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Beschreibung
This book is designed for first- and second-year university students (and their instructors) in earth science, environmental science, and physical geography degree programmes worldwide. The summaries at the end of each section constitute essential reading for policy makers and planners. It provides a simple but masterly account, with a minimum of equations, of how the Earth's climate system works, of the physical processes that have given rise to the long sequence of glacial and interglacial periods of the Quaternary, and that will continue to cause the climate to evolve. Its straightforward and elegant description, with an abundance of well chosen illustrations, focuses on different time scales, and includes the most recent research in climate science by the United Nations Intergovernmental Panel on Climate Change (IPCC). It shows how it is human behaviour that will determine whether or not the present century is a turning point to a new climate, unprecedented on Earth in the last several million years.
This book is designed for first- and second-year university students (and their instructors) in earth science, environmental science, and physical geography degree programmes worldwide. The summaries at the end of each section constitute essential reading for policy makers and planners. It provides a simple but masterly account, with a minimum of equations, of how the Earth's climate system works, of the physical processes that have given rise to the long sequence of glacial and interglacial periods of the Quaternary, and that will continue to cause the climate to evolve. Its straightforward and elegant description, with an abundance of well chosen illustrations, focuses on different time scales, and includes the most recent research in climate science by the United Nations Intergovernmental Panel on Climate Change (IPCC). It shows how it is human behaviour that will determine whether or not the present century is a turning point to a new climate, unprecedented on Earth in the last several million years.
Inhaltsverzeichnis
Foreword xiii
Acknowledgements xv
About the companion website xvii
Introduction 1
PART I: THE CLIMATE ENGINE OF THE EARTH: ENERGY 5
1. Why are there many different climates on Earth? 7
2. Different climates . . . such diversity of life 11
2.1. The different climates on Earth 11
2.2. Climates, biomes and biodiversity 13
2.3. Climate and society 17
3. From a patchwork of climates to an average climate 19
3.1. Temperature and thermal equilibrium 19
3.2. The average temperature of the Earth's surface 21
3.3. Precipitation 24
3.4. Wind 25
3.5. Three major items in energy consumption 26
4. The global mean climate 27
4.1. The Sun, source of energy 27
4.2. The energy equilibrium at the Earth's surface 28
5. Atmosphere and ocean: key factors in climate equilibrium 33
5.1. Driving forces 34
5.2. The atmosphere 34
5.3. The oceans 42
5.4. Heat transport from the Equator to the poles 51
Part I: Summary 53
Part I: Notes 54
Part I: Further reading 54
PART II: MORE ON THE ENERGY BALANCE OF THE PLANET 55
6. Thermal radiation, solar and terrestrial radiation 57
6.1. Thermal radiation from a black body 57
6.2. The laws of black?]body radiation 58
6.3. Solar and terrestrial radiation 59
7. The impact of the atmosphere on radiation 61
7.1. Scattering and reflection 61
7.2. Absorption by a gas - the cut?]off approximation 62
7.3. Absorption of solar and terrestrial radiation by atmospheric gases 64
7.4. Direct transfer by the atmosphere 68
7.5. Major atmospheric constituents involved in radiative transfer 69
8. Radiative transfer through the atmosphere 73
8.1. Three radiative mechanisms that heat or cool the Earth's surface 73
8.2. The greenhouse effect 78
8.3. Radiative transfer: the roles of the different constituents 83
8.4. The radiation balance of the Earth 86
