Abstract
The response of mineral weathering and its related Weathering Sink for atmospheric CO(2) (WS(atm-CO2)) to global vegetation greening are not well understood. After applying different biogeochemical models and a field experiment to investigate the influence of vegetation greening and warming on the variations of carbonate weathering and WS(atm-CO2) on regional and global scales, here we show a significant positive relationship between global carbonate weathering intensity ([HCO(3)(-)] as a proxy) and vegetation greenness. During 1982-2018, under a warming climate, [HCO(3)(-)] and WS(atm-CO2) increase by 5.8% and 6.1%, respectively, due to vegetation greening, in the carbonate areas of Southwest China. Meanwhile, the [HCO(3)(-)] in global carbonate areas increases by +2.4% during the same period. By contrast, the [HCO(3)(-)] in global carbonate areas decreases by -1.3% without a vegetation function due to the warming. Moreover, we estimated that the carbonate weathering enhancements due to vegetation restoration at the global scale could reach 43.8%. Our results demonstrate that future vegetation restoration is important for the carbon capture by mineral weathering.