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MEPS
Marine Ecology Progress Series

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MEPS 213:301-309 (2001)  -  doi:10.3354/meps213301

Adélie penguin population change in the pacific sector of Antarctica: relation to sea-ice extent and the Antarctic Circumpolar Current

P. R. Wilson1,*, D. G. Ainley2, N. Nur3, S. S. Jacobs4, K. J. Barton1, G. Ballard2, J. C. Comiso5

1Landcare Research, Private Bag 6, Nelson, New Zealand
2H.T. Harvey & Associates, 3150 Almaden Expressway, Suite 145, San Jose, California 95118, USA
3Point Reyes Bird Observatory, 4990 Shoreline Highway, Stinson Beach, California 94970, USA
4Lamont-Doherty Earth Observatory, Palisades, New York 10964, USA
5Laboratory for Hyrdospheric Processes, NASA-Goddard Space Flight Center, Greenbelt, Maryland 20771, USA

ABSTRACT: One of the longest continuing data sets involving a marine organism in the Antarctic is that of annual estimates of breeding population size of Adélie penguins Pygoscelis adeliae at colonies on Ross Island, Ross Sea, 1959 to 1997. The sizes of these colonies have displayed significant interannual variability during the 29-yr period. We hypothesized that changes are related to natural environmental factors; and used path analysis to analyze annual variation in population growth in relation to physical environmental factors during that part of the record with comparable sea-ice satellite imagery from 1973 to 1997. The Ross Sea sector of the Southern Ocean lying north of Ross Island, from 150°E to 130°W, comprised our study area. Annual population growth measured during summer was explained best, and inversely, by the extent of sea-ice in the study area 5 winters earlier, and in some way related to the Southern Oscillation. Analysis of a subset of the sea-ice data from 1979 to 1997 indicated strong correlations to ice conditions in the eastern portion of the study area (174 to 130°W), and virtually no correlations to the western half (150°E to 175°W). This result supported other indirect evidence that the Ross Island penguins winter in the eastern Ross Sea/western Amundsen Sea. A demographic model indicated that variation in survival of juveniles and subadults might account for the observed population variation, and would also explain the 5-yr lag as 5 yr is the average age of recruitment to the summer breeding population. Extensive sea-ice during winter appears to reduce subadult survival, expressed subsequently when these cohorts reach maturation. We hypothesize that extensive (more northerly) sea-ice limits access of penguins to productive waters known to occur south of the southern boundary of the Antarctic Circumpolar Current, with starvation or increased predation disproportionately affecting less-experienced birds. The observed patterns of penguin population change, including those preceding the satellite era, imply that sea-ice extent has changed significantly over recent decades.


KEY WORDS: Adélie penguin · Population regulation · Sea-ice extent · Southern Oscillation · Antarctic Circumpolar Current · Climate change · Ross Sea · Pygoscelis adeliae


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