@misc{cisewski2005cvva, author={Boris {Cisewski} and Volker H {Strass} and Hartmut {Prandke}}, title={{Continuous VM-ADCP (vessel-mounted acoustic Doppler current profiler) profiles of horizontal velocities and raw acoustic gain control data during Polarstern cruise ANT-XVIII/2}}, year={2005}, doi={10.1594/PANGAEA.701279}, url={https://doi.org/10.1594/PANGAEA.701279}, note={Supplement to: Cisewski, B et al. (2005): Upper-ocean vertical mixing in the Antarctic Polar Front Zone. Deep Sea Research Part II: Topical Studies in Oceanography, 52(9-10), 1087-1108, https://doi.org/10.1016/j.dsr2.2005.01.010}, abstract={The mixing regime of the upper 180 m of a mesoscale eddy in the vicinity of the Antarctic Polar Front at 47{\textdegree} S and 21{\textdegree} E was investigated during the R.V. Polarstern cruise ANT-XVIII/2 within the scope of the iron fertilization experiment EisenEx. On the basis of hydrographic CTD and ADCP profiles we deduced the vertical diffusivity Kz from two different parameterizations. Since these parameterizations bear the character of empirical functions, based on theoretical and idealized assumptions, they were inter alia compared with Cox-number and Thorpe-scale related diffusivities deduced from microstructure measurements, which supplied the first direct insights into turbulence of this ocean region. Values of Kz in the range of 10$\ast$$\ast$-4 - 10$\ast$$\ast$-3 m$\ast$$\ast$2/s appear as a rather robust estimate of vertical diffusivity within the seasonal pycnocline. Values in the mixed layer above are more variable in time and reach 10$\ast$$\ast$-1 m$\ast$$\ast$2/s during periods of strong winds. The results confirm a close agreement between the microstructure-based eddy diffusivities and eddy diffusivities calculated after the parameterization of Pacanowski and Philander [1981, Journal of Physical Oceanography 11, 1443-1451, doi:10.1175/1520-0485(1981)011<1443:POVMIN>2.0.CO;2].}, type={data set}, publisher={PANGAEA} }