Forcing mechanisms of the circulation on the Brazilian Equatorial Shelf

• Published in: Continental shelf research Vol. 247; p. 104811
• Main Authors: Aguiar, Alessandro L., Almeida, Martinho M., Cruz, Lilian O., Pereira, Janini, Cirano, Mauro
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 15.09.2022
• Subjects: Amazon river; Climate change; Regional modeling; Wind-driven circulation; Climate change; Wind-driven circulation; Amazon river; Regional modeling
• ISSN: 0278-4343; 1873-6955
• DOI: 10.1016/j.csr.2022.104811

The Brazilian Equatorial Shelf (BES) is a very dynamic region due to the influence of various forcings: trade winds, macrotides, the Amazon River, and the North Brazil Current (NBC). To investigate each forcing’s role in BES circulation, a control simulation and three sensitivity simulations (without rivers, without tides, and without winds) were performed using the Regional Ocean Modelling System (ROMS) with a horizontal resolution of 1/24° and realistic forcings. The results showed that the NBC advected low-salinity waters from the Amazon River northwestward to Caribbean Sea and occasionally eastward through the NBC retroflection. The NBC exhibited the strongest flow when all forcings were included in the simulation. On the other hand, southeasterly winds inhibited the NBC retroflection system and, thus reducing its contribution to North Equatorial Counter Current (NECC) and Equatorial Undercurrent (EUC). The simulation without tides showed a plume more advected by the NBC and constricted to the first 10 m of the water column, while in the simulation without wind the plume was less advected northwestward by the weakened NBC and spread more toward the shelf break. The correlation analysis highlighted the complexity of the system, the complementarity of the forcings and their time-variable interdependence. The three sensitivity simulations and correlation analysis demonstrated the wind to be the main mechanism of the circulation in the BES. The sensitivity simulations also gave insight of how circulation would respond in a future scenario if climate changes persist. Previous studies suggest that the reduced Amazon runoff may indirectly weaken Atlantic ITCZ and thus trade winds causing a weakened circulation in tropical Atlantic. Our results show that this weakened circulation would advect even less fresh water northward, worsening the disturbances in North Atlantic due to the reduced freshwater supply. •North Brazil Current (NBC) exhibited the strongest flow when all forcings were included in the simulation.•Tides and river discharge worked against the NBC retroflection and, thus against the intensification of the North Equatorial Counter-Current (NECC) and Equatorial Undercurrent (EUC) during both boreal summer and winter.•The three sensitivity simulations and correlation analysis demonstrated the wind to be the main mechanism of the circulation in the Brazilian Equatorial Shelf (BES).•The correlation analysis highlighted the complexity of the system, the complementarity of the forcings and their time-variable interdependence.•The sensitivity simulations also gave insight of how circulation would respond in a future scenario if climate changes persist.