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 sen...
International audienceClimate projections reveal global-mean surface warming increasing nearly linea...
By the line-by-line method, a computer program is used to analyze Earth atmospheric radiosonde data ...
The purpose of this study is to show the Sun controls the Earth’s temperature daily and over decades...
We present an advanced two-layer climate model, especially appropriate to calculate the influence of...
Transient CO experiments from five coupled climate models, in which the CO concentration increases a...
In this study a hierarchy of simple climate models is built and used to assess the impact of changes...
The outgoing long wave radiation to space is significantly reduced as a result of heat absorption by...
The climatic impact of CO2 and other greenhouse gases is usually quantified in terms of radiative fo...
International audienceThe atmospheric CO2 content has increased significantly over recent decades, m...
Radiative forcing and climate sensitivity have been widely used as concepts to understand climate ch...
As a consequence of fossil fuel burning, the atmospheric concentration of carbon dioxide has increas...
Climate projections reveal global-mean surface warming increasing nearly linearly with cumulative ca...
This paper evaluates global mean radiatively important properties of chemistry climate models (CCMs)...
For the current generation of climate models, climate response varies from model to model even when ...
A radiative–convective model was developed to investigate the sensitivity of climate to cloud optica...
International audienceClimate projections reveal global-mean surface warming increasing nearly linea...
By the line-by-line method, a computer program is used to analyze Earth atmospheric radiosonde data ...
The purpose of this study is to show the Sun controls the Earth’s temperature daily and over decades...
We present an advanced two-layer climate model, especially appropriate to calculate the influence of...
Transient CO experiments from five coupled climate models, in which the CO concentration increases a...
In this study a hierarchy of simple climate models is built and used to assess the impact of changes...
The outgoing long wave radiation to space is significantly reduced as a result of heat absorption by...
The climatic impact of CO2 and other greenhouse gases is usually quantified in terms of radiative fo...
International audienceThe atmospheric CO2 content has increased significantly over recent decades, m...
Radiative forcing and climate sensitivity have been widely used as concepts to understand climate ch...
As a consequence of fossil fuel burning, the atmospheric concentration of carbon dioxide has increas...
Climate projections reveal global-mean surface warming increasing nearly linearly with cumulative ca...
This paper evaluates global mean radiatively important properties of chemistry climate models (CCMs)...
For the current generation of climate models, climate response varies from model to model even when ...
A radiative–convective model was developed to investigate the sensitivity of climate to cloud optica...
International audienceClimate projections reveal global-mean surface warming increasing nearly linea...
By the line-by-line method, a computer program is used to analyze Earth atmospheric radiosonde data ...
The purpose of this study is to show the Sun controls the Earth’s temperature daily and over decades...