SEARCH

SEARCH BY CITATION

References

  • Ehrler, W. L. & Bavel, C. H. M. Van (1968). Leaf diffusion resistance, illuminance, and transpiration. Pl. Physiol., Lancaster, 43, 208.
  • Fischer, R. A., Hsiao, T. C. & Hagan, R. M. (1970). After-effect of water stress on stomatal opening potential. I. Techniques and magnitudes. J. exp. Bot., 21, 371.
  • Fischer, R. A. (1970). After-effect of water stress on stomatal opening potential. II. Possible causes. J. exp. Bot., 21, 386.
  • Gastraa, P. (1959). Photosynthesis of crop plants as influenced by light, carbon dioxide, temperature and stomatal diffusion resistance. Meded. Landb Hogesch. Wageningen, 59, 1.
  • Glover, J. (1959). The apparent behaviour of maize and sorghum stomata during and after drought. J. agric. Sci., 53, 412.
  • Heath, O. V. S. & Mansfield, T. A. (1969). The movements of stomata. In: The Physiology of Plant Growth, Development and Responses (Ed. by M. B.Wilkins), p. 303. McGraw-Hill, London .
  • Kanemasu, E. T. & Tanner, C. B. (1969a). Stomatal diffusion resistance of snap beans. I. Influence of leaf water potential. Pl. Physiol., Lancaster, 44, 1547.
  • Kanemasu, E. T. & Tanner, C. B. (1969b). Stomatal diffusion resistance of snap beans. II. Effect of light. Pl. Physiol., Lancaster, 44, 1542.
  • Kassam, A. H. (1971). Some physical aspects of the water relations of Vicia faba L. Ph.D. thesis, University of Reading.
  • Kassam, A. H. (1972). Determination of water potential and tissue characteristics of leaves of Vicia faba L. Hort. Res., 12, 13.
  • Kuiper, P. J. C. (1961). The effect of factors on the transpiration of leaves with special reference to the stomatal light response. Meded. Landb Hogesch. Wageningen, 61, 1.
  • Meidner, H. (1952). An instrument for the continuous determination of leaf thickness changes in the field. J. exp. Bot., 3, 319.
  • Meidner, H. (1965). Stomatal control of transpirational water loss. In: The State of Water in Living Organisms (Symp. Soc. exp. Biol., 19), p. 185.
  • Meidner, H. (1970). A critical study of sensor element diffusion porometers. J. exp. Bot., 21, 1060.
  • Meidner, H. & Mansfield, T. A. (1968). Physiology of Stomata. McGraw-Hill, London .
  • Monteith, I. L. (1959). The reflection of short-wave radiation by vegetation. Q. Jl R. met. Soc, 85, 386.
  • Nagarajah, S. (1970). The effect of stand density on the photosynthetic capacity of leaves in Gossypium hersutum. Ph.D. thesis, The Australian National University.
  • Pallas, J. E. (1969). Endogenous diurnal and nocturnal activity of guard cells as indicated by stomatal aperture and protoplasmic streaming. Physiologia Pl., 22, 546.
  • Parlange, J. Y. & Waggoner, P. E. (1970). Stomatal dimensions and resistance to diffusion. Pl. Physiol. Lancaster, 46, 337.
  • Rowse, H. R. & Monteith, J. L. (1969). A fifty channel digital recorder for thermocouple psychrometer. J. Sci. Instrum., 2, 397.
  • Scholalander, P. F., Hammel, H. T., Bradstreet, E. D. & Hemmingsen, E. A. (1965). Sap pressure in vascular plants. Science, N.Y., 148, 339.
  • Slatyer, R. O. (1967). Plant-Water Relationships. Academic Press, New York .
  • Slatyer, R. O. & Bierhuizen, J. F. (1964). Transpiration from cotton leaves under a range of environmental conditions in relation to internal and external diffusive resistances. Aust. y. biol. Sci., 17, 115.
  • Stiles, W. (1970). A diffusive resistance porometer for field use. I. Construction. J. appl. Ecol., 7, 617.
  • Turner, N. C. (1969). Stomatal resistance to transpiration in three contrasting canopies. Crop Sci., 9, 303.
  • Turner, N. C. (1970a). Response of adaxial and abaxial stomata to light. New Phytol., 69, 647.
  • Turner, N. C. (1970b). Illumination and stomatal resistance to transpiration in three field crops. In: Symposium of Plant Response to Climatic Factors. UNESCO, Uppsala , Sweden .
  • Willis, A. J., Yemm, E. W. & Balasubramanian, S. (1963). Transpiration phenomena in detached leaves. Nature, Lond., 199, 265.
  • Yocum, C. S., Allen, L. H. & Lemon, E. R. (1964). Photosynthesis under field conditions. VI. Solar radiation balance and photosynthetic efficiency. Agron. J., 56, 249.