The time-dependent climate response to changing concentrations of greenhouse gases and sulfate aerosols is studied using a coupled general circulation model of the atmosphere and the ocean (ECHAM4/OPYC3). The concentrations of the well-mixed greenhouse gases like CO2, CH4, N2O, and CFCs are prescribed for the past (1860–1990) and projected into the future according to International Panel on Climate Change (IPCC) scenario IS92a. In addition, the space–time distribution of tropospheric ozone is prescribed, and the tropospheric sulfur cycle is calculated within the coupled model using sulfur emissions of the past and projected into the future (IS92a). The radiative impact of the aerosols is considered via both the direct and the indirect (i.e....
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
The past and future evolution of atmospheric composition and climate has been simulated with a versi...
The evolution of the global aerosol system from 1860 to 2100 is investigated through a transient atm...
The time-dependent climate response to changing concentrations of greenhouse gases and sulfate aeros...
In a series of equilibrium experiments the climate response to present-day radiative forcings of ant...
The sulfur cycle and radiative effects of sulfate aerosol on climate are studied with a Global tropo...
International audienceThis paper describes the impact on the sulfate aerosol radiative effects of co...
The climate sensitivity to various forcings, and in particular to changes in CO2 and sulfate aerosol...
In this study, we examine the time evolution of the relative contribution of sulfate aerosols and gr...
The Asian summer monsoon is an important part of the climate system. Investigating the response of t...
Using a hierarchy of atmospheric general circulations (GCMs) and coupled atmosphere-ocean models, si...
Aerosols from anthropogenic and natural sources have been recognized as having an important impact o...
Using a coupled atmosphere/ocean general circulation model, we have simulated the climatic response ...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
The past and future evolution of atmospheric composition and climate has been simulated with a versi...
The evolution of the global aerosol system from 1860 to 2100 is investigated through a transient atm...
The time-dependent climate response to changing concentrations of greenhouse gases and sulfate aeros...
In a series of equilibrium experiments the climate response to present-day radiative forcings of ant...
The sulfur cycle and radiative effects of sulfate aerosol on climate are studied with a Global tropo...
International audienceThis paper describes the impact on the sulfate aerosol radiative effects of co...
The climate sensitivity to various forcings, and in particular to changes in CO2 and sulfate aerosol...
In this study, we examine the time evolution of the relative contribution of sulfate aerosols and gr...
The Asian summer monsoon is an important part of the climate system. Investigating the response of t...
Using a hierarchy of atmospheric general circulations (GCMs) and coupled atmosphere-ocean models, si...
Aerosols from anthropogenic and natural sources have been recognized as having an important impact o...
Using a coupled atmosphere/ocean general circulation model, we have simulated the climatic response ...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
The past and future evolution of atmospheric composition and climate has been simulated with a versi...
The evolution of the global aerosol system from 1860 to 2100 is investigated through a transient atm...