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Mixing by Oceanic Lee Waves

Sonya Legg

2020Annual Review of Fluid Mechanics63 citationsDOI

Abstract

Oceanic lee waves are generated in the deep stratified ocean by the flow of ocean currents over sea floor topography, and when they break, they can lead to mixing in the stably stratified ocean interior. While the theory of linear lee waves is well established, the nonlinear mechanisms leading to mixing are still under investigation. Tidally driven lee waves have long been observed in the ocean, along with associated mixing, but observations of lee waves forced by geostrophic eddies are relatively sparse and largely indirect. Parameterizations of the mixing due to ocean lee waves are now being developed and implemented in ocean climate models. This review summarizes current theory and observations of lee wave generation and mixing driven by lee wave breaking, distinguishing between steady and tidally oscillating forcing. The existing parameterizations of lee wave–driven mixing informed by theory and observations are outlined, and the impacts of the parameterized lee wave–driven mixing on simulations of large-scale ocean circulation are summarized.

Topics & Concepts

Mixing (physics)EddyGeostrophic windGeologyBreaking waveForcing (mathematics)Wind waveInternal waveOcean currentOcean dynamicsOceanographyGeophysicsPhysicsClimatologyMeteorologyWave propagationTurbulenceQuantum mechanicsOceanographic and Atmospheric ProcessesClimate variability and modelsMarine and coastal ecosystems
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