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The katabatic winds of Cape Denison and Port Martin

Published online by Cambridge University Press:  27 October 2009

Extract

The Australasian Antarctic Expedition, 1912–14, led by Douglas Mawson, encountered incredibly strong, persistent katabatic winds at Cape Denison and along the coastal stretches of Terre Adélie and George V land (Fig 1). The mean wind speed at Cape Denison was 19.3 ms−1 [43.2 mph] which far surpassed all previous surface wind records. The French expedition of 1950–52 to Port Martin, some 60 km west of Cape Denison, provided confirmation of extraordinary windiness of the region. ordinary windiness of the region. According to Mather and Miller (1967), the winds at coastal Terre Adélie and George V Land are about 70 per cent greater than those recorded at stations similarly located at the foot of the steep ice escarpment. Table 1 lists the mean monthly resultant winds at Cape Denison and Port Martin, along with four other coastal stations known to be influenced by katabatic winds. Included in the table is the record of Dumont d'Urville, situated along the same coastal stretch as Cape Denison and Port Martin. Despite its location on an island 5 km from the base of the ice slopes, Dumont d'Urville frequently experiences strong katabatic winds comparable to most stations located at the base of the steep coastal ice slope. Its wind record reflects the strong katabatic component along Terre Adelie and George V Land.

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Articles
Copyright
Copyright © Cambridge University Press 1981

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References

Ball, F. K. 1956. The theory of strong katabatic winds. Australian Journal of Physics, Vol 9, No 3, p 373–86.CrossRefGoogle Scholar
Ball, F. K. 1957. The katabatic winds of Adélie Land and King George V Land. Tellus, Vol 9, No 2, p 201–08.CrossRefGoogle Scholar
Ball, F. K. 1960. Winds on the ice slopes of Antarctica. In: Antarctic Meteorology, Proceedings of the Symposium held in Melbourne … London, Pergamon Press, p 916.Google Scholar
Drewry, D. J. 1975. Radio echo sounding map of Antarctica. Polar Record, Vol 17, No 109, p 359–74.CrossRefGoogle Scholar
Kidson, E. 1946. Discussion of observations at Adélie Land, Queen Mary Land, and Macquarie Island. Australasian Antarctic Expedition 1911–1914. Scientific Reports, Series B, Vol 6.Google Scholar
Lettau, H. H. and Schwerdtfeger, W. 1967. Dynamics of the surface-wind regime over the interior of Antarctica. Antarctic Journal of the United States, Vol 2, No 5, p 155–58.Google Scholar
Lied, N. T. 1964. Stationary hydraulic jumps in a katabatic flow near Davis Antarctica, 1961. Australian Meteorological Magazine, No 47, p 4051.Google Scholar
Loewe, F. 1974. Considerations concerning the winds of Adélie Land. Zeitschrift für Gletscherkunde und Glazialgeologie, Bd 10, p 189–97.Google Scholar
Mather, K. B. and Miller, G. S. 1967. The problem of katabatic winds on the coast of Terre Adélie. Polar Record, Vol 13, No 85, p 425–32.CrossRefGoogle Scholar
Mawson, D. 1915. The home of the blizzard. London, Heinemann.Google Scholar
Mawson, D. 1939. Sledge journey weather records. Australasian Antarctic Expedition 1911–1914. Scientific Reports, Series B, Vol 5, Part 7.Google Scholar
Parish, T. R. 1980. Surface winds in East Antarctica. Madison, University of Wisconsin. (Unpublished research report.)Google Scholar
Phillpot, H. R. and Zillman, J. W. 1970. The surface temperature inversion over the Antarctic continent. Journal of Geophysical Research, Vol 75, No 21, p 4161–69.CrossRefGoogle Scholar
Schwerdtfeger, W. 1970. The climate of the Antarctic. In: Lansberg, H. E. ed. World survey of climatology. Vol 14. Amsterdam, Elsevier. p 253355.Google Scholar
Streten, N. A. 1968. Some characteristics of strong wind periods in coastal East Antarctica. Journal of Applied Meteorology, Vol 7, No 1, p 4652.2.0.CO;2>CrossRefGoogle Scholar
van Loon, H.and others. 1971. Climate of the upper air. Southern Hemisphere. Vol 111, Vector mean geostrophic winds. Boulder, Colorado. National Center for Atmospheric Research. (NCAR Technical Notes.)Google Scholar