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Barotropic-Baroclinic instability of mean zonal wind during summer monsoon (1977)

Shukla, J.

Springer

Pure and applied geophysics 115 (1977), S. 1449-1461

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ISSN: 1420-9136

Keywords: Monsoon ; Mean zonal wind ; Barotropic-baroclinic instability

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences , Physics

Notes: Abstract Barotropic-Baroclinic instability of horizontally and vertically shearing mean monsoon flow during July is investigated numerically by using a 10-layer quasi-geostrophic model. The most unstable mode has a wavelength of about 3000 km and westward phase speed of about 15 m sec−1. The most dominant energy conversion is from zonal kinetic energy to eddy kinetic energy. The structure of the most unstable mode is such that the maximum amplitude is concentrated at about 150 mb and the amplitude at the lowest layers is negligibly small. Barotropic instability of the zonal flow at 150 mb seems to be the primary excitation mechanism for the most unstable mode which is also similar to the observed westward propagating waves in the upper troposphere during the monsoon season. The results further suggest that Barotropic-Baroclinic instability of the mean monsoon flow cannot explain the occurrence of monsoon depressions which have their maximum amplitude at the lower levels and are rarely detected at 200 mb.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00874418

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Modelling the depletion and conservation of forestry resources: effects of population and pollution (1997)

Shukla, J. B. ; Dubey, B.

Springer

Journal of mathematical biology 36 (1997), S. 71-94

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ISSN: 1432-1416

Keywords: Key words: Depletion ; Conservation ; Population ; Pollution ; Stability

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Mathematics

Notes: Abstract. In this paper, a mathematical model is proposed to study the depletion of resources in a forest habitat due to the increase of both population and pollution. It is shown that if the rate of pollutant emission into the environment is either population dependent, constant, or periodic, the equilibrium biomass density of the resource settles down to a lower equilibrium than its original carrying capacity, the magnitude of which decreases as the equilibrium levels of the density of population and the concentration of pollutant increase. However, in the case of an instantaneous spill of pollutant into the environment, the equilibrium biomass density decreases with the increase of the equilibrium density of population only. It is found that if the population density and the emission rate of pollutant increase without control, the forestry resource may become extinct. A conservation model is also proposed, the analysis of which shows that the resource biomass can be maintained at a desired level by conserving the forestry resource and by controlling the growth of population and the emission rate of pollutant in the habitat.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s002850050091

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