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 Robertson; Patricia E. Rosel; Benoit Simon-Bouhet; Daniel Wegmann; Michael Fontaine; Andrew Foote; Oscar Eduardo Gaggiotti

doi:10.1126/sciadv.abg1245

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 Robertson, Patricia E. Rosel, Benoit Simon-Bouhet, Daniel Wegmann, Michael Fontaine, Andrew Foote, Oscar Eduardo Gaggiotti

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

Abstract

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.

Original language	English
Article number	abg1245
Number of pages	13
Journal	Science Advances
Volume	7
Issue number	44
Early online date	27 Oct 2021
DOIs	https://doi.org/10.1126/sciadv.abg1245
Publication status	Published - Oct 2021

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10.1126/sciadv.abg1245Licence: CC BY-NC

Louis-2021-Selection-ancestral-genetic-SciAdv-abg1245
Copyright © 2021 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).
Final published version, 2.16 MBLicence: CC BY-NC

Replication Data for the manuscript Selection on ancient genetic variants fuels repeated ecotype formation in bottlenose dolphins
Louis, M. (Creator), Galimberti, M. (Creator), Archer, F. (Creator), Berrow, S. (Creator), Brownlow, A. (Creator), Fallon, R. (Creator), Nykänen, M. (Creator), O'Brien, J. (Creator), Robertson, K. (Creator), Rosel, P. E. (Creator), Simon-Bouhet, B. (Creator), Wegmann, D. (Creator), Fontaine, M. (Creator), Foote, A. (Creator) & Gaggiotti, O. E. (Creator), Dataverse, 2021
DOI: 10.23708/Q2MYHE
Dataset
Selection on ancestral genetic variation fuels repeated ecotype formation in bottlenose dolphins (code)
Gaggiotti, O. E. (Creator), GitHub, 2021
https://github.com/besibo/GhostAncestry
Dataset: Software

Cite this

Louis, M., Galimberti, M., Archer, F., Berrow, S., Brownlow, A., Fallon, R., Nykänen, M., O'Brien, J., Robertson, K., Rosel, P. E., Simon-Bouhet, B., Wegmann, D., Fontaine, M., Foote, A., & Gaggiotti, O. E. (2021). Selection on ancestral genetic variation fuels repeated ecotype formation in bottlenose dolphins. Science Advances, 7(44), Article abg1245. https://doi.org/10.1126/sciadv.abg1245

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title = "Selection on ancestral genetic variation fuels repeated ecotype formation in bottlenose dolphins",

abstract = "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.",

author = "Marie Louis and Marco Galimberti and Frederick Archer and Simon Berrow and Andrew Brownlow and Ramon Fallon and Milaja Nyk{\"a}nen and Joanne O'Brien and Kelly Robertson and Rosel, {Patricia E.} and Benoit Simon-Bouhet and Daniel Wegmann and Michael Fontaine and Andrew Foote and Gaggiotti, {Oscar Eduardo}",

note = "Funding: Marine Research from the American Museum of Natural History; People{\textquoteright}s Trust for Endangered Species; European Society for Evolutionary Biology (ESEB), GRANT #(s) Godfrey Hewitt mobility award; Fyssen Foundation; The Russell Trust; Total Foundation, FUNDREF 10.13039/501100018758; University of Groningen, FUNDREF 10.13039/501100001721; Swiss National Science Foundation, FUNDREF 10.13039/501100001711, GRANT #(s) 31003A_173062; University of St Andrews, FUNDREF 10.13039/501100000740; Marine Alliance for Science and Technology for Scotland, FUNDREF 10.13039/100015535.",

year = "2021",

month = oct,

doi = "10.1126/sciadv.abg1245",

language = "English",

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journal = "Science Advances",

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Louis, M, Galimberti, M, Archer, F, Berrow, S, Brownlow, A, Fallon, R, Nykänen, M, O'Brien, J, Robertson, K, Rosel, PE, Simon-Bouhet, B, Wegmann, D, Fontaine, M, Foote, A & Gaggiotti, OE 2021, 'Selection on ancestral genetic variation fuels repeated ecotype formation in bottlenose dolphins', Science Advances, vol. 7, no. 44, abg1245. https://doi.org/10.1126/sciadv.abg1245

TY - JOUR

T1 - Selection on ancestral genetic variation fuels repeated ecotype formation in bottlenose dolphins

AU - Louis, Marie

AU - Galimberti, Marco

AU - Archer, Frederick

AU - Berrow, Simon

AU - Brownlow, Andrew

AU - Fallon, Ramon

AU - Nykänen, Milaja

AU - O'Brien, Joanne

AU - Robertson, Kelly

AU - Rosel, Patricia E.

AU - Simon-Bouhet, Benoit

AU - Wegmann, Daniel

AU - Fontaine, Michael

AU - Foote, Andrew

AU - Gaggiotti, Oscar Eduardo

N1 - Funding: Marine Research from the American Museum of Natural History; People’s Trust for Endangered Species; European Society for Evolutionary Biology (ESEB), GRANT #(s) Godfrey Hewitt mobility award; Fyssen Foundation; The Russell Trust; Total Foundation, FUNDREF 10.13039/501100018758; University of Groningen, FUNDREF 10.13039/501100001721; Swiss National Science Foundation, FUNDREF 10.13039/501100001711, GRANT #(s) 31003A_173062; University of St Andrews, FUNDREF 10.13039/501100000740; Marine Alliance for Science and Technology for Scotland, FUNDREF 10.13039/100015535.

PY - 2021/10

Y1 - 2021/10

N2 - 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.

AB - 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.

U2 - 10.1126/sciadv.abg1245

DO - 10.1126/sciadv.abg1245

M3 - Article

SN - 2375-2548

VL - 7

JO - Science Advances

JF - Science Advances

IS - 44

M1 - abg1245

ER -

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

Abstract

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Datasets

Replication Data for the manuscript Selection on ancient genetic variants fuels repeated ecotype formation in bottlenose dolphins

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

Cite this