Litcius/Paper detail

Marine Boundary Layers above Heterogeneous SST: Across-Front Winds

Peter P. Sullivan, James C. McWilliams, Jeffrey Weil, Edward G. Patton, Harindra J. S. Fernando

2020Journal of the Atmospheric Sciences44 citationsDOIOpen Access PDF

Abstract

Abstract Turbulent flow in a weakly convective marine atmospheric boundary layer (MABL) driven by geostrophic winds U g = 10 m s −1 and heterogeneous sea surface temperature (SST) is examined using fine-mesh large-eddy simulation (LES). The imposed SST heterogeneity is a single-sided warm or cold front with temperature jumps Δ θ = (2, −1.5) K varying over a horizontal distance between [0.1, −6] km characteristic of an upper-ocean mesoscale or submesoscale regime. A Fourier-fringe technique is implemented in the LES to overcome the assumptions of horizontally homogeneous periodic flow. Grid meshes of 2.2 × 10 9 points with fine-resolution (horizontal, vertical) spacing ( δx = δy , δz ) = (4.4, 2) m are used. Geostrophic winds blowing across SST isotherms generate secondary circulations that vary with the sign of the front. Warm fronts feature overshoots in the temperature field, nonlinear temperature and momentum fluxes, a local maximum in the vertical velocity variance, and an extended spatial evolution of the boundary layer with increasing distance from the SST front. Cold fronts collapse the incoming turbulence but leave behind residual motions above the boundary layer. In the case of a warm front, the internal boundary layer grows with downstream distance conveying the surface changes aloft and downwind. SST fronts modify entrainment fluxes and generate persistent horizontal advection at large distances from the front.

Topics & Concepts

Geostrophic windMesoscale meteorologyGeologyAdvectionCold frontBoundary layerFront (military)Planetary boundary layerPotential temperatureAtmospheric sciencesStratification (seeds)Sea surface temperatureWarm frontConvective Boundary LayerMechanicsClimatologyPhysicsBotanyDormancySeed dormancyThermodynamicsGerminationOceanographyBiologyClimate variability and modelsOceanographic and Atmospheric ProcessesMeteorological Phenomena and Simulations