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Radiation Transfer Calculations and Assessment of Global Warming by CO2 (2017)

Hindawi

In: International Journal of Atmospheric Sciences

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Publication Date: 2017

Description: We present detailed line-by-line radiation transfer calculations, which were performed under different atmospheric conditions for the most important greenhouse gases water vapor, carbon dioxide, methane, and ozone. Particularly cloud effects, surface temperature variations, and humidity changes as well as molecular lineshape effects are investigated to examine their specific influence on some basic climatologic parameters like the radiative forcing, the long wave absorptivity, and back-radiation as a function of an increasing CO2 concentration in the atmosphere. These calculations are used to assess the CO2 global warming by means of an advanced two-layer climate model and to disclose some larger discrepancies in calculating the climate sensitivity. Including solar and cloud effects as well as all relevant feedback processes our simulations give an equilibrium climate sensitivity of = 0.7°C (temperature increase at doubled CO2) and a solar sensitivity of = 0.17°C (at 0.1% increase of the total solar irradiance). Then CO2 contributes 40% and the Sun 60% to global warming over the last century.

Print ISSN: 2314-4122

Electronic ISSN: 2314-4130

Topics: Geosciences , Physics

Published by Hindawi

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Radiation Transfer Calculations and Assessment of Global Warming by CO2 (2017)

Hindawi

In: International Journal of Atmospheric Sciences

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Publication Date: 2017

Print ISSN: 2314-4122

Electronic ISSN: 2314-4130

Topics: Geosciences , Physics

Published by Hindawi

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Radiation Transfer Calculations and Assessment of Global Warming by CO2 (2017)

Harde, Hermann

Hindawi

In: International Journal of Atmospheric Sciences. 2017; 2017: 1-30. Published 2017 Jan 01. doi: 10.1155/2017/9251034.

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Publication Date: 2017-01-01

Description: We present detailed line-by-line radiation transfer calculations, which were performed under different atmospheric conditions for the most important greenhouse gases water vapor, carbon dioxide, methane, and ozone. Particularly cloud effects, surface temperature variations, and humidity changes as well as molecular lineshape effects are investigated to examine their specific influence on some basic climatologic parameters like the radiative forcing, the long wave absorptivity, and back-radiation as a function of an increasing CO2 concentration in the atmosphere. These calculations are used to assess the CO2 global warming by means of an advanced two-layer climate model and to disclose some larger discrepancies in calculating the climate sensitivity. Including solar and cloud effects as well as all relevant feedback processes our simulations give an equilibrium climate sensitivity of CS = 0.7°C (temperature increase at doubled CO2) and a solar sensitivity of SS = 0.17°C (at 0.1% increase of the total solar irradiance). Then CO2 contributes 40% and the Sun 60% to global warming over the last century.

Print ISSN: 2314-4122

Electronic ISSN: 2314-4130

Topics: Geosciences , Physics

Published by Hindawi

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	Location	Call Number	Expected	Availability

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