The climate of Macquarie Island and its role in atmospheric monitoring

An analysis is made of the principal climatic elements at Macquarie Island in relation to the general circulation of the high latitudes of the southern hemisphere. The climate is characterised by a high frequency of strong west to northwesterly winds and frequent gales, low variability of temperatur...

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Bibliographic Details
Published in:Papers and Proceedings of The Royal Society of Tasmania
Main Author: Streten, NA
Format: Article in Journal/Newspaper
Language:English
Published: 1988
Subjects:
Royal Society of Tasmania
RST
Van Diemens Land
natural history
science
ecology
taxonomy
botany
zoology
geology
geography
papers & proceedings
Australia
UTAS Library
Southern Ocean
Macquarie Island
Online Access:https://eprints.utas.edu.au/13869/
https://eprints.utas.edu.au/13869/4/1988__Streten_climate_of_Macquarie_Island.pdf
Description
Summary:An analysis is made of the principal climatic elements at Macquarie Island in relation to the general circulation of the high latitudes of the southern hemisphere. The climate is characterised by a high frequency of strong west to northwesterly winds and frequent gales, low variability of temperature, a high frequency of low cloud and fog, and a high number of days with precipitation throughout the year. In general, the climate is typical of a higher mid-latitude oceanic island, and its features are compared with others in the circumpolar Southern Ocean. From a different perspective the island occupies a unique geographic site. This makes it extremely valuable as a meteorological observatory, enabling regular surface and upper air observations for day-to-day global analysis and forecasting, and providing climatic data representative of the higher southern mid-latitudes. Despite the advent of new observational techniques (such as satellite-reporting drifting ocean buoys, satellite cloud imagery and satellite-derived atmospheric temperature profiles), the observations from Macquarie Island continue to constitute essential calibration data for space-derived measurements and provide the long-term continuity only possible at a fixed baseline station. The importance of these data is stressed; not only with respect to the standard meteorological observations but also to the measurement of ozone, carbon dioxide and other atmospheric trace constituents which are becoming increasingly recognised as significant in studies of long-term climatic change.

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