Litcius/Paper detail

Unsteady Ekman‐Stokes Dynamics: Implications for Surface Wave‐Induced Drift of Floating Marine Litter

Christopher J. Higgins, Jacques Vanneste, Ton S. van den Bremer

2020Geophysical Research Letters39 citationsDOIOpen Access PDF

Abstract

Abstract We examine Stokes drift and wave‐induced transport of floating marine litter on the surface of a rotating ocean with a turbulent mixed layer. Due to Coriolis‐Stokes forcing and surface wave stress, a second‐order Eulerian‐mean flow forms, which must be added to the Stokes drift to obtain the correct wave‐induced Lagrangian velocity. We show that this wave‐driven Eulerian‐mean flow can be expressed as a convolution between the unsteady Stokes drift and an “Ekman‐Stokes kernel.” Using this convolution, we calculate the unsteady wave‐driven contribution to particle transport. We report significant differences in both direction and magnitude of transport when the Eulerian‐mean Ekman‐Stokes velocity is included.

Topics & Concepts

Stokes driftStokes wavePhysicsMechanicsEkman layerEkman numberOcean dynamicsEulerian pathStokes flowTurbulenceForcing (mathematics)Stokes numberSurface waveClassical mechanicsFlow (mathematics)Breaking waveAtmospheric sciencesWave propagationLagrangianGeologyOcean currentBoundary layerOpticsClimatologyReynolds numberMathematical physicsMicroplastics and Plastic PollutionCoastal and Marine DynamicsParticle Dynamics in Fluid Flows