Precipitating atmospheric convection is fundamental to the Earth's weather and climate. It plays a leading role in the heat, moisture and momentum budgets. Appropriate modelling of convection is thus a prerequisite for reliable numerical weather prediction and climate modelling. The current standard approach is to represent it by subgrid-scale convection parameterization. Parameterization of Atmospheric Convection provides, for the first time, a comprehensive presentation of this important topic. The two-volume set equips readers with a firm grasp of the wide range of important issues, and thorough coverage is given of both the theoretical and practical aspects. This makes the parameterization problem accessible to a wider range of scientists than before. At the same time, by providing a solid bottom-up presentation of convection parameterization, this set is the definitive reference point for atmospheric scientists and modellers working on such problems. Volume 1 of this two-volume set focuses on the basic principles: introductions to atmospheric convection and tropical dynamics, explanations and discussions of key parameterization concepts, and a thorough and critical exploration of the mass-flux parameterization framework, which underlies the methods currently used in almost all operational models and at major climate modelling centres. Volume 2 focuses on the practice, which also leads to some more advanced fundamental issues. It includes: perspectives on operational implementations and model performance, tailored verification approaches, the role and representation of cloud microphysics, alternative parameterization approaches, stochasticity, criticality, and symmetry constraints. Contents:Volume 1:Basic Parameterization Concepts and Issues:Moist Atmospheric Convection: An Introduction and Overview (A HorvAith)Sub-Grid Parameterization Problem (J-I Yano)Scale Separation (J-I Yano)Quasi-Equilibrium (R S Plant and J-I Yano)Tropical Dynamics: Large-Scale Convectively Coupled Waves (A½ Fuchs)Mass-Flux Parameterization:Hot-Tower Hypothesis and Mass-Flux Formulation (J-I Yano)Formulation of the Mass-Flux Convective Parameterization (J-I Yano)Thermodynamic Effects of Convection under the Mass-Flux Formulation (J-I Yano)Spectral and Bulk Mass-Flux Representations (R S Plant and O MartAsnez-Alvarado)Entrainment and Detrainment Formulations for Mass-Flux Parameterization (W C de Rooy, J-I Yano, P Bechtold and S J BAping)Closure (J-I Yano and R S Plant)Convective Vertical Velocity (J-I Yano)Downdraughts (J-I Yano)Momentum Transfer (J-I Yano)Volume 2:Operational Issues:Convection in Global Numerical Weather Prediction (P Bechtold)Satellite Observations of Convection and Their Implications for Parameterizations (J Quaas and P Stier)Convection and Waves on Small Planets and the Real Earth (P Bechtold, N Semane and S Malardel)Microphysics of Convective Cloud and Its Treatment in Parameterization (V T J Phillips and J-I Yano)Model Resolution Issues and New Approaches in the Convection-Permitting Regimes (L Gerard)Stochastic Aspects of Convective Parameterization (R S Plant, L Bengtsson and M A Whitall)Verification of High-Resolution Precipitation Forecast with Radar-Based Data (D AezAiAovAi, B Szintai, B Jakubiak, J-I Yano and S Turner)Unification and Consistency:Formulations of Moist Thermodynamics for Atmospheric Modelling (P Marquet and J-F Geleyn)Representation of Microphysical Processes in Cloud-Resolving Models (A P Khain)Cumulus Convection as a Turbulent Flow (A Grant)Clouds and Convection as Subgrid-Scale Distributions (E Machulskaya)Towards a Unified and Self-Consistent Parameterization Framework (J-I Yano, L Bengtsson, J-F Geleyn and R Brozkova)Theoretical Physics Perspectives:Regimes of Self-Organized Criticality in Atmospheric Convection (F Spineanu, M Vlad and D Palade)Invariant and Conservative Parameterization Schemes (A Bihlo, E Dos Santos Cardoso-Bihlo and R O Popovych)Conclusions:Conclusions (R S Plant and J-I Yano) Readership: Atmospheric scientists and modellers. Key Features:The first coherent book to focus on convective parameterization for climate modelling and numerical weather predictionClear focus on the underpinning theory of parameterization, and its possible extensionsPlaces current efforts to improve parameterizations firmly into the theoretical context rather than focusing on details of the technical implementation or changes to overall model performanceKeywords:Atmospheric Convection;Parameterization;Numerical Modelling;Numerical Weather Prediction;Global Climate ModellingThis cannot be evaluated, not least because the set of model variables for which the PDF has been written does not ... However, these source terms cannot obviously be represented as functions of {v, Ic l , qt} only, to be closed in Eq. 2.15 for theanbsp;...

Title | : | Parameterization of Atmospheric Convection |

Author | : | Robert S Plant, Jun-Ichi Yano |

Publisher | : | World Scientific - 2015-08-21 |

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