Stochastic Physics and Climate Modelling

Stochastic Physics and Climate Modelling

Stochastic Physics and Climate Modelling
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ISBN-10:
110844699X
ISBN-13:
9781108446990
Pub. Date:
03/01/2018
Publisher:
Cambridge University Press
ISBN-10:
110844699X
ISBN-13:
9781108446990
Pub. Date:
03/01/2018
Publisher:
Cambridge University Press
Stochastic Physics and Climate Modelling

Stochastic Physics and Climate Modelling

Overview

This is the first book to promote the use of stochastic, or random, processes to understand, model and predict our climate system. One of the most important applications of this technique is in the representation of comprehensive climate models of processes which, although crucial, are too small or fast to be explicitly modeled. The book shows how stochastic methods can lead to improvements in climate simulation and prediction, compared with more conventional bulk-formula parameterization procedures. Beginning with expositions of the relevant mathematical theory, the book moves on to describe numerous practical applications. It covers the complete range of time scales of climate variability, from seasonal to decadal, centennial, and millennial. With contributions from leading experts in climate physics, this book is invaluable to anyone working on climate models, including graduate students and researchers in the atmospheric and oceanic sciences, numerical weather forecasting, climate prediction, climate modeling, and climate change.

Product Details

ISBN-13: 9781108446990
Publisher: Cambridge University Press
Publication date: 03/01/2018
Edition description: Reprint
Pages: 496
Product dimensions: 6.69(w) x 9.65(h) x 0.98(d)
Language: Italian

About the Author

Tim Palmer is Head of the Probability Forecasting and Diagnostics Division at the European Centre for Medium-Range Weather Forecasts (ECMWF). He has won the Royal Society Esso Energy Award, the Royal Meteorological Society Adrian Gill Prize, and the American Meteorological Society Jule Charney Award. He is a fellow of the Royal Society, the Royal Meteorological Society, the American Meteorological Society, and Academia Europaea. He is a lead author of the Intergovernmental Panel on Climate Change (IPCC), co-chair of the Scientific Steering Group of the UN World Meteorological Organisation's Climate Variability and Predictability (CLIVAR) project, and coordinator of two European Union climate prediction projects (PROVOST and DEMETER). He has had numerous appearances on radio and TV, in relation to weather, climate and chaos theory, and has co-edited another book with Cambridge University Press - Predictability of Weather and Climate - in 2006.

Paul Williams is a Research Fellow at the Department of Meteorology, University of Reading. He has won the Royal Astronomical Society Blackwell Prize in (2004) and the Royal Meteorological Society Rupert Ford Award (2005), and has received a prestigious Crucible Fellowship from the National Endowment for Science, Technology and the Arts (2007). He was the lead author of a climate change report commissioned and published by the European Parliament (2004). He is a Fellow of the Royal Meteorological Society, the Institute of Physics, and the Royal Astronomical Society. His research findings have been reported widely in the media, including feature articles in New Scientist and the Financial Times, and a panel discussion on BBC Radio 4.

Table of Contents

Preface Tim Palmer and Paul Williams; Introduction: stochastic physics and climate modelling Tim Palmer and Paul Williams; 1. Mechanisms of climate variability from years to decades Geoffrey Vallis; 2. Empirical model reduction and the modeling hierarchy in climate dynamics and the geosciences Sergey Kravtsov, Dmitri Kondrashov and Michael Ghil; 3. An applied mathematics perspective on stochastic modelling for climate Andrew J. Majda, Christian Franzke and Boualem Khouider; 4. Predictability in nonlinear dynamical systems with model uncertainty Jinqiao Duan; 5. On modelling physical systems with stochastic models: diffusion versus Lévy processes Cécile Penland and Brian D. Ewald; 6. First passage time analysis for climate prediction Peter C. Chu; 7. Effects of stochastic parametrization on conceptual climate models Daniel S. Wilks; 8. Challenges in stochastic modelling of quasigeostrophic turbulence Timothy DelSole; 9. Orientation of eddy fluxes in geostrophic turbulence Balasubramanya T. Nadiga; 10. Stochastic theories for the irregularity of ENSO Richard Kleeman; 11. Stochastic models of the meridional overturning circulation: time scales and patters of variability Adam H. Monahan, Julie Alexander and Andrew J. Weaver; 12. A stochastic dynamical systems view of the Atlantic Multidecadal Oscillation Henk A. Dijkstra, Leela M. Frankcombe and Anna S. von der Heydt; 13. Centennial-to-millennial-scale Holocene climate variability in the North Atlantic region induced by noise Matthias Prange, Jochen I. Jongma and Michael Schulz; 14. Cloud radiative interactions and their uncertainty in climate models Adrian Tompkins and Francesca Di Giuseppe; 15. Impact of a quasi-stochastic cellular automaton backscatter scheme on the systematic error and seasonal prediction skill of a global climate model Judith Berner, Francisco Doblas-Reyes, Tim Palmer, Glenn J. Shutts and Antje Weisheimer; 16. Rethinking convective quasi-equilibrium: observational constraints for stochastic convective schemes in climate models J. David Neelin, Ole Peters, Katrina Hales, Christopher E. Holloway and Johnny W. B. Lin; 17. Comparison of stochastic parametrization approaches in a single-column model Michael A. W. Ball and Robert S. Plant; 18. Stochastic parametrization of multiscale processes using a dual-grid approach Thomas Allen, Glenn J. Shutts and Judith Berner; Index.
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