International audienceThe budget of ozone and its evolution associated with anthropogenic activities are simulated with the Model for Ozone and Related Chemical Tracers (MOZART) (version 1). We present the changes in tropospheric ozone and its precursors (CH4, NMHCs, CO, NOx) since the preindustrial period. The ozone change at the surface exhibits a maximum increase at midlatitudes in the northern hemisphere reaching more than a factor of 3 over Europe, North America, and Southeast Asia during summer. The calculated preindustrial ozone levels are particularly sensitive to assumptions about natural and biomass burning emissions of precursors. The possible future evolution of ozone to the year 2050 is also simulated, using the Intergovernment...
Because tropospheric ozone is both a greenhouse gas and harmful air pollutant, it is important to un...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
International audienceThe budget of ozone and its evolution associated with anthropogenic activities...
International audienceThe budget of ozone and its evolution associated with anthropogenic activities...
The budget of ozone and its evolution associated with anthropogenic activities are simulated with th...
The budget of ozone and its evolution associated with anthropogenic activities are simulated with th...
The budget of ozone and its evolution associated with anthropogenic activities are simulated with th...
A background tropospheric chemistry model that is coupled to the general circulation model ECHAM4 is...
International audienceA climate-chemistry model and a biogenic emission model are used to investigat...
International audienceA climate-chemistry model and a biogenic emission model are used to investigat...
International audienceA climate-chemistry model and a biogenic emission model are used to investigat...
International audienceA climate-chemistry model and a biogenic emission model are used to investigat...
Because tropospheric ozone is both a greenhouse gas and harmful air pollutant, it is important to un...
Ozone (O3) from 17 atmospheric chemistry models taking part in the Atmospheric Chemistry and Climate...
Because tropospheric ozone is both a greenhouse gas and harmful air pollutant, it is important to un...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
International audienceThe budget of ozone and its evolution associated with anthropogenic activities...
International audienceThe budget of ozone and its evolution associated with anthropogenic activities...
The budget of ozone and its evolution associated with anthropogenic activities are simulated with th...
The budget of ozone and its evolution associated with anthropogenic activities are simulated with th...
The budget of ozone and its evolution associated with anthropogenic activities are simulated with th...
A background tropospheric chemistry model that is coupled to the general circulation model ECHAM4 is...
International audienceA climate-chemistry model and a biogenic emission model are used to investigat...
International audienceA climate-chemistry model and a biogenic emission model are used to investigat...
International audienceA climate-chemistry model and a biogenic emission model are used to investigat...
International audienceA climate-chemistry model and a biogenic emission model are used to investigat...
Because tropospheric ozone is both a greenhouse gas and harmful air pollutant, it is important to un...
Ozone (O3) from 17 atmospheric chemistry models taking part in the Atmospheric Chemistry and Climate...
Because tropospheric ozone is both a greenhouse gas and harmful air pollutant, it is important to un...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...
International audienceGlobal aerosol and ozone distributions and their associated radiative forcings...