Isotopic niches of emperor and Adélie penguins in Adélie Land, Antarctica
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The emperor and Adélie penguins are the only two species of penguins that co-occur at high-Antarctic latitudes. We first measured and compared their isotopic niches on the same year in Adélie Land in spring, when the two species co-exist. Emperor and Adélie penguins segregated by their blood isotopic signatures, with adult δ13C values (−24.5 ± 0.2 and −25.4 ± 0.2‰, respectively) suggesting that emperor penguins foraged in more neritic waters than Adélie penguins in spring. At that time, difference in their δ15N values (4.1‰, 12.0 ± 0.4 vs. 7.9 ± 0.1‰) encompassed more than one trophic level, indicating that emperor penguins preyed mainly upon fish (and squids), while Adélie penguins fed exclusively on euphausiids. Second, we compared the food of breeding adults and chicks. The isotopic signatures of adults and chicks of emperor penguins were not statistically different, but δ15N value of Adélie penguin chicks was higher than that of adults (10.2 ± 0.8 vs. 9.0 ± 0.2‰). The difference showed that adult Adélie penguins captured higher trophic level prey, i.e. higher-quality food, for their chicks. Third, the isotopic signatures of Adélie penguins breeding in Adélie Land showed that adults fed on Antarctic krill in oceanic waters in spring and shifted to neritic waters in summer where they preyed upon ice krill for themselves and upon fish and euphausiids for their chicks. A comparison of isotopic niches revealed large overlaps in both blood δ13C and δ15N values within the community of Antarctic seabirds and pinnipeds. The continuum in δ15N values nevertheless encompassed more than one trophic level (5.2‰) from Adélie penguin and crabeater seal to the Weddell seal. Such a broad continuum emphasizes the fact that all Antarctic seabirds and marine mammals feed on varying proportions of a few crustacean (euphausiids) and fish (Antarctic silverfish) species that dominate the intermediate trophic levels of the pelagic neritic and oceanic ecosystems.
KeywordsIsotopic Signature Weddell Seal Isotopic Niche Emperor Penguin Nitrogen Signature
The author thanks A. Lagarde for her help in the field, and C. Fontaine, G. Guillou, K.A. Hobson and P. Richard for stable isotope analysis. This work was supported financially and logistically by the Institut Français pour la Recherche et la Technologie Polaires (IFRTP, Programme N°109), and the Terres Australes et Antarctiques Françaises.
- Burns JM, Kooyman GL (2001) Habitat use by Weddell seals and emperor penguins foraging in the Ross Sea, Antarctica. Am Zool 41:90–98Google Scholar
- Dewitt HH, Heemstra PC, Gon O (1990) Nototheniidae. In: Gon O, Heemstra PC (eds) Fishes of the Southern Ocean. JLB Smith Institute of Ichthyology, Grahamstown, pp 279–331Google Scholar
- Krahn MM, Pitman RL, Burrows DG, Herman DP, Pearce RW (2006) Assessing the feeding ecology of Antarctic Type C killer whales using chemical tracers. Intern Whaling Comm, Sci Comm Paper 58/13Google Scholar
- Lu CC, Williams R (1994) Contribution to the biology of squid in the Prydz Bay region, Antarctica. Antarct Sci 6:223–229Google Scholar
- Watanuki Y, Kato A, Sato K, Niizuma Y, Bost CA, Le Maho Y, Naito Y (2002) Parental mass change and food provisioning in Adélie penguins rearing chicks in colonies with contrasting sea-ice conditions. Polar Biol 25:672–681Google Scholar
- Wilkinson L (1999) SYSTAT 9 for Windows. SPSS, ChicagoGoogle Scholar