The Impact of the Amazon on the Biological Pump and the Air-Sea CO2 Balance of the Western Tropical Atlantic

The Amazon River strongly modifies the biogeochemistry of the Western Tropical Atlantic (WTA). To disentangle the different mechanisms driving these modifications, we conduct a series of modeling experiments with a high-resolution regional ocean model (ROMS) coupled to a biogeochemical/ecological model (BEC) that we augmented to include Diatom-Diazotroph-Assemblages (DDAs). In our model, the Amazon River increases net primary production (NPP) in the WTA by almost 10%, exceeding the stimulation expected from the supplied inorganic nitrogen and phosphorus by a factor of two. This amplification is fueled by new nitrogen stemming from DDA-driven N-2 fixation in the plume region, supported, in part, by the consumption of riverine dissolved organic phosphorus. The vertical export of organic carbon is enhanced by a shift of the phytoplankton community toward diatoms induced by the large amount of Si(OH)(4) delivered by the Amazon. These changes in NPP and export production induce a strong uptake of atmospheric CO2. In contrast, the remineralization of the river-delivered terrestrial organic matter leads to a release of CO2 over the WTA, which is partially offset by a net uptake induced by the riverine dissolved inorganic carbon and alkalinity. Overall, the Amazon reduces the strong outgassing of the WTA in our simulations by more than 50%. Our study demonstrates how rivers modify the marine biological pump and the air-sea CO2 fluxes in the downstream ocean through a myriad of cascading effects, highlighting the need to fully consider the land-ocean aquatic continuum in the modeling of the Earth System.

Automated summary

The Amazon River significantly alters the biogeochemistry of the Western Tropical Atlantic by enhancing the net primary production, organic carbon export, and atmospheric CO2 uptake through various mechanisms. This study highlights the importance of considering the land-ocean aquatic continuum in Earth System modeling.