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Title
Metapopulation dynamics and foraging plasticity in a highly vagile seabird, the southern rockhopper penguin
Author(s)
Lois, Nicolás A.;Campagna, Leonardo;Balza, Ulises;...;Frere, Esteban;Sáenz-Samaniego, Ricardo;Raya Rey, Andrea;Mahler, Bettina
Published
2020
Publisher
Ecology and Evolution
Published Version DOI
https://doi.org/10.1002/ece3.6127
Abstract
Population connectivity is driven by individual dispersal potential and modulated by natal philopatry. In seabirds, high vagility facilitates dispersal yet philopatry is also common, with foraging area overlap often correlated with population connectivity. We assess the interplay between these processes by studying past and current connectivity and foraging niche overlap among southern rockhopper penguin colonies of the coast of southern South America using genomic and stable isotope analyses. We found two distinct genetic clusters and detected low admixture between northern and southern colonies. Stable isotope analysis indicated niche variability between colonies, with Malvinas/Falklands colonies encompassing the species entire isotopic foraging niche, while the remaining colonies had smaller, nonoverlapping niches. A recently founded colony in continental Patagonia differed in isotopic niche width and position with Malvinas/Falklands colonies, its genetically identified founder population, suggesting the exploitation of novel foraging areas and/or prey items. Additionally, dispersing individuals found dead across the Patagonian shore in an unusual mortality event were also assigned to the northern cluster, suggesting northern individuals reach southern localities, but do not breed in these colonies. Facilitated by variability in foraging strategies, and especially during unfavorable conditions, the number of dispersing individuals may increase and enhance the probability of founding new colonies. Metapopulation demographic dynamics in seabirds should account for interannual variability in dispersal behavior and pay special attention to extreme climatic events, classically related to negative effects on population trends.
Keywords
ddRAD;Eudyptes chrysocome;population dynamics;SIBER;trophic niche
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