Energy Balance Climate Models
Author(s):
First published:14 August 2017
Print ISBN:9783527411320 |Online ISBN:9783527698844 |DOI:10.1002/9783527698844
© 2017 Wiley‐VCH Verlag GmbH & Co. KGaA
About this book
Written by renowned experts in the field, this first book to focus exclusively on
energy balance climate models provides a concise overview of the topic. It covers
all major aspects, from the simplest zero-dimensional models, proceeding to horizontally
and vertically resolved models.
The text begins with global average models, which are explored in terms of their elementary forms yielding the global average temperature, right up to the incorporation of feedback mechanisms and some analytical properties of interest. The effect of stochastic forcing is then used to introduce natural variability in the models before turning to the concept of stability theory. Other one dimensional or zonally averaged models are subsequently presented, along with various applications, including chapters on paleoclimatology, the inception of continental glaciations, detection of signals in the climate system, and optimal estimation of large scale quantities from point scale data. Throughout the book, the authors work on two mathematical levels: qualitative physical expositions of the subject material plus optional mathematical sections that include derivations and treatments of the equations along with some proofs of stability theorems.
A must-have introduction for policy makers, environmental agencies, and NGOs, as well as climatologists, molecular physicists, and meteorologists.
The text begins with global average models, which are explored in terms of their elementary forms yielding the global average temperature, right up to the incorporation of feedback mechanisms and some analytical properties of interest. The effect of stochastic forcing is then used to introduce natural variability in the models before turning to the concept of stability theory. Other one dimensional or zonally averaged models are subsequently presented, along with various applications, including chapters on paleoclimatology, the inception of continental glaciations, detection of signals in the climate system, and optimal estimation of large scale quantities from point scale data. Throughout the book, the authors work on two mathematical levels: qualitative physical expositions of the subject material plus optional mathematical sections that include derivations and treatments of the equations along with some proofs of stability theorems.
A must-have introduction for policy makers, environmental agencies, and NGOs, as well as climatologists, molecular physicists, and meteorologists.
Author Bios
Gerald R. North is University Distinguished Professor of Atmospheric Sciences Emeritus
at Texas A&M University, having obtained his BS degree in physics from the University
of Tennessee, PhD (1966) in theoretical physics from the University of Wisconsin,
Madison. Among other positions he served eight years as research scientist at Goddard
Space Flight Center before joining Texas A&M in 1986, where he served as department
head 1995-2003. He is a fellow of AAAS, AGU, AMS, and recipient of several awards
including the Jule G. Charney Award of the American Meteorology Society. He has served
as Editor in Chief of the Reviews of Geophysics and Editor in Chief of the Encyclopedia
of the Atmospheric Sciences, 2nd Edition. He has coauthored books on Paleoclimatology
and Atmospheric Thermodynamics.
Kwang-Yul Kim is a professor in climatology and physical oceanography at Seoul National University. Upon graduation from Texas A&M with his Ph.D. degree in physical oceanography he was inducted into the Phi Kappa Phi Honor Society. He authored two books: Fundamentals of Fluid Dynamics and Cyclostationary EOF Analysis. He programmed several new energy balance models.
Kwang-Yul Kim is a professor in climatology and physical oceanography at Seoul National University. Upon graduation from Texas A&M with his Ph.D. degree in physical oceanography he was inducted into the Phi Kappa Phi Honor Society. He authored two books: Fundamentals of Fluid Dynamics and Cyclostationary EOF Analysis. He programmed several new energy balance models.