4.2: Atmospheric Wind Systems

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Figure \(\PageIndex{1}\) shows the distribution of sea-level winds and pressure averaged over the year 1989. The map shows strong winds from the west between 40\(^{\circ}\) to 60\(^{\circ}\) latitude, the roaring forties, weak winds in the subtropics near 30\(^{\circ}\) latitude, trade winds from the east in the tropics, and weaker winds from the east along the Equator. The strength and direction of winds in the atmosphere is the result of uneven distribution of solar heating and continental land masses and the circulation of winds in a vertical plane in the atmosphere.

Map of mean annual wind velocity over ocean. — Figure \(\PageIndex{1}\): Map of mean annual wind velocity calculated from Trenberth et al. (1990) and sea-level pressure for 1989 from the NASA Goddard Space Flight Center’s Data Assimilation Office (Schubert et al. 1993). The winds near 140\(^{\circ}\)W in the equatorial Pacific are about 8 m/s.

A cartoon of the distribution of winds in the atmosphere (figure \(\PageIndex{2}\)) shows that the surface winds are influenced by equatorial convection and other processes higher in the atmosphere. The mean value of winds over the ocean is (Wentz et al. 1984): \[U_{10} = 7.4 \ \text{m/s} \nonumber \]

Earth’s atmospheric circulation as driven by solar heating in the tropics and cooling at high latitudes. Upper drawing shows the meridional cells in the atmosphere and the influence of earth’s rotation on the winds. Bottom drawing shows a cross-section through the atmosphere with the two major cells of meridional circulation. — Figure \(\PageIndex{2}\): Sketch of earth’s atmospheric circulation driven by solar heating in the tropics and cooling at high latitudes. Upper: The meridional cells in the atmosphere and the influence of earth’s rotation on the winds. Bottom: Cross-section through the atmosphere showing the two major cells of meridional circulation. After The Open University (1989a: 14).

Maps of surface winds change somewhat with the seasons. The largest changes are in the Indian Ocean and the western Pacific Ocean (figure \(\PageIndex{3}\)). Both regions are strongly influenced by the Asian monsoon. In winter, the cold air mass over Siberia creates a region of high pressure at the surface, and cold air blows southeastward across Japan and on across the hot Kuroshio, extracting heat from the ocean. In summer, the thermal low over Tibet draws warm, moist air from the Indian Ocean leading to the rainy season over India.

Mean, sea-surface winds for July and January, y calculated from the Trenberth et al. 1990 data set. — Figure \(\PageIndex{3}\): Mean, sea-surface winds for July and January calculated from the Trenberth et al. (1990) data set, which is based on the ECMWF reanalyses of weather data from 1980 to 1989. The winds near 140\(^{circ}\)W in the equatorial Pacific are about 8 m/s.

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