Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/35716
Title: Anatomy of a subtropical intrathermocline eddy
Authors: Barceló-Llull, Bàrbara
Sangrá Inciarte, Pablo 
Pallás Sanz,Enric 
Barton, Eric D.
Estrada-Allis, Sheila N. 
Martínez-Marrero, Antonio 
Aguiar González, Miguel Borja 
Grisolía, Diana 
Gordo, Carmen 
Rodríguez-Santana, Ángel 
Marrero-Díaz, Ángeles 
Arístegui, Javier 
UNESCO Clasification: 2510 Oceanografía
Keywords: Intrathermocline eddy
Mesoscale eddy
Potential vorticity
Canary Eddy Corridor
Issue Date: 2017
Journal: Deep-Sea Research Part I: Oceanographic Research Papers 
Abstract: An interdisciplinary survey of a subtropical intrathermocline eddy was conducted within the Canary Eddy Corridor in September 2014. The anatomy of the eddy is investigated using near submesoscale fine resolution two-dimensional data and coarser resolution three-dimensional data. The eddy was four months old, with a vertical extension of 500 m and 46 km radius. It may be viewed as a propagating negative anomaly of potential vorticity (PV), 95\% below ambient PV. We observed two cores of low PV, one in the upper layers centered at 85 m, and another broader anomaly located between 175 m and the maximum sampled depth in the three-dimensional dataset (325 m). The upper core was where the maximum absolute values of normalized relative vorticity (or Rossby number), vertical bar ro vertical bar = 0.6, and azimuthal velocity, U=0.5 m s(-1), were reached and was defined as the eddy dynamical core. The typical biconvex isopleth shape for intrathermocline eddies induces a decrease of static stability, which causes the low PV of the upper core. The deeper low PV core was related to the occurrence of a pycnostad layer of subtropical mode water that was embedded within the eddy. The eddy core, of 30 km radius, was in near solid body rotation with period of similar to 4 days. It was encircled by a thin outer ring that was rotating more slowly. The kinetic energy (ICE) content exceeded that of available potential energy (ape), ke/ape = 1.58; this was associated with a low aspect ratio and a relatively intense rate of spin as indicated by the relatively high value of Ro. Inferred available heat and salt content anomalies were aha = 2.9 x 10(18) J and ASA = 14.3 x 10(10) kg, respectively. The eddy AHA and ASA contents per unit volume largely exceed those corresponding to Pacific Ocean intrathermocline eddies. This suggests that intrathermocline eddies may play a significant role in the zonal conduit of heat and salt along the Canary Eddy Corridor.
URI: http://hdl.handle.net/10553/35716
ISSN: 0967-0637
DOI: 10.1016/j.dsr.2017.03.012
Source: Deep-Sea Research Part I: Oceanographic Research Papers[ISSN 0967-0637],v. 124, p. 126-139
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