Earth's climate response to a changing Sun /

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor Corporativo: European Cooperation in the Field of Scientific and Technical Research (Organization)
Otros Autores: Dudok de Wit, Thierry (Editor ), Ermolli, Ilaria (Editor ), Haberreiter, Margit (Editor ), Kambezidis, Harry (Editor ), Lam, Mai Mai (Editor ), Lilensten, Jean (Editor ), Matthes, Katja (Editor ), Mironova, Irina (Editor ), Schmidt, Hauke (Editor ), Seppälä, Annika (Editor ), Tanskanen, Eija (Editor ), Tourpali, Kleareti (Editor ), Yair, Yoav (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Les Ulis, France : [Brussels, Belgium] : EDP sciences ; COST, European Cooperation in Science and Technology, [2015]
Temas:
Climatic changes > Effect of solar activity on.
Global temperature changes.
Climat > Changements > Effets de l'activité solaire sur.
Température atmosphérique > Modification à l'échelle planétaire.
Earth sciences, geography, environment, planning.
SCIENCE > Earth Sciences > Geography.
SCIENCE > Earth Sciences > Geology.
Climatic changes > Effect of solar activity on
Global temperature changes
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Title; Copyright; Contents; Foreword; Preface; Part I. Introduction to the Sun-Climate Connections; 1.1 The Earth's atmosphere: an introduction; 1.2 The impact of solar variability on climate; 1.3 The Sun-Earth connection, on scales from minutes to millennia; 1.4 The role of the Sun in climate change: a brief history; 1.5 The role of the Sun in climate change: a societal viewpoint; 1.6 The debate about solar activity and climate change; References of Part I; Part II. Solar and Space Forcing; 2.1 Basics of solar and heliospheric modulation; 2.2 Solar radiative forcing.
  • 2.3 Variability of solar and galactic cosmic rays2.4 Variability and effects by solar wind; 2.5 Variations of solar activity; 2.6 Understanding solar activity; Infobox 2.1 Orbital forcing of glacial
  • interglacial cycles; Infobox 2.2 Grand minima and maxima of solar activity; Infobox 2.3 A practical guide to solar forcing data; References of Part II; Part III. Detecting Solar Influence on Climate; 3.1 Observations on paleoclimatic time scales; 3.2 Ground-based observations; 3.3 Satellite observations; 3.4 Reanalysis data.
  • 3.5 Uncertainties and unknowns in atmospheric observations: How do they affect the solar signal identification?3.6 Numerical models of atmosphere and ocean; 3.7 From climate to Earth system models; 3.8 Uncertainties in the modeling of the solar influence on climate; 3.9 Detection and attribution: How is the solar signal identified and distinguished from the response to other forcings?; Infobox 3.1 Why are models needed in the first place, and can they be trusted?; Infobox 3.2 Model Equations and how they are solved; References of Part III; Part IV. Impacts on the Earth System.
  • 4.1 Direct impact of solar irradiance variability4.2 'Top-down' versus 'bottom-up' mechanisms for solar-climate coupling; 4.3 Interactions of different sources of variability; 4.4 Impact of solar variability on the magnetosphere; 4.5 Atmospheric ionisation by solar energetic particle precipitation; 4.6 Impact of energetic particle precipitation on atmospheric chemistry and climate; 4.7 The impact of cosmic rays on clouds; 4.8 Impact of solar variability on the global electric circuit; Infobox 4.1 Modeled impact of total solar irradiance (TSI) forcing.
  • Infobox 4.2 Lightning, cosmic rays and energetic particlesInfobox 4.3 The influence of solar variability on extreme weather; References of Part IV; Part V. Conclusion; Conclusions; References of Part V; Glossary; The authors.

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