Coevolution of phyllosilicate, carbon, sulfide, and apatite in Ryugu's parent body

We analyzed an asteroid Ryugu sample returned to Earth by JAXA's Hayabusa2 mission using nanoIR, SEM, and TEM microscopy. We identified multiple distinct carbon reservoirs within the phyllosilicate matrix and demonstrate infrared spectral affinities for some of the carbon to insoluble organic m...

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Bibliographic Details
Published in:Meteoritics & planetary science 2024-08, Vol.59 (8), p.2073-2096
Main Authors: Gainsforth, Zack, Dominguez, Gerardo, Amano, Kana, Matsumoto, Megumi, Fujioka, Yuri, Kagawa, Eiichi, Nakamura, Tomoki, Tachibana, Shogo, Morita, Tomoyo, Kikuiri, Mizuha, Yurimoto, Hisayoshi, Noguchi, Takaaki, Okazaki, Ryuji, Yabuta, Hikaru, Naraoka, Hiroshi, Sakamoto, Kanako, Yada, Toru, Nishimura, Masahiro, Nakato, Aiko, Miyazaki, Akiko, Yogata, Kasumi, Abe, Masano, Okada, Tatsuaki, Usui, Tomohiro, Yoshikawa, Makoto, Saiki, Takanao, Tanaka, Satoshi, Terui, Fuyuto, Nakazawa, Satoru, Watanabe, Sei‐ichiro, Tsuda, Yuichi
Format: Article
Language:English
Subjects:
Apatite
Asteroids
Carbon
Carbonates
Crystallography
Infrared analysis
Organic matter
Sulfides
Transmission electron microscopy
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Summary:We analyzed an asteroid Ryugu sample returned to Earth by JAXA's Hayabusa2 mission using nanoIR, SEM, and TEM microscopy. We identified multiple distinct carbon reservoirs within the phyllosilicate matrix and demonstrate infrared spectral affinities for some of the carbon to insoluble organic matter (IOM). TEM studies of Ryugu samples have allowed us to better understand the interrelationship between the crystallographic orientations of phyllosilicates and the secondary minerals such as carbonate, sulfide, and apatite. Transport of elements provides a unifying theme for understanding these interrelationships.
ISSN:1086-9379
1945-5100
DOI:10.1111/maps.14161