Author
Listed:
- Tsuyoshi Iizuka
(The University of Tokyo)
- Takazo Shibuya
(Japan Agency for Marine-Earth Science and Technology (JAMSTEC))
- Takehito Hayakawa
(National Institutes for Quantum Science and Technology)
- Tetsuya Yokoyama
(Institute of Science Tokyo)
- Ikshu Gautam
(Institute of Science Tokyo)
- Makiko K. Haba
(Institute of Science Tokyo)
- Kengo T. M. Ito
(The University of Tokyo)
- Yuki Hibiya
(The University of Tokyo
JAMSTEC)
- Akira Yamaguchi
(National Institute of Polar Research
The Graduate University for Advanced Studies (SOKENDAI))
- Yoshinari Abe
(Tokyo Denki University)
- Jérôme Aléon
(Museum National d’Histoire Naturelle, CNRS UMR 7590, IRD)
- Conel M. O’D. Alexander
(Carnegie Institution for Science)
- Sachiko Amari
(The University of Tokyo
Washington University)
- Yuri Amelin
(Korea Basic Science Institute)
- Ken-ichi Bajo
(Hokkaido University)
- Martin Bizzarro
(University of Copenhagen)
- Audrey Bouvier
(Universität Bayreuth)
- Richard W. Carlson
(Carnegie Institution for Science)
- Marc Chaussidon
(CNRS)
- Byeon-Gak Choi
(Seoul National University)
- Nicolas Dauphas
(The University of Chicago
The University of Hong Kong)
- Andrew M. Davis
(The University of Chicago)
- Tommaso Rocco
(University of Göttingen)
- Wataru Fujiya
(Ibaraki University)
- Ryota Fukai
(JAXA)
- Hiroshi Hidaka
(Nagoya University)
- Hisashi Homma
(Rigaku Corporation)
- Gary R. Huss
(University of Hawai’i at Mānoa)
- Trevor R. Ireland
(The University of Queensland)
- Akira Ishikawa
(Institute of Science Tokyo)
- Shoichi Itoh
(Kyoto University)
- Noriyuki Kawasaki
(Hokkaido University)
- Noriko T. Kita
(University of Wisconsin-Madison)
- Koki Kitajima
(University of Wisconsin-Madison)
- Thorsten Kleine
(Max Planck Institute for Solar System Research)
- Shintaro Komatani
(Horiba Techno Service Co. Ltd)
- Alexander N. Krot
(University of Hawai’i at Mānoa)
- Ming-Chang Liu
(UCLA)
- Yuki Masuda
(Institute of Science Tokyo
University of Copenhagen)
- Kazuko Motomura
(Rigaku Corporation)
- Frédéric Moynier
(CNRS)
- Kazuhide Nagashima
(University of Hawai’i at Mānoa)
- Izumi Nakai
(Tokyo University of Science)
- Ann Nguyen
(NASA Johnson Space Center)
- Larry Nittler
(Carnegie Institution for Science)
- Andreas Pack
(University of Göttingen)
- Changkun Park
(Korea Polar Research Institute)
- Laurette Piani
(CNRS - Université de Lorraine)
- Liping Qin
(School of Earth and Space Sciences, University of Science and Technology of China)
- Sara Russell
(Natural History Museum)
- Naoya Sakamoto
(Hokkaido University)
- Maria Schönbächler
(ETH Zurich)
- Lauren Tafla
(UCLA)
- Haolan Tang
(School of Earth and Space Sciences, University of Science and Technology of China)
- Kentaro Terada
(Osaka University)
- Yasuko Terada
(Japan Synchrotron Radiation Research Institute)
- Tomohiro Usui
(JAXA)
- Sohei Wada
(Hokkaido University)
- Meenakshi Wadhwa
(Arizona State University)
- Richard J. Walker
(University of Maryland)
- Katsuyuki Yamashita
(Okayama University)
- Qing-Zhu Yin
(University of California, Davis)
- Shigekazu Yoneda
(National Museum of Nature and Science)
- Hiroharu Yui
(Tokyo University of Science)
- Ai-Cheng Zhang
(Nanjing University)
- Tomoki Nakamura
(Tohoku University)
- Hiroshi Naraoka
(Kyushu University)
- Takaaki Noguchi
(Kyoto University)
- Ryuji Okazaki
(Kyushu University)
- Kanako Sakamoto
(JAXA)
- Hikaru Yabuta
(Hiroshima University)
- Masanao Abe
(JAXA)
- Akiko Miyazaki
(JAXA)
- Aiko Nakato
(National Institute of Polar Research
JAXA)
- Masahiro Nishimura
(JAXA)
- Tatsuaki Okada
(JAXA)
- Toru Yada
(JAXA)
- Kasumi Yogata
(JAXA)
- Satoru Nakazawa
(JAXA)
- Takanao Saiki
(JAXA)
- Satoshi Tanaka
(JAXA)
- Fuyuto Terui
(Kanagawa Institute of Technology)
- Yuichi Tsuda
(JAXA)
- Sei-ichiro Watanabe
(Nagoya University)
- Makoto Yoshikawa
(JAXA)
- Shogo Tachibana
(JAXA
The University of Tokyo)
- Hisayoshi Yurimoto
(Hokkaido University)
Abstract
Carbonaceous asteroids are the source of the most primitive meteorites1 and represent leftover planetesimals that formed from ice and dust in the outer Solar System and may have delivered volatiles to the terrestrial planets2–5. Understanding the aqueous activity of asteroids is key to deciphering their thermal, chemical and orbital evolution, with implications for the origin of water on the terrestrial planets. Analyses of the objects, in particular pristine samples returned from asteroid Ryugu, have provided detailed information on fluid–rock interactions within a few million years after parent-body formation6–11. However, the long-term fate of asteroidal water remains poorly understood. Here we present evidence for fluid flow in a carbonaceous asteroid more than 1 billion years after formation, based on the 176Lu–176Hf decay systematics of Ryugu samples, which reflect late lutetium mobilization. Such late fluid flow was probably triggered by an impact that generated heat for ice melting and opened rock fractures for fluid migration. This contrasts the early aqueous activity powered by short-lived radioactive decay, with limited fluid flow and little elemental fractionation12. Our results imply that carbonaceous planetesimals accreted by the terrestrial planets could have retained not only hydrous minerals but also aqueous water, leading to an upwards revision of the inventory of their water delivery by a factor of two to three.
Suggested Citation
Tsuyoshi Iizuka & Takazo Shibuya & Takehito Hayakawa & Tetsuya Yokoyama & Ikshu Gautam & Makiko K. Haba & Kengo T. M. Ito & Yuki Hibiya & Akira Yamaguchi & Yoshinari Abe & Jérôme Aléon & Conel M. O’D., 2025.
"Late fluid flow in a primitive asteroid revealed by Lu–Hf isotopes in Ryugu,"
Nature, Nature, vol. 646(8083), pages 62-67, October.
Handle:
RePEc:nat:nature:v:646:y:2025:i:8083:d:10.1038_s41586-025-09483-0
DOI: 10.1038/s41586-025-09483-0
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