The influence of merger and convection on an anticyclonic eddy trapped in a bowl

On June 7, 2018, a sub-mesoscale anticyclonic eddy induced by the wind (north-east) was registered on the shelf in the area of the city of Gelendzhik. With the help of field multidisciplinary expedition ship surveys, it was shown that this eddy exists in the layer above the seasonal thermocline. At the periphery of the eddy weak variability of hydrochemical parameters and quantitative indicators of phytoplankton were recorded. The result of the formation of such eddy structure was a shift in the structure of phytoplankton – the annual observed coccolithophores bloom was not registered.

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An exceptional anticyclonic eddy in the South China Sea in 2010

Journal of Geophysical Research Oceans ◽

10.1002/2013jc009314 ◽

2014 ◽

Vol 119 (2) ◽

pp. 881-897 ◽

Cited By ~ 49

Author(s):

Xiaoqing Chu ◽

Huijie Xue ◽

Yiquan Qi ◽

Gengxin Chen ◽

Qingwen Mao ◽

...

Keyword(s):

South China Sea ◽

South China ◽

Anticyclonic Eddy ◽

The South China Sea ◽

The South ◽

China Sea

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Stalling and Dissipation of a Near-Inertial Wave (NIW) in an Anticyclonic Eddy: Direct Determination of Group Velocity and Comparison with Theory

10.1002/essoar.10503219.1 ◽

2020 ◽

Author(s):

Thomas Sanford

Keyword(s):

Group Velocity ◽

Direct Determination ◽

Anticyclonic Eddy ◽

Inertial Wave

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Subsurface Fine-Scale Patterns in an Anticyclonic Eddy Off Cap-Vert Peninsula Observed From Glider Measurements

Journal of Geophysical Research Oceans ◽

10.1029/2018jc014135 ◽

2018 ◽

Vol 123 (9) ◽

pp. 6312-6329 ◽

Cited By ~ 4

Author(s):

Nicolas Kolodziejczyk ◽

Pierre Testor ◽

Alban Lazar ◽

Vincent Echevin ◽

Gerd Krahmann ◽

...

Keyword(s):

Anticyclonic Eddy ◽

Fine Scale

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Hydrography and Circulation West of Sardinia in June 2014

10.5194/os-2017-45 ◽

2017 ◽

Cited By ~ 1

Author(s):

Michaela Knoll ◽

Ines Borrione ◽

Heinz-Volker Fiekas ◽

Andreas Funk ◽

Michael P. Hemming ◽

...

Keyword(s):

Eastern Mediterranean ◽

Potential Temperature ◽

Atlantic Water ◽

Western Mediterranean ◽

Anticyclonic Eddy ◽

Intermediate Water ◽

Potential Density ◽

Sea Trial ◽

The North

Abstract. In the mainframe of the REP14-MED sea trial in June 2014, the hydrography and circulation west of Sardinia, observed by means of gliders, shipborne CTD instruments, towed devices, and vessel-mounted ADCPs, are presented and compared with previous knowledge. So far, the circulation is not well known in this area, and the hydrography is subject to long-term changes. Potential temperature, salinity, and potential density ranges, as well as core values of the observed water masses were determined. Modified Atlantic Water (MAW), with potential density anomalies below 28.72 kg m−3, showed a salinity minimum of 37.93 at 50 dbar. Levantine Intermediate Water (LIW), with a salinity maximum of about 38.70 at 400 dbar, was observed within a range of 28.72 < σΘ [kg m−3] < 29.10. MAW and LIW showed slightly higher salinities than previous investigations. During the trial, LIW covered the whole area from the Sardinian shelf to 7°15' E. Only north of 40° N was it tied to the continental slope. Within the MAW, a cold and saline anticyclonic eddy was observed in the southern trial area. The strongest variability in temperature and salinity appeared around this eddy, and in the southwestern part of the domain, where unusually low saline surface water entered the area towards the end of the experiment. An anticyclonic eddy of Winter Intermediate Water was recorded moving northward at 0.014 m s−1. Geostrophic currents and water mass transports calculated across zonal and meridional transects showed a good agreement with vessel-mounted ADCP measurements. Within the MAW, northward currents were observed over the shelf and offshore, while a southward transport of about 1.5 Sv occurred over the slope. A net northward transport of 0.38 Sv across the southern transect decreased to zero in the north. Within the LIW, northward transport of 0.6 Sv across the southern transects were mainly observed offshore, and decreased to 0.3 Sv in the north where they were primarily located over the slope. This presentation of the REP14-MED observations helps to further understand the long-term evolution of hydrography and circulation in the Western Mediterranean, where considerable changes occurred after the Eastern Mediterranean Transient and the Western Mediterranean Transition.

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Anomalous transport of heat and salt by a long-lived anticyclonic eddy in the northeast tropical Pacific Ocean

10.5194/egusphere-egu21-13346 ◽

2021 ◽

Author(s):

Kaveh Purkiani ◽

Maren Walter ◽

Matthias Haeckel ◽

Katja Schmidt ◽

André Paul ◽

...

