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W2955892761 endingPage "6387" @default.
W2955892761 startingPage "6360" @default.
W2955892761 abstract "Mixing in the ocean and shelf seas is critical for the vertical distribution of dynamically active properties, such as density and biogeochemical tracers. Eight different decadal simulations are used to assess the skill of vertical turbulent mixing schemes (TMS) in a 3-D regional model of tidally active shelf seas. The TMS differ in the type of stability functions used and in the Ozmidov/Deardorff/Galperin limiter of the turbulence length scales. We review the dependence of the critical Richardson and Prandtl numbers to define the “diffusiveness” of the TMS. The skill in representing bias and variability of stratification profiles is assessed with five different metrics: surface and bottom temperatures and pycnocline depth, thickness, and strength. The assessment is made against hydrography from three data sets (28,000 profiles in total). Bottom and surface temperatures are found to be as sensitive to TMS choice as to horizontal resolution or heat flux formulation, as reported in other studies. All TMS underrepresent the pycnocline depth and benthic temperatures. This suggests physical processes are missing from the model, and these are discussed. Different TMSs show the best results for different metrics, and there is no outright winner. Simulations coupled with an ecosystem model show the choice of TMS strongly affects the ecosystem behavior: shifting the timing of peak chlorophyll by 1 month, showing regional chlorophyll differences of order 100%, and redistributing the production of chorophyll between the pycnocline and mixed layer." @default.
W2955892761 created "2019-07-12" @default.
W2955892761 creator A5003759414 @default.
W2955892761 creator A5006117815 @default.
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W2955892761 creator A5053770267 @default.
W2955892761 creator A5062487324 @default.
W2955892761 creator A5079909318 @default.
W2955892761 date "2019-08-01" @default.
W2955892761 modified "2023-10-16" @default.
W2955892761 title "Challenging Vertical Turbulence Mixing Schemes in a Tidally Energetic Environment: 1. 3‐D Shelf‐Sea Model Assessment" @default.
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W2955892761 doi "https://doi.org/10.1029/2018jc014307" @default.