Nature Communications (Feb 2024)

Convergent evolutionary patterns of heterostyly across angiosperms support the pollination-precision hypothesis

  • Violeta Simón-Porcar,
  • Marcial Escudero,
  • Rocío Santos-Gally,
  • Hervé Sauquet,
  • Jürg Schönenberger,
  • Steven D. Johnson,
  • Juan Arroyo

DOI
https://doi.org/10.1038/s41467-024-45118-0
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 12

Abstract

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Abstract Since the insights by Charles Darwin, heterostyly, a floral polymorphism with morphs bearing stigmas and anthers at reciprocal heights, has become a model system for the study of natural selection. Based on his archetypal heterostylous flower, including regular symmetry, few stamens and a tube, Darwin hypothesised that heterostyly evolved to promote outcrossing through efficient pollen transfer between morphs involving different areas of a pollinator’s body, thus proposing his seminal pollination-precision hypothesis. Here we update the number of heterostylous and other style-length polymorphic taxa to 247 genera belonging to 34 families, notably expanding known cases by 20%. Using phylogenetic and comparative analyses across the angiosperms, we show numerous independent origins of style-length polymorphism associated with actinomorphic, tubular flowers with a low number of sex organs, stamens fused to the corolla, and pollination by long-tongued insects. These associations provide support for the Darwinian pollination-precision hypothesis as a basis for convergent evolution of heterostyly across angiosperms.