Mesoscale Meteorology in Midlatitudes
by Markowski, Paul; Richardson, YvetteEdition: 1st
Format: Hardcover
Pub. Date: 2010-02-22
Publisher(s): Wiley
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Summary
Mesoscale Meteorology in Mid-Latitudes presents the dynamics of mesoscale meteorological phenomena in a highly accessible student- friendly way, with mathematical treatments complimented by eye-catching photographs and illustrations. Topics include boundary layer convection, nocturnal low-level jets, air mass boundaries (e.g., drylines, gust fronts, sea breezes), deep moist convection, convection initiation, tornadoes and tornado genesis, mountain meteorology (e.g., topographic gravity waves, downslope windstorms, gap flows, wake vortices), lake-effect snow, cold-air damming, and mesoscale gravity waves. A Survey of Mesoscale Meteorology functions as a well-rounded undergraduate textbook whilst also serving as a reference for graduate students, weather forecasters, and research scientists.The book will provide a comprehensive coverage of the subject and will, in effect, be a one-stop-shop for all students taking a mesoscale meteorology course. The book includes chapters on boundary layer mesoscale phenomena, orographic phenomena, and deep convection with the coverage of deep convection and its initiation more comprehensive than can be found in any other text. The book brings together the latest developments in the field from recent mesoscale field experiments such as the Bow Echo and Mesoscale Convective Vortex Experiment (BAMEX), the Verification of the Origins of Rotation in Tornadoes Experiment (VORTEX), and the International H2O Project (IHOP)] and is richly illustrated throughout in full colour.
Author Biography
Paul M. Markowski is an American meteorologist and leading expert on tornadogenesis and the forecasting of supercells and tornadoes. He was a principal investigator for the IHOP, PAMREX, and VORTEX2 field projects and, with Joshua Wurman, Howard Bluestein, et al., was on the VORTEX2 Steering Committee.
Yvette Richardson is the author of Mesoscale Meteorology in Midlatitudes, published by Wiley.
Table of Contents
| Series Foreward | p. xi |
| Preface | p. xiii |
| Acknowledgments | p. xv |
| List of Symbols | p. xvii |
| General Principles | p. 1 |
| What is the Mesoscale? | p. 3 |
| Space and time scales | p. 3 |
| Dynamical distinctions between the mesoscale and synoptic scale | p. 5 |
| Basic Equations and Tools | p. 11 |
| Thermodynamics | p. 11 |
| Mass conservation | p. 16 |
| Momentum equations | p. 17 |
| Vorticity and circulation | p. 21 |
| Pressure perturbations | p. 25 |
| Thermodynamic diagrams | p. 32 |
| Hodographs | p. 34 |
| Mesoscale Instabilities | p. 41 |
| Static instability | p. 41 |
| Centrifugal instability | p. 48 |
| Inertial instability | p. 49 |
| Symmetric instability | p. 53 |
| Shear instability | p. 58 |
| Lower Tropospheric Mesoscale Phenomena | p. 71 |
| The Boundary Layer | p. 73 |
| The nature of turbulent fluxes | p. 73 |
| Surface energy budget | p. 82 |
| Structure and evolution of the boundary layer | p. 83 |
| Boundary layer convection | p. 88 |
| Lake-effect convection | p. 93 |
| Urban boundary layers | p. 103 |
| The nocturnal low-Level wind maximum | p. 105 |
| Air Mass Boundaries | p. 115 |
| Synoptic fronts | p. 117 |
| Drylines | p. 132 |
| Outflow boundaries | p. 140 |
| Mesoscale boundaries originating from differential surface heating | p. 149 |
| Mesoscale Gravity Waves | p. 161 |
| Basic wave conventions | p. 161 |
| Internal gravity wave dynamics | p. 165 |
| Wave reflection | p. 170 |
| Critical levels | p. 172 |
| Structure and environments of ducted mesoscale gravity waves | p. 173 |
| Bores | p. 175 |
| Deep Moist Convection | p. 181 |
| Convection Initiation | p. 183 |
| Requisites for convection initiation and the role of larger scales | p. 183 |
| Mesoscale complexities of convection initiation | p. 189 |
| Moisture convergence | p. 195 |
| Elevated convection | p. 197 |
| Organization of Isolated Convection | p. 201 |
| Rote of vertical wind shear | p. 201 |
| Single-cell convection | p. 206 |
| Multicellular convection | p. 209 |
| Supercellular convection | p. 213 |
| Mesoscale Convective Systems | p. 245 |
| General characteristics | p. 245 |
| Squall line structure | p. 249 |
| Squall line maintenance | p. 253 |
| Rear inflow and bow echoes | p. 260 |
| Mesoscale convective complexes | p. 265 |
| Hazards Associated with Deep Moist Convection | p. 273 |
| Tornadoes | p. 273 |
| Nontornadic, damaging straight-Line winds | p. 292 |
| Hailstorms | p. 306 |
| Flash floods | p. 309 |
| Orographic Mesoscale Phenomena | p. 315 |
| Thermally Forced Winds in Mountainous Terrain | p. 317 |
| Slope winds | p. 317 |
| Valley winds | p. 320 |
| Mountain Waves and Downslope Windstorms | p. 327 |
| Internal gravity waves forced by two-dimensional terrain | p. 327 |
| Gravity waves forced by isolated peaks | p. 332 |
| Downslope windstorms | p. 333 |
| Rotors | p. 342 |
| Blocking of the Wind by Terrain | p. 343 |
| Factors that govern whether air flows over or around a terrain obstacle | p. 343 |
| Orographically trapped cold-air surges | p. 346 |
| Lee vortices | p. 351 |
| Gap flows | p. 358 |
| Appendix | p. 367 |
| A Radar and Its Applications | p. 369 |
| Radar basics | p. 369 |
| Doppler radar principles | p. 371 |
| Applications | p. 374 |
| References | p. 389 |
| Index | p. 399 |
| Table of Contents provided by Ingram. All Rights Reserved. |
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