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REFERENCES

  • Anthes, R. A. 1977. Hurricane model experiments with a new cumulus parameterization scheme. Mon. Wea. Rev. 105, 287399.
  • Carlson, T. N. 1969. Synoptic history of three African disturbances that developed into Atlantic hurricanes. Mon. Wea. Rev. 97, 256277.
  • Charney, J. C. and Eliassen, A. 1964. On the growth of the hurricane depression. J. Atmos. Sci. 21, 6875.
  • Dunnavan, G. M. and Diercks, J. W. 1980. An analysis of Super Typhoon Tip (October 1979) Mon. Wea. Rev. 108, 19151923.
  • Erickson, C. O. and Winston, J. S. 1972. Tropical storms, mid-latitude cloud-bound convections and the autumnal building of the planetary circulation. J. Appl. Meteorol. 11, 2326.
  • Gray, W. M. 1979. Hurricanes: their formation, structure and likely rôle in the tropical circulation. Meteorology over the tropical oceans. Royal Meteorol. Soc., 155218.
  • Izawa, T. 1964. On the mean wind structure of typhoon. Tech. Note No. 2, Meteorological Research Institute, Japan Meteorological Agency.
  • Jones, R. W. 1977. A nested grid for a 3-dimensional model of a tropical cyclone. J. Atmos. Sci. 34, 15281553.
  • Jordan, C. L. 1958. Mean soundings for the West Indies area. J. Meteorol. 15, 9197.
  • JSC 1980 Catalogue of numerical atmospheric models for the First GARP Global Experiment, Part I, 287–340, ICSU/WMO, Joint Scientific Committee, Geneva, April 1980.
  • Kessler, E. 1969. On the distributution and continuity of water substance in atmospheric circulation. Meteorol. Monogr. 10, 184.
  • Koteswaram, P. 1967. On the structure of hurricanes in the upper troposphere and lower stratosphere. Mon. Wea. Rev. 95, 541564.
  • Kuo, H. L. 1974. Further studies of the parameterization of the influence of cumulus convection on large-scale flow. J. Atmos. Sci. 31, 12321240.
  • Kurihara, Y. and Tuleyev, R. E. 1974. Structure of a tropical cyclone developed in a 3-dimensional simulation model. J. Atmos. Sci. 31, 893919.
  • Kurihara, Y. 1975. Budget analysis of a tropical cyclone simulated in an axisymmetric numerical model. J. Atmos. Sci. 32, 2559.
  • Madala, R. V. and Piacsek, S. A. 1975. Numerical simulation of asymmetric hurricanes on a β-plane with vertical shear. Tellus 27, 453468.
  • Manabe, S., Holloway, J. L., Jr. and Stone, H. M. 1970. Tropical circulation in a time-integration of a global model of the atmosphere. J. Atmos. Sci. 27, 580613.
  • McBride, J. L. and Zehr, R. 1981. Observational analysis of tropical cyclone formation. Part II: Comparison of non-developing versus developing systems. J. Atmos. Sci. 38, 11321151.
  • Ooyama, K. 1969. Numerical simulation of the life cycle of tropical cyclones. J. Atmos. Sci. 26, 340.
  • Reed, R. J. and Recker, E. E. 1971. Structure and properties of synoptic-scale wave disturbances in the equatorial western Pacific. J. Atmos. Sci. 28, 11171133.
  • Riehl, H. 1979a. Climate and weather in the tropics, Academic Press, London, p. 611.
  • Riehl, H. 1979b. Recent tropical experiment in the general context of tropical meteorology. Meteorology over the tropical oceans, Royal Meteorol. Soc., 930.
  • Rosenthal, S. L. 1978. Numerical simulation of tropical cyclone development with latent heat release by the resolvable scales. (I) Model description and preliminary results. J. Atmos. Sci. 35, 258271.
  • Rossby, C. G. 1948. On displacements and intensity changes of atmospheric vortices. J. Mar. Res. 7, 175187.
  • Sundqvist, H. 1970. Numerical simulation of the development of tropical cyclones with a 10-layer model (I). Tellus 22, 359390.
  • Sundqvist, H. 1972. Model tropical cyclone behaviour in experiments related to modification attempts. Tellus 24, 612.
  • Yamasaki, M. 1968. Numerical simulation of tropical cyclone development with the use of primitive equations. J. Meteorol. Soc. Japan 46, 178201.
  • Yamasaki, M. 1975. A numerical experiment of the interaction between cumulus convection and larger scale motion. Paper Meteorol. Geophys. 26, 6391.
  • Yanai, M. 1964. Formation of tropical cyclones. Rev. Geophys. 2, 367414.
  • Zehr, R. 1976. Tropical disturbance intensification. Dept. of Atmos. Sci. Paper No. 259, Colorado State University, Ft. Collins, Colorado.