Lawrence J. Pratt scite author profile

The shallow winter overturning circulation in the Red Sea is studied using a 50 year highresolution MITgcm (MIT general circulation model) simulation with realistic atmospheric forcing. The overturning circulation for a typical year, represented by 1980, and the climatological mean are analyzed using model output to delineate the three-dimensional structure and to investigate the underlying dynamical mechanisms. The horizontal model circulation in the winter of 1980 is dominated by energetic eddies. The climatological model mean results suggest that the surface inflow intensifies in a western boundary current in the southern Red Sea that switches to an eastern boundary current north of 24 N. The overturning is accomplished through a cyclonic recirculation and a cross-basin overturning circulation in the northern Red Sea, with major sinking occurring along a narrow band of width about 20 km along the eastern boundary and weaker upwelling along the western boundary. The northward pressure gradient force, strong vertical mixing, and horizontal mixing near the boundary are the essential dynamical components in the model's winter overturning circulation. The simulated water exchange is not hydraulically controlled in the Strait of Bab el Mandeb; instead, the exchange is limited by bottom and lateral boundary friction and, to a lesser extent, by interfacial friction due to the vertical viscosity at the interface between the inflow and the outflow.

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Evolution and dynamics of the flow through Herald Canyon in the western Chukchi Sea

Pickart

Pratt

Torres

et al. 2010

Deep Sea Research Part II: Topical Studies in Oceanography

117

107

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Eddy-Induced Particle Dispersion in the Near-Surface North Atlantic

Rypina

Kamenkovich

Berloff

et al. 2012

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This study investigates the anisotropic properties of the eddy-induced material transport in the near-surface North Atlantic from two independent datasets, one simulated from the sea surface height altimetry and one derived from real-ocean surface drifters, and systematically examines the interactions between the mean-and eddy-induced material transport in the region. The Lagrangian particle dispersion, which is widely used to characterize the eddy-induced tracer fluxes, is quantified by constructing the ''spreading ellipses.'' The analysis consistently demonstrates that this dispersion is spatially inhomogeneous and strongly anisotropic. The spreading is larger and more anisotropic in the subtropical than in the subpolar gyre, and the largest ellipses occur in the Gulf Stream vicinity. Even at times longer than half a year, the spreading exhibits significant nondiffusive behavior in some parts of the domain. The eddies in this study are defined as deviations from the long-term time-mean. The contributions from the climatological annual cycle, interannual, and subannual (shorter than one year) variability are investigated, and the latter is shown to have the strongest effect on the anisotropy of particle spreading. The influence of the mean advection on the eddy-induced particle spreading is investigated using the ''eddy-following-full-trajectories'' technique and is found to be significant. The role of the Ekman advection is, however, secondary. The pronounced anisotropy of particle dispersion is expected to have important implications for distributing oceanic tracers, and for parameterizing eddy-induced tracer transfer in non-eddy-resolving models.

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Lagrangian Motion and Fluid Exchange in a Barotropic Meandering Jet*

Rogerson¹,

Miller²,

Pratt³

et al. 1999

J. Phys. Oceanogr.

101

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Lawrence J. Pratt

Flow of winter-transformed Pacific water into the Western Arctic

Seasonal overturning circulation in the Red Sea: 2. Winter circulation

Evolution and dynamics of the flow through Herald Canyon in the western Chukchi Sea

Eddy-Induced Particle Dispersion in the Near-Surface North Atlantic

Lagrangian Motion and Fluid Exchange in a Barotropic Meandering Jet*

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