Understanding and modeling the large-scale transport of trace gases and aerosols is important for interpreting past (and projecting future) changes in atmospheric composition. Here we show that there are large differences in the global-scale atmospheric transport properties among the models participating in the IGAC SPARC Chemistry–Climate Model Initiative (CCMI). Specifically, we find up to 40 % differences in the transport timescales connecting the Northern Hemisphere (NH) midlatitude surface to the Arctic and to Southern Hemisphere high latitudes, where the mean age ranges between 1.7 and 2.6 years. We show that these differences are related to large differences in vertical transport among the simulations, in particular to differences in...
The mean age since air was last at the Northern Hemisphere midlatitude surface is a fundamental prop...
Transport from the Northern Hemisphere (NH) midlatitudes to the Arctic plays a crucial role in deter...
Convection strongly influences the distribution of atmospheric trace gases. General circulation mode...
Understanding and modeling the large-scale transport of trace gases and aerosols is important for in...
Understanding and modeling the large-scale transport of trace gases and aerosols is important for in...
Understanding and modeling the large-scale transport of trace gases and aerosols is important for i...
Understanding and modeling the large-scale transport of trace gases and aerosols is important for in...
The transport of chemicals is a major uncertainty in the modeling of tropospheric composition. Here ...
We investigate the impact of model trace gas transport schemes on the representation of transport pr...
International audienceThis paper presents the first results of an age-of-air (AoA) inter-comparison ...
Atmospheric transport of traces gases and aerosols plays an important role in the distribution of ai...
Through analysis of mean age of air (AoA), we study the capabilities of the Chemistry Climate Models...
We investigate the impact of model trace gas transport schemes on the representation of transport pr...
The mean age since air was last at the Northern Hemisphere midlatitude surface is a fundamental prop...
Transport from the Northern Hemisphere (NH) midlatitudes to the Arctic plays a crucial role in deter...
Convection strongly influences the distribution of atmospheric trace gases. General circulation mode...
Understanding and modeling the large-scale transport of trace gases and aerosols is important for in...
Understanding and modeling the large-scale transport of trace gases and aerosols is important for in...
Understanding and modeling the large-scale transport of trace gases and aerosols is important for i...
Understanding and modeling the large-scale transport of trace gases and aerosols is important for in...
The transport of chemicals is a major uncertainty in the modeling of tropospheric composition. Here ...
We investigate the impact of model trace gas transport schemes on the representation of transport pr...
International audienceThis paper presents the first results of an age-of-air (AoA) inter-comparison ...
Atmospheric transport of traces gases and aerosols plays an important role in the distribution of ai...
Through analysis of mean age of air (AoA), we study the capabilities of the Chemistry Climate Models...
We investigate the impact of model trace gas transport schemes on the representation of transport pr...
The mean age since air was last at the Northern Hemisphere midlatitude surface is a fundamental prop...
Transport from the Northern Hemisphere (NH) midlatitudes to the Arctic plays a crucial role in deter...
Convection strongly influences the distribution of atmospheric trace gases. General circulation mode...