Abstract
The exchange of moisture and sensible heat between the atmosphere and the earth’s surface is important in driving weather, climate, and a variety of factors of relevance to human activities (e.g., clouds, atmospheric optical properties, ocean mixed-layer dynamics) addressed by oceanography and meteorology. This exchange is often dominated by molecular and turbulent diffusive processes in the atmospheric surface layer (a region in contact with the surface on the order of 10 m thick where the height dependence of the fluxes is negligible). The exchange is quite dependent on the nature of the surface. Over land the roughness of the surface, the subsurface moisture and the transfer properties of the plant canopy complicate this exchange process. Ice and snow also have physical properties that require special treatment. Historically, the transfer processes over the ocean and over more solid surfaces have been interpreted and parameterized in terms of Monin-Obukhov similarity theory. The ocean has two unique properties that have greatly simplified this approach: the surface humidity is assumed to be in equilibrium with the saturation vapor pressure at the ocean surface temperature and the roughness is considered to be determined by the mean wind speed or friction velocity. This second assumption is now being recast in terms of the surface wave spectrum (e.g., Chapters 5 and 8). However, the formation of whitecaps over the ocean strongly modifies the exchange process (see Slinn et al., 1978; Hasse, 1980; Coantic, 1980) for virtually all constituents (i.e., heat, moisture, trace gases, and particles). This modification is due to the release of gases and particles by the bursting of whitecap bubbles and, in the case of sensible and latent heat fluxes, the evaporation of the seawater spray droplets produced by the bursting bubbles.
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References
Anderson, R.J. and S.D. Smith, 1981: Evaporation coefficient for the sea surface from eddy-flux measurements. J. Geophys. Res., 86, 449–456.
Blanc, T.V., 1985: Variation of bulk-derived surface flux, stability, and roughness results due to the use of different transfer coefficient schemes. J. Phys. Ocean., 15, 650–669.
Blanchard, D.C. and A.H. Woodcock, 1957: Bubble formation and modification in the sea and its meteorological significance, Tellus, 9, 145–158.
Blanchard, D.C. 1971: Whitecaps at sea. J. Atmos. Sci., 28, 645.
Blanchard, D.C., 1975: Bubble scavenging and the water-to-air transfer of organic material in the sea. Adv. in Chem., 145, American Chemical Society, Washington, DC.
Businger, J.A., 1973: Turbulent transfer in the atmospheric surface layer. Workshop on Micrometeorology, Amer. Meteor. Soc, 67–100.
Businger, J.A., 1982: Equations and concepts, in Atmospheric Turbulence and Air Pollution Modeling, edited by F.T.M. Nieuwstadt and H. van Dop, D. Reidel, Hingham, Mass.
Cipriano, R.J., and D.C. Blanchard, 1981: Bubble and aerosol spectra produced by a laboratory breaking wave. J. Geophys. Res., 86, 8085– 8092.
Cipriano, R.J., D.C. Blanchard, A.W. Hogan, and G.G. Lala, 1983: On the production of Aitken nuclei from breaking waves and their role in the atmosphere. J. Atmos. Sci., 40, 469–479.
Cipriano, R.J., E.C. Monahan, P.A. Bowyer, and D.K. Woolf, 1987: Marine condensation nucleus generation inferred from whitecap simulation tank results. J. Geophys. Res., 92, 6569–6576..
Clark, Terry L., 1973: Numerical modeling of the dynamics and microphysics of warm cumulus convection. J. Atmos. Sci., 30, 857–878.
Clark, Terry L., 1974: A study in cloud phase parameterization using the gamma distribution. J. Atmos. Sci., 31, 142–155.
Clark, Terry L. and W.E. Hall, 1979: A numerical experiment on stochastic condensation theory. J. Atmos. Sci., 36, 470–483.
Coantic, M., 1980: Mass transfer across the ocean-air interface: small scale hydrodynamics and aerodynamic mechanisms. Phys. Chem. Hydro., 1, 249–279.
Coantic, M., A. Ramamonjiarisoa, P. Mestayer, F. Resch, and A. Favre, 1981: Wind-water tunnel simulation of small-scale ocean-atmosphere interactions. J. Geophys. Res., 86, 6607–6626.
de Leeuw, G. 1986: Vertical profiles of giant particles close above the sea surface. Tellus, 38B, 51–61.
Edson, J.B., 1998: Lagrangian model simulations of the turbulent transport and evaporation of spray droplets in a wind-water tunnel. M.S. thesis, Department of Meteorology, Pennsylvania State University, University Park, PA, 16802, USA.
