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Some features of mean annual windspeed data for coastal East* AntarcticA

Published online by Cambridge University Press:  27 October 2009

N. A. Streten
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Extract

The distribution of mean annual windspeeds at the stations on the coast, and the near coastal plateau, of Antarctica presents a problem of interpretation which apart from its intrinsic interest, is of practical importance in the use of observations for surface synoptic analysis and forecasting. Further, the mean windspeed pattern may throw light on both the gross features of high-latitude Southern Hemisphere circulation and on local peculiarities of topography adjacent to the station.

Type
Articles
Information
Polar Record , Volume 14 , Issue 90 , September 1968 , pp. 315 - 322
Copyright
Copyright © Cambridge University Press 1968

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References

Astapenko, P. D. 1964. Atmospheric processes in the high latitudesof the Southern Hemisphere. Jerusalem, Israel Program for Scientific Translations.Google Scholar
Ball, F. K. 1956. The theory of strong katabatic winds. Australian Journal of Physics, Vol 9, p 373–86.CrossRefGoogle Scholar
Ball, F. K. 1960. Winds on the ice slopes of Antarctica. Antarctic Meteorology. Melbourne, Pergamon Press.Google Scholar
Biter, C. J. and Stinson, J. R. 1966. Deviation between the surface wind and the geostrophic wind on the Antarctic continent. U.S. Navy Weather Research Facility, NWRF Technical paper No 6–66. Norfolk, Virginia.Google Scholar
Dalrymple, P. C. 1963. A physical climatology of the Antarctic Plateau. Ph.D. thesis, Boston University Graduate School.Google Scholar
Dolgushin, L. D. 1961. Zones of snow accumulation in Eastern Antarctica. In: Symposium on Antarctic Glaciology, International Association of Scientific Hydrology, Publication, No 55, p 6370.Google Scholar
Lanterman, W. S. 1960. Operational meteorological problems in Antarctica. Antarctic Meteorology, Melbourne, Pergamon Press.Google Scholar
Mather, K. B. and Miller, G. S. 1967 a. Notes on topographic factors affecting the surface wind in Antarctica with special reference to katabatic winds and bibliography. University of Alaska, Geophysical Institute, Tech. Report UAG, R-189.Google Scholar
Mather, K. B. and Miller, G. S. 1967 b. The problem of the katabatic winds on the coast of Terre Adelie. Polar Record, Vol 13, No 85, p 425–32.CrossRefGoogle Scholar
Navy Weather Research Facility (USN). 1962. Cyclones and anticyclones south of 50° South. Norfolk, Virginia, NWRF, 16–0962–067.Google Scholar
Sallee, R. W. 1967. The use of weather satellites in Antarctica. Antarctic Journal of the United States, Vol 2, No 5, p 216–20.Google Scholar
Streten, N. A. 1963. Some observations of Antarctic katabatic winds. Australian Meteorological Magazine, Vol 24, p 123.Google Scholar
Streten, N. A. 1968. Some aspects of high latitude Southern Hemisphere Summer circulation as viewed by ESSA 3—Summer, 1966–67. Journal of Applied Meteorology, Vol 7, p 324–32.2.0.CO;2>CrossRefGoogle Scholar
Tauaard, J. J. 1967. Development, distribution, and movement of cyclones and anticyclones in the Southern Hemisphere during the IGY. Journal of Applied Meteorology, Vol 6, p 973–87.Google Scholar
Tauber, G. M. 1960. Characteristics of Antarctic katabatic winds. Antarctic Meteorology. Melbourne, Pergamon Press.Google Scholar