Fluorine abundance of the lunar magma ocean constrained by experimentally determined mineral-melt F partitioning

Jie Jun Jing*, Jasper Berndt, Stephan Klemme, Wim van Westrenen

*Corresponding author for this work

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

To quantify fluorine (F) evolution during lunar magma ocean (LMO) crystallization, high-pressure, high-temperature experiments have been conducted to determine mineral-melt partitioning of F for lunar minerals (plagioclase, orthopyroxene and ilmenite). Results constrain the F abundance in the magma ocean to 21–41 ppm at the time crust-forming plagioclase started crystallizing. Forward modeling shows that 352–703 ppm F would remain in the final 1 % of magma toward the end of magma ocean solidification. This range overlaps that inferred for the urKREEP reservoir (660 ppm). Taking into account model uncertainties, from the perspective of F abundances the urKREEP reservoir can be formed at 98.9–99.5% LMO solidification, with negligible loss of F from the Moon since the onset of crust formation. Backward modeling from initial crust-forming plagioclase, an initial LMO would contain 4.2–8.5 ppm F, which is consistent with estimates of the lunar primitive mantle F content derived from melt inclusions in Apollo samples. This finding is consistent with previous suggestions that the bulk silicate Moon is depleted in F relative to the bulk silicate Earth (which contains ∼25 ppm F). A BSE-like initial LMO would yield a magma containing 122 ppm F at the onset of crust formation, significantly higher than our calculated 21–41 ppm F. Fluorine depletion could have occurred by degassing during the early LMO stages (between the onset of LMO crystallization and first crust formation), and/or prior to the LMO stage (e.g., depletion during the giant impact or vapor drainage in the protolunar disk), but seems to have ended by the time the crust started forming.

Original languageEnglish
Pages (from-to)89-99
Number of pages11
JournalGeochimica et Cosmochimica Acta
Volume364
Early online date18 Nov 2023
DOIs
Publication statusPublished - Jan 2024

Bibliographical note

Publisher Copyright:
© 2023 The Author(s)

Funding

This work was supported financially by a Vici grant from the Dutch Research Council to WvW and a China Scholarship Council fellowship (201904910721) to JJ. We thank the executive editor Jeffrey G. Catalano and the associate editor James van Orman for their editorial handling. We thank the constructive and very extensive comments by Frédéric Moynier and several anonymous reviewers on different versions of this manuscript. JJ thanks Wentao Yu and Zecheng Yu for help during writing the manuscript.

FundersFunder number
Nederlandse Organisatie voor Wetenschappelijk Onderzoek
China Scholarship Council201904910721

    Keywords

    • Lunar crust
    • Partition coefficient
    • urKREEP

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