| Literature DB >> 19741704 |
Makiko Ohtake1, Tsuneo Matsunaga, Junichi Haruyama, Yasuhiro Yokota, Tomokatsu Morota, Chikatoshi Honda, Yoshiko Ogawa, Masaya Torii, Hideaki Miyamoto, Tomoko Arai, Naru Hirata, Akira Iwasaki, Ryosuke Nakamura, Takahiro Hiroi, Takamitsu Sugihara, Hiroshi Takeda, Hisashi Otake, Carle M Pieters, Kazuto Saiki, Kohei Kitazato, Masanao Abe, Noriaki Asada, Hirohide Demura, Yasushi Yamaguchi, Sho Sasaki, Shinsuke Kodama, Junya Terazono, Motomaro Shirao, Atsushi Yamaji, Shigeyuki Minami, Hiroaki Akiyama, Jean-Luc Josset.
Abstract
It has been thought that the lunar highland crust was formed by the crystallization and floatation of plagioclase from a global magma ocean, although the actual generation mechanisms are still debated. The composition of the lunar highland crust is therefore important for understanding the formation of such a magma ocean and the subsequent evolution of the Moon. The Multiband Imager on the Selenological and Engineering Explorer (SELENE) has a high spatial resolution of optimized spectral coverage, which should allow a clear view of the composition of the lunar crust. Here we report the global distribution of rocks of high plagioclase abundance (approaching 100 vol.%), using an unambiguous plagioclase absorption band recorded by the SELENE Multiband Imager. If the upper crust indeed consists of nearly 100 vol.% plagioclase, this is significantly higher than previous estimates of 82-92 vol.% (refs 2, 6, 7), providing a valuable constraint on models of lunar magma ocean evolution.Year: 2009 PMID: 19741704 DOI: 10.1038/nature08317
Source DB: PubMed Journal: Nature ISSN: 0028-0836 Impact factor: 49.962