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Winter Vertical Diffusion Rates in the Arctic Ocean, Estimated From <sup>7</sup>Be Measurements and Dissipation Rate Profiles

Kirstin Schulz, David Kadko, Volker Mohrholz, Mark Stephens, Ilker Fer

2023Journal of Geophysical Research Oceans10 citationsDOIOpen Access PDF

Abstract

Abstract Ocean turbulent mixing is a key process affecting the uptake and redistribution of heat, carbon, nutrients, oxygen and other dissolved gasses. Vertical turbulent diffusivity sets the rates of water mass transformations and ocean mixing, and is intrinsically an average quantity over process time scales. Estimates based on microstructure profiling, however, are typically obtained as averages over individual profiles. How representative such averaged diffusivities are, remains unexplored in the quiescent Arctic Ocean. Here, we compare upper ocean vertical diffusivities in winter, derived from the 7 Be tracer‐based approach to those estimated from direct turbulence measurements during the year‐long Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition, 2019–2020. We found that diffusivity estimates from both methods agree within their respective measurement uncertainties. Diffusivity estimates obtained from dissipation rate profiles are sensitive to the averaging method applied, and the processing and analysis of similar data sets must take this sensitivity into account. Our findings indicate low characteristic diffusivities around 10 −6 m 2 s −1 and correspondingly low vertical heat fluxes.

Topics & Concepts

Thermal diffusivityTurbulenceArcticDissipationEnvironmental scienceTRACERAtmospheric sciencesWater massTurbulent diffusionClimatologyOceanographyMeteorologyGeologyPhysicsThermodynamicsNuclear physicsArctic and Antarctic ice dynamicsOceanographic and Atmospheric ProcessesAtmospheric and Environmental Gas Dynamics
Winter Vertical Diffusion Rates in the Arctic Ocean, Estimated From <sup>7</sup>Be Measurements and Dissipation Rate Profiles | Litcius