4.3 Article

Movements of southern elephant seals (Mirounga leonina) from Davis Base, Antarctica: combining population genetics and tracking data

Journal

POLAR BIOLOGY
Volume 45, Issue 7, Pages 1163-1174

Publisher

SPRINGER
DOI: 10.1007/s00300-022-03058-9

Keywords

Southern elephant seals; Genetic diversity; Mitochondrial DNA; Population genetics; Moulting; Animal tracking

Funding

  1. CAUL

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This study combined genetic and animal tracking data to investigate the mitochondrial haplotype diversity, natal source populations, and movement behaviors of southern elephant seals at Davis Base. The majority of seals originated from breeding populations in the South Atlantic Ocean and South Indian Ocean, while the Macquarie Island population is declining.
Marine animals such as the southern elephant seal (Mirounga leonina) rely on a productive marine environment and are vulnerable to oceanic changes that can affect their reproduction and survival rates. Davis Base, Antarctica, acts as a moulting site for southern elephant seals that forage in Prydz Bay, but the mitochondrial haplotype diversity and natal source populations of these seals have not been characterized. In this study, we combined genetic and animal tracking data on these moulting seals to identify levels of mitochondrial haplotype diversity, natal source population, and movement behaviours during foraging and haul-out periods. Using partial sequences of the mitochondrial control region, we identified two major breeding mitochondrial lineages of seals at Davis Base. We found that the majority of the seals originated from breeding stocks within the South Atlantic Ocean and South Indian Ocean. One seal was grouped with the Macquarie Island breeding stock (South Pacific Ocean). The Macquarie Island population, unlike the other two stocks, is decreasing in size. Tracking data revealed long-distance foraging activity of the Macquarie Island seal around Crozet Islands. We speculate that changes to the Antarctic marine environment can result in a shift in foraging and movement strategies, which subsequently affects seal population growth rates.

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