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Dominant Circulation Patterns of the Deep Gulf of Mexico (2018)

Pérez-Brunius, Paula ; Furey, Heather ; Bower, Amy ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2018; 48(3): 511-529. Published 2018 Mar 01. doi: 10.1175/jpo-d-17-0140.1.

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Publication Date: 2018-03-01

Description: The large-scale circulation of the bottom layer of the Gulf of Mexico is analyzed, with special attention to the historically least studied western basin. The analysis is based on 4 years of data collected by 158 subsurface floats parked at 1500 and 2500 m and is complemented with data collected by current meter moorings in the western basin during the same period. Three main circulation patterns stand out: a cyclonic boundary current, a cyclonic gyre in the abyssal plain, and the very high eddy kinetic energy observed in the eastern Gulf. The boundary current and the cyclonic gyre appear as distinct features, which interact in the western tip of the Yucatan shelf. The persistence and continuity of the boundary current is addressed. Although high variability is observed, the boundary flow serves as a pathway for water to travel around the western basin in approximately 2 years. An interesting discovery is the separation of the boundary current over the northwestern slope of the Yucatan shelf. The separation and retroflection of the along-slope current appears to be a persistent feature and is associated with anticyclonic eddies whose genesis mechanism remains to be understood. As the boundary flow separates, it feeds into the westward flow of the deep cyclonic gyre. The location of this gyre—named the Sigsbee Abyssal Gyre—coincides with closed geostrophic contours, so eddy–topography interaction via bottom form stresses may drive this mean flow. The contribution to the cyclonic vorticity of the gyre by modons traveling under Loop Current eddies is discussed.

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Electronic ISSN: 1520-0485

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Loop Current Frontal Eddies: Formation along the Campeche Bank and Impact of Coastally Trapped Waves (2016)

Jouanno, Julien ; Ochoa, José ; Pallàs-Sanz, Enric ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2016; 46(11): 3339-3363. Published 2016 Nov 01. doi: 10.1175/jpo-d-16-0052.1.

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Publication Date: 2016-11-01

Description: Velocity data from a mooring array deployed northeast of the Campeche Bank (CB) show the presence of subinertial, high-frequency (below 15 days) velocity fluctuations within the core of the northward flowing Loop Current. These fluctuations are associated with the presence of surface-intensified Loop Current frontal eddies (LCFEs), with cyclonic vorticity and diameter 〈 100 km. These eddies are well reproduced by a high-resolution numerical simulation of the Gulf of Mexico, and the model analysis suggests that they originate along and north of the CB, their main energy source being the mixed baroclinic–barotropic instability of the northward flow along the shelf break. There is no indication that these high-frequency LCFEs contribute to the LC eddy detachment in contrast to the low-frequency LCFEs (periods 〉 30 days) that have been linked to Caribbean eddies and the LC separation process. Model results show that wind variability associated with winter cold surges are responsible for the emergence of high-frequency LCFEs in a narrow band of periods (6–10 day) in the region of the CB. The dynamical link between the formation of these LCFEs and the wind variability is not direct: (i) the large-scale wind perturbations generate sea level anomalies on the CB as well as first baroclinic mode, coastally trapped waves in the western Gulf of Mexico; (ii) these waves propagate cyclonically along the coast; and (iii) the interaction of these anomalies with the Loop Current triggers cyclonic vorticity perturbations that grow in intensity as they propagate downstream and develop into cyclonic eddies when they flow north of the Yucatan shelf.

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Near-Surface and Deep Circulation Coupling in the Western Gulf of Mexico (2018)

Tenreiro, M. ; Candela, Julio ; Sanz, Enric Pallàs ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2018; 48(1): 145-161. Published 2018 Jan 01. doi: 10.1175/jpo-d-17-0018.1.

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Publication Date: 2018-01-01

Description: The coupling between the upper (z 〈 1000-m depth) and deep (z 〉 1500 m) circulation in the western Gulf of Mexico (WGoM) driven by the arrival of Loop Current eddies (LCEs) is analyzed from moorings measuring horizontal velocity in the full water column during a 5-yr period (October 2008–October 2013). Nine LCEs crossing the mooring array are documented. A composite of these events shows that strong northward currents at depth having speeds of 0.1–0.2 m s−1 precede (~10–20 days) the strong northward near-surface currents (~0.5 m s−1) characteristic of the western rim of the LCEs. These deep northward flow intensifications are followed by southward deep flows coupled with the surface-intensified southward current of the eastern (rear) part of the LCEs crossing the array. These results are consistent with the existence of a deep anticyclone leading and a cyclone trailing the upper-layer LCEs. Objectively interpolated regional maps of velocities and vertical vorticity obtained from up to 30 moorings indicate the mean circulation at 100-m depth in the northern WGoM is mostly anticyclonic and enhanced by the arrival of the westward-propagating LCEs, while the southern part is dominated by the presence of a semipermanent cyclonic structure (Bay of Campeche cyclonic gyre). At 1500-m depth, the mean circulation follows the slope in a cyclonic sense and shows a cyclonic vorticity maximum on the abyssal plane consistent with the LCE deep flow composites. This suggests the LCEs strongly modulate not only the upper-layer circulation but also impact the deep flow.