Keyword(s):

Pacific Ocean ◽

Dissolved Oxygen ◽

Mesoscale Eddy ◽

Tropical Pacific ◽

Anticyclonic Eddy ◽

Altimeter Data ◽

Positive Temperature ◽

Tropical Pacific Ocean ◽

High Rotational Speed ◽

The Impact

During RV Sonne expedition SO268 to the northeast tropical Pacific Ocean between March and May 2019, the impact of a mesoscale eddy on the seawater properties was investigated by conducting a multiple of observations. A subsequent analysis of an altimeter data revealed the formation of an anticyclonic mesoscale eddy in the Tehuantepec gulf between 15 and 20 June 2018 with a mean radius of 185 km and an average speed of 13 cm/s. This extremely long-lived eddy carried sea-water characteristics from near coastal Mexican waters westward far into the open ocean. The water mass stayed largely isolated during the 11 months of travel time due to high rotational speed.The eddy exhibited a conical-shape vertical structure with concurrent deepening of the main thermocline. The water in the eddy core showed an extreme positive temperature anomaly of 8&#9702;C, a negative salinity anomaly of -0.5 psu and a positive dissolved oxygen concentration anomaly of +160 &#956;mol/kg centered at 80 m depth. The sub-surface impact of the eddy is clearly evident in the temperature and salinity profiles at a depth of 1500 m. For dissolved oxygen the eddy-induced anomaly reached even deeper to the seafloor.This study provides new insights to the offshore transport of heat and salt driven by the long-lived anticyclonic eddy in the northeast tropical Pacific Ocean. Considering the water column trapped within the eddy, a positive heat transport anomaly of 1-3 &#215;1011 W and a negative salt transport anomaly of -8&#215;103 kg/s were estimated. However, due to the rare occurrence of long-lived anticyclone eddies in this region, they likely do not play a significant role in affecting the heat and salt balance of the northeastern tropical Pacific Ocean.

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Observations of internal waves generated by an anticyclonic eddy: a case study in the ice edge region of the Greenland Sea

Tellus A Dynamic Meteorology and Oceanography ◽

10.1080/16000870.2019.1652881 ◽

2019 ◽

Vol 71 (1) ◽

pp. 1652881

Author(s):

O.M. Johannessen ◽

S. Sandven ◽

I.P. Chunchuzov ◽

R.A. Shuchman

Keyword(s):

Internal Waves ◽

Anticyclonic Eddy ◽

Edge Region ◽

Greenland Sea ◽

Ice Edge

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Enhanced Diapycnal Mixing due to Near-Inertial Internal Waves Propagating through an Anticyclonic Eddy in the Ice-Free Chukchi Plateau

Journal of Physical Oceanography ◽

10.1175/jpo-d-15-0150.1 ◽

2016 ◽

Vol 46 (8) ◽

pp. 2457-2481 ◽

Cited By ~ 14

Author(s):

Yusuke Kawaguchi ◽

Shigeto Nishino ◽

Jun Inoue ◽

Katsuhisa Maeno ◽

Hiroki Takeda ◽

...

Keyword(s):

Kinetic Energy ◽

Arctic Ocean ◽

Internal Waves ◽

Relative Vorticity ◽

Anticyclonic Eddy ◽

The Arctic ◽

Buoyancy Frequency ◽

Energy Propagation ◽

Microstructure Observation ◽

Chukchi Plateau

AbstractThe Arctic Ocean is known to be quiescent in terms of turbulent kinetic energy (TKE) associated with internal waves. To investigate the current state of TKE in the seasonally ice-free Chukchi Plateau, Arctic Ocean, this study performed a 3-week, fixed-point observation (FPO) using repeated microstructure, hydrographic, and current measurements in September 2014. During the FPO program, the microstructure observation detected noticeable peaks of TKE dissipation rate ε during the transect of an anticyclonic eddy moving across the FPO station. Particularly, ε had a significant elevation in the lower halocline layer, near the critical level, reaching the order of 10−8 W kg−1. The ADCP-measured current displayed energetic near-inertial internal waves (NIWs) propagating via the stratification at the top and bottom of the anticyclone. According to spectral analyses of horizontal velocity, the waves had almost downward energy propagation, and its current amplitude reached ~10 cm s−1. The WKB scaling, incorporating vertical variations of relative vorticity, suggests that increased wave energy near the two pycnoclines was associated with diminishing group velocity at the corresponding depths. The finescale parameterization using observed near-inertial velocity and buoyancy frequency successfully reproduced the characteristics of observed ε, supporting that the near-inertial kinetic energy can be effectively dissipated into turbulence near the critical layer. According to a mixed layer slab model, a rapidly moving storm that has passed over in the first week likely delivered the bulk of NIW kinetic energy, eventually captured by the vortex, into the surface water.

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