Vertical Structure of Ocean Mesoscale Eddies with Implications for Parameterizations of Tracer Transport
Zofia Stanley, Scott Bachman, Ian Grooms
Abstract
Abstract The Gent–McWilliams parameterization is commonly used in global ocean models to model the advective component of tracer transport effected by unresolved mesoscale eddies. The vertical structure of the transfer coefficient in this parameterization is studied using data from a 0.1° resolution global ocean‐ice simulation. The vertical structure is found to be well approximated by a baroclinic mode structure with no flow at the bottom, though horizontal anisotropy is crucial for obtaining a good fit. This vertical structure is motivated by reference to the vertical structure of mesoscale eddy velocity and density anomalies, which are also diagnosed from the data.
Topics & Concepts
Mesoscale meteorologyBaroclinityAdvectionEddyGeologyTRACERFlow (mathematics)AnisotropyClimatologyMeteorologyAtmospheric sciencesTurbulenceMechanicsPhysicsNuclear physicsQuantum mechanicsThermodynamicsOceanographic and Atmospheric ProcessesClimate variability and modelsMeteorological Phenomena and Simulations