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Unraveling the Origin of the Lunar Highlands Crust

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1 Unraveling the Origin of the Lunar Highlands Crust
The chemical evolution of the lunar magma ocean was complex and set the stage for later magmatic activity on the Moon, including the formation of magnesium-rich anorthositic granulites. Clasts of magnesian anorthositic granulites in two lunar meteorites, ALHA81005 (the first lunar meteorite ever recognized) and Dhofar 309 are helping to unravel details of the origin of the lunar highlands crust. Overview: The nonmare rocks that dominate the highlands of the Moon are particularly fascinating because they tell us about the origin of the most ancient crust. Two random samples of highlands rocks arrived to Earth as lunar meteorites Allan Hills (ALH) A81005 and Dhofar 309. Researchers Allan Treiman, Amy Maloy, Juliane Gross (Lunar and Planetary Institute, Houston) and Chip Shearer (University of New Mexico) took a look at a particular kind of fragment inside these meteorites so geochemically distinct from other highlands materials as to warrant further investigations of their mineral, bulk, and trace element compositions. The attention-grabbing fragments are magnesium-rich anorthositic granulites that tell part of the story of lunar crustal evolution, though the details of the story are still being worked out. Magnesian anorthositic granulites, found in several distinct lunar meteorites, may represent a widespread rock type in the highlands, a notion supported by remote sensing chemical data. These fragments could be metamorphosed relicts of KREEP-free plutons that intruded into the plagioclase-rich ancient crust. Reference: Treiman, A. H., Maloy, A. K., Shearer Fr., C. K., and Gross, J. (2010) Magnesian Anorthositic Granulites in Lunar Meteorites Allan Hills A81005 and Dhofar 309: Geochemistry and Global Significance, Meteoritics and Planetary Science, v. 45(2), p , doi: /j x.

2 Unraveling the Origin of the Lunar Highlands Crust
On the left: The REE abundances of magnesian anorthositic granulite clasts analyzed by Treiman and coauthors plot in the range colored blue. Magnesian anorthositic granulite clasts in ALHA81005 and Dhofar 309 are low in REE (<5 x CI, except Eu). Gray range shows similar abundances for magnesian anorthositic granulite clasts in ALHA81005 analyzed previously by another team of researchers. The range for Apollo magnesian granultic breccias is shown in gold for comparison. On the right: Data points for the five clasts analyzed by Treiman and coauthors are shown in blue. Additional analyses of magnesian anorthositic granulite clasts analyzed previously by others are shown in black. Open circles are data points for Apollo magnesian granulites. Fields for pristine Mg-Suite and FAN suite are outlined for comparison. Plagioclase composition is expressed as fraction of anorthite (An), the calcium-rich end-member of the solid solution series. The Mg# in the magnesian anorthositic granulites is too high for a close relationship to the FAN Suite or to have formed as floatation cumulates in the magma ocean. REE patterns of analyzed clasts are distinct from Apollo magnesian granulites. Mg# in the magnesian anorthositic granulites are too high for a close relationship to the FAN Suite or to have formed as floatation cumulates in the magma ocean.

3 Unraveling the Origin of the Lunar Highlands Crust
Magnesian anorthositic granulites are geochemically distinct yet widespread across the lunar highlands. Their bulk compositions are comparable to those inferred for parts of the FHT: about 4.5 wt% FeO, about 28 wt% Al2O3, and <1 ppm Th. Magnesian anorthositic granulites, found in several distinct lunar meteorites, appear to be widespread in the highlands, a notion supported by remote sensing chemical data. These fragments could be metamorphosed relicts of KREEP-free plutons that intruded into the plagioclase-rich ancient crust. The magnesian anorthositic granulite clasts may plausibly be samples of post-magma-ocean plutons that helped build the highlands crust. These clasts suggests KREEP was not necessary for their formation and that post-magma-ocean plutons may or may not contain KREEP, depending on whether or not they passed through the nearside or farside.

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