Understanding elevated CO2 concentrations in East Asia relative to the global mean during boreal spring on the slow and interannual timescales

It is important to examine the physical processes that regulate current CO2 concentrations in East Asia to understand the global carbon cycle. To do this, we begin by defining the difference between East Asian and global CO2 concentrations (East Asian CO2 concentration minus global CO2 concentration), which is referred to as East Asian local CO2 concentration (i.e., EA_LCO2). Then, we examine the physical processes associated with the variability of EA_LCO2 during boreal spring (March-April-May) on the slow and interannual timescales. Our results indicate that there are two key factors leading to elevated CO2 concentrations in East Asia relative to the global mean during boreal spring; one is higher emissions in East Asia, which mostly explains the increasing in EA_LCO2 on the slow timescales. The other is a cool sea surface temperature (SST) in the eastern tropical Pacific (La-Nina-like SST), which is associated with an interannual higher CO2 concentration in East Asia than the global mean. Enhanced convective activity in the western tropical Pacific, which is associated with a La-Nina-like SST forcing, induces low-pressure circulation in the western North Pacific with northerly winds, leading to suppressed precipitation and cool surface temperature in East Asia. Subsequently, those suppress vegetation growth as well as gross primary product, resulting in relatively high CO2 concentrations in East Asia compared to the global mean.

Automated summary

To understand the global carbon cycle, it is crucial to examine the physical processes that control the current CO2 concentrations in East Asia. By analyzing the difference between East Asian and global CO2 concentrations, referred to as East Asian local CO2 concentration (EA_LCO2), we identified two key factors responsible for elevated CO2 concentrations in East Asia during the spring season. These factors include higher emissions in East Asia on long timescales and a cool sea surface temperature in the eastern tropical Pacific, which is associated with interannual higher CO2 concentration in East Asia.