Oxygen isotopes of anhydrous primary minerals show kinship between asteroid Ryugu and comet 81P/Wild2

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  • Noriyuki Kawasaki
  • Kazuhide Nagashima
  • Naoya Sakamoto
  • Toru Matsumoto
  • Ken-ichi Bajo
  • Sohei Wada
  • Yohei Igami
  • Akira Miyake
  • Takaaki Noguchi
  • Daiki Yamamoto
  • Sara S. Russell
  • Yoshinari Abe
  • Jérôme Aléon
  • Conel M. O'D. Alexander
  • Sachiko Amari
  • Yuri Amelin
  • Audrey Bouvier
  • Richard W. Carlson
  • Marc Chaussidon
  • Byeon-Gak Choi
  • Nicolas Dauphas
  • Andrew M. Davis
  • Tommaso Di Rocco
  • Wataru Fujiya
  • Ryota Fukai
  • Ikshu Gautam
  • Makiko K. Haba
  • Yuki Hibiya
  • Hiroshi Hidaka
  • Hisashi Homma
  • Peter Hoppe
  • Gary R. Huss
  • Kiyohiro Ichida
  • Tsuyoshi Iizuka
  • Trevor R. Ireland
  • Akira Ishikawa
  • Motoo Ito
  • Shoichi Itoh
  • Noriko T. Kita
  • Kouki Kitajima
  • Thorsten Kleine
  • Shintaro Komatani
  • Alexander N. Krot
  • Ming-Chang Liu
  • Yuki Masuda
  • Kevin D. McKeegan
  • Mayu Morita
  • Kazuko Motomura
  • Frederic Moynier
  • Izumi Nakai
  • Ann Nguyen
  • Larry Nittler
  • Morihiko Onose
  • Andreas Pack
  • Changkun Park
  • Laurette Piani
  • Liping Qin
  • Maria Schonbachler
  • Lauren Tafla
  • Haolan Tang
  • Kentaro Terada
  • Yasuko Terada
  • Tomohiro Usui
  • Meenakshi Wadhwa
  • Richard J. Walker
  • Katsuyuki Yamashita
  • Qing-Zhu Yin
  • Tetsuya Yokoyama
  • Shigekazu Yoneda
  • Edward D. Young
  • Hiroharu Yui
  • Ai-Cheng Zhang
  • Tomoki Nakamura
  • Hiroshi Naraoka
  • 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

The extraterrestrial materials returned from asteroid (162173) Ryugu consist predominantly of low-temperature aqueously formed secondary minerals and are chemically and mineralogically similar to CI (Ivuna-type) carbonaceous chondrites. Here, we show that high-temperature anhydrous primary minerals in Ryugu and CI chondrites exhibit a bimodal distribution of oxygen isotopic compositions: 16O-rich (associated with refractory inclusions) and 16O-poor (associated with chondrules). Both the 16O-rich and 16O-poor minerals probably formed in the inner solar protoplanetary disk and were subsequently transported outward. The abundance ratios of the 16O-rich to 16O-poor minerals in Ryugu and CI chondrites are higher than in other carbonaceous chondrite groups but are similar to that of comet 81P/Wild2, suggesting that Ryugu and CI chondrites accreted in the outer Solar System closer to the accretion region of comets.

Original languageEnglish
Article numbereade2067
JournalScience Advances
Volume8
Issue number50
Number of pages10
ISSN2375-2548
DOIs
Publication statusPublished - 2022

    Research areas

  • PROGRESSIVE AQUEOUS ALTERATION, CARBONACEOUS CHONDRITES, CRYSTALLINE SILICATES, THERMAL HISTORIES, RICH INCLUSIONS, SOLAR NEBULA, OLIVINE, CHONDRULES, SYSTEMATICS, PARTICLES

ID: 335278383