Atmospheric Response to Mesoscale Ocean Eddies over the South China Sea

摘要

The South China Sea (SCS) is an eddy-active area.Composite analyses based on 438 mesoscale ocean eddies during 2000-2012 revealed the status of the atmospheric boundary layer is influenced remarkably by such eddies.The results showed cold-core cyclonic (warm-core anticyclonic) eddies tend to cool (warm) the overlying atmosphere and cause surface winds to decelerate (accelerate).More than 5％ of the total variance of turbulent heat fluxes,surface wind speed and evaporation rate are induced by mesoscale eddies.Furthermore,mesoscale eddies locally affect the columnar water vapor,cloud liquid water,and rain rate.Dynamical analyses indicated that both variations of atmospheric boundary layer stability and sea level pressure are responsible for atmospheric anomalies over mesoscale eddies.To reveal further details about the mechanisms of atmospheric responses to mesoscale eddies,atmospheric manifestations over a pair of cold and warm eddies in the southwestern SCS were simulated.Eddy-induced heat flux anomalies lead to changes in atmospheric stability.Thus,anomalous turbulence kinetic energy and friction velocity arise over the eddy dipole,which reduce (enhance) the vertical momentum transport over the cold (warm) eddy,resulting in the decrease (increase) of sea surface wind.Diagnoses of the model's momentum balance suggested that wind speed anomalies directly over the eddy dipole are dominated by vertical mixing terms within the atmospheric boundary layer,while wind anomalies on the edges of eddies are produced by atmospheric pressure gradient forces and atmospheric horizontal advection terms.