Nature Communications (Jul 2024)

The evolution of organic material on Asteroid 162173 Ryugu and its delivery to Earth

  • H. G. Changela,
  • Y. Kebukawa,
  • L. Petera,
  • M. Ferus,
  • E. Chatzitheodoridis,
  • L. Nejdl,
  • R. Nebel,
  • V. Protiva,
  • P. Krepelka,
  • J. Moravcova,
  • R. Holbova,
  • Z. Hlavenkova,
  • T. Samoril,
  • J. C. Bridges,
  • S. Yamashita,
  • Y. Takahashi,
  • T. Yada,
  • A. Nakato,
  • K. Sobotkova,
  • H. Tesarova,
  • D. Zapotok

DOI
https://doi.org/10.1038/s41467-024-50004-w
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 14

Abstract

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Abstract The recent return of samples from asteroid 162173 Ryugu provides a first insight into early Solar System prebiotic evolution from known planetary bodies. Ryugu’s samples are CI chondrite-like, rich in water and organic material, and primarily composed of phyllosilicate. This phyllosilicate surrounds micron to submicron macromolecular organic particles known as insoluble organic matter. Using advanced microscopy techniques on Hayabusa-2 samples, we find that aqueous alteration on Ryugu produced organic particles richer in aromatics compared to less altered carbonaceous chondrites. This challenges the view that aromatic-rich organic matter formed pre-accretion. Additionally, widespread diffuse organic material occurs in phyllosilicate more aliphatic-, carboxylic-rich, and aromatic-poor than the discrete organic particles, likely preserving the soluble organic material. Some organic particles evolved to encapsulate phyllosilicate, indicating that aqueous alteration on Ryugu led to the containment of soluble organic matter within these particles. Earth therefore has been, and continues to be, delivered micron-sized polymeric organic objects containing biologically relevant molecules.