Fairall, C.W., K.L. Davidson, and G.E. Schacher, 1983: An analysis of the surface production of sea-salt aerosol. Tellus, 35B, 31–39.
Fairall, C.W., 1984: Interpretation of eddy-correlation measurements of particulate deposition and aerosol flux. Atmos. Environ., 18, 1329–1337.
Fairall, C.W. and S.E. Larsen, 1984: Dry deposition, surface production and dynamics of aerosols in the marine boundary layer. Atmos. Environ., 18, 69–77.
Fairall, C.W. and S.E. Larsen, 1986: Inertial dissipation methods and turbulent fluxes at the air ocean interface. Bound-Layer Meteorol., 34, 287–301.
Fitzgerald, J.W., 1975: Approximation formulas for the equilibrium size of an aerosol particle as a function of its dry size and composition and the ambient relative humidity. J. Appl. Met., 14, 1044–1049.
Francey, R.J. and J.R. Garratt, 1979: Is an observed wind-speed dépendance of AMTEX ′75 heat transfer coefficients real? Bound-Layer Meteorol., 16, 249–260.
Friehe, C.A. and K.F. Schmitt, 1976: Parameterization of air-sea interface fluxes of sensible heat and moisture by the bulk aerodynamic formulas. J. Phys. Ocean., 6, 801–809.
Fuchs, N.A., 1959: Evaporation and Droplet Growth in Gaseous Media, Pergamon Press.
Garratt, J.R. and B.B. Hicks, 1973: Momentum, heat and water vapor transfer to and from natural and artificial surfaces. Quart. J. Royal Meteor. Soc., 99, 680–687.
Hall, C.D., 1975: The simulation of particle motion in the atmosphere by a numerical random-walk model. Quart. J. Roy. Meteorol. Soc., 101, 235–244.
Hasse, l., 1980: Gas exchange across the air-sea interface. Tellus, 32, 470–481.
Hicks, B.B., D.D. Baldocchi, R.P. Hosker, B.A. Hutchison, D.R. Matt, R.T. McMillen, and L.C. Satterfield, 1985: On the use of monitored air concentrations to infer dry deposition. NOAA Tech. Memor. Air resources Lab. ERL ARL-141, Silver Spring, MD, 65 pp.
Hinze, J.O., 1975: Turbulence. McGraw-Hill, New York, 460–467.
Joffre, S.M., 1982: Momentum and heat transfers in the surface layer over a frozen sea. Bound-Layer Meteorol., 24, 211–229.
Katsaros, K.B., S.D. Smith and W.A. Oost, 1987: HEXOS-humidity exchange over the sea. A program for research on water vapor and droplet fluxes from sea to air at moderate and high wind speeds. Bull. Am. Met. Soc., 68, 466–476.
Kientzler, C.F., A.B. Arons, D.C. Blanchard, and A.H. Woodcock, 1954: Photographic investigation of the projection of droplets by bubbles bursting at a water surface. Tellus, 6, 1–7.
Koga M. and Y. Toba, 1981: Droplet distribution and dispersion processes on breaking wind waves. Sci. Rep. Tohoku University Ser. 5. Geophysics, 28, 1–25.
Lai R.J. and O.H. Shemdin, 1974: Laboratory study of the generation of the spray over water. J. Geophys. Res., 70, 3055–3063.
Legg, B.J., and M.R. Raupach, 1982: Markov-chain simulation of particles in inhomogeneous flows: The mean drift velocity induced by a gradient in Eulerian velocity variance. Bound-Layer Meteorol., 24, 3–13.
LeMone, M.A. and W.T. Pennell, 1976: The relationship of trade wind cumulus distribution to subcloud layer fluxes and structure. Mon. Wea. Rev., 104, 524–539.
Lewellen, W.S., D.A. Oliver, M.E. Teske, H. Segur and O. Cote, 1977: Status report on low-level atmospheric turbulence model for marine environments. ARAP Tech. Report No. 320, Box 2229, Princeton, NJ, 54 pp.
Ley, A.J., and D.J. Thomson, 1983: A random walk model of dispersion in the diabatic surface layer. Quart. J. R. Meteorol. Soc., 109, 867–880.
Ling, S.C. and T.W. Kao, 1976: Parameterization of the moisture and heat transfer process over the ocean under whitecap sea states. J. Phys. Oceanogr., 6, 306–315.
Ling, S.C., A. Saad, and T.W. Kao, 1978: Mechanics of multiphase fluxes over the ocean. Turbulent fluxes through the Sea Surface, Wave Dynamics and Prediction, edited by A. Favre and K. Hasselmann, Plenum, New York, 185–1987.
