Island's topography effects on the meso-to-large scale circulation of the Gulf of Guinea

Dante
Napolitano
Laboratoire d'Études en Géophysique et Océanographie Spatiales (LEGOS), CNES-OMP-IRD-CNRS-UPS
Gaël Alory, Laboratoire d'Études en Géophysique et Océanographie Spatiales (LEGOS), CNES-OMP-IRD-CNRS-UPS
Julien Jouanno, Laboratoire d'Études en Géophysique et Océanographie Spatiales (LEGOS), CNES-OMP-IRD-CNRS-UPS
Yves Morel, Laboratoire d'Études en Géophysique et Océanographie Spatiales (LEGOS), CNES-OMP-IRD-CNRS-UPS
Isabelle Dadou, Laboratoire d'Études en Géophysique et Océanographie Spatiales (LEGOS), CNES-OMP-IRD-CNRS-UPS
Guillaume Morvan, Laboratoire d'Études en Géophysique et Océanographie Spatiales (LEGOS), CNES-OMP-IRD-CNRS-UPS
Poster
In the northeast Gulf of Guinea (GG), São Tomé island marks the begin of a SW-NE oriented island chain that stretches from near the equator, in the path of the Equatorial Undercurrent (EUC), to the innermost portion of the GG, where its largest island, Bioko, rises at the edge of Cameroon's continental shelf. This region of scarce observations is randomly sampled by surface drifters, which are seldom deployed elsewhere and reach GG carried by eastward equatorial currents. Besides surface drifters, data from the PIRATA array and related cruises are available in the area surroundings. Motivated by these float trajectories and ADCP transects next to São Tomé island, we investigate the influence of the island chain's topography in the (sub)meso-to-large-scale circulation of the zonal equatorial jets. We ask: (i) does the island chain presents a physical barrier that drives the flow until the inner parts of GG? (ii) are there submeso and mesoscale anomalies generated due to flow-topography interactions?, and (iii) can these anomalies upscale to alter large scale currents, such as the EUC? We analyze the outputs of two NEMO simulations, which differ only by the presence/absence of the islands and their associated rough topography. We run both simulations with 1/12° horizontal resolution, Δx≃9 km, and 75 vertical levels,
using the same initial conditions. We will show averaged ADCP data and its relation to topography, a comparison of both simulations with moored observations (from the PIRATA array), analyzes of particle trajectories in both scenarios (i.e., with and without islands), and the differences in the large-scale equatorial currents depicted from both model runs.