SEARCH

SEARCH BY CITATION

references

  • Bigg, W. L. (1981) Some effects of nitrate, ammonium and mycorrhizal fungi on the growth of Douglas fir and Sitka spruce. Ph.D. thesis, University of Aberdeen.
  • Björkman, E. (1942) Übie die bedingungen der Mykorrhizabildung bei Kiefer und Fichte. Symbolae Botanicae Upsalienses 6, 2.
  • Ericsson, A. (1980) Some aspects of carbohydrate dynamics in Scots pine trees (Pinus sylvestris L.). Ph.D. thesis, University of Umeå.
  • Harley, J. L. & Smith, S. E. (1983) Mycorrhizal Symbiosis. Academic Press, London .
  • Ingestad, T., Arveby, A. S. & Kähr, M. (1986) The influence of ectomycorrhiza on nitrogen nutrition and growth of Pinus sylvestris seedlings. Physiologica Plantarum 68, 575582.
  • Ingestad, T. & Kahr, M. (1986) Nutrition and growth of coniferous seedlings at varied relative nitrogen addition rate. Physiologica Plantarum 65, 109116.
  • Ingestad, T. & Lund, A.B. (1986) Theory and techniques for steady-state mineral nutrition and growth of plants. Scandinavian Journal of Forest Research 1, 439453.
  • Koch, K. & Hehl, G. (1975) Influence of different preparation and extraction methods on changes in the content of carbohydrates, amino acids and nitrate of plant fresh and dry matter. Zeitschrift für Analytische Chemie 273, 203208.
  • Marx, D. H., Hatch, A. B. & Mendicino, J. F. (1977) High soil fertility decreases sucrose content and susceptibility of loblolly pine loots to ectomycorrhizal infection by Pisolithus tinctorius. Canadian Journal of Botany 55, 15691573.
  • Meyer, F. H. (1962) Die Buchen- und Fichtenmykorrhiza in verschidenen Bodentypen, ihre Beeinflusung furch Mineral-dünger sowie für die Mtkorrhizabildung wichtige Faktoren. Mitteilungen der Bundesforschungsanstalt für Forst und Holzwirtschaft. Nr 54.
  • Nylund, J.-E. (1988) The regulation of mycorrhiza formation -Carbohydrate and hormone theories reviewed. Scandinavian Journal of Forest Research 3, 465470.
  • 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.
  • Richards, B. N. (1965) Mycorrhiza development of loblolly pine seedings in relation to soil reaction and supply of nitrate. Plant and Soil 22, 187199.
  • Rudawska, M. (1986) Sugar metabolism of ectomycorrhizal Scots pine seedlings as influenced by different nitrogen forms and levels. In Mycorrhizae: Physiology and Genetics. 1st ESM, Dijon, 1–5 July 1985. INRA, Paris .
  • Salmanowicz, B. & Nylund, J.-E. (1988) High performance liquid chromatugraphy determination of ergosterol as a measure of ectomycorrhizal infection of Scots pine. European Journal of Forest Pathology 18, 291298.
  • Sarjala, T. (1990) Effect of nitrate and ammonium concentration on nitrate reductase activity in five species of mycorrhizal fungi. Physiologia Plantarum 79, 6570.
  • Sarjala, T. (1991) Effect of mycorrhiza and nitrate nutrition on nitrate reductase activity in Scots pine seedlings. Physiologia Plantarum 81, 8994.
  • Slankis, V. (1973) Hormonal relationships in mycorrhizal development. In. Ectomycorrhizae, (Ed. by G. C. Marks & T. T.Kozlowski). pp. 231298. Academic Press, New York .
  • Termorshuizen, A. J. & Ket, P. C. (1989) The effects of fertilization with ammonium and nitrate on mycorrhizal seedlings of Pinus sylvestris. Agriculture, Ecosystems and Environment 28, 497501.
  • Waring, R. H., McDonald, A. J. S, Larsson, S., Ericsson, T., Wiren, A., Arwidsson, E., Ericsson, A. & Lohammar, T. (1985) Differences in chemical composition of plants grown at constant relative growth rates with stable mineral nutrition. Oecologia (Berlin) 66, 157160.