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Turbulence within Rain-Formed Fresh Lenses during the SPURS-2 Experiment

Suneil Iyer, Kyla Drushka

2021Journal of Physical Oceanography18 citationsDOIOpen Access PDF

Abstract

Abstract Observations of salinity, temperature, and turbulent dissipation rate were made in the top meter of the ocean using the ship-towed Surface Salinity Profiler as part of the second Salinity Processes in the Upper Ocean Regional Study (SPURS-2) to assess the relationships between wind, rain, near-surface stratification, and turbulence. A wide range of wind and rain conditions were observed in the eastern tropical Pacific Ocean near 10°N, 125°W in summer–autumn 2016 and 2017. Wind was the primary driver of near-surface turbulence and the mixing of rain-formed fresh lenses, with lenses generally persisting for hours when wind speeds were under 5 m s −1 and mixing away immediately at higher wind speeds. Rain influenced near-surface turbulence primarily through stratification. Near-surface stratification caused by rainfall or diurnal warming suppressed deeper turbulent dissipation rates when wind speeds were under 3 m s −1 . In one case with 4–5 m s −1 winds, rain-induced stratification enhanced dissipation rates within the stratified layer. At wind speeds above 7–8 m s −1 , strong stratification was not observed in the upper meter during rain, indicating that rain lenses do not form at wind speeds above 8 m s −1 . Raindrop impacts enhanced turbulent dissipation rates at these high wind speeds in the absence of near-surface stratification. Measurements of air–sea buoyancy flux, wind speed, and near-surface turbulence can be used to predict the presence of stratified layers. These findings could be used to improve model parameterizations of air–sea interactions and, ultimately, our understanding of the global water cycle.

Topics & Concepts

Stratification (seeds)Environmental scienceTurbulenceWind speedBuoyancyAtmospheric sciencesWind stressTurbulence kinetic energySea breezeSurface layerMeteorologyWind directionClimatologyGeologyOceanographyMechanicsPhysicsBiologyDormancyLayer (electronics)Organic chemistryBotanyGerminationChemistrySeed dormancyOceanographic and Atmospheric ProcessesClimate variability and modelsOcean Waves and Remote Sensing
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