Litcius/Paper detail

Roles of Shear and Convection in Driving Mixing in the Ocean

Gregory N. Ivey, Cynthia Bluteau, Bishakhdatta Gayen, Nicole L. Jones, Taimoor Sohail

2020Geophysical Research Letters25 citationsDOIOpen Access PDF

Abstract

Abstract Using field, numerical, and laboratory studies, we consider the roles of both shear and convection in driving mixing in the interior of the density‐stratified ocean. Shear mixing dominates when the Richardson number Ri < 0.25, convective mixing dominates when Ri > 1.0, and in the intermediate regime when 0.25 < Ri < 1.0 both shear and convection can contribute to mixing. For pure shear mixing the mixing efficiency Ri f approaches 0.5, while for pure convective mixing the mixing efficiency Ri f approaches 0.75. The diapycnal diffusivities for the two mechanisms are given by very different expressions. Despite these complexities, a simple mixing length model using the mean flow shear S provides robust estimates of diffusivity across the range 0 < Ri < 2. To account for the roles of both shear and convection over this range of Ri , we also formulate a modified version of the empirical KPP model for parameterizing ocean mixing in numerical models.

Topics & Concepts

ConvectionMixing (physics)Convective mixingRichardson numberShear (geology)Thermal diffusivityMechanicsGeologyShear flowMeteorologyPhysicsThermodynamicsTurbulencePetrologyQuantum mechanicsOceanographic and Atmospheric ProcessesGeology and Paleoclimatology ResearchMarine and coastal ecosystems