Water circulation in Ryugu asteroid affected the distribution of nucleosynthetic isotope anomalies in returned sample

Tetsuya Yokoyama,Meenakshi Wadhwa,Tsuyoshi Iizuka,Vinai Rai,Ikshu Gautam,Yuki Hibiya,Yuki Masuda,Makiko K. Haba,Ryota Fukai, Rebekah Hines,Nicole Phelan,Yoshinari Abe,Jerome Aleon,Conel M. O'D. Alexander,Sachiko Amari,Yuri Amelin,Ken-ichi Bajo,Martin Bizzarro,Audrey Bouvier,Richard W. Carlson,Marc Chaussidon,Byeon-Gak Choi,Nicolas Dauphas,Andrew M. Davis,Tommaso Di Rocco,Wataru Fujiya,Hiroshi Hidaka,Hisashi Homma,Peter Hoppe,Gary R. Huss,Kiyohiro Ichida,Trevor Ireland,Akira Ishikawa,Shoichi Itoh,Noriyuki Kawasaki,Noriko T. Kita, Koki Kitajima,Thorsten Kleine,Shintaro Komatani,Alexander N. Krot,Ming-Chang Liu,Kevin D. McKeegan,Mayu Morita,Kazuko Motomura,Frederic Moynier,Izumi Nakai,Kazuhide Nagashima,Ann Nguyen,Larry Nittler,Morihiko Onose,Andreas Pack,Changkun Park,Laurette Piani,Liping Qin,Sara Russell,Naoya Sakamoto, Maria Schoenbaechler,Lauren Tafla,Haolan Tang,Kentaro Terada,Yasuko Terada,Tomohiro Usui,Sohei Wada,Richard J. Walker,Katsuyuki Yamashita,Qing-Zhu Yin,Shigekazu Yoneda,Edward D. Young,Hiroharu Yui,Ai-Cheng Zhang,Tomoki Nakamura,Hiroshi Naraoka,Takaaki Noguchi,Ryuji Okazaki,Kanako Sakamoto,Hikaru Yabuta,Masanao Abe,Akiko Miyazaki,Aiko Nakato,Masahiro Nishimura,Tatsuaki Okada,Toru Yada,Kasumi Yogata,Satoru Nakazawa,Takanao Saiki,Satoshi Tanaka,Fuyuto Terui,Yuichi Tsuda,Sei-ichiro Watanabe,Makoto Yoshikawa,Shogo Tachibana,Hisayoshi Yurimoto

SCIENCE ADVANCES（2023）

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摘要

Studies of material returned from Cb asteroid Ryugu have revealed considerable mineralogical and chemical heterogeneity, stemming primarily from brecciation and aqueous alteration. Isotopic anomalies could have also been affected by delivery of exogenous clasts and aqueous mobilization of soluble elements. Here, we show that isotopic anomalies for mildly soluble Cr are highly variable in Ryugu and CI chondrites, whereas those of Ti are relatively uniform. This variation in Cr isotope ratios is most likely due to physicochemical fractionation between Cr-54-rich presolar nanoparticles and Cr-bearing secondary minerals at the millimeter-scale in the bulk samples, likely due to extensive aqueous alteration in their parent bodies that occurred 5.2(-1.4)(+1.8 )Ma after Solar System birth. In contrast, Ti isotopes were marginally affected by this process. Our results show that isotopic heterogeneities in asteroids are not all nebular or accretionary in nature but can also reflect element redistribution by water.

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