Abstract
Shuttleworth's analysis of evaporation from partly wet canopies is appropriate only for the unrealistic case of dispersed, minute water droplets. When a more realistic model is used, the predicted range of canopy resistances is consistent with experimental estimates for a pine forest.
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Black, T. A., Tanner, C. B., and Gardner, W. R.: 1970, ‘Evaporation from a Snap Bean Crop’, Agronomy J. 62, 66–69.
Gash, J. H. C. and Stewart, J. B.: 1975, ‘The Average Surface Resistance of a Pine Forest’, Boundary-Layer Meteorol. 8, 453–464.
Jarvis, P. G., James, G. B., and Landsberg, J. J.: 1976, ‘Coniferous Forest’, in J. L. Monteith (ed.), Vegetation and the Atmosphere, Vol. II. Academic Press, London.
Monteith, J. L.: 1975, Principles of Environmental Physics, Edward Arnold, London.
Monteith, J. L., Szeicz, G., and Waggoner, P. E.: 1965, ‘The Measurement and Control of Stomatal Resistance in the Field’, J. Appl. Ecol. 2, 345–357.
Philip, J. R.: 1966, ‘Plant Water Relations: Some Physical Aspects’, Ann. Rev. Pl. Physiol. 17, 245–265.
Shuttleworth, W. J.: 1975, ‘The Concept of Intrinsic Surface Resistance’, Boundary-Layer Meteorol. 8, 81–99.
Shuttleworth, W. J.: 1976, ‘Experimental Evidence for the Failure of the Penman-Monteith Equation in Partially Wet Conditions’, Boundary-Layer Meteorol. 10, 91–94.
Szeicz, G., van Bavel, C. H. M., and Takami, S.: 1973, ‘Stomatal Factor in the Water Use and Dry Matter Production by Sorghum’, Agric. Meteorol. 12, 361–389.
Thom, A. S.: 1971, ‘Momentum Absorption by Vegetation’, Quart. J. Roy. Meteorol. Soc. 97, 414–428.
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Monteith, J.L. Resistance of a partially wet canopy: Whose equation fails?. Boundary-Layer Meteorol 12, 379–383 (1977). https://doi.org/10.1007/BF00121475
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DOI: https://doi.org/10.1007/BF00121475