Bogucki, DarekHuguenard, K.Haus, B. K.Özgökmen, T. M.Reniers, A.Laxague, N. J. M.2022-03-102022-03-102015-01-24Bogucki, D.J., Huguenard, K., Haus, B.K., Özgökmen, T.M., Reniers, A.J.H.M. and Laxague, N.J.M., 2015. Scaling laws for the upper ocean temperature dissipation rate. Geophysical Research Letters, 42(3), pp.839-846.https://hdl.handle.net/1969.6/90249Our understanding of temperature dissipation rate χ within the upper ocean boundary layer, which is critical for climate forecasts, is very limited. Near-surface turbulence also affects dispersion of contaminants and biogeochemical tracers. Using high-resolution optical turbulence measurements, scaling laws for χ are investigated under forcing states where either the daytime heat flux or the wind stress forcing is dominant. We find that χ remains constant over 1.5 times the significant wave height, while over a layer below, χ decays based on the local surface forcing. When the heat flux is dominant, traditional scaling based on the Monin-Obukhov similarity theory remains valid; χ ∝ z−1. When the wind stress dominates, we observe the emergence of a new scaling, χ ∝ z−1/2, which is explained by invoking the effect of small-scale coherent structures on vertical heat transport. These results have implications for improved modeling of the ocean's heat and CO2 intake.en-USupper ocean turbulenceArticlehttps://doi.org/10.1002/2014GL062235