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Tellus A: Dynamic Meteorology and Oceanography Volume 46, 1994 - Issue 5
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Original Articles

A note on the influence of breaking wind waves on the aerodynamic roughness of the sea surface as seen from below

S.A. KitaigorodskiiFinnish Institute of Marine Research, PO Box 33, SF-00931Helsinki, Finland
Pages 681-685 | Received 29 Mar 1993, Accepted 09 Nov 1993, Published online: 15 Dec 2016

References

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  • Kitaigorodskii, S. A. 1981. On the theory of the surface-stress induced entrainment at a buoyancy interface (toward interpretation of KP and KPA experiments). Tellus 33,89–101.
  • Kitaigorodskii, S. A. 1983. On the theory of the equilibrium range in the spectrum of wind-generated gravity waves. Journal of Physical Oceanography 13, 817–827.
  • Kitaigorodskii, S. A. 1984. On the fluid dynamical theory of the turbulent gas transfer across an air-sea interface in the presence of breaking wind waves. J. Phys. Oceanogr. 14, 960–972.
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  • Scranton, D. R. and Lindberg, W. R. 1983. An experimental study of entraining stress driven stratified flow in an annulus. Phys. Fluids 26, 1198–1205.
  • Terray, E. A. and Bliven, L. B. 1985. The vertical structure of turbulence beneath gently breaking wind waves, in the ocean surface. Y. Toba and H. Mitsuyasu (eds.), 395–400. D. Reidel Publishing Company.
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  • Zilitinkevich, S. S., Fedorowich, E. E., Golosov, S. D., Kreiman, D. D., Mironov, D. V., Sabalova, M. V. and Terzhevik, A. Ya. 1991. Modeling air-lake interaction. Physical Background. Springer Verlag, 1991,1–129.
  • Toba, Y., Iida, N., Kawamura, H., Ebuchi, N. and Jones, S. F. 1990. Wave dependence of sea surface wind stress. J. Phys. Oceanogr. 20, 705–721.

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