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Natural selection maintains species despite frequent hybridization in the desert shrub Encelia.

Christopher T DiVittorioSonal SinghalAdam B RoddyFelipe ZapataDavid D AckerlyBruce G BaldwinCraig R BrodersenAlberto BúrquezPaul V A FineMayra Padilla FloresElizabeth SolisJaime Morales-VillavicencioDavid Morales-ArceDonald W Kyhos
Published in: Proceedings of the National Academy of Sciences of the United States of America (2020)
Natural selection is an important driver of genetic and phenotypic differentiation between species. For species in which potential gene flow is high but realized gene flow is low, adaptation via natural selection may be a particularly important force maintaining species. For a recent radiation of New World desert shrubs (Encelia: Asteraceae), we use fine-scale geographic sampling and population genomics to determine patterns of gene flow across two hybrid zones formed between two independent pairs of species with parapatric distributions. After finding evidence for extremely strong selection at both hybrid zones, we use a combination of field experiments, high-resolution imaging, and physiological measurements to determine the ecological basis for selection at one of the hybrid zones. Our results identify multiple ecological mechanisms of selection (drought, salinity, herbivory, and burial) that together are sufficient to maintain species boundaries despite high rates of hybridization. Given that multiple pairs of Encelia species hybridize at ecologically divergent parapatric boundaries, such mechanisms may maintain species boundaries throughout Encelia.
Keyphrases
  • high resolution
  • genetic diversity
  • genome wide
  • copy number
  • climate change
  • gene expression
  • single molecule
  • transcription factor
  • human health
  • photodynamic therapy