Trace element partitioning in the lunar magma ocean: an experimental study

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Cordula P. Haupt, Christian J. Renggli, Arno Rohrbach, Jasper Berndt, Sabrina Schwinger, Maxime Maurice, Maximilian Schulze, Doris Breuer, Stephan Klemme
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Abstract

Modeling the behavior of trace elements during lunar magma ocean solidification is important to further our understanding of the chemical evolution of the Moon. Lunar magma ocean evolution models rely on consistent datasets on how trace elements partition between a lunar silicate melt and coexisting minerals at different pressures, temperatures, and redox conditions. Here we report new experimental trace element partition coefficients (D) between clinopyroxene (cpx), pigeonite, orthopyroxene, plagioclase, olivine (ol), and silicate melt at conditions relevant for the lunar magma ocean. The data include Dcpx−melt at ambient and high pressures (1.5 GPa and 1310 °C), and partition coefficients at ambient pressure for pig, opx, ol, and pl. Overall, clinopyroxene is a phase that may control the fractionation of key geochemical trace element ratios, such as Lu/Hf and Sm/Nd, during the evolution of the lunar magma ocean. We explore the impact of the new silicate Dmineral−melt on the trace element evolution of the lunar magma ocean and we find that accessory phosphate minerals, such as apatite or whitlockite are of critical importance to explain the observed trace element and isotopic signature of the KREEP reservoir on the Moon. The new partition coefficients were applied to calculate the trace element evolution of the residual melts of the crystallizing lunar magma ocean and we propose a new trace element composition for the urKREEP reservoir. The new data will be useful for future thermo-chemical models in order to adequately predict the duration of the lunar magma ocean and the age of the Moon.

Abstract Image

月球岩浆海洋中的微量元素分配:实验研究
建立月球岩浆洋凝固过程中微量元素行为的模型,对于进一步了解月球的化学演化非常重要。月球岩浆洋演化模型依赖于在不同压力、温度和氧化还原条件下,微量元素如何在月球硅酸盐熔体和共存矿物之间分配的一致数据集。在此,我们报告了在与月球岩浆海相关的条件下,倩辉石(cpx)、鸽血石、正长石、斜长石、橄榄石(ol)和硅酸盐熔体之间的新的实验痕量元素分配系数(D)。数据包括常压和高压(1.5 GPa 和 1310 ℃)下的 Dcpx 熔体,以及常压下鸽青石、opx、ol 和 pl 的分配系数。总之,在月球岩浆海的演化过程中,倩辉石可能是控制关键地球化学痕量元素比(如Lu/Hf和Sm/Nd)分馏的一个相。我们探讨了新的硅酸盐 D 矿物熔体对月球岩浆洋痕量元素演化的影响,发现磷灰石或白云石等附属磷酸盐矿物对解释月球上 KREEP 储层的痕量元素和同位素特征至关重要。我们应用新的分配系数计算了结晶月球岩浆海洋残余熔体的微量元素演变,并提出了urKREEP储层的新微量元素组成。新数据将有助于未来的热化学模型,以充分预测月球岩浆洋的持续时间和月球的年龄。
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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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