• Barlow, E. W. R. (1986). Water relations of expanding leaves. Australian Journal of Plant Physiology 13, 4568.
  • Berryman, C. A. (1986). The water relations of rust infected barley seedlings. Ph.D. thesis. University of Wales, U.K.
  • Berryman, C. A., Eamus, D. & Farrar, J. F. (1991a). Water relations of leaves of barley infected with brown rust. Physiological Plant Pathology 38, 393405.
  • Berryman, C. A., Eamus, D. & Farras, J. F. (1991b). The hydraulic conductivity of roots of rust-infected barley seedlings. Physiological Plant Pathology 38, 407415.
  • Duniway, J. M. & Durbin, R. D. (1971). Detrimental effects of rust infection upon the water relations of bean. Plant Physiology 48, 6972.
  • Eamus, D., Thompson, W., Cairney, J. W. G. & Jennings, D. H. (1985). Internal structure and hydraulic conductivity of basidiomycete translocating organs. Journal of Experimental Botany 36, 11101116.
  • Eamus, D. & Tomos, A. D. (1983). The influence of ABA on leaf water relations of epidermal cells of Rhoeo discolor. Plant Science Letters 31, 253259.
  • Eamus, D. & Wilson, J. M. (1984). The influence of temperature on the leaf water relations of Rhoeo discolor. Plant Science Letters 37, 101106.
  • Frensch, J. & Schulze, E. D. (1988). The effect of humidity and light on cellular water relations and diffusion conductance of leaves of Tradescantio virginiana L. Planta 173, 534562.
  • Husken, D., Steudle, E.-D. & Zimmermann, U. (1978). Pressure probe technique for measuring water relations of cell in higher plants. Plant Physiology 61, 158163.
  • Owera, S. A. P., Fabrar, J.F. & Whitbread, R. (1983). Transiocation from leaves of barley infected with brown rust. New Phytologidt 94, 111123.
  • Raschke, K. (1979). Movements of stomata. In: Encyclopedia of Plant Physiology, vol. 7. Physiology of Movements (Ed. by W.Haupt & M.E.Feinheib). pp. 383441. Springer-Verlag, Berlin .
  • Thomas, A., Tomos, A. D., Stoddart, J. L., Thomas, H. & Pollack, C. J. (1989). Cell expansion rate, temperature and turgor pressure in growing leaves of Lolium temulentum L. New Phytologist 112, 15.
  • Tomos, A. D. (1985). Control of leaf growth. In: Society of Experimental Botany Seminar 21 (Ed. by N. R.Baker, W. J.Davies & C. K.Ong). Cambridge University Press. Cambridge .
  • Tomos, A. D., Steudle, E., Zimmermann, U. & Schulze, E. D. (1981). Water relations of leaf epidermal cells of Tradescantia virginiana. Plant Physiology 68, 11351143.
  • Tyerman, S. D., Oats, P., Gisbs, J., Dracun, M. & Greenway, H. (1989). Turgor volume regulation and cellular water relations of Nicotiana tabacum roots grown in high salinities. Australian Journal of Plant Physiology 16, 517531.
  • Wendlers, D. R. (1985). Shoot: root inter-relationships: the effects of obligate biotrophic fungal pathogens. Biological Reviews 60, 4779.
  • Wendler, S., Zimmerman, U. & Bentrup, F. W. (1983). Relationship between cell turgor pressure, electrical membrane potential and chloride efflux in Acetabularis mediterranea. Journal of Membrane Biology 72, 7584.
  • Wolswinkel, P. & Ammerlaan, A. (1984). Turgor sensitive sucrose and amino acid transport into developing seeds of Pisum sativum. Effect of a high sucrose or mannitol concentration in experiment with empty ovules. Physiolagia Plantarum 61, 172182.
  • Yarwood, C. E. (1965). Selective hydroseopicity of diseased leaves. Phytopathology 55, 13731374.
  • Zimmermann, U. (1977). Cell turgor pressure regulation and turgor pressure-mediated transport processes. Society of Experimental Botany, Symposium 31 (Ed. by D. H.Jennings). Cambridge University Press. London .
  • Zimmermann, U., Husken, D. & Schulze, E. D. (1980). Direct turgor pressure measurements of individual leaf cells of Tradescantia virginiana. Planto 149, 445453.
  • Zimmermann, U. & Steudle, E. (1975). The hydraulic conductivity and volumetric elastic modulus of cells and isolated cell walls of Nitella and Chara spp., pressure and volume effects. Australian Journal of Plant Physiology 2, 112.
  • Zimmermann, U. & Steudle, E. (1978). Physical aspects of water relations of plant cells. Advances in Botanical Research 6, 46112.