Stability of hydrous basaltic melts at low water fugacity: evidence for widespread melting at the lithosphere-asthenosphere boundary

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Contributions to Mineralogy and Petrology Pub Date : 2024-10-07 DOI:10.1007/s00410-024-02177-2
Marija Putak Juriček, Hans Keppler
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Abstract

The upper mantle low velocity zone is often attributed to partial melting at the lithosphere-asthenosphere boundary. This implies that basaltic melts may be stable along plausible geotherms due to the freezing point depression in the presence of water and other incompatible impurities. However, the freezing point depression (ΔT) as a function of water content in the near-solidus basaltic melt (cH2O) cannot be precisely determined from peridotite melting experiments because of difficulties in recovering homogeneous basaltic glasses at high pressures. We therefore used an alternative approach to reinvestigate and accurately constrain the ΔT–cH2O relationship for basaltic melts at the low water fugacities that are expected in the upper mantle. Internally heated pressure vessel (IHPV) experiments were performed at water-saturated conditions in the anorthite-diopside-H2O system at confining pressures of 0.02 to 0.2 GPa and temperatures between 940 and 1450 ℃. We determined the water-saturated solidus, and obtained ΔT by combining our data with reports of dry melting temperatures in the anorthite-diopside system. In another series of experiments, we measured water solubility in haplobasaltic melts and extrapolated cH2O to pressures and temperatures of the water-saturated solidus. By combining the results from these two series of experiments, we showed that the effect of water on ΔT was previously underestimated by at least 50 ℃. The new ΔT–cH2O relationship was then used to revise predictions of melt distribution in the upper mantle. Hydrous melt is almost certainly stable beneath extensive regions of the oceanic lithosphere, and may be present in younger and water-enriched zones of the subcontinental mantle.

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含水玄武岩熔体在低水富集度下的稳定性:岩石圈-热成层边界广泛熔化的证据
上地幔低速区通常归因于岩石圈-热成层边界的部分熔化。这意味着玄武岩熔体在水和其他不相容杂质存在的情况下,由于凝固点降低,可能会沿着可信的地温线保持稳定。然而,由于难以在高压下恢复均质玄武岩玻璃,因此无法通过橄榄岩熔化实验精确测定凝固点降低(ΔT)与近固态玄武岩熔体(cH2O)中水含量的函数关系。因此,我们采用了另一种方法来重新研究和精确确定玄武岩熔体在上地幔低水富集度下的ΔT-cH2O关系。在水饱和条件下,在约束压力为 0.02 至 0.2 GPa、温度为 940 至 1450 ℃的正长岩-二菱锰矿-H2O 体系中进行了内部加热压力容器(IHPV)实验。我们测定了水饱和凝固点,并通过将我们的数据与有关阳起石-透辉石体系干熔温度的报告相结合,获得了ΔT。在另一系列实验中,我们测量了单相玄武岩熔体中的水溶性,并将 cH2O 推断到水饱和固相的压力和温度。通过综合这两个系列实验的结果,我们发现水对 ΔT 的影响被低估了至少 50 ℃。新的ΔT-cH2O关系随后被用来修正对上地幔熔体分布的预测。几乎可以肯定,含水熔体在大洋岩石圈的广大区域下是稳定的,并可能存在于次大陆地幔的较年轻和富水区。
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来源期刊
Contributions to Mineralogy and Petrology
Contributions to Mineralogy and Petrology 地学-地球化学与地球物理
CiteScore
6.50
自引率
5.70%
发文量
94
审稿时长
1.7 months
期刊介绍: Contributions to Mineralogy and Petrology is an international journal that accepts high quality research papers in the fields of igneous and metamorphic petrology, geochemistry and mineralogy. Topics of interest include: major element, trace element and isotope geochemistry, geochronology, experimental petrology, igneous and metamorphic petrology, mineralogy, major and trace element mineral chemistry and thermodynamic modeling of petrologic and geochemical processes.
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