9. The energy balance 87
9.1. The energy balance at the surface of the Earth in the single?]layer model 87
9.2. The Earth's energy balance at equilibrium 89
9.3. The impact of human activity 91
9.4. The present unbalanced global energy budget 91
10. Climate forcing and feedback 93
10.1. Climate forcing 93
10.2. Feedbacks 95
10.3. Climate sensitivity 98
11. Climate modelling 99
11.1. The Energy Balance and Radiative-Convective Models 99
11.2. Three-dimensional Atmosphere Global Circulation Models 101
11.3. Three-dimensional models: ever-increasing refinements 103
11.4. Climate models - what for? 104
Part II. Summary 105
Part II. Notes 106
Part II. Further reading 107
PART III: THE DIFFERENT CAUSES OF CLIMATE CHANGE 109
12. The choice of approach 111
13. The Sun's emission 115
13.1. The impact on the climate 115
13.2. How emission varies 115
13.3. What are the consequences? 117
14. The position of the Earth with respect to the Sun 119
14.1. An overview 119
14.2. Irradiance, determined by orbital parameters 120
14.3. Changes in obliquity: the impact on the seasons 120
14.4. Changes in the Earth's orbit and eccentricity: the impact on the Earth-Sun distance 122
14.5. Precession of the axis of rotation: the impact on the Earth-Sun distance at different seasons 124
14.6. Chan
Acknowledgements xv
About the companion website xvii
Introduction 1
PART I: THE CLIMATE ENGINE OF THE EARTH: ENERGY 5
1. Why are there many different climates on Earth? 7
2. Different climates . . . such diversity of life 11
2.1. The different climates on Earth 11
2.2. Climates, biomes and biodiversity 13
2.3. Climate and society 17
3. From a patchwork of climates to an average climate 19
3.1. Temperature and thermal equilibrium 19
3.2. The average temperature of the Earth's surface 21
3.3. Precipitation 24
3.4. Wind 25
3.5. Three major items in energy consumption 26
4. The global mean climate 27
4.1. The Sun, source of energy 27
4.2. The energy equilibrium at the Earth's surface 28
5. Atmosphere and ocean: key factors in climate equilibrium 33
5.1. Driving forces 34
5.2. The atmosphere 34
5.3. The oceans 42
5.4. Heat transport from the Equator to the poles 51
Part I: Summary 53
Part I: Notes 54
Part I: Further reading 54
PART II: MORE ON THE ENERGY BALANCE OF THE PLANET 55
6. Thermal radiation, solar and terrestrial radiation 57
6.1. Thermal radiation from a black body 57
6.2. The laws of black?]body radiation 58
6.3. Solar and terrestrial radiation 59
7. The impact of the atmosphere on radiation 61
7.1. Scattering and reflection 61
7.2. Absorption by a gas - the cut?]off approximation 62
7.3. Absorption of solar and terrestrial radiation by atmospheric gases 64
7.4. Direct transfer by the atmosphere 68
7.5. Major atmospheric constituents involved in radiative transfer 69
8. Radiative transfer through the atmosphere 73
8.1. Three radiative mechanisms that heat or cool the Earth's surface 73
8.2. The greenhouse effect 78
8.3. Radiative transfer: the roles of the different constituents 83
8.4. The radiation balance of the Earth 86
9. The energy balance 87
9.1. The energy balance at the surface of the Earth in the single?]layer model 87
9.2. The Earth's energy balance at equilibrium 89
9.3. The impact of human activity 91
9.4. The present unbalanced global energy budget 91
10. Climate forcing and feedback 93
10.1. Climate forcing 93
10.2. Feedbacks 95
10.3. Climate sensitivity 98
11. Climate modelling 99
11.1. The Energy Balance and Radiative-Convective Models 99
11.2. Three-dimensional Atmosphere Global Circulation Models 101
11.3. Three-dimensional models: ever-increasing refinements 103
11.4. Climate models - what for? 104
Part II. Summary 105
Part II. Notes 106
Part II. Further reading 107
PART III: THE DIFFERENT CAUSES OF CLIMATE CHANGE 109
12. The choice of approach 111
13. The Sun's emission 115
13.1. The impact on the climate 115
