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Turbulent Dissipation in the Surface Mixed Layer of an Anticyclonic Mesoscale Eddy in the South China Sea

Jihai Dong, Baylor Fox‐Kemper, Zhiyou Jing, Qingxuan Yang, Jiwei Tian, Changming Dong

2022Geophysical Research Letters24 citationsDOIOpen Access PDF

Abstract

Abstract Clarifying contributions to the surface mixed layer (SML) dissipation from dynamic processes including winds, waves, buoyancy forcing and submesoscales is of significance for quantifying exchanges between the atmosphere and the ocean. Based on two observation sections across an anticyclonic eddy in the South China Sea, the contributions from different dynamic processes to the SML dissipation rate of turbulence are quantified. The potential vorticity indicates instability events including symmetric instability (SI), gravitational instability and centrifugal instability at the eddy. Despite of a dominant role of wind‐ and wave‐induced dissipation rates, SI is highlighted by a mean estimated depth‐integrated dissipation rate of 4.3 × 10 −6 W m kg −1 with a maximum up to 3.2 × 10 −5 W m kg −1 . The SI dissipation is believed to play a role in the eddy kinetic energy budget by extracting energy from the vertical geostrophic shear at the eddy.

Topics & Concepts

DissipationMesoscale meteorologyGeostrophic windAnticycloneInstabilityMixed layerPotential vorticityBuoyancyVorticityTurbulenceGeophysicsGeologyAtmospheric sciencesTurbulence kinetic energyBaroclinityMechanicsEddy diffusionPhysicsClimatologyVortexThermodynamicsOceanographic and Atmospheric ProcessesOcean Waves and Remote SensingTropical and Extratropical Cyclones Research