Peripatric speciation associated with genome expansion and female-biased sex ratios in the moss genus Ceratodon

Am J Bot. 2018 Jun;105(6):1009-1020. doi: 10.1002/ajb2.1107. Epub 2018 Jun 29.

Abstract

Premise of the study: A period of allopatry is widely believed to be essential for the evolution of reproductive isolation. However, strict allopatry may be difficult to achieve in some cosmopolitan, spore-dispersed groups, like mosses. We examined the genetic and genome size diversity in Mediterranean populations of the moss Ceratodon purpureus s.l. to evaluate the role of allopatry and ploidy change in population divergence.

Methods: We sampled populations of the genus Ceratodon from mountainous areas and lowlands of the Mediterranean region, and from Western and Central Europe. We performed phylogenetic and coalescent analyses on sequences from five nuclear introns and a chloroplast locus to reconstruct their evolutionary history. We also estimated genome size using flow cytometry (employing propidium iodide) and determined the sex of samples using a sex-linked PCR marker.

Key results: Two well-differentiated clades were resolved, discriminating two homogeneous groups: the widespread C. purpureus and a local group mostly restricted to the mountains in Southern Spain. The latter also possessed a genome size 25% larger than the widespread C. purpureus, and the samples of this group consist entirely of females. We also found hybrids, and some of them had a genome size equivalent to the sum of the C. purpureus and Spanish genome, suggesting that they arose by allopolyploidy.

Conclusions: These data suggest that a new species of Ceratodon arose via peripatric speciation, potentially involving a genome size change and a strong female-biased sex ratio. The new species has hybridized in the past with C. purpureus.

Keywords: Spanish Sierra Nevada; allopolyploidy; coalescent analysis; cosmopolitan bryophytes; flow cytometry; hybridization; nuclear and chloroplast DNA sequencing; phylogenetic data; recombinants; sex determination.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Bryopsida / genetics*
  • Gene Flow*
  • Genetic Speciation*
  • Genetic Variation*
  • Genome Size
  • Phylogeny
  • Ploidies*
  • Reproductive Isolation
  • Sex Ratio