Abstract
We investigate the dynamics of meso- and submesoscale features of the northern South Brazil Bight shelf region with a 500-m horizontal resolution regional model. We focus on the Cabo Frio upwelling center, where nutrient-rich, coastal waters are transported into the mid- and outer shelf, because of its importance for local and remote productivity. The Cabo Frio upwelling center undergoes an upwelling phase, from late September to March, and a relaxation phase, from April to early September. During the upwelling phase, an intense front around 200 km long and 20 km wide with horizontal temperature gradients as large as 8 ∘C over less than 10 km develops. A surface-intensified frontal jet of 0.7 ms−1 in the upper 20 m and velocities of around 0.3 ms−1 reaching down to 65 m depth makes this front a preferential cross-shelf transport pathway. Large vertical mixing and vertical velocities are observed within the frontal region. The front is associated with strong cyclonic vorticity and strong variance in relative vorticity, frequently with O(1) Rossby numbers. The dynamical balance within the front is between the pressure gradient, Coriolis and vertical mixing terms, which are induced both by the winds, during the upwelling season, and by the geostrophic frontal jet. Therefore, the frontal dynamics may be largely described as sum of Ekman and turbulent thermal wind balances. During the upwelling phase, a mix of barotropic and baroclinic instabilities dominates in the upwelling center. However, these instabilities do not lead to the local formation of coherent eddies when the front is strong. In the relaxation phase, the front vanishes, and the water column becomes less stratified. The interaction between eastward coastal currents generated by sea level variability, coastal intrusions of the Brazil Current, and sporadic wind-driven, coastal upwelling events induce the formation of cyclonic eddies with diameters of, approximately, 20 km. They are in gradient-wind balance and propagate along the 100-m isobath on the shelf. During this phase baroclinic instability dominates. Cold filaments with widths of 2 km are formed due to straining and stretching of cold, coastal temperature anomalies. They last for a few days and are characterized by downwelling as large as 1 cms−1. The turbulent thermal wind balance provides a good first order estimate of the dynamical balance within the filament, but vertical and horizontal advection are shown to be important. To our knowledge, this is the first account of these smaller scale features in the region. Because these meso- and submesoscale features on the shelf heavily affect the water properties crucial to productivity of the South Brazil Bight, it is important to take these features into account for a better understanding of the functioning of this ecosystem and its resilience to both direct human activities as well as to climate change.
Highlights
The South Brazil Bight (SBB) is adjacent to the most densely populated area of the Brazilian coast
We focus on three specific features that are commonly observed in the region, namely, coastal eddies generated by headlands, the Cabo Frio (CF) coastal upwelling front, and cold filaments that arise as cold temperature anomalies are squeezed due to convergent flow
We focus on the northern part of the SBB and how shelf and open ocean currents interact with the most prominent oceanographic feature of the region, namely the the coastal upwelling center off CF (Figure 1)
Summary
The South Brazil Bight (SBB) is adjacent to the most densely populated area of the Brazilian coast. Economical activities on the shelf region and offshore include, among others, tourism, fisheries, oil and gas exploration and navigation This puts significant pressure on the ecosystem services provided by the ocean and requires a thorough understanding of the functioning of the marine environment. Relevant processes associated with ecology, marine conservation, and protection include wastewater and oil dispersal, larval transport and connectivity, phytoplankton productivity, and cross-shelf exchange. They largely depend on physical processes that occur on spatial scales of hundreds of meters to a few kilometers which are usually not resolved either by traditional observational sampling or by global and even regional model simulations
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