Dynamical analysis of the oceanic circulation in the Gulf of San Jorge, Argentina
Abstract
This study identifies the dynamical mechanisms driving seasonal variations in oceanic circulation and water mass characteristics of the Gulf of San Jorge (GSJ) and its exchanges with the Patagonian Shelf (PS). A suite of process-oriented numerical experiments indicates that GSJ circulation is mainly driven by tidal forcing and modulated by wind forcing and intrusions from the PS. During late spring and summer, stratification decouples the upper and deeper layers of the gulf, leading to a shallow, wind-forced surface circulation and a deeper, density driven, cyclonic geostrophic flow. The subsurface circulation is induced by differential tidal mixing in coastal and deep areas and its intensity is strongly affected by the temporal variability of the atmospheric heat flux, which increases from spring to summer and fades from fall to winter. As stratification weakens, circulation patterns are replaced by wind-driven anticyclonic gyres in the south and an open cyclonic loop in the north. Passive tracer diagnostics show that in summer, surface and subsurface waters from the GSJ northern coast are exported and replaced by waters from the coastal portion of PS currents. The renewal of bottom waters is slower: A small portion upwells in the southwestern coast but most are ventilated by winter convection in the southern region and by intrusions of PS waters in the northern region.
- Publication:
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Journal of Marine Systems
- Pub Date:
- March 2020
- DOI:
- 10.1016/j.jmarsys.2019.103261
- Bibcode:
- 2020JMS...20303261P
- Keywords:
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- Gulf of San Jorge;
- Patagonian Shelf;
- Numerical circulation model;
- Seasonal variability;
- Tidal and wind forcing;
- Cross-shelf exchanges