Physics
Scientific paper
Feb 1984
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1984lpsc...14..445f&link_type=abstract
(American Geophysical Union and NASA, Lunar and Planetary Science Conference, 14th, Houston, TX, Mar. 14-18, 1983) Journal of Ge
Physics
Basalt, Lunar Evolution, Lunar Rocks, Petrology, Abundance, Crystallization, Hafnium, Kreep, Lutetium, Titanium, Moon, Samples, Lunar, Vlt Basalts, Hafnium, Evolution, Green Glass, Lutetium, Element Ratios, Concentration, Comparisons, Ht Basalts, Kreep, Models, Crystallization, Magma, Mare Basalts, Formation, Hypotheses, Iron, Enrichment, Melting, Cumulates
Scientific paper
It is shown that a cumulate-remelting model best explains the recently acquired data on the Lu-Hf systematics of lunar mare basalts. The model is constructed using Lu and Hf concentration data and is strengthened by Hf isotopic evidence of Unruh et al. (1984). It is shown that the similarity in MgO/FeO ratios and Cr2O3 content in high-Ti and low-Ti basalts are not important constraints on lunar basalt petrogenesis. The model demonstrates that even the very low Ti or green glass samples are remelting products of a cumulate formed after at least 80-90 percent of the lunar magma ocean had solidified. In the model, all the mare basalts and green glasses were derived from 100-150 km depth in the lunar mantle. The Lu-Hf systematics of KREEP basalts clearly indicate that they would be the final residual liquid of the lunar magma ocean.
Fujimaki Hirokazu
Tatsumoto Mitsonobu
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