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Seasonal Variability of the Transport through the Yucatan Channel from Observations (2020)

Athié, Gabriela ; Sheinbaum, Julio ; Candela, Julio ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2020; 50(2): 343-360. Published 2020 Feb 01. doi: 10.1175/jpo-d-18-0269.1.

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Publication Date: 2020-02-01

Description: The seasonal cycle of transport through the Yucatan Channel is estimated from 59 months of direct mooring measurements and 23 years of a transport proxy from AVISO sea level across the channel. Both exhibit a seasonal cycle with a maximum in summer (July–August) but have a minimum in March for the mooring and in November for AVISO data. The annual and semiannual harmonics explain respectively 19% (~32%) and 6% (~4%) of the subinertial variance of the moored (proxy) transports. Seasonal variations of zonal wind stress and anticyclonic wind stress curl over the Cayman Sea appear to be positively correlated with transport in Yucatan Channel and the northward extension of the Loop Current during the summer, agreeing to some extent with modeling results previously reported. Transport increments during summer coincide with enhanced regional easterly winds and anticyclonic wind stress curl in 60% of the cases (of 23 years). However, this connection is not as tight as model results suggest during winter. The summer correlation only appears to be valid in a broad statistical sense since it is modulated by large interannual and higher-frequency variability. Moored time series confirm previous results that the transport signal on the western side of the channel is quite different from the total Yucatan Channel transport and that eddy kinetic energy at higher frequencies (50–100 days) dominates the variability and is characterized by a relatively low net transport signal, with flow of opposite signs on each side of the channel.

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Seasonal and Interannual Modulation of the Eddy Kinetic Energy in the Caribbean Sea (2012)

Jouanno, Julien ; Sheinbaum, Julio ; Barnier, Bernard ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2012; 42(11): 2041-2055. Published 2012 Nov 01. doi: 10.1175/jpo-d-12-048.1.

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Publication Date: 2012-11-01

Description: Variability of the mesoscale eddy field in the Caribbean Sea is analyzed over the period 1993–2009 using geostrophic anomalies derived from altimeter data and a high-resolution regional model. The Colombia Basin presents the largest values of eddy kinetic energy (EKE) and its semiannual cycle, with a main peak in August–October and a secondary peak in February–March, is the dominant feature in the whole Caribbean EKE cycle. The analysis of energy conversion terms between low-frequency currents and eddies explains these peaks by enhanced baroclinic and barotropic instabilities, in response to seasonally varying currents in the region of the Guajira Peninsula. The semiannual acceleration of the atmospheric Caribbean low-level jet intensifies the southern Caribbean Current (sCC) twice a year in this region, together with its vertical and horizontal velocity shears. The asymmetry of the EKE seasonal cycle in the Colombia Basin is explained by a summer peak in the annual cycle of the whole sCC. Numerical results suggest that the arrival of more energetic North Brazil Current rings during part of the year have almost no impact on the seasonal cycle of EKE in the Colombia Basin. Instead, they are shown to contribute, together with the annual cycle of the Caribbean inflow through the southern passages of the Lesser Antilles, to an annual peak of EKE in the Venezuela Basin between May and August. At the interannual scale the mechanism is similar: interannual variability of the alongshore wind stress controls the speed of the southern Caribbean Current and the energy of the eddies in the Colombia Basin through instability.

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Vertical Velocity and Vertical Heat Flux Observed within Loop Current Eddies in the Central Gulf of Mexico (2008)

Rivas, David ; Badan, Antoine ; Sheinbaum, Julio ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2008; 38(11): 2461-2481. Published 2008 Nov 01. doi: 10.1175/2008jpo3755.1.

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Publication Date: 2008-11-01

Description: Sixteen months of observations from a surface-to-bottom mooring in the central Gulf of Mexico show that acoustic Doppler current profilers (ADCPs) are useful for directly measuring the vertical velocity within mesoscale anticyclonic eddies, such as those shed from the Loop Current; and combining simultaneous temperature measurements, vertical heat flux can also be estimated (as a covariance of both variables). There is evidence of significant and coherent signals of vertical velocity ∼2–3 mm s−1 and vertical heat (temperature) transport ∼10−3 °C m s−1 during the presence of three anticyclones. A simple analysis shows downward flow near the eddies’ centers above 350 m and essentially upward flow in the peripheries, but below 700-m depth the pattern is indeed the opposite; however, further study is necessary to determine the eddies’ interior structures. The observations also suggest the existence of a vertical convergence of heat somewhere around 600-m depth, and estimations of adiabatic heat flux suggest that part of the converged heat, which is not recirculated within the eddy, must escape from the eddy and flow upward along the isopycnals up to the surface layers. This is in good agreement with previous results that have suggested that an excess heat gained by the Gulf in the intermediate levels through exchanges with the Caribbean Sea must be exported to the upper layers by an upward mean heat flux.

