1. Mixing Efficiency in the Ocean
- Author
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Michael C. Gregg, Eric Kunze, James J. Riley, and Eric A. D'Asaro
- Subjects
Differential diffusion ,Pycnocline ,Turbulent dissipation ,Pacific Ocean ,010504 meteorology & atmospheric sciences ,Meteorology ,Oceans and Seas ,Mechanics ,Models, Theoretical ,Oceanography ,Thermal diffusivity ,01 natural sciences ,Potential energy ,010305 fluids & plasmas ,TRACER ,0103 physical sciences ,Hydrodynamics ,Water Movements ,Environmental science ,Seawater ,Thickening ,Community approach ,Atlantic Ocean ,0105 earth and related environmental sciences - Abstract
Mixing efficiency is the ratio of the net change in potential energy to the energy expended in producing the mixing. Parameterizations of efficiency and of related mixing coefficients are needed to estimate diapycnal diffusivity from measurements of the turbulent dissipation rate. Comparing diffusivities from microstructure profiling with those inferred from the thickening rate of four simultaneous tracer releases has verified, within observational accuracy, 0.2 as the mixing coefficient over a 30-fold range of diapycnal diffusivities. Although some mixing coefficients can be estimated from pycnocline measurements, at present mixing efficiency must be obtained from channel flows, laboratory experiments, and numerical simulations. Reviewing the different approaches demonstrates that estimates and parameterizations for mixing efficiency and coefficients are not converging beyond the at-sea comparisons with tracer releases, leading to recommendations for a community approach to address this important issue.
- Published
- 2018
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