1969
DOI: 10.21236/ad0702490
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Specification of the Wind Distribution in the Marine Boundary Layer for Wave Forecasting

Abstract: PrefaceThis techrical report describes research by Dr. Cardone that began in 1 966 and has been sponsored by three different contracts as its scope increased and as the many applications that it will have become apparent.The first application of this work is to use available data more intelligently in the development of numerical wave hindcasting and forecasting procedures. In 1964, a wave climatology for the North Atlantic was produced that used ship reports to generate the wind fields for the wave hindcasts.… Show more

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Cited by 149 publications
(84 citation statements)
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“…The wind dependence «*, of (5) agrees with the observations of several authors for bubble densities and as shown later it also agrees with the observations of Woodcock (1953) and Lovett (1978) for aerosol densities, it has been argued by Cardone (1969) and Wu (1979) that the wind effect that represents the work done by the atmosphere on the ocean is proportional to the areal extent of white-caps. Accordingly, if the total number of bubbles near the surface is proportional to the total area of bubbling, the bubble density in a given white-cap must be independent of the breaking wave's dimensions.…”
Section: Introductionsupporting
confidence: 90%
“…The wind dependence «*, of (5) agrees with the observations of several authors for bubble densities and as shown later it also agrees with the observations of Woodcock (1953) and Lovett (1978) for aerosol densities, it has been argued by Cardone (1969) and Wu (1979) that the wind effect that represents the work done by the atmosphere on the ocean is proportional to the areal extent of white-caps. Accordingly, if the total number of bubbles near the surface is proportional to the total area of bubbling, the bubble density in a given white-cap must be independent of the breaking wave's dimensions.…”
Section: Introductionsupporting
confidence: 90%
“…They identified anemometer heights for only about 8% of measured reports. Estimated winds, equivalent to 10-m measured winds by definition, tended to be lighter than measured VOS winds, which were from anemometers with average heights of 20 m. Estimated winds were adjusted using a revised Beaufort equivalent scale referenced to 20 m (Cardone, 1969). This reduced the positive trend to near zero in the analysed areas in the N. Pacific and Indian Oceans, while a positive trend remained in the South China Sea.…”
Section: Introductionmentioning
confidence: 98%
“…WMO1100-estimated winds are thought to contain systematic errors that vary non-linearly with wind speed, due to the statistical method and limited data used to derive the scale (Isemer and Hasse, 1991), causing an underestimation of climatological monthly means. Various authors developed alternative Beaufort equivalent scales, although none was adopted operationally (Cardone, 1969;WMO, 1970;Kaufeld, 1981;Isemer, 1992;da Silva et al, 1995;Lindau, 1995a). The WMO1100 scale corresponds to wind speed at 10-m, while ship anemometers tended to 748 B. R. THOMAS ET AL.…”
Section: Introductionmentioning
confidence: 99%
“…These relationships remain noisy, despite attempts to fine tune particular data sets, because of the dynamic nature and interdependence of the many parameters involved in whitecap formation. Whitecap coverage is primarily dependent on wind speed but is also dependent on other factors such as fetch and duration [Cardone, 1969] [Garrett, 1967]. A slightly different approach by Wu [1988] relates whitecap coverage to the product of wind friction velocity and wind stress.…”
Section: Introductionmentioning
confidence: 99%