Introductory comments — Special issue on meso-beta and meso-gamma scale numerical modeling EditorialNotes Pages: 1 - 1
Numerical simulation of a low-precipitation supercell thunderstorm H. E. BrooksR. B. Wilhelmson OriginalPaper Pages: 3 - 17
A three-dimensional numerical sensitivity study of mesoscale circulations induced by circular lakes Z. BoybeyiS. Raman OriginalPaper Pages: 19 - 41
Numerical modeling studies of lee mesolows, mesovortices and mesocyclones with application to the formation of Taiwan mesolows Y. -L. LinN. -H. LinR. P. Weglarz OriginalPaper Pages: 43 - 67
A comprehensive meteorological modeling system—RAMS R. A. PielkeW. R. CottonJ. H. Copeland OriginalPaper Pages: 69 - 91
The role of the convective “trigger function” in numerical forecasts of mesoscale convective systems J. S. KainJ. M. Fritsch OriginalPaper Pages: 93 - 106
Three-dimensional simulation of the Denver 11 July 1988 microburst-producing storm F. H. ProctorR. L. Bowles OriginalPaper Pages: 107 - 124
A 3-D modelsyystem for simulating thunderstorm microburst outflows J. R. AndersonL. G. OrfJ. M. Straka OriginalPaper Pages: 125 - 131
Meso-beta scale numerical simulations of terrain drag-induced along-stream circulations Part I: Midtropospheric frontogenesis M. L. KaplanV. M. Karyampudi OriginalPaper Pages: 133 - 156
Meso-beta scale numerical simulations of terrain drag-induced along-stream circulations. Part II: Concentration of potential vorticity within dryline bulges M. L. KaplanV. M. Karyampudi OriginalPaper Pages: 157 - 185
A comparison of 3D model results with observations for an isolated CCOPE thunderstorm R. D. FarleyS. WangH. D. Orville OriginalPaper Pages: 187 - 207
Nonhydrostatic, mesobeta-scale, real-data simulations with the Penn State University/National Center for Atmospheric Research mesoscale model T. T. WarnerY. -H. KuoN. L. Seaman OriginalPaper Pages: 209 - 227
An explicit three-dimensional nonhydrostatic numerical simulation of a tropical cyclone G. J. Tripoli OriginalPaper Pages: 229 - 254