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Emperor penguin colony at Cape Washington, Antarctica

Published online by Cambridge University Press:  27 October 2009

Gerald L. Kooyman
Affiliation:
Scholander Hall, Scripps Institution of Oceanography, University of California, San Diego, La Jolla, CA 92093, USA
Donald Croll
Affiliation:
Scholander Hall, Scripps Institution of Oceanography, University of California, San Diego, La Jolla, CA 92093, USA
Sheridan Stone
Affiliation:
Scholander Hall, Scripps Institution of Oceanography, University of California, San Diego, La Jolla, CA 92093, USA
Steven Smith
Affiliation:
Scholander Hall, Scripps Institution of Oceanography, University of California, San Diego, La Jolla, CA 92093, USA

Abstract

This article describes the natural history of a large colony of emperor penguins Aptenodytes for steri, its size, dispersal pattern of chicks, and associations with other bird and mammal species. A mid-season count of 19,364 chicks indicated that about 20–25,000 breeding pairs had been present in June and July. The colony was fragmented into several sub-groups which showed different mean sizes of chicks and survival to fledging. Other species observed included leopard seals Hydrurga leptonyx, the only major predators, which preyed heavily on both adults and fledging chicks. Fledgelings left the colony over a period of about 10 days; departure was an active process in which the chicks walked to the ice edge and dispersed in groups, swimming consistently southward. At this time they were still in about 60% down and weighed about 10 kg, having lost some 30% of the heaviest mass achieved during parental feeding.

Type
Articles
Copyright
Copyright © Cambridge University Press 1990

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References

Budd, G. M. 1961. The biotopes of emperor penguin rookeries. Emu 61: 170–89.CrossRefGoogle Scholar
Jouventin, P. 1975. Mortality parameters in emperor penguins, Aptenodytes forsteri. In: Stonehouse, B. (editor). The biology of penguins. London, MacMillan: 435–46.CrossRefGoogle Scholar
Kooyman, G. L. and Mullins, J. J. In press. Emperor penguin breeding population of the Ross Sea. Proceedings of the Fifth SCAR Symposium.Google Scholar
Kurtz, D. D. and Bromwich, D. H. 1985. A recurring, atmospherically forced polynya in Terra Nova Bay. In: Jacobs, S. S. (editor). Oceanology of the antarctic continental shelf. Washington DC, American Geophysical Union: 177201.CrossRefGoogle Scholar
Müller-Schwarze, D. 1984. The emperor penguin. In: Brown, J. L (editor) The behaviour of penguins: adapted to ice and tropics. Albany, State University of New York Press: 119–26.Google Scholar
Parish, T. R. and Bromwich, D. H. 1987. The surface windfield over the Antarctic ice sheets. Nature 328 (6125): 5154.CrossRefGoogle Scholar
Prévost, J. 1961. Ecologie du manchot empereur. Paris, Herman.Google Scholar
Priestley, R.E. 1914. Antarctic adventure. Toronto, Bell and Cockburn.Google Scholar
Stirling, I. and Greenwood, D. J. 1970. The emperor penguin colony at Cape Washington in the Western Ross Sea, Antarctica. Notomis 17 (4): 277–79.Google Scholar
Stonehouse, B. 1960. The king penguin, Aptenodytes patagonica, of South Georgia. I. Breeding behaviour and development. Scientific Reports of the Falkland Islands Dependencies Survey 23: 181.Google Scholar
Wilson, E.A. 1907. Aves. In Zoology 2. British National Antarctic Expedition Report, 1901–04.Google Scholar