Phytoplankton strengthen CO2 uptake in the South Atlantic Ocean.

• CO 2 fluxes vary from small outgassing to strong sink conditions. • Enhanced CO 2 uptake on the western domain was associated with salinity variations. • Increased haptophyte concentrations boosted the CO 2 uptake in the gyre. • Intense CO 2 uptake in the eastern domain (30°S) was associated with haptophytes. The influence of phytoplankton groups on carbon dynamics was investigated during six oceanographic spring cruises (three cruises were carried out in 2009, and another three were conducted in 2011) between the western (Brazil) and eastern (Africa) South Atlantic margins. A seventh cruise crossed the South Atlantic during the early winter of 2015. Sea surface temperature and salinity, oceanic and atmospheric partial pressure of CO 2 (p CO 2), chlorophyll a and other phytoplankton pigment data were gathered. Net CO 2 fluxes were calculated for each cruise, characterizing the ability of each region to take up atmospheric CO 2. We quantified phytoplankton chemotaxonomic groups using the HPLC/CHEMTAX approach. Thus, this study aimed to improve our understanding of the distribution of phytoplankton groups and their connection with the carbon biogeochemical cycle in the South Atlantic Ocean. Our results showed significant variations in both the zonal and meridional patterns of phytoplankton groups and the associated CO 2 uptake magnitudes. Diatoms and haptophytes dominated the coastal regions of Brazil and Africa, respectively, whereas the open ocean was dominated by haptophytes and the picoplanktonic cyanobacteria Prochlorococcus and Synechococcus. The CO 2 uptake capacity increased eastward from −7.1 mmol CO 2 m−2 d–1 on the Brazilian coast to −27.6 mmol CO 2 m−2 d–1 on the African coast. There was a significant negative relationship (p < 0.05) between the phytoplankton biomass and the difference in sea-air p CO 2 (Δ p CO 2), with increasing CO 2 uptake corresponding to increases in the biomasses of diatoms and haptophytes. Therefore, according to our analysis, haptophytes and diatoms were the main phytoplankton groups related to a high uptake of CO 2 along the South Atlantic Ocean regions covered in this study. Thus, we encourage further investigations on their traits and vulnerabilities to future environmental change scenarios. [ABSTRACT FROM AUTHOR]