Add to ORKGEstimating CO2 fluxes from the pattern of atmospheric CO2 concentrations with atmospheric transport models is an ill-posed inverse problem, whose solution is stabilized using prior information. Weights assigned to prior information and to CO2 concentrations at different locations are quantified by parameters that are not well known, and differences in the choice of these parameters contribute to differences among published estimates of the regional partitioning of CO2 fluxes. Following the TransCom 3 protocol to estimate CO2 fluxes for 1992–1996, we find that the partitioning of the CO2 sink between land and oceans and between North America and Eurasia depends on parameters that quantify the relative weight given to prior flux estimates and...
Information about regional carbon sources and sinks can be derived from variations in observed atmos...
Information about regional carbon sources and sinks can be derived from variations in observed atmos...
Atmospheric CO2 inversions estimate surface carbon fluxes from an optimal fit to atmospheric CO2 mea...
Estimating CO2 fluxes from the pattern of atmospheric CO2 concentrations with atmospheric transport ...
Spatial and temporal variations of atmospheric CO2 concentrations contain information about surface ...
International audienceSpatial and temporal variations of atmospheric CO$_2$ concentrations contain i...
Spatial and temporal variations of atmospheric CO2 concentrations contain information about surface ...
Models of atmospheric transport can be used to interpret spatiotemporal differences in the observed ...
The global distribution of carbon sources and sinks is estimated from atmospheric CO2 measurements u...
International audienceAtmospheric transport models can be used to infer surface fluxes of atmospheri...
Information about regional carbon sources and sinks can be derived from variations in observed atmos...
Information about regional carbon sources and sinks can be derived from variations in observed atmos...
Atmospheric CO2 inversions estimate surface carbon fluxes from an optimal fit to atmospheric CO2 mea...
Estimating CO2 fluxes from the pattern of atmospheric CO2 concentrations with atmospheric transport ...
Spatial and temporal variations of atmospheric CO2 concentrations contain information about surface ...
International audienceSpatial and temporal variations of atmospheric CO$_2$ concentrations contain i...
Spatial and temporal variations of atmospheric CO2 concentrations contain information about surface ...
Models of atmospheric transport can be used to interpret spatiotemporal differences in the observed ...
The global distribution of carbon sources and sinks is estimated from atmospheric CO2 measurements u...
International audienceAtmospheric transport models can be used to infer surface fluxes of atmospheri...
Information about regional carbon sources and sinks can be derived from variations in observed atmos...
Information about regional carbon sources and sinks can be derived from variations in observed atmos...
Atmospheric CO2 inversions estimate surface carbon fluxes from an optimal fit to atmospheric CO2 mea...