Regional genetic structure in the Magellanic Penguin (Spheniscus magellanicus) suggests metapopulation dynamics
- Citation data:
Auk, ISSN: 0004-8038, Vol: 126, Issue: 2, Page: 326-334
- Publication Year:
- Repository URL:
- https://works.bepress.com/brian_walker/3; https://digitalcommons.fairfield.edu/biology-facultypubs/28; https://works.bepress.com/juan_bouzat/2
- Agricultural and Biological Sciences; Biology; Life Sciences
Using microsatellite markers and mitochondrial DNA (mtDNA) sequences (cytochrome oxidase 1 gene), we estimated levels of genetic structuring among nine Magellanic Penguin (Spheniscus magellanicus) colonies distributed throughout three major reproductive regions of the South Atlantic Ocean. Overall, breeding colonies showed relatively high levels of genetic diversity at both nuclear and mtDNA markers (mean heteorzygosity: H = 0.598; mean allelic diversity: A = 7.11; mtDNA haplotype diversity: h = 0.812). A hierarchical analysis of molecular variance based on microsatellite data showed limited genetic structuring of breeding colonies, with 99% of the variation explained by differences among individuals and 0.7-1.0% attributed to differences among the three regions. The mtDNA analysis revealed higher levels of genetic structuring, with 3.43% of the variation explained by regions and 2.24% explained by colonies within the regions. Furthermore, a Mantel test revealed a significant association between geographic and genetic distances among colonies. The limited genetic structuring we detected is likely a result of (1) population intermixing through natal dispersal and (2) the large effective sizes of the reproductive colonies, both of which prevent genetic differentiation at neutral markers, balanced with (3) the regional association of breeding colonies to distinct feeding grounds and (4) a recent expansion of the population. Our results suggest that the demographic dynamics of breeding colonies of Magellanic Penguins may be framed under a metapopulation model, in which colonies with large numbers of breeding pairs could be considered "source" populations for maintaining the overall abundance of this species in the Atlantic Ocean. © 2009 by The American Ornithologists' Union. All rights reserved.