Formation of Lunar Highlands Anorthosites
Document Type
Article
Publication Date
2-24-2020
Publication Title
Earth and Planetary Science Letters
Volume
536
First page number:
1
Last page number:
11
Abstract
The lunar magma ocean (LMO) model was proposed after the discovery of anorthosite in Apollo 11 samples. However, the chemical and isotopic compositions of lunar anorthosites are not fully consistent with its LMO origin. We have analyzed major and trace elements in anorthositic clasts from ten lunar feldspathic meteorites, which are related to the solidification of the LMO. The plagioclase rare earth element (REE) abundances and patterns are not correlated with the Mg# of coexisting mafic minerals in anorthosites, implying that mafic minerals and plagioclase may not be in chemical equilibrium, consistent with their textural differences. The REE abundances in plagioclase range approximately fortyfold, which cannot be produced by fractional crystallization of a single magma. Combining plagioclase trace element data from Apollo and meteoritic anorthosites, we propose that plagioclases derived from the LMO floated to the surface to form the primordial crust, which then may have been metasomatized by incompatible-element-rich KREEP (potassium, rare earth element, phosphorus) melts and mantle-derived partial melts. The lunar anorthosites may represent this metasomatized crust rather than solely a derivative from the LMO. Furthermore, silicate melts similar to the metasomatic agents may also have melted the crust to form the Mg-suite rocks. This hypothesis is consistent with overlapping ranges of age and initial εNd between lunar anorthosites and Mg-suite rocks. These events are consistent with an overturn event of the cumulate mantle very early after primordial crust formation to produce the partial melts that metasomatized the crust.
Keywords
Lunar magma ocean; Lunar crust; Lunar anorthosite; Lunar mantle; KREEP; Metasomatism
Disciplines
Astrophysics and Astronomy | Geology
Language
English
Repository Citation
Xu, X.,
Hui, H.,
Chen, W.,
Huang, S.,
Neal, C. R.,
Xu, X.
(2020).
Formation of Lunar Highlands Anorthosites.
Earth and Planetary Science Letters, 536
1-11.
http://dx.doi.org/10.1016/j.epsl.2020.116138