Sperm whale population structure in the eastern and central North Pacific inferred by the use of single-nucleotide polymorphisms, microsatellites and mitochondrial DNA

Sarah L. Mesnick, Barbara L. Taylor, Frederick I. Archer, Karen K. Martien, Sergio Escorza Trevino, Brittany L. Hancock-Hanser, Sandra Carolina Moreno Medina, Victoria L. Pease, Kelly M. Robertson, Janice M. Straley, Robin W. Baird, John Calambokidis, Gregory S. Schorr, Paul Wade, Vladimir Burkanov, Chris R. Lunsford, Luke Rendell, Phillip A. Morin

Research output: Contribution to journalArticlepeer-review

65 Citations (Scopus)

Abstract

We use mitochondrial DNA (mtDNA) (400 bp), six microsatellites and 36 single-nucleotide polymorphisms (SNPs), 20 of which were linked, to investigate population structure of sperm whales (Physeter macrocephalus) in the eastern and central North Pacific. SNP markers, reproducible across technologies and laboratories, are ideal for long-term studies of globally distributed species such as sperm whales, a species of conservation concern because of both historical and contemporary impacts. We estimate genetic differentiation among three strata in the temperate to tropical waters where females are found: California Current, Hawaigravei and the eastern tropical Pacific. We then consider how males on sub-Arctic foraging grounds assign to these strata. The California Current stratum was differentiated from both the other strata (P < 0.05) for mtDNA, microsatellites and SNPs, suggesting that the region supports a demographically independent population and providing the first indication that males may exhibit reproductive philopatry. Comparisons between the Hawaigravei stratum and the eastern tropical Pacific stratum are not conclusive at this time. Comparisons with Alaska males were statistically significant, or nearly so, from all three strata and individuals showed mixed assignment to, and few exclusions from, the three potential source strata, suggesting widespread origin of males on sub-Arctic feeding grounds. We show that SNPs have sufficient power to detect population structure even when genetic differentiation is low. There is a need for better analytical methods for SNPs, especially when linked SNPs are used, but SNPs appear to be a valuable marker for long-term studies of globally dispersed and highly mobile species.

Original languageEnglish
Pages (from-to)278-298
Number of pages21
JournalMolecular Ecology Resources
Volume11
DOIs
Publication statusPublished - Mar 2011

Keywords

  • conservation
  • Physeter macrocephalus
  • population structure
  • single-nucleotide polymorphism
  • sperm whale
  • PHYSETER-MACROCEPHALUS
  • GENETIC DIFFERENTIATION
  • SOCIAL-ORGANIZATION
  • MAXIMUM-LIKELIHOOD
  • GENOTYPING ERRORS
  • STATISTICAL POWER
  • F-STATISTICS
  • VOCAL CLANS
  • G(ST)
  • SNPS

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