Physically-Based Modelling and Simulation of Climate and Climatic Change: Part 1 - Softcover

Synopsis

I - Design and Development of Physically-Based Models of the Atmosphere.- Section 1 - Introduction.- Climate and the Climate System.- Atmospheric General Circulation Models: Their Design and Use for Climate Studies.- Section 2 - Numerical Methods for Large-Scale Dynamics.- Finite-Difference Methods in Climate Modeling.- Spectral Methods in Global Climate and Weather Prediction Models.- Section 3 - Parameterization of Subgrid-Scale Physical Processes.- Radiative Transfer in Climate Models.- Land Surface Processes.- A Brief Description of the Simple Biosphere Model (SiB).- Parameterization of the Planetary Boundary Layer in Large-Scale Atmospheric Models.- Parameterization of Cumulus Convection in Large-Scale Models.- Parameterization of Condensation and Associated Clouds in Models for Weather Prediction and General Circulation Simulation.- II - Design and Development of Physically-Based Models of the Ocean and Sea Ice.- Modelling and Simulation of the General Circulation of the Ocean.- Modelling Sea Ice Thermodynamics and Dynamics in Climate Studies.- III - Methods of Coupling Atmosphere, Ocean and Ice Models.- Efficient Methods for Finding the Equilibrium Climate of Coupled Ocean-Atmosphere Models.- Some Problems in the Numerical Simulation of Climate Variability Using High-Resolution Coupled Models.

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