Data from: Phylogeography, population structure, and species delimitation in rockhopper penguins (Eudyptes chrysocome and Eudyptes moseleyi)

Rockhopper penguins are delimited as two species, the northern rockhopper (Eudyptes moseleyi) and the southern rockhopper (E. chrysocome), with the latter comprising two subspecies, the western rockhopper (E. c. chrysocome) and the eastern rockhopper (E. c. filholi). We conducted a phylogeographic s...

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Bibliographic Details
Main Authors: Mays, Herman, Oehler, David, Morrison, Kyle, Morales, Ariadna, Lycans, Alyssa, Perdue, Justin, Battley, Phillip, Cherel, Yves, Chilvers, B, Crofts, Sarah, Demongin, Laurent, Fry, W, Hiscock, Jo, Kusch, Alejandro, Marin, Manuel, Poisbleau, Maud, Quillfeldt, Petra, Raya Rey, Andrea, Steinfurth, Antje, Thompson, David, Weakley, Leonard
Format: Article in Journal/Newspaper
Language:unknown
Published: 2019
Subjects:
Antarctic Circumpolar Current
Conservation genetics
Migration
Southern Ocean
Speciation
Subtropical front
Conservation genetics and biodiversity
Population structure and phylogeography
Antarctic
Argentina
New Zealand
Tristan
Antarc*
Online Access:http://hdl.handle.net/10255/dryad.226493
https://doi.org/10.5061/dryad.6c8d45m
Description
Summary:Rockhopper penguins are delimited as two species, the northern rockhopper (Eudyptes moseleyi) and the southern rockhopper (E. chrysocome), with the latter comprising two subspecies, the western rockhopper (E. c. chrysocome) and the eastern rockhopper (E. c. filholi). We conducted a phylogeographic study using multilocus data from 114 individuals sampled across 12 colonies from the entire range of the northern/southern rockhopper complex to assess potential population structure, gene flow and species limits. Bayesian and likelihood methods with nuclear and mitochondrial DNA, including model testing and heuristic approaches, support E. moseleyi and E. chrysocome as distinct species lineages with a divergence time of 0.97 Ma. However, these analyses also indicated the presence of gene flow between these species. Among southern rockhopper subspecies, we found evidence of significant gene flow and heuristic approaches to species delimitation based on the genealogical diversity index failed to delimit them as species. The best-supported population models for the southern rockhoppers were those where E. c. chrysocome and E. c. filholi were combined into a single lineage or two lineages with bidirectional gene flow. Additionally, we found that E. c. filholi has the highest effective population size while E. c. chrysocome showed similar effective population size to that of the endangered E. moseleyi. We suggest that the current taxonomic definitions within rockhopper penguins be upheld and that E. chrysocome populations, all found south of the subtropical front, should be treated as a single taxon with distinct management units for E. c. chrysocome and E. c. filholi.

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