13.2. How emission varies 115
13.3. What are the consequences? 117
14. The position of the Earth with respect to the Sun 119
14.1. An overview 119
14.2. Irradiance, determined by orbital parameters 120
14.3. Changes in obliquity: the impact on the seasons 120
14.4. Changes in the Earth's orbit and eccentricity: the impact on the Earth-Sun distance 122
14.5. Precession of the axis of rotation: the impact on the Earth-Sun distance at different seasons 124
14.6. Chan
Details
| Erscheinungsjahr: | 2015 |
|---|---|
| Genre: | Geowissenschaften |
| Rubrik: | Naturwissenschaften & Technik |
| Medium: | Taschenbuch |
| Seiten: | 416 |
| Inhalt: | 416 S. |
| ISBN-13: | 9781118708514 |
| ISBN-10: | 1118708512 |
| Sprache: | Englisch |
| Herstellernummer: | 1W118708510 |
| Autor: |
Mélières, Marie-Antoinette
Maréchal, Chloé |
| Auflage: | 1. Auflage |
| Hersteller: |
Wiley & Sons
Wiley-Blackwell |
| Maße: | 279 x 217 x 18 mm |
| Von/Mit: | Marie-Antoinette Mélières (u. a.) |
| Erscheinungsdatum: | 24.04.2015 |
| Gewicht: | 1,174 kg |
Inhaltsverzeichnis
Foreword xiii
Acknowledgements xv
About the companion website xvii
Introduction 1
PART I: THE CLIMATE ENGINE OF THE EARTH: ENERGY 5
1. Why are there many different climates on Earth? 7
2. Different climates . . . such diversity of life 11
2.1. The different climates on Earth 11
2.2. Climates, biomes and biodiversity 13
2.3. Climate and society 17
3. From a patchwork of climates to an average climate 19
3.1. Temperature and thermal equilibrium 19
3.2. The average temperature of the Earth's surface 21
3.3. Precipitation 24
3.4. Wind 25
3.5. Three major items in energy consumption 26
4. The global mean climate 27
4.1. The Sun, source of energy 27
4.2. The energy equilibrium at the Earth's surface 28
5. Atmosphere and ocean: key factors in climate equilibrium 33
5.1. Driving forces 34
5.2. The atmosphere 34
5.3. The oceans 42
5.4. Heat transport from the Equator to the poles 51
Part I: Summary 53
Part I: Notes 54
Part I: Further reading 54
PART II: MORE ON THE ENERGY BALANCE OF THE PLANET 55
6. Thermal radiation, solar and terrestrial radiation 57
6.1. Thermal radiation from a black body 57
6.2. The laws of black?]body radiation 58
6.3. Solar and terrestrial radiation 59
7. The impact of the atmosphere on radiation 61
7.1. Scattering and reflection 61
7.2. Absorption by a gas - the cut?]off approximation 62
7.3. Absorption of solar and terrestrial radiation by atmospheric gases 64
7.4. Direct transfer by the atmosphere 68
7.5. Major atmospheric constituents involved in radiative transfer 69
8. Radiative transfer through the atmosphere 73
8.1. Three radiative mechanisms that heat or cool the Earth's surface 73
8.2. The greenhouse effect 78
8.3. Radiative transfer: the roles of the different constituents 83
8.4. The radiation balance of the Earth 86
9. The energy balance 87
9.1. The energy balance at the surface of the Earth in the single?]layer model 87
9.2. The Earth's energy balance at equilibrium 89
9.3. The impact of human activity 91
9.4. The present unbalanced global energy budget 91
10. Climate forcing and feedback 93
10.1. Climate forcing 93
10.2. Feedbacks 95
10.3. Climate sensitivity 98
11. Climate modelling 99
11.1. The Energy Balance and Radiative-Convective Models 99
11.2. Three-dimensional Atmosphere Global Circulation Models 101
11.3. Three-dimensional models: ever-increasing refinements 103
11.4. Climate models - what for? 104
Part II. Summary 105
Part II. Notes 106
Part II. Further reading 107
PART III: THE DIFFERENT CAUSES OF CLIMATE CHANGE 109
12. The choice of approach 111
13. The Sun's emission 115
13.1. The impact on the climate 115
13.2. How emission varies 115
13.3. What are the consequences? 117
14. The position of the Earth with respect to the Sun 119
14.1. An overview 119
14.2. Irradiance, determined by orbital parameters 120
14.3. Changes in obliquity: the impact on the seasons 120
