Litcius/Paper detail

Fe and Mg Isotope Compositions Indicate a Hybrid Mantle Source for Young Chang’E 5 Mare Basalts

Yun Jiang, Jinting Kang, Shiyong Liao, S. M. Elardo, Keqing Zong, Sijie Wang, Chang Nie, Peiyi Li, Zongjun Yin, Fang Huang, Weibiao Hsu

2023The Astrophysical Journal Letters57 citationsDOIOpen Access PDF

Abstract

Abstract The Chang’E 5 (CE-5) samples represent the youngest mare basalt ever known and provide an access into the late lunar evolution. Recent studies have revealed that CE-5 basalts are the most evolved lunar basalts, yet controversy remains over the nature of their mantle sources. Here we combine Fe and Mg isotope analyses with a comprehensive study of petrology and mineralogy on two CE-5 basalt clasts. These two clasts have a very low Mg# (∼29) and show similar Mg isotope compositions to Apollo low-Ti mare basalts as well as intermediate TiO 2 and Fe isotope compositions between low-Ti and high-Ti mare basalts. Fractional crystallization or evaporation during impact cannot produce such geochemical signatures that otherwise indicate a hybrid mantle source that incorporates both early- and late-stage lunar magma ocean (LMO) cumulates. Such a hybrid mantle source would be also compatible with the KREEP-like Rare Earth Elements pattern of CE-5 basalts. Overall, our new Fe–Mg isotope data highlight the role of late LMO cumulate for the generation of young lunar volcanism.

Topics & Concepts

BasaltGeologyGeochemistryMantle (geology)Lunar mareFractional crystallization (geology)Planetary Science and ExplorationAstro and Planetary ScienceGeology and Paleoclimatology Research