Abstract
The plumes from the rivers of the South Brazilian Bight (SBB) and South Brazil (SB) were studied using a realistic model configuration. River plume variability on continental shelves is driven by the input of river runoff into the shelf, by wind variability, and also by ambient currents and its seasonal variability, especially the Brazil Current, which are realistically modelled in this study. It is presented a simulation of 4 years using a nested configuration, which allows resolving the region around Florianópolis with very high resolution (∼150 m). The dispersion of river plumes was assessed not only with the hydrodynamical model results but also by using passive tracers whose dynamics was analyzed seasonally. Several dyes were released together with the river discharges. This approach allowed calculating the depths of the riverine freshwater, and the resulting regions affected by the plumes. Northward intrusions of waters from the southern region, under the potential influence of the distant La Plata river plume, were evaluated with a Lagrangian approach. The local river plumes are confined to the inner shelf, except south of 30°S where discharges from Lagoa dos Patos disperse over the shelf in the spring and summer. The Brazil Current flowing southward over the slope prevents the river plumes from interaction with oceanic mesoscale dynamics. The river plumes are, thus, mainly controlled by the wind forcing. The plumes from SBB are able to disperse until SB following the southward wind regime typical of the summer. And both the SB and La Plata river plumes are also able to reach SBB, forced by the northward wind typical of the winter season, until the latitude of 25.5°S. A low salinity belt (below 35) is present along the coastal region of SB and SBB year-round, supported by contributions from both the large and small rivers. The interaction between the different plumes influences the dispersion patterns, shielding the Florianṕolis coastal region from plumes of distant rivers, and dispersing the plume of SBB rivers away from Santa Catarina Island as it disperses southward during the summer months.
Highlights
Florianopolis is located in the Brazillian coastal region around 27◦S, in the state of Santa Catarina
Many episodes of northward slope flow events are not associated with the wind but probably with eddy activity known in the region (Campos et al 2000; Oliveira et al 2009)
As a shelf/inner shelf feature in a region with the strong and persistent large-scale Brazil Current (BC) flowing over the slope, the river plumes are isolated from the oceanic mesoscale dynamics
Summary
Florianopolis is located in the Brazillian coastal region around 27◦S, in the state of Santa Catarina. It consists of a main island, called Santa Catarina; a continental. Responsible Editor: Ricardo de Camargo This article is part of the Topical Collection on the 11th International Workshop on Modeling the Ocean (IWMO), Wuxi, China, 17–20 June 2019. Extended author information available on the last page of the article. There are impacts on the quality of life, in coastal ecosystems, and in environmentally protected regions, like the Arvoredo Marine Biological Reserve, located very close to urban areas (Fig. 1c). Santa Catarina Island is approximately 54 km long and 18 km wide, and the narrowest channel separating it from the coast is about 400 m wide. Between the mainland and the island, there is the North Bay (∼10 km wide) and to the south, the South Bay (∼6 km wide) ending in another narrow channel 1 km wide
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