General Meteorology and Basics

• ATKINSON B. W. (1981): Mesoscale Atmospheric Circulation; Academic Press
• BOHR P., KATHE G., KNORR M., KURZ M., LANGE K. D., BUSCHER W. and KASTEN F. (1987): Leitfäden für die Ausbildung im Deutschen Wetterdienst - "Allgemeine Meteorologie"; Selbstverlag des Deutschen Wetterdienstes
• CONWAY B. J., GERARD L., LABROUSSE J., LILJAS E., SENESI S., SUNDE J. and ZWATZ-MEISE V. (1996): COST78 Meteorology - Nowcasting, a survey of current knowledge, techniques and practice; Phase 1 report; Office for official publications of the European Communities
• KOISTINEN J. and SALTIKOFF E. (1998): Radar Meteorology. in: NOMEK/EUMETSAT seminar/course; Norrköping, Sweden, 20 - 24 April 1998
• LILLY D. K. (1986): Instability; in: Ray P. (ed.): Mesoscale Meteorology and Forecasting; American Meteorological Society, p. 259 -271
• MONCHRIEFF M. W. and GREEN J. S. A. (1972): The propagation and transfer properties of steady convective overturning in shear; Quart. J. R. Meteor. Soc., Vol. 98, p. 336 - 353
• MONCRIEFF M. W. and MILLER M. J. (1976): The dynamics and simulation of tropical cumulonimbus and squall lines; Quart. J. R. Meteor. Soc., Vol. 102, p. 373 - 394
• SHOWALTER A. K. (1953): A Stability Index for Thunderstorm forecasting; Bull. Amer. Met. Soc., Vol. 34, No. 6, p. 250 - 252

General Satellite Meteorology

Specific Satellite Meteorology

• BENNETTS D. A., MCCALLUM E. and GRANT J. R. (1986): Cumulonimbus clouds: an introductory review; Met. Mag., Vol. 115, p. 242 - 256
• BISSOLLI P. (1992): Die Entstehung intensiever Gewitter (insbesondere Superzellen) in Mitteleuropa; Monatsarbeit im Rahmen der Referendarausbildung, Ausbildungsabschnitt Geophysikalischer Beratungsdienst
• BROWNING K. A. (1962): Cellular structure of convective storms; Met. Mag., Vol. 91, p. 341 - 350
• BROWNING K. A. and LUDLAM F. H. (1962): Airflow in convective storms; Quart. J. R. Meteor. Soc., Vol. 102, p. 499 -533
• BROWNING K. A., FANKHAUSER J. C., CHALON J.-P., ECCLES P. J., STRAUCH R. G., MERREM F. H., MUSIL D. J., MAY E. L. and SAND W. R. (1976): Structure of an Evolving Hailstorm, Part V: Synthesis and Implications for Hail Growth and Hail Suppression; Mon. Wea. Rev., Vol. 104, p. 603 - 610
• BROWNING K. A. (1985): Morphology and Classification of Middle - Latitude Thunderstorms; in: Kessler E. (ed.): Thunderstorm Morphology and Dynamics; University of Oklahoma Press, Morman and London, p. 133 - 152
• BYERS H. R. and BRAHAM R. R. JR. (1949): The Thunderstorm; U. S. Government Printing Office, Washington, D. C.
• CHALON J.-P., FANKHAUSER J. C. and ECCLES P. J. (1976): Structure of an Evolving Hailstorm, Part I: General Characteristics and Cellular Structure; Mon. Wea. Rev., Vol. 104, p. 564 - 575
• CHANDRASHEKHAR AIYA S. V. and SONDE B. S. (1963): Number of Cells developed during the Lifetime of a Thunderstorm; Nature, Vol. 200, p. 562 - 563
• FANKHAUSER J. G. (1976): Structure of an Evolving Hailstorm, Part II: Thermodynamic Structure and Airflow in the Near Environment; Mon. Wea. Rev., Vol. 104, p. 576 - 587
• KLEMP J. B. and WILHELMSON R. B. (1978): The Simulation of Three - Dimensional Convective Storm Dynamics; J. Atmos. Sci., Vol. 35, p. 1070 - 1096
• MADDOX R. A. (1980): Mesoscale Convective Complexes; Bull. Amer. Met. Soc., Vol. 61, No. 11, p. 1374 - 1387
• MARWITZ J. D. (1972a): The Structure and Motion of Severe Hailstorms, Part I: Supercell Storms; J. Appl. Met., Vol. 11, p. 166 - 179
• MARWITZ J. D. (1972b): The Structure and Motion of Severe Hailstorms, Part II: Multi-Cell Storms; J. Appl. Met., Vol. 11, p. 180 - 188
• MARWITZ J. D. (1972c): The Structure and Motion of Severe Hailstorms, Part III: Severely Shared Storms; J. Appl. Met., Vol. 11, p. 189 - 201
• MUSIL D. J., MAY E. L., SMITH P. L. JR. and SAND W. R. (1976): Structure of an Evolving Hailstorm, Part IV: Internal Structure from Penetrating Aircraft; Mon. Wea. Rev., Vol. 104, p. 596 - 602
• NEWTON C. W. (1967): Severe Convective Storms; Advances in Geophysics, Vol. 12, Academic Press - New York and London, p. 257 - 308
• NEWTON C. W. and FANKHAUSER J. C. (1975): Movement and propagation of multicellular convective storms; Pure Appl. Geophys., Vol. 113, p. 747 - 764
• SCOFIELD R. A. (1990): The "Water Vapour Imagery/Theta E Connection" with Heavy Convective Rainfall; in: EUMETSAT Proceedings of the Workshop on the Use of Satellite Data in Nowcasting and Very Short Range Forecasting; Reading, U. K., 16 - 20 July 1990, p. 173 - 178
• STRAUCH R. G. and MERREM F. H. (1976): Structure of an Evolving Hailstorm, Part III: Internal Structure from Doppler Radar; Mon. Wea. Rev., Vol. 104, p. 588 - 595
• WEISMAN M. L. and KLEMP J. B. (1982): The Dependence of Numerically Simulated Convective Storms on Vertical Wind Shear and Buoyancy; Mon. Wea. Rev., Vol. 110, p. 504 - 520
• WEISMAN M. L. and KLEMP J. B. (1984): The Structure and Classification of Numerically Simulated Convective Storms in Directionally Varying Wind Shears; Mon. Wea. Rev., Vol. 112, p. 2469 - 2498
• WEISMAN M. L. and KLEMP J. B. (1986): Characteristics of Isolated Convective Storms; in: Ray P. (ed.): Mesoscale Meteorology and Forecasting; American Meteorological Society, Boston, p. 331 - 358
• WILHELMSON R. B. (1974): The Life Cycle of a Thunderstorm in Three Dimensions; J. Atmos. Sci., Vol. 31, p. 1629 - 1651
• WINKLER R. (1995): Auftreten von Multi-Cell Storms südlich des Alpenhauptkammes nach Kaltfrontdurchgang; Diploma thesis, University of Vienna