2020
DOI: 10.1029/2019jc015538
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Eddy Surface Characteristics and Vertical Structure in the Gulf of Mexico from Satellite Observations and Model Simulations

Abstract: The Gulf of Mexico exhibits strong circulation due to the Loop Current System, along with high mesoscale eddy activity. In order to investigate eddy characteristics, we apply an automatic eddy‐tracking algorithm to absolute dynamic topography maps and analyze the spatial distribution and evolution of eddy attributes including amplitude, radius, and eddy kinetic energy. The Loop Current region in the eastern Gulf of Mexico is an area of robust eddy generation for both cyclonic and anticyclonic eddies. Anticyclo… Show more

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Cited by 20 publications
(28 citation statements)
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“…For each eddy detected, the following properties are defined: (i) amplitude, which is the difference between the maximum (minimum) sea surface high (SSH) value and the averaged SSH over the edge pixels that define the outer perimeter of the eddy; (ii) radius of maximum velocity; and (iii) rotational velocity, which is the average of geostrophic speed over the radius of maximum velocity. This same methodology has been successful applied by other authors, such as Arur et al (2014) in their study of eddies in the Indian Ocean, Jufaili and Piontkovski (2020) for eddies in the western Arabian Sea, and Brokaw et al (2020) for eddies generated by the Loop Current in the eastern Gulf of Mexico. A newer version of mesoscale eddy trajectory atlas product META3.1 DT was made available recently and uses a different algorithm based on pyeddy-tracker to detect eddies.…”
Section: The Datamentioning
confidence: 96%
“…For each eddy detected, the following properties are defined: (i) amplitude, which is the difference between the maximum (minimum) sea surface high (SSH) value and the averaged SSH over the edge pixels that define the outer perimeter of the eddy; (ii) radius of maximum velocity; and (iii) rotational velocity, which is the average of geostrophic speed over the radius of maximum velocity. This same methodology has been successful applied by other authors, such as Arur et al (2014) in their study of eddies in the Indian Ocean, Jufaili and Piontkovski (2020) for eddies in the western Arabian Sea, and Brokaw et al (2020) for eddies generated by the Loop Current in the eastern Gulf of Mexico. A newer version of mesoscale eddy trajectory atlas product META3.1 DT was made available recently and uses a different algorithm based on pyeddy-tracker to detect eddies.…”
Section: The Datamentioning
confidence: 96%
“…The NCODA system assimilates available satellite altimeter data, satellite sea surface temperature, in situ sea surface temperature, and available in situ vertical temperature and salinity profiles from XBTs, Argo floats, and moored buoys, among others. The HYCOM GoM simulations have shown good consistency with observations and accurately reflect eddy characteristics in the GoM (Brokaw et al, 2020; Rosburg & Donohue, 2011; Rosburg et al, 2016). The domain of the model extends from 19 to 32°N and 98 to 76°W in such a way that also includes the Yucatan and Florida currents.…”
Section: Methodsmentioning
confidence: 86%
“…Although the model captured the dominant feature of the θ ′ in the subtropical gyres, the pattern exhibits high spatial and temporal variability due to the discrete MLD data, which were estimated from over 3,300,000 in‐situ temperature and salinity profile observations delivered by the World Ocean Database (WOD) (Figure and Text ) (de Boyer Montégut et al., 2004). High resolution reanalysis data from the HYbrid Coordinate Ocean Model (HYCOM) have been documented to resolve eddy signals (Ajayi et al., 2020; Brokaw et al., 2020; He et al., 2017). We applied MLD data from the HYCOM and reran the model for a refined result.…”
Section: Resultsmentioning
confidence: 99%
“…10.1029/2020GL091975 5 of 10 (WOD) (Figure S1 and Text S3) (de Boyer Montégut et al, 2004). High resolution reanalysis data from the HYbrid Coordinate Ocean Model (HYCOM) have been documented to resolve eddy signals (Ajayi et al, 2020;Brokaw et al, 2020;He et al, 2017). We applied MLD data from the HYCOM and reran the model for a refined result.…”
Section: Photoacclimation Model Simulationmentioning
confidence: 99%