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The Influence of Submesoscales and Vertical Mixing on the Export of Sinking Tracers in Large-Eddy Simulations

John R. Taylor, Katherine Smith, Catherine A. Vreugdenhil

2020Journal of Physical Oceanography30 citationsDOIOpen Access PDF

Abstract

Abstract We use idealized large-eddy simulations (LES) and a simple analytical theory to study the influence of submesoscales on the concentration and export of sinking particles from the mixed layer. We find that restratification of the mixed layer following the development of submesoscales reduces the rate of vertical mixing which, in turn, enhances the export rate associated with gravitational settling. For a neutral tracer initially confined to the mixed layer, subinertial (submesoscale) motions enhance the downward tracer flux, consistent with previous studies. However, the sign of the advective flux associated with the concentration of sinking particles reverses, indicating reentrainment into the mixed layer. A new theory is developed to model the gravitational settling flux when the particle concentration is nonuniform. The theory broadly agrees with the LES results and allows us to extend the analysis to a wider range of parameters.

Topics & Concepts

SettlingAdvectionMixed layerFlux (metallurgy)TRACERMixing (physics)MechanicsRange (aeronautics)GeologyAtmospheric sciencesGravitationParticle (ecology)Sign (mathematics)GeophysicsEnvironmental sciencePhysicsOceanographyMaterials scienceThermodynamicsClassical mechanicsMathematicsMetallurgyQuantum mechanicsMathematical analysisNuclear physicsComposite materialFluid Dynamics and Turbulent FlowsOceanographic and Atmospheric ProcessesClimate variability and models
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