Nature Communications (Apr 2023)

Metal-rich stars are less suitable for the evolution of life on their planets

  • Anna V. Shapiro,
  • Christoph Brühl,
  • Klaus Klingmüller,
  • Benedikt Steil,
  • Alexander I. Shapiro,
  • Veronika Witzke,
  • Nadiia Kostogryz,
  • Laurent Gizon,
  • Sami K. Solanki,
  • Jos Lelieveld

DOI
https://doi.org/10.1038/s41467-023-37195-4
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 9

Abstract

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Abstract Atmospheric ozone and oxygen protect the terrestrial biosphere against harmful ultraviolet (UV) radiation. Here, we model atmospheres of Earth-like planets hosted by stars with near-solar effective temperatures (5300 to 6300 K) and a broad range of metallicities covering known exoplanet host stars. We show that paradoxically, although metal-rich stars emit substantially less ultraviolet radiation than metal-poor stars, the surface of their planets is exposed to more intense ultraviolet radiation. For the stellar types considered, metallicity has a larger impact than stellar temperature. During the evolution of the universe, newly formed stars have progressively become more metal-rich, exposing organisms to increasingly intense ultraviolet radiation. Our findings imply that planets hosted by stars with low metallicity are the best targets to search for complex life on land.