SEARCH

SEARCH BY CITATION

REFERENCES

  • Abbott, L. K., Robson, A. D. & DeBoer, G. (1984). The effect of phosphorus on the formation of hyphae in soil by the vesicular arbuscular mycorrhizal fungus, Glomus fasciculatum. New Phytologist 97, 437446.
  • Bolgiano, N. C, SafiraiG. R. & Warncke, D. D. (1983). Mycorrhizal infection and growth of onion in the field in relation to phosphorus and water availability. Journal of the American Society for Horticultural Science 108, 819825.
  • Dehne, H. W. (1982). Interaction between vesicular–arbuscular mycorrhizal fungi and plant pathogens. Phytopathology 72, 11151119.
  • Graham, J. H., Leonard, R. T. & Menge, J. A. (1982). Interaction of light intensity and soil temperature with phosphorus inhibition of vesicular-arbuscular mycorrhiza formation. New Phytologist 91, 683