• Alexander, I. J. & Fairley, R. I. (1986). Growth and nitrogen uptake rates of ectomycorrhizal spruce seedlings. In: Physiological and Genetical Aspects of Mycorrhizal (Ed. by V. Gianinazzi-Pearson & S. Gianinazzi), pp. 377382. INRA, Paris .
  • Bowen, G. D. (1973). Mineral nutrition of ectomycorrhizae. In: Ectomycorrhizae-their Ecology and Physiology (Ed. by G. C. Marks & T. T. Kozlowski), pp. 151205. Academic Press, London , New York .
  • Boyd, R. (1987). The role of ectomycorrhiza in the water relations of plants. Ph. D. Thesis, University of Sheffield.
  • Boyd, R., Firbank, R. T. & Read, D. J. (1986). Ectomycorrhiza and the water relations of trees. In: Physiological and Genetical Aspects of Mycorrhizae (Ed. by V. Gianinazzi-Pearson & S. Gianinazzi), pp. 689694. INRA, Paris .
  • Coleman, M. D., Bledsoe, C. S. & Smit-Spinks, B. (1990). Root hydraulic conductivity and xylem sap levels of zeatin riboside and abscisic acid in ectomycorrhizal Douglas fir seedlings. New Phytologist 115, 275284.
  • Dixon, R. K., Pallardy, S. G., Garrett, H. E., Cox, G. S. & Sander, I. L. (1983). Comparative water relations of container-grown and bare-root ectomycorrhizal and non-mycorrhizal Quercus velutina seedlings. Canadian Journal of Botany 61, 15591565.
  • Dixon, R. K., Wright, G. M., Behrns, G. T., Teskey, R. O. & Hinckley, T. M. (1980). Water deficits and root growth of ectomycorrhizal white oak seedlings. Canadian Journal of Forest Research 10, 545548.
  • Ekwebelam, S. A. & Reid, C. P. P. (1983). Effect of light, nitrogen fertilization, and mycorrhizal fungi on growth and photosynthesis of lodgepole pine seedlings. Canadian Journal of Forest Research 13, 10991106.
  • Ingestad, T., Arveby, A. S. & Kahr, M. (1986). The influence of ectomycorrhiza on nitrogen nutrition and growth of Pinus sylvestris seedlings. Physiologia Plantarum 68, 575582.
  • Lehto, T. (1992). Mycorrhizas and drought resistance of Picea sitchensis. I. In conditions of nutrient deficiency. New Phytologist 122, 661668.
  • Mead, R. & Curnow, R. N. (1983). Statistical Methods in Agriculture and Experimental Biology. Chapman and Hall, London .
  • Nylund, J. -E. & Wallander, H. (1989), Effects of ectomycorrhiza on host growth and carbon balance in a semi-hydroponic cultivation system. New Phytologist 112, 389398.
  • Parke, J. L., Linderman, R. G. & Black, C. H. (1983). The role of ectomycorrhizas in drought tolerance of Douglas-fir seedlings. New Phytologist 95, 8395.
  • Read, D. J. & Boyd, R. (1986). Water relations of mycorrhizal fungi and their host plants. In: Water, Fungi and Plants (Ed. by P. G. Ayres & L. Boddy), pp. 287303. Cambridge University Press, Cambridge .
  • Reid, C. P. P., Kidd, F. A. & Ekwebelam, S. A. (1983). Nitrogen nutrition, photosynthesis and carbon allocation in ectomycorrhizal pine. Plant and Soil 71, 415432.
  • Riddoch, I., Lehto, T. & Grace, J. (1991). Photosynthesis of tropical tree seedlings in relation to light and nutrient supply. New Phytologist 119, 137147.
  • Sands, R., Fiscus, E. L. & Reid, C. P. P. (1982). Hydraulic-properties of pine and bean roots with varying degrees of suberization, vascular differentiation and mycorrhizal infection. Australian Journal of Plant Physiology 9, 559569.
  • Sands, R. & Theodorou, C. (1978). Water uptake by mycorrhizal roots of radiata pine seedlings. Australian Journal of Plant Physiology 5, 301309.