Identificador persistente para citar o vincular este elemento: http://hdl.handle.net/10553/72837
Título: Offshore transport of organic carbon by upwelling filaments in the Canary Current System
Autores/as: Santana Falcón, Yeray 
Mason, Evan
Arístegui, Javier 
Clasificación UNESCO: 251001 Oceanografía biológica
Palabras clave: Biogeochemical Modeling
Canary Current
Eddy Fluxes
Offshore Transport
Organic Carbon, et al.
Fecha de publicación: 2020
Proyectos: Intercambio Plataforma-Oceano en El Ecosistema Marino de Las Islas Canarias-Peninsula Iberica (Caibex):Afloramiento de Cabo Guir 
Flujos de Carbono en Un Sistema de Afloramiento Costero (Cabo Blanco, Nw de Africa). Papel Del Carbono Disuelto y en Suspension en El Contexto de la Bomba Biologica. 
Sustainable management of mesopelagic resources 
Tropical and South Atlantic - climate-based marine ecosystem prediction for sustainable management 
Publicación seriada: Progress in Oceanography 
Resumen: A coupled physical-biogeochemical model (ROMS-PISCES) forced by climatological fields is used to examine the role of upwelling filaments in the offshore exchange of particulate (POC) and dissolved (DOC) organic carbon in the Canary Current eastern boundary upwelling system (CanC EBUS). In this region, mesoscale filaments at Capes Ghir (∼30.5 °N) and Juby (∼27.5 °N) have been frequently described using both observational and numerical data. Due to their semi-permanent presence and unique dynamical characteristics, studies focusing on filaments often provide an incomplete picture of the physical and biological processes at work, and their effects on coast-to-ocean export. The present model experiment confirms the complex three-dimensional structure of the filaments that comprises both offshore and onshore flow components. The model shows strong seasonal variability in the offshore transport mediated by the filaments. Recirculation at the edges of the filaments returns water towards the shore, especially in autumn when they are diverted northwards by the large scale boundary circulation. By contrast, offshore transport peaks during late spring - early summer when onshore recirculation is limited. Overall, the estimated net annual offshore flux of excess total organic carbon (e-TOC, the non-refractory pools of DOC and POC) averages 2.0 × 109 kg C y−1, and may increase up to 4.3 × 109 kg C y−1 during the peak upwelling season, each filament contributing to export of up to 22.6% of the organic carbon within the first 100 km from shore along the CanC EBUS (between 9.5 and 32 ° N). These results strongly support the inclusion of offshore transport estimates by coastal filaments in regional carbon budgets.
URI: http://hdl.handle.net/10553/72837
ISSN: 0079-6611
DOI: 10.1016/j.pocean.2020.102322
Fuente: Progress in Oceanography [ISSN 0079-6611], v. 186, 102322
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