Widespread ilmenite contributions to the surface water cycle in lunar Procellarum KREEP Terrane

Widespread ilmenite contributions to the surface water cycle in lunar Procellarum KREEP Terrane

Abstract The role of widespread ilmenite in lunar mare regions in the abundance and diurnal variations of surficial OH/H2O remains controversial. Here, we report the water content and hydrogen isotopes in the rims of lunar ilmenites from Chang’e-5 soil samples using an ion microprobe. Ilmenite rims...

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Main Authors: Yuchen Xu, Liyu Shan, Heng-Ci Tian, Jialong Hao, Yangting Lin, Christian Wöhler, Lixin Gu, Zhuang Guo, Ruiying Li, Tianxin Zhang, Wei Yang, Yang Liu, Xu Tang, Sheng Gou, Huaiyu He, Yongliao Zou, Xianhua Li
Format: Article
Language:English
Published: Nature Portfolio 2025-08-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-025-62914-4
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Summary:Abstract The role of widespread ilmenite in lunar mare regions in the abundance and diurnal variations of surficial OH/H2O remains controversial. Here, we report the water content and hydrogen isotopes in the rims of lunar ilmenites from Chang’e-5 soil samples using an ion microprobe. Ilmenite rims exhibit higher water contents (~730 − 3,700 ppm) and lower δD values (−884 to −482‰) than that of the lunar mantle, indicating a predominantly endogenic origin from solar-wind (SW) implantation. Our data further reveal that although ilmenite and silicate minerals overlap in the δD vs. H2O diagram, almost all ilmenites fall above those of silicates with SW-like δD values. This signature is consistent with the drastic difference in vesicle abundance between ilmenite and silicate minerals. Thus, the lower water content in ilmenite rims most likely reflects a faster dynamic equilibrium between SW-hydrogen implantation and outgassing than in other silicates. These findings suggest that ilmenite may play a critical role in the surface water cycle of lunar maria within the Procellarum KREEP Terrane. This is also crucial for assessing the in-situ resource utilization potential of the region, highlighting the need to reevaluate ilmenite as a viable resource for future lunar exploration.
ISSN:2041-1723

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