The Development of Atmospheric General Circulation Models
Complexity, Synthesis and Computation
Herausgeber: Donner, Leo; Somerville, Richard; Schubert, Wayne
The Development of Atmospheric General Circulation Models
Complexity, Synthesis and Computation
Herausgeber: Donner, Leo; Somerville, Richard; Schubert, Wayne
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Presents unique perspectives from leading researchers on the development and application of atmospheric general circulation models in meteorology and climatology.
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Presents unique perspectives from leading researchers on the development and application of atmospheric general circulation models in meteorology and climatology.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 288
- Erscheinungstermin: 1. März 2018
- Englisch
- Abmessung: 244mm x 170mm x 15mm
- Gewicht: 463g
- ISBN-13: 9781108445696
- ISBN-10: 1108445691
- Artikelnr.: 49443134
- Verlag: Cambridge University Press
- Seitenzahl: 288
- Erscheinungstermin: 1. März 2018
- Englisch
- Abmessung: 244mm x 170mm x 15mm
- Gewicht: 463g
- ISBN-13: 9781108445696
- ISBN-10: 1108445691
- Artikelnr.: 49443134
Foreword Isaac M. Held; 1. Introduction Leo Donner, Wayne Schubert and
Richard Somerville; 2. From Richardson to early numerical weather
prediction Peter Lynch; 3. The evolution and future research goals for
general circulation models Warren Washington and Akira Kasahara; 4. Beyond
prediction to climate modeling and climate control: new perspectives from
the papers of Harry Wexler, 1945-62 James Rodger Fleming; 5. Synergies
between numerical weather prediction and general circulation climate models
Catherine A. Senior, Alberto Arribas, Andrew R. Brown, Michael J. P.
Cullen, Timothy C. Johns, Gillian M. Martin, Sean F. Milton, Stuart Webster
and Keith D. Williams; 6. Contributions of observational studies to the
evaluation and diagnosis of atmospheric GCM simulations Ngar-Cheung Lau; 7.
Coupling atmospheric general circulation to oceans Kirk Bryan; 8. Coupling
atmospheric circulation models to biophysical, biochemical, and biological
processes at the land surface Robert E. Dickinson; 9. The evolution of
complexity in general circulation models David Randall; 10. The
co-evolution of climate models and the Intergovernmental Panel on Climate
Change Richard Somerville; Index.
Richard Somerville; 2. From Richardson to early numerical weather
prediction Peter Lynch; 3. The evolution and future research goals for
general circulation models Warren Washington and Akira Kasahara; 4. Beyond
prediction to climate modeling and climate control: new perspectives from
the papers of Harry Wexler, 1945-62 James Rodger Fleming; 5. Synergies
between numerical weather prediction and general circulation climate models
Catherine A. Senior, Alberto Arribas, Andrew R. Brown, Michael J. P.
Cullen, Timothy C. Johns, Gillian M. Martin, Sean F. Milton, Stuart Webster
and Keith D. Williams; 6. Contributions of observational studies to the
evaluation and diagnosis of atmospheric GCM simulations Ngar-Cheung Lau; 7.
Coupling atmospheric general circulation to oceans Kirk Bryan; 8. Coupling
atmospheric circulation models to biophysical, biochemical, and biological
processes at the land surface Robert E. Dickinson; 9. The evolution of
complexity in general circulation models David Randall; 10. The
co-evolution of climate models and the Intergovernmental Panel on Climate
Change Richard Somerville; Index.
Foreword Isaac M. Held; 1. Introduction Leo Donner, Wayne Schubert and
Richard Somerville; 2. From Richardson to early numerical weather
prediction Peter Lynch; 3. The evolution and future research goals for
general circulation models Warren Washington and Akira Kasahara; 4. Beyond
prediction to climate modeling and climate control: new perspectives from
the papers of Harry Wexler, 1945-62 James Rodger Fleming; 5. Synergies
between numerical weather prediction and general circulation climate models
Catherine A. Senior, Alberto Arribas, Andrew R. Brown, Michael J. P.
Cullen, Timothy C. Johns, Gillian M. Martin, Sean F. Milton, Stuart Webster
and Keith D. Williams; 6. Contributions of observational studies to the
evaluation and diagnosis of atmospheric GCM simulations Ngar-Cheung Lau; 7.
Coupling atmospheric general circulation to oceans Kirk Bryan; 8. Coupling
atmospheric circulation models to biophysical, biochemical, and biological
processes at the land surface Robert E. Dickinson; 9. The evolution of
complexity in general circulation models David Randall; 10. The
co-evolution of climate models and the Intergovernmental Panel on Climate
Change Richard Somerville; Index.
Richard Somerville; 2. From Richardson to early numerical weather
prediction Peter Lynch; 3. The evolution and future research goals for
general circulation models Warren Washington and Akira Kasahara; 4. Beyond
prediction to climate modeling and climate control: new perspectives from
the papers of Harry Wexler, 1945-62 James Rodger Fleming; 5. Synergies
between numerical weather prediction and general circulation climate models
Catherine A. Senior, Alberto Arribas, Andrew R. Brown, Michael J. P.
Cullen, Timothy C. Johns, Gillian M. Martin, Sean F. Milton, Stuart Webster
and Keith D. Williams; 6. Contributions of observational studies to the
evaluation and diagnosis of atmospheric GCM simulations Ngar-Cheung Lau; 7.
Coupling atmospheric general circulation to oceans Kirk Bryan; 8. Coupling
atmospheric circulation models to biophysical, biochemical, and biological
processes at the land surface Robert E. Dickinson; 9. The evolution of
complexity in general circulation models David Randall; 10. The
co-evolution of climate models and the Intergovernmental Panel on Climate
Change Richard Somerville; Index.