部岩浆的分化和储存以及地幔熔化提供了独特的记录。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The origin and differentiation of CO2-rich primary melts in Ocean Island volcanoes: Integrating 3D X-ray tomography with chemical microanalysis of olivine-hosted melt inclusions from Pico (Azores)
Constraining the initial differentiation of primary mantle melts is vital for understanding magmatic systems as a whole. Chemical compositions of olivine-hosted melt inclusions preserve unique information about the mantle sources, crystallisation behaviour and volatile budgets of such melts. Crucially, melt inclusion CO2 contents can be linked to mantle CO2 budgets and inform us on Earth’s carbon fluxes and cycles. However, determining total inclusion CO2 contents is not straightforward, as they often need to be reconstructed from CO2 dissolved in melts and CO2 stored in a vapour bubble. Here, we improve upon existing reconstruction methods by combining 3D X-Ray Computed Tomography (CT) with geochemical microanalyses of major, trace and volatile elements. We show that in comparison to CT data, traditional reconstruction methods using 2D photomicrographs can underestimate CO2 budgets by more than 40%. We applied our improved methods to basaltic olivine-hosted melt inclusions from Pico volcano (Azores) in order constrain the formation and differentiation of volatile-rich primary melts in the context of a mantle plume. Results for these inclusions yielded 1935–9275 μg/g reconstructed total CO2, some of the highest values reported for ocean island volcanoes to date. Using these CO2 concentrations, we calculate entrapment pressures of 105–754 MPa that indicate a magma reservoir comprising stacked sills straddling the crust-mantle boundary. In the magma reservoir, crystallisation of volatile saturated melts drives extensive degassing, leading to fractionated CO2/Ba ratios of 3.5–62.2 and a loss of over 79% of primary mantle-derived CO2. Variabilities in trace elements (La, Y) show that differentiation occurred by concurrent mixing and crystallisation of two endmember melts, respectively depleted and enriched in trace elements. Geochemical models show that enriched endmember melts constitute 33 wt.% of all melts supplied to the crust at Pico and that primary melts underwent 60% crystallisation prior to eruption. Mantle melting models indicate that the enriched and depleted primary melt endmembers are low- and high-degree melts of carbon-poor lherzolite and carbon-rich pyroxenite respectively. Moreover, since deep magmas at Pico island are dominantly pyroxenite derived, their CO2-enrichement is mainly controlled by mantle source carbon content. Overall, our study illustrates that by combining 3D imaging, geochemical microanalyses and numerical modelling, melt inclusions provide a unique record of differentiation and storage of deep magmas, as well as mantle melting.
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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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