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Impact of Enhanced Wave-Induced Mixing on the Ocean Upper Mixed Layer during Typhoon Nepartak in a Regional Model of the Northwest Pacific Ocean

Chengcheng Yu, Yongzeng Yang, Xunqiang Yin, Meng Sun, Yongfang Shi

2020Remote Sensing23 citationsDOIOpen Access PDF

Abstract

To investigate the effect of wave-induced mixing on the upper ocean structure, especially under typhoon conditions, an ocean-wave coupled model is used in this study. Two physical processes, wave-induced turbulence mixing and wave transport flux residue, are introduced. We select tropical cyclone (TC) Nepartak in the Northwest Pacific ocean as a TC example. The results show that during the TC period, the wave-induced turbulence mixing effectively increases the cooling area and cooling amplitude of the sea surface temperature (SST). The wave transport flux residue plays a positive role in reproducing the distribution of the SST cooling area. From the intercomparisons among experiments, it is also found that the wave-induced turbulence mixing has an important effect on the formation of mixed layer depth (MLD). The simulated maximum MLD is increased to 54 m and is only 1 m less than the observed value. The wave transport flux residue shows a dominant role in the mixed layer temperature (MLT) changing. The mean error of the MLT is reduced by 0.19 °C compared with the control experiment without wave mixing effects. The study shows that the effect of wave mixing should be included in the upper ocean structure modeling.

Topics & Concepts

Mixed layerTyphoonAtmospheric sciencesTropical cycloneMixing (physics)TurbulenceEnvironmental scienceFlux (metallurgy)ClimatologyAmplitudeSurface layerSea surface temperatureWind waveSignificant wave heightMeteorologyGeologyPhysicsMaterials scienceOceanographyLayer (electronics)Composite materialQuantum mechanicsMetallurgyOcean Waves and Remote SensingTropical and Extratropical Cyclones ResearchOceanographic and Atmospheric Processes
Impact of Enhanced Wave-Induced Mixing on the Ocean Upper Mixed Layer during Typhoon Nepartak in a Regional Model of the Northwest Pacific Ocean | Litcius