Effects of H2O-CO2 Fluids, Temperature, and Peridotite Fertility on Partial Melting in Mantle Wedges and Generation of Primary Arc Basalts

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
M. Lara, R. Dasgupta
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引用次数: 0

Abstract

Many lines of evidence from high P-T experiments, thermodynamic models, and natural observations suggest that slab-derived aqueous fluids, which flux mantle wedges contain variable amounts of dissolved carbon. However, constraints on the effects of H2O-CO2 fluids on mantle melting, particularly at mantle wedge P-T conditions, are limited. Here we present new piston cylinder experiments on fertile and depleted peridotite compositions with 3.5 wt.% H2O and XCO2 [= molar CO2 / (CO2 + H2O)] of 0.04-0.17. Experiments were performed at 2-3 GPa and 1350 °C to assess how temperature, peridotite fertility, and XCO2 of slab-derived fluid affects partial melting in mantle wedges. All experiments produce olivine + orthopyroxene + 7 to 41 wt.% partial melt. Our new data, along with previous lower temperature data, show that as mantle wedge temperature increases, primary melts become richer in SiO2, FeO* and MgO and poorer CaO, Al2O3 and alkalis when influenced by H2O-CO2 fluids. At constant P-T and bulk H2O content, the extent of melting in the mantle wedge is largely controlled by peridotite fertility and XCO2 of slab-fluid. High XCO2 depleted compositions generate ~ 7 wt.% melt whereas, at identical P-T, low XCO2 fertile compositions generate ~ 30-40 wt.% melt. Additionally, peridotite fertility and XCO2 have significant effects on peridotite partial melt compositions. At a constant P-T-XCO2, fertile peridotites generate melts richer in CaO and Al2O3 and poorer in SiO2, MgO+FeO, and alkalis. Similar to previous experimental studies, at a constant P-T-fertility condition, as XCO2 increases, SiO2 and CaO of melts systematically decrease and increase, respectively. Such distinctive effects of oxidized form of dissolved carbon on peridotite partial melt compositions are not observed if the carbon-bearing fluid is reduced, such as CH4-bearing. Considering the large effect of XCO2 on melt SiO2 and CaO concentrations and the relatively oxidized nature of arc magmas, we compare the SiO2/CaO of our experimental melts and melts from previous peridotite + H2O ± CO2 studies to the SiO2/CaO systematics of primitive arc basalts and ultra-calcic, silica-undersaturated arc melt inclusions. From this comparison, we demonstrate that across most P-T-fertility conditions predicted for mantle wedges, partial melts from bulk compositions with XCO2 ≥ 0.11 have lower SiO2/CaO than all primitive arc melts found globally, even when correcting for olivine fractionation, whereas partial melts from bulk compositions with XCO2 = 0.04 overlap the lower end of the SiO2/CaO field defined by natural data. These results suggest that the upper XCO2 limit of slab-fluids influencing primary arc magma formation is 0.04 < XCO2 < 0.11, and this upper limit is likely to apply globally. Lastly, we show that the anomalous SiO2/CaO and CaO/Al2O3 signatures observed in ultra-calcic arc melt inclusions can be reproduced by partial melting of either CO2-bearing hydrous fertile and depleted peridotites with 0 < XCO2 < 0.11 at 2-3 GPa, or from nominally CO2-free hydrous fertile peridotites at P > 3 GPa.
H2O-CO2流体、温度和橄榄岩肥力对地幔楔块部分熔融及原生弧玄武岩生成的影响
来自高P-T实验、热力学模型和自然观测的许多证据表明,板块衍生的水性流体,即通量地幔楔,含有不同量的溶解碳。然而,H2O-CO2流体对地幔熔融影响的限制,特别是在地幔楔P-T条件下,是有限的。在这里,我们提出了新的活塞柱实验,用3.5wt.%H2O和0.04-0.17的XCO2[=摩尔CO2/(CO2+H2O)]对肥沃和贫化的橄榄岩成分进行实验。实验在2-3GPa和1350°C下进行,以评估温度、橄榄岩肥力和板状流体的XCO2如何影响地幔楔的部分熔融。所有实验都产生橄榄石+斜方辉石+7至41wt%的部分熔体。我们的新数据以及之前较低的温度数据表明,随着地幔楔温度的升高,当受到H2O-CO2流体的影响时,初级熔体中的SiO2、FeO*和MgO变得更丰富,CaO、Al2O3和碱变得更差。在恒定的P-T和本体H2O含量下,地幔楔中的熔融程度在很大程度上受橄榄岩肥力和板状流体的XCO2控制。高XCO2贫化组合物产生约7 wt.%的熔体,而在相同的P-T下,低XCO2可育组合物产生约30-40 wt.%熔体。此外,橄榄岩的肥力和XCO2对橄榄岩的部分熔体组成有显著影响。在恒定的P-T-XCO2下,肥沃的橄榄岩产生的熔体中CaO和Al2O3含量较高,SiO2、MgO+FeO和碱含量较低。与之前的实验研究类似,在恒定的P-T肥力条件下,随着XCO2的增加,熔体中的SiO2和CaO分别系统地减少和增加。如果含碳流体(例如含CH4)被还原,则不会观察到溶解碳的氧化形式对橄榄岩部分熔体成分的这种独特影响。考虑到XCO2对熔体SiO2和CaO浓度的巨大影响以及弧岩浆的相对氧化性质,我们将我们的实验熔体和先前橄榄岩+H2O±CO2研究的熔体的SiO2/CaO与原始弧玄武岩和超钙、二氧化硅不饱和弧熔体包裹体的SiO2/CaO系统进行了比较。从这一比较中,我们证明,在预测地幔楔的大多数P-T肥力条件下,XCO2≥0.11的块状成分的部分熔体的SiO2/CaO比全球发现的所有原始弧熔体都低,即使在校正橄榄石分馏时也是如此,而XCO2=0.04的块体组合物的部分熔体与由自然数据定义的SiO2/CaO场的下端重叠。这些结果表明,影响原弧岩浆形成的板状流体的XCO2上限为0.04<XCO2<0.11,并且该上限可能在全球范围内适用。最后,我们表明,在超钙弧熔体包裹体中观察到的异常SiO2/CaO和CaO/Al2O3特征可以通过在2-3GPa下0<XCO2<0.11的含CO2含水肥沃和贫化橄榄岩的部分熔融来再现,或者通过在P>3GPa下名义上不含CO2的含水肥沃橄榄岩来再现。
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
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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