General Circulation Model Development: Past, Present, and Future

Other | July 19, 2000

byDavid A. Randall, David A. Randall

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General Circulation Models (GCMs) are rapidly assuming widespread use as powerful tools for predicting global events on time scales of months to decades, such as the onset of EL Nino, monsoons, soil moisture saturation indices, global warming estimates, and even snowfall predictions. While GCMs have been praised for helping to foretell the current El Nino and its impact on droughts in Indonesia, its full power is only now being recognized by international scientists and governments who seek to link GCMs to help them estimate fish harvests, risk of floods, landslides, and even forest fires.
Scientists in oceanography, hydrology, meteorology, and climatology and civil, ocean, and geological engineers perceive a need for a reference on GCM design. In this compilation of information by an internationally recognized group of experts, Professor Randall brings together the knowledge base of the forerunners in theoretical and applied frontiers of GCM development. General Circulation Model Development focuses on the past, present, and future design of numerical methods for general circulation modeling, as well as the physical parameterizations required for their proper implementation. Additional chapters on climate simulation and other applications provide illustrative examples of state-of-the-art GCM design.

Key Features
* Foreword by Norman Phillips
* Authoritative overviews of current issues and ideas on global circulation modeling by leading experts
* Retrospective and forward-looking chapters by Akio Arakawa of UCLA
* Historical perspectives on the early years of general circulation modeling
* Indispensable reference for researchers and graduate students

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General Circulation Models (GCMs) are rapidly assuming widespread use as powerful tools for predicting global events on time scales of months to decades, such as the onset of EL Nino, monsoons, soil moisture saturation indices, global warming estimates, and even snowfall predictions. While GCMs have been praised for helping to foretell...

Format:OtherDimensions:416 pages, 1 × 1 × 1 inPublished:July 19, 2000Publisher:Elsevier ScienceLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:0080507239

ISBN - 13:9780080507231

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Table of Contents

Contributors. Foreword
Preface
A Arakawa -- Personal Perspective on the Early Years of General Circulation Modeling at UCLA.
P.N. Edwards -- A Brief History of Atmospheric General Circulation Modeling.
J.M. Lewis -- Clarifying the Dynamics of the General Circulation: Phillips's 1956 Experiment.
J. Hansen, et al. -- Climate Modeling in the Global Warming Debate.
M. Halem, J Kouatchou, A. Hudson -- A Retrospective Analysis of the Pioneering Data Assimilation Experiments with the Mintz-Arakawa General Circulation Model.
W. Schubert -- A Retrospective View of Arakawa's Ideas on Cumulus Parameterization.
A. Kasahara -- On the Origin of Cumulus Parameterization for Numerical Prediction Models.
K. Emanuel -- Quasi-Equilibrium Thinking.
S. Moorthi -- Application of Relaxed Arakawa-Schubert Cumulus Parameterization t the NCEP Climate Model: Some Sensitivity Experiments.
M. Ghil & A.W. Robertson -- Solving Problems with GCMs: General Circulation Models and Their Role in the Climate Modeling Hierarchy
A. Hollingsworth -- Prospects for Development of Medium-Range and Extended-Range Forecasts.
T. Tokioka -- Climate Services at the Japan Meteorological Agency Using a General Circulation Model: Dynamical One-Month Prediction.
F. Mesinger -- Numerical Methods: The Arakawa Approach, Horizontal Grid, Global, and Limited-Area Modeling.
J.C. McWilliams -- Formulation of Oceanic General Circulation Models.
N. Zeng, et al. -- Climate and Variability in the First Quasi-Equilibrium Tropical Circulation Model.
A. Sumi -- Climate Simulation Studies at CCSR.
D.A. Randall, R. Heikes, T. Ringer -- Global Atmospheric Modeling Using a Geodesic Grid with an Isentropic Vertical Coordinate.
C.R. Mechoso, J. Yu, A. Arakawa -- A Coupled GCM Pilgrimage: From Climate Catastrophe to ENSO Simulations.
C. Moeng, B. Stevens -- Representing the Stratocumulus-Topped Boundary Layer in GCMs.
S.K. Krueger -- Cloud System Modeling.
R.C.J. Somerville -- Using Single-Column Models to Improve Cloud-Radiation Parameterizations.
D.R. Johnson -- Entropy, the Lorenz Energy Cycle, and Climate.
A. Arakawa -- Future Development of General Circulation Models.
Index.