14.4. Changes in the Earth's orbit and eccentricity: the impact on the Earth-Sun distance 122
14.5. Precession of the axis of rotation: the impact on the Earth-Sun distance at different seasons 124
14.6. Chan
Acknowledgements xv
About the companion website xvii
Introduction 1
PART I: THE CLIMATE ENGINE OF THE EARTH: ENERGY 5
1. Why are there many different climates on Earth? 7
2. Different climates . . . such diversity of life 11
2.1. The different climates on Earth 11
2.2. Climates, biomes and biodiversity 13
2.3. Climate and society 17
3. From a patchwork of climates to an average climate 19
3.1. Temperature and thermal equilibrium 19
3.2. The average temperature of the Earth's surface 21
3.3. Precipitation 24
3.4. Wind 25
3.5. Three major items in energy consumption 26
4. The global mean climate 27
4.1. The Sun, source of energy 27
4.2. The energy equilibrium at the Earth's surface 28
5. Atmosphere and ocean: key factors in climate equilibrium 33
5.1. Driving forces 34
5.2. The atmosphere 34
5.3. The oceans 42
5.4. Heat transport from the Equator to the poles 51
Part I: Summary 53
Part I: Notes 54
Part I: Further reading 54
PART II: MORE ON THE ENERGY BALANCE OF THE PLANET 55
6. Thermal radiation, solar and terrestrial radiation 57
6.1. Thermal radiation from a black body 57
6.2. The laws of black?]body radiation 58
6.3. Solar and terrestrial radiation 59
7. The impact of the atmosphere on radiation 61
7.1. Scattering and reflection 61
7.2. Absorption by a gas - the cut?]off approximation 62
7.3. Absorption of solar and terrestrial radiation by atmospheric gases 64
7.4. Direct transfer by the atmosphere 68
7.5. Major atmospheric constituents involved in radiative transfer 69
8. Radiative transfer through the atmosphere 73
8.1. Three radiative mechanisms that heat or cool the Earth's surface 73
8.2. The greenhouse effect 78
8.3. Radiative transfer: the roles of the different constituents 83
8.4. The radiation balance of the Earth 86
9. The energy balance 87
9.1. The energy balance at the surface of the Earth in the single?]layer model 87
9.2. The Earth's energy balance at equilibrium 89
9.3. The impact of human activity 91
9.4. The present unbalanced global energy budget 91
10. Climate forcing and feedback 93
10.1. Climate forcing 93
10.2. Feedbacks 95
10.3. Climate sensitivity 98
11. Climate modelling 99
11.1. The Energy Balance and Radiative-Convective Models 99
11.2. Three-dimensional Atmosphere Global Circulation Models 101
11.3. Three-dimensional models: ever-increasing refinements 103
11.4. Climate models - what for? 104
Part II. Summary 105
Part II. Notes 106
Part II. Further reading 107
PART III: THE DIFFERENT CAUSES OF CLIMATE CHANGE 109
12. The choice of approach 111
13. The Sun's emission 115
13.1. The impact on the climate 115
13.2. How emission varies 115
13.3. What are the consequences? 117
14. The position of the Earth with respect to the Sun 119
14.1. An overview 119
14.2. Irradiance, determined by orbital parameters 120
14.3. Changes in obliquity: the impact on the seasons 120
14.4. Changes in the Earth's orbit and eccentricity: the impact on the Earth-Sun distance 122
14.5. Precession of the axis of rotation: the impact on the Earth-Sun distance at different seasons 124
14.6. Chan
Details
| Erscheinungsjahr: | 2015 |
|---|---|
| Genre: | Geowissenschaften |
| Rubrik: | Naturwissenschaften & Technik |
| Medium: | Taschenbuch |
| Seiten: | 416 |
| Inhalt: | 416 S. |
| ISBN-13: | 9781118708514 |
| ISBN-10: | 1118708512 |
| Sprache: | Englisch |
| Herstellernummer: | 1W118708510 |
| Autor: |
Mélières, Marie-Antoinette
Maréchal, Chloé |
| Auflage: | 1. Auflage |
| Hersteller: |
Wiley & Sons
Wiley-Blackwell |
| Maße: | 279 x 217 x 18 mm |
| Von/Mit: | Marie-Antoinette Mélières (u. a.) |
| Erscheinungsdatum: | 24.04.2015 |
| Gewicht: | 1,174 kg |
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