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The “Mad Sea” Phenomenon in the Strait of Sicily (1999)

Candela, Julio ; Mazzola, Salvatore ; Sammari, Chérif ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 1999; 29(9): 2210-2231. Published 1999 Sep 01. doi: 10.1175/1520-0485(1999)029〈2210:tmspit〉2.0.co;2.

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Publication Date: 1999-09-01

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Deep Currents in the Bay of Campeche (2011)

Kolodziejczyk, Nicolas ; Ochoa, José ; Candela, Julio ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2011; 41(10): 1902-1920. Published 2011 Oct 01. doi: 10.1175/2011jpo4526.1.

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Publication Date: 2011-10-01

Description: Data from five moorings deployed in the Bay of Campeche during November 2007–July 2008 are used to analyze subinertial motions of waters below 1000-m depth. To the authors’ knowledge, this is the first time such a comprehensive observational program of direct deep-current measurements has been carried out in the region. The mean currents are in agreement with a cyclonic circulation at 1000-m depth; however, this cyclonic pattern is not so clearly defined at deeper levels. Only at the deepest mooring, located at 3500-m depth, are the mean currents uniform all the way to the bottom. Over the Bay of Campeche’s smooth western slope, currents show features compatible with topographic Rossby waves having vertical trapping scales thicker than 700 m, periods between 5 and 60 days, and horizontal wavelengths of 90–140 km. In contrast, the eastern slopes are characterized by rough topography, and motions with periods longer than 28 days decrease toward the bottom, suggesting a substantial reduction in the low-frequency topographic Rossby wave signal. Velocities from one of the two neighboring moorings located over the eastern rough slope have a strong 3-day period signal, which increases toward the bottom and has a vertical trapping scale of about 350 m. These higher frequency motions are interpreted in terms of edge waves.

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Assessment of Numerical Simulations of Deep Circulation and Variability in the Gulf of Mexico Using Recent Observations (2020)

Morey, Steven L. ; Gopalakrishnan, Ganesh ; Sanz, Enric Pallás ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2020; 50(4): 1045-1064. Published 2020 Apr 01. doi: 10.1175/jpo-d-19-0137.1.

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Publication Date: 2020-04-01

Description: Three simulations of the circulation in the Gulf of Mexico (the “Gulf”) using different numerical general circulation models are compared with results of recent large-scale observational campaigns conducted throughout the deep (〉1500 m) Gulf. Analyses of these observations have provided new understanding of large-scale mean circulation features and variability throughout the deep Gulf. Important features include cyclonic flow along the continental slope, deep cyclonic circulation in the western Gulf, a counterrotating pair of cells under the Loop Current region, and a cyclonic cell to the south of this pair. These dominant circulation features are represented in each of the ocean model simulations, although with some obvious differences. A striking difference between all the models and the observations is that the simulated deep eddy kinetic energy under the Loop Current region is generally less than one-half of that computed from observations. A multidecadal integration of one of these numerical simulations is used to evaluate the uncertainty of estimates of velocity statistics in the deep Gulf computed from limited-length (4 years) observational or model records. This analysis shows that the main deep circulation features identified from the observational studies appear to be robust and are not substantially impacted by variability on time scales longer than the observational records. Differences in strengths and structures of the circulation features are identified, however, and quantified through standard error analysis of the statistical estimates using the model solutions.

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Deep-water warming in the Gulf of Mexico from 2003 to 2019. (2021)

Ochoa, José ; Ferreira-Bartrina, Vicente ; Candela, Julio ; [et al.]

American Meteorological Society

In: Journal of Physical Oceanography. 2021; Published 2021 Feb 24. doi: 10.1175/jpo-d-19-0295.1. [early online release]

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Publication Date: 2021-02-24

Description: A key consequence in climate change is the warming of deep waters, away from the faster warming rates of near-surface subtropical and tropical waters. Since surface and near-surface oceanic temperatures have been measured far more frequently in time and space than deep waters (〉2000 m), deep measurements become quite valuable. Semi-enclosed basins, as the Gulf of Mexico, are of particular interest as the waters below sills that connect with the neighboring oceans have residence times much longer than upper layers. Within the western Gulf of Mexico, near bottom measurements at ~3500 m depths at four sites show a stable linear warming trend of ~16±2 m°C decade-1 for the period 2007-2018, and CTD data from 8 oceanographic cruises occurring from 2003 to 2019 show a trend of ~18±~2 m°C decade-1 from the bottom to ~2000 m below the surface. The bottom geothermal heat flux is a contributing factor to be considered in the warming and renewal of such waters, but it has not changed over millennia therefore unlikely to be the cause of the observed trend. The densest waters that spill into the Gulf of Mexico, over the Yucatan Channel sill, must mix substantially during their descent and in the near bottom interior, losing their extreme values. A simple box model connects the observed warming, well within the gulf interior, with that expected in the densest waters that spill from the North Atlantic into the Cayman Basin through Windward Passage, and suggests, that the source waters at the entrance to the Caribbean have been warming for at least 100 years.

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