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Observations of atmospheric boundary layer evolution above the Gulf Stream frontal zone

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Abstract

Ship borne measurements of atmospheric boundary layer (ABL) parameters, sea-surface temperature and radar signals are analyzed to reveal the effects of the ABL transformation above the Gulf Stream temperature frontal zone. It was found that local changes in vertical gradients of wind speed and air temperature are well correlated with sub-mesoscale (~ 10 km) sea surface temperature variations. These effects are accompanied by appropriate variations in surface wind stresses that were identified from microwave backscatter.

For steady atmospheric conditions the same effects were observed on spatial scales of 100 km, demonstrating positive radar signal contrast of the Gulf Stream warm waters with respect to surrounding Sargasso sea and shelf water areas. A simplified model of the ABL, accounting for an effect of spatial inhomogeneity by introducing an internal boundary layer, is used to analyze field observations. The model is able to reproduce both sub-mesoscale and mesoscale ABL evolution.

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Authors and Affiliations

  1. Marine Hydrophysical Institute, Ukrainian Academy of Science, Sevastopol, Ukraine

    V. N. Kudryavtsev, S. A. Grodsky, V. A. Dulov & V. V. Malinovsky

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  1. V. N. Kudryavtsev
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  2. S. A. Grodsky
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  3. V. A. Dulov
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  4. V. V. Malinovsky
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Kudryavtsev, V.N., Grodsky, S.A., Dulov, V.A. et al. Observations of atmospheric boundary layer evolution above the Gulf Stream frontal zone. Boundary-Layer Meteorol 79, 51–82 (1996). https://doi.org/10.1007/BF00120075

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