Data from: Comparative population genomics reveals key barriers to dispersal in Southern Ocean penguins

External Organisations University of New Hampshire; University of Southampton; University of Oxford; Loyola University Chicago; Nelson Mandela University; Australian Antarctic Division; Natural Environment Research Council; University of Tasmania; Louisiana State University of Alexandria; Macquarie...

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Other Authors: Alex D. Rogers (hasCollector), Barbara Wienecke (hasCollector), Charles-Andre Bost (hasCollector), Colin Southwell (hasCollector), Damian Kao (hasCollector), Gary D. Miller (hasCollector), Gemma V. Clucas (hasCollector), Jane L. Younger (hasCollector), Jonathan Handley (hasCollector), Karen J. Miller (hasCollector), Louise Emmerson (hasCollector), Michael J. Dunn (hasCollector), Michael J. Polito (hasCollector), Patrick Lelliot (hasCollector), Patrick Lelliott (hasCollector), Richard A. Phillips (hasCollector), Sarah Crofts (hasCollector), School of Biomedical Sciences (isManagedBy), Tom Hart (hasCollector)
Format: Dataset
Language:unknown
Published: The University of Western Australia
Subjects:
Aptenodytes forsteri
Aptenodytes
Polar Front
Pygoscelis papua
population genomics
Aptenodytes patagonicus
genetic differentiation
Pygoscelis
Pygoscelis antarctica
Pygoscelis adeliae
Antarctic
Southern Ocean
Antarc*
Antarctica
Australian Antarctic Division
British Antarctic Survey
Online Access:https://researchdata.edu.au/data-from-comparative-ocean-penguins/1604943
https://doi.org/10.5061/dryad.bs30388
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Summary:External Organisations University of New Hampshire; University of Southampton; University of Oxford; Loyola University Chicago; Nelson Mandela University; Australian Antarctic Division; Natural Environment Research Council; University of Tasmania; Louisiana State University of Alexandria; Macquarie University; Falklands Conservation; British Antarctic Survey Associated Persons Gary D. Miller (Creator); Karen J. Miller (Contributor)Gemma V. Clucas (Creator); Jane L. Younger (Creator); Damian Kao (Creator); Louise Emmerson (Creator); Colin Southwell (Creator); Barbara Wienecke (Creator); Alex D. Rogers (Creator); Charles-Andre Bost (Creator); Michael J. Polito (Creator); Patrick Lelliot (Creator); Jonathan Handley (Creator); Sarah Crofts (Creator); Richard A. Phillips (Creator); Michael J. Dunn (Creator); Tom Hart (Creator); Patrick Lelliott (Creator) The mechanisms that determine patterns of species dispersal are important factors in the production and maintenance of biodiversity. Understanding these mechanisms helps to forecast the responses of species to environmental change. Here we used a comparative framework and genome-wide data obtained through RAD-seq to compare the patterns of connectivity among breeding colonies for five penguin species with shared ancestry, overlapping distributions, and differing ecological niches, allowing an examination of the intrinsic and extrinsic barriers governing dispersal patterns. Our findings show that at-sea range and oceanography underlie patterns of dispersal in these penguins. The pelagic niche of emperor (Aptenodytes forsteri), king (A. patagonicus), Adélie (Pygoscelis adeliae) and chinstrap (P. antarctica) penguins facilitates gene flow over thousands of kilometres. In contrast, the coastal niche of gentoo penguins (P. papua) limits dispersal, resulting in population divergences. Oceanographic fronts also act as dispersal barriers to some extent. We recommend that forecasts of extinction risk incorporate dispersal and that management units are defined by at-sea ...

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