Abstract
La Niña climate anomalies have historically been associated with substantial reductions in the atmospheric CO(2) growth rate. However, the 2021 La Niña exhibited a unique near-neutral impact on the CO(2) growth rate. In this study, we investigate the underlying mechanisms by using an ensemble of net CO(2) fluxes constrained by CO(2) observations from the Orbiting Carbon Observatory-2 in conjunction with estimates of gross primary production and fire carbon emissions. Our analysis reveals that the close-to-normal atmospheric CO(2) growth rate in 2021 was the result of the compensation between increased net carbon uptake over the tropics and reduced net carbon uptake over the Northern Hemisphere mid-latitudes. Specifically, we identify that the extreme drought and warm anomalies in Europe and Asia reduced the net carbon uptake and offset 72% of the increased net carbon uptake over the tropics in 2021. This study contributes to our broader understanding of how regional processes can shape the trajectory of atmospheric CO(2) concentration under climate change.