Sensitivity of atmospheric CO 2 inversions to seasonal and interannual variations in fossil fuel emissions

Estimates of fossil fuel CO 2 are a critical component in atmospheric CO 2 inversions. Rather than solving for this portion of the atmospheric CO 2 budget, inversions typically include estimates of fossil fuel CO 2 as a known quantity. However, this assumption may not be appropriate, particularly as inversions continue to solve for fluxes at reduced space and timescales. In this study, two different alterations are made to widely used fossil fuel CO 2 emissions estimates, and these altered emissions are run through a series of atmospheric inversion experiments. The first alteration is the inclusion of a seasonal cycle which depends upon both season and latitude. The other alteration is the inclusion of year‐by‐year changes in the spatial distribution of fossil fuel CO 2 emissions. All but the interannual inversion experiments are run with three models from the TransCom 3 atmospheric inversion intercomparison. These three models span the key components of atmospheric transport and hence can be expected to capture the range of potential bias caused by assumed fossil fuel CO 2 emission estimates when interacting with transport processes. Key findings include the lack of seasonal rectification of the seasonally varying fossil fuel CO 2 emissions in the annual mean. Examination of monthly fluxes in the seasonal inversion, however, indicates that significant bias is likely occurring and may be as large as 50% of the residual flux during certain times of the year. In this study, interannual variations were little effected by shifts in the spatial pattern of fossil fuel CO 2 emissions. However, as the spatial scale of inversions is reduced, potential bias will likely increase.