Ling, S.C., T.W. Kao, M. Asce and A. Saad, 1980: Microdroplets and transport of moisture from the ocean. J. Eng. Mech. Div., 6, 1327–1339.
Meek, C.C., and B.G. Jones, 1973: Studies of the behavior of heavy particles in a turbulent fluid flow. J. Atmos. Sci., 30, 239–244.
Mestayer, P.G., C.W. Fairall, S.E. Larsen, D.E. Spiel, and J.B. Edson, 1987: Turbulent transport and evaporation of droplets generated at an air-water interface. Proceed. 6th Symposium on Turbulent Shear Flows, Toulouse, Fr.
Miller, M.A., 1987: An investigation of aerosol gereration in the marine planetary boundary layer. M.S. thesis, Department of Meteorology, Pennsylvania State University, University Park, PA, 16802, USA.
Monahan, E.C. and C.R. Zietlow, 1969: Laboratory comparison of fresh water and salt water whitecaps. J. Geophys. Res., 74, 6961–6966.
Monahan, E.C., K.L. Davidson and D.E. Spiel, 1982: Whitecap aerosol productivity deduced from simulation tank measurements. J. Geophys. Res., 87, 8898–8904.
Monahan, E.C., C.W. Fairall, K.L. Davidson, and P.J. Boyle, 1983: Observed interrelations between 10 m winds, ocean whitecaps and marine aerosols. Quart. J. R. Met. Soc., 109, 379–392.
Monahan, E.C. and G. Mac Niocaill, 1986: Oceanic Whitecaps, D. Reidel, Dordrecht, Holland.
Monahan, E.C., D.E. Spiel, and K.L. Davidson, 1986: A Model of Marine Aerosol Generation via Whitecaps and Wave Disruption. Oceanic Whitecaps and Their Role in Air-Sea Exchange Processes, E.C. Monahan and G. Mac Niocaill, Eds, Galway U. Press
Nicholls, S. and C.J. Readings, 1979: Aircraft observations of the structure of the lower boundary layer over the sea. Quart. J. R. Met. Soc., 105, 785–802.
Preobrazhenskii, L., 1973: Estimation of the content of spray drops in the near-water layer of the atmosphere. Fluid Mech. Sov. Res., 2, 95–100.
Pruppacher, H.R. and J.D. Klett, 1978: Microphysics of Clouds and Precipitation, Reidel, Dordrecht, Holland.
Reid, J. D., 1979: Markov chain simulations of vertical dispersion in the neutral layer for surface and elevated releases. Bound-Layer Meteorol., 16, 3–22.
Resch, F.J., 1986: Marine liquid aerosol production from bursting of air bubbles. J. Geophys. Res., 91, 1019–1025.
Slinn, W.G.N., L. Hasse, B.B. Hicks, A.W. Hogan, D. Lai, P.S. Liss, K.O. Munnich, G.A. Sehmel, and O. Vittori, 1978: Some aspects of the transfer of atmospheric trace constituents past the air-sea interface. Atmos. Environ., 12, 2055–2087.
Stramska, M., 1986: Vertical profiles of sea-salt aerosol in the atmosphere surface layer: a numerical model. Acta Geophys. Pol., to appear.
Thomson, D.J., 1984: Random walk modeling of diffusion in inhomogeneous turbulence. Quart. J. R. Met. Soc., 110, 1107–1120.
Toba, Y., 1965: On the giant sea-salt particles in the atmosphere. II-Theory of the vertical distribution in the 10-m layer over the ocean. Tellus, 17, 365–382.
Wang, C.S. and R.L. Street, 1978: Transfer across an air-water interface at high-wind speeds. J. Geophys. Res., 83, 2959–2962.
Woodcock, A. H. 1953: Salt nuclei in marine air as a function of altitude and wind force. J. Met., 10, 362–371.
Wu, J., 1974: Evaporation due to Spray. J. Geophys. Res., 79, 4107–4109.
Wu, J., 1979: Spray in the atmospheric-surface layer: a review and analysis of laboratory and oceanic results. J. Geophys. Res., 84, 1693–1704.
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Fairall, C.W., Edson, J.B., Miller, M.A. (1990). Heat Fluxes, Whitecaps, and Sea Spray. In: Geernaert, G.L., Plant, W.L. (eds) Surface Waves and Fluxes. Environmental Fluid Mechanics, vol 7. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-2069-9_6
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DOI: https://doi.org/10.1007/978-94-009-2069-9_6
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