Mean and Turbulent Structures of the Oceanic Surface layer as Determined from One-Dimensional, Third-Order Simulations

Abstract

Cent. Natl. Rech. Meteorol. (DMN/EERM), 31057 Toulouse Cedex, France J (Journal-Article) M (Marine) Various mechanisms that can drive the evolution of the oceanic surface boundary layer (OSBL) are numerically studied using a detailed turbulence-closure scheme. It is shown that stress and shear-driven regions are characterized by relatively poor mixing of momentum and heat, and by a local equilibrium at each level between shear production and destruction by viscous dissipation and buoyancy. Buoyancy-driven regions appear to be much more well mixed and to be characterized by counter-gradient turbulent diffusion of eddy kinetic energy. Consequences of these features for the parameterization and description of the OSBL are discussed Ocean Technology, Policy and Non Living Resources (Q2) 1015550 -------------------------------------------------------------------------------- Record 182 of 1156 - ASFA 1978-1987