Lutz Hasse scite author profile

Abstract. Turbulent fluxes have been measured in the atmospheric surface layer from a boom extending upwind from the Dutch offshore research platform Meetpost Noordwijk (MPN) during HEXMAX (Humidity Exchange over the Sea Main Experiment) in October-November, 1986. We started out to study eddy flux of water vapour, but discrepancies among simultaneous measurements made with three different anemometers led us to develop methods to correct eddy correlation measurements of wind stress for flow distortion by nearby objects. We then found excellent agreement among the corrected wind stress data sets from the three anemometers on the MPN boom and with eddy correlation measurements from a mast on a tripod. Inertial-dissipation techniques gave reliable estimates of wind stress from turbulence spectra, both at MPN and at a nearby ship. The data cover a range of wave ages and the results yield new insights into the variation of sea surface wind stress with sea state; two alternative formulas are given for the nondimensional surface roughness as a function of wave age.

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Some aspects of the transfer of atmospheric trace constituents past the air-sea interface

Slinn

Hasse

Hicks

et al. 1978

Atmospheric Environment (1967)

297

109

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The Bunker Climate Atlas of the North Atlantic Ocean

Isemer

Hasse

1987

167

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Library of Congress Cataloging-in-Publication Data. (Revised for volume 2). !semer, Hans-J6rg. The Bunker climate atlas of the North Atlantic Ocean. (Topics in atmospheric and oceanographic sciences) "Surface climate of the North Atlantic Ocean from the equator to 65°N, in the period 1941-1972"-Pref. "Produced as part of the research ofthe Sonderforschungsbereich' Warmwassersph" are des Atlantiks' at the Institut fUr Meereskunde, Kie1" -Pref. Map. overlay in pocket.

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The Bunker Climate Atlas of the North Atlantic Ocean

Isemer

Hasse

1985

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North Atlantic Wind Waves and Wind Stress Fields from Voluntary Observing Ship Data

Gulev¹,

Hasse²

1998

J. Phys. Oceanogr.

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On the basis of the collection of individual marine observations available from the Comprehensive OceanAtmosphere Data Set, major parameters of the sea state were evaluated. Climatological fields of wind waves and swell height and period, as well as significant wave height and resultant period are obtained for the North Atlantic Ocean for the period from 1964 to 1993. Validation of the results against instrumental records from National Data Buoy Center buoys and ocean weather station measurements indicate relatively good agreement for wave height and systematic biases in the visually estimated periods that were corrected. Wave age, which is important for wind stress estimates, was evaluated form wave and wind observations. The climatology of wave age indicates younger waves in winter in the North Atlantic midlatitudes and Tropics. Wave age estimates were applied to the calculations of the wind stress using parameterizations from field experiments. Differences between wave-age-based and traditional estimates are not negligible in wintertime in midlatitudes and Tropics where wave-induced stress contributes from 5% to 15% to the total stress estimates. Importance of the obtained effects for ocean circulation and climate variability is discussed.

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Lutz Hasse

Sea surface wind stress and drag coefficients: The hexos results

Some aspects of the transfer of atmospheric trace constituents past the air-sea interface

The Bunker Climate Atlas of the North Atlantic Ocean

The Bunker Climate Atlas of the North Atlantic Ocean

North Atlantic Wind Waves and Wind Stress Fields from Voluntary Observing Ship Data

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