Selection on ancestral genetic variation fuels repeated ecotype formation in bottlenose dolphins

Marie Louis*, Marco Galimberti, Frederick Archer, Simon Berrow, Andrew Brownlow, Ramon Fallon, Milaja Nykänen, Joanne O’Brien, Kelly M. Roberston , Patricia E. Rosel , Benoit Simon-Bouhet, Daniel Wegmann, Michael C. Fontaine, Andrew D. Foote , Oscar E. Gaggiotti

*Corresponding author voor dit werk

OnderzoeksoutputAcademicpeer review

21 Citaten (Scopus)
59 Downloads (Pure)


Old genetic variants were key to the ability of bottlenose dolphins to repeatedly adapt to coastal waters across the world. Studying repeated adaptation can provide insights into the mechanisms allowing species to adapt to novel environments. Here, we investigate repeated evolution driven by habitat specialization in the common bottlenose dolphin. Parapatric pelagic and coastal ecotypes of common bottlenose dolphins have repeatedly formed across the oceans. Analyzing whole genomes of 57 individuals, we find that ecotype evolution involved a complex reticulated evolutionary history. We find parallel linked selection acted upon ancient alleles in geographically distant coastal populations, which were present as standing genetic variation in the pelagic populations. Candidate loci evolving under parallel linked selection were found in ancient tracts, suggesting recurrent bouts of selection through time. Therefore, despite the constraints of small effective population size and long generation time on the efficacy of selection, repeated adaptation in long-lived social species can be driven by a combination of ecological opportunities and selection acting on ancestral standing genetic variation.
Originele taal-2English
Aantal pagina's13
TijdschriftScience Advances
Nummer van het tijdschrift44
StatusPublished - 2021


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