Climate System Modeling
Herausgeber: Kevin E., Trenberth; Trenberth, Kevin E.
Climate System Modeling
Herausgeber: Kevin E., Trenberth; Trenberth, Kevin E.
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Climate Systems Modeling presents an interdisciplinary and comprehensive study of the dynamics of the whole global system.
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Climate Systems Modeling presents an interdisciplinary and comprehensive study of the dynamics of the whole global system.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 820
- Erscheinungstermin: 21. November 2009
- Englisch
- Abmessung: 246mm x 189mm x 44mm
- Gewicht: 1553g
- ISBN-13: 9780521128377
- ISBN-10: 0521128374
- Artikelnr.: 28530088
- Verlag: Cambridge University Press
- Seitenzahl: 820
- Erscheinungstermin: 21. November 2009
- Englisch
- Abmessung: 246mm x 189mm x 44mm
- Gewicht: 1553g
- ISBN-13: 9780521128377
- ISBN-10: 0521128374
- Artikelnr.: 28530088
Part I. Introduction: 1. Introduction to climate modeling
2. Human components of the climate system
Part II. The Science: Subsystems and Processes: 3. The atmosphere
4. The ocean circulation
5. Land surface
6. Terrestrial ecosystems
7. Atmospheric chemistry
8. Marine biogeochemistry
Part III. Modeling and Parameterization: 9. Climate system simulation: basic numerical and computational concepts
10. Atmospheric general circulation modeling
11. Ocean general circulation modeling
12. Sea ice models
13. Land, ice and climate
14. Biophysical models of land surface processes
15. Chemistry transport methods
16. Biogeochemical ocean models
Part IV. Couplings and Interactions: 17. Global coupled models: atmosphere, ocean, sea ice
18. Tropical Pacific ENSO models: ENSO as a mode of the coupled system
Part V. Sensitivity Experiments and Applications: 19. Climate variability simulated in GCMs
20. Climate-model responses to increased CO2 and other greenhouse gases
21. Modeling large climatic changes of the past
22. Changes in land use
Part VI. Future Prospects: 23. Climate system modeling prospects.
2. Human components of the climate system
Part II. The Science: Subsystems and Processes: 3. The atmosphere
4. The ocean circulation
5. Land surface
6. Terrestrial ecosystems
7. Atmospheric chemistry
8. Marine biogeochemistry
Part III. Modeling and Parameterization: 9. Climate system simulation: basic numerical and computational concepts
10. Atmospheric general circulation modeling
11. Ocean general circulation modeling
12. Sea ice models
13. Land, ice and climate
14. Biophysical models of land surface processes
15. Chemistry transport methods
16. Biogeochemical ocean models
Part IV. Couplings and Interactions: 17. Global coupled models: atmosphere, ocean, sea ice
18. Tropical Pacific ENSO models: ENSO as a mode of the coupled system
Part V. Sensitivity Experiments and Applications: 19. Climate variability simulated in GCMs
20. Climate-model responses to increased CO2 and other greenhouse gases
21. Modeling large climatic changes of the past
22. Changes in land use
Part VI. Future Prospects: 23. Climate system modeling prospects.
Part I. Introduction: 1. Introduction to climate modeling
2. Human components of the climate system
Part II. The Science: Subsystems and Processes: 3. The atmosphere
4. The ocean circulation
5. Land surface
6. Terrestrial ecosystems
7. Atmospheric chemistry
8. Marine biogeochemistry
Part III. Modeling and Parameterization: 9. Climate system simulation: basic numerical and computational concepts
10. Atmospheric general circulation modeling
11. Ocean general circulation modeling
12. Sea ice models
13. Land, ice and climate
14. Biophysical models of land surface processes
15. Chemistry transport methods
16. Biogeochemical ocean models
Part IV. Couplings and Interactions: 17. Global coupled models: atmosphere, ocean, sea ice
18. Tropical Pacific ENSO models: ENSO as a mode of the coupled system
Part V. Sensitivity Experiments and Applications: 19. Climate variability simulated in GCMs
20. Climate-model responses to increased CO2 and other greenhouse gases
21. Modeling large climatic changes of the past
22. Changes in land use
Part VI. Future Prospects: 23. Climate system modeling prospects.
2. Human components of the climate system
Part II. The Science: Subsystems and Processes: 3. The atmosphere
4. The ocean circulation
5. Land surface
6. Terrestrial ecosystems
7. Atmospheric chemistry
8. Marine biogeochemistry
Part III. Modeling and Parameterization: 9. Climate system simulation: basic numerical and computational concepts
10. Atmospheric general circulation modeling
11. Ocean general circulation modeling
12. Sea ice models
13. Land, ice and climate
14. Biophysical models of land surface processes
15. Chemistry transport methods
16. Biogeochemical ocean models
Part IV. Couplings and Interactions: 17. Global coupled models: atmosphere, ocean, sea ice
18. Tropical Pacific ENSO models: ENSO as a mode of the coupled system
Part V. Sensitivity Experiments and Applications: 19. Climate variability simulated in GCMs
20. Climate-model responses to increased CO2 and other greenhouse gases
21. Modeling large climatic changes of the past
22. Changes in land use
Part VI. Future Prospects: 23. Climate system modeling prospects.