King penguin demography since the last glaciation inferred from genome-wide data

How natural climate cycles, such as past glacial/interglacial patterns, have shaped species distributions at the high-latitude regions of the Southern Hemisphere is still largely unclear. Here, we show how the post-glacial warming following the Last Glacial Maximum (ca 18 000 years ago), allowed the...

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Bibliographic Details
Published in:Proceedings of the Royal Society B: Biological Sciences
Main Authors: Trucchi, Emiliano, Gratton, Paolo, Whittington, Jason D., Cristofari, Robin, Le Maho, Yvon, Chr Stenseth, Nils, Le Bohec, Céline
Other Authors: Chr Stenseth, Nil
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
Antarctica
Coalescence
Last Glacial Maximum
Restriction siteassociated DNA sequencing
Seabird
Animal
Antarctic Region
Avian Protein
Indian Ocean Island
Mitochondrial Protein
Molecular Sequence Data
Polymerase Chain Reaction
Population Dynamic
Sequence Analysis
DNA
Spheniscidae
Climate Change
Genome
Genetics and Molecular Biology (all)
Agricultural and Biological Sciences (all)
Antarc*
Antarctic
EPICA
ice core
Ocean Island
Online Access:http://hdl.handle.net/11392/2382808
https://doi.org/10.1098/rspb.2014.0528
http://rspb.royalsocietypublishing.org/content/281/1787/20140528.full.pdf
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Summary:How natural climate cycles, such as past glacial/interglacial patterns, have shaped species distributions at the high-latitude regions of the Southern Hemisphere is still largely unclear. Here, we show how the post-glacial warming following the Last Glacial Maximum (ca 18 000 years ago), allowed the (re)colonization of the fragmented sub-Antarctic habitat by an upperlevel marine predator, the king penguin Aptenodytes patagonicus. Using restriction site-associated DNA sequencing and standard mitochondrial data, we tested the behaviour of subsets of anonymous nuclear loci in inferring past demography through coalescent-based and allele frequency spectrum analyses. Our results show that the king penguin population breeding on Crozet archipelago steeply increased in size, closely following the Holocene warming recorded in the Epica Dome C ice core. The following population growth can be explained by a threshold model in which the ecological requirements of this species (year-round ice-free habitat for breeding and access to a major source of food such as the Antarctic Polar Front) were met on Crozet soon after the Pleistocene/Holocene climatic transition. © 2014 The Authors Published by the Royal Society. All rights reserved.

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