期刊
FRONTIERS IN MARINE SCIENCE
卷 9, 期 -, 页码 -出版社
FRONTIERS MEDIA SA
DOI: 10.3389/fmars.2022.779450
关键词
satellite altimetry; ocean color; Argo profiling float; ADCP; global HYCOM; cyclonic eddy; Straits of Florida; Dry Tortugas
This study investigates the physical and biochemical properties, 3-dimensional structure, and evolution of a long-lasting cyclonic eddy (CE) in the Straits of Florida along the Loop Current/Florida Current front using satellite observations, Argo profiling float records, shipborne measurements, and simulations from HYCOM. The study reveals the formation and quasi-stationary behavior of the eddy, as well as its characteristics and mechanisms of growth and evolution.
Ocean eddies along the Loop Current (LC)/Florida Current (FC) front have been studied for decades, yet studies of the entire evolution of individual eddies are rare. Here, satellite altimetry and ocean color observations, Argo profiling float records and shipborne acoustic Doppler current profiler (ADCP) measurements, together with high-resolution simulations from the global Hybrid Coordinate Ocean Model (HYCOM) are used to investigate the physical and biochemical properties, 3-dimensional (3-D) structure, and evolution of a long-lasting cyclonic eddy (CE) in the Straits of Florida (SoF) along the LC/FC front during April-August 2017. An Angular Momentum Eddy Detection Algorithm (AMEDA) is used to detect and track the CE during its evolution process. The long-lasting CE is found to form along the eastern edge of the LC on April 9th, and remained quasi-stationary for about 3 months (April 23 to July 15) off the Dry Tortugas (DT) until becoming much smaller due to its interaction with the FC and topography. This frontal eddy is named a Tortugas Eddy (TE) and is characterized with higher Chlorophyll (Chl) and lower temperature than surrounding waters, with a mean diameter of similar to 100 km and a penetrating depth of similar to 800 m. The mechanisms that contributed to the growth and evolution of this long-lasting TE are also explored, which reveal the significant role of oceanic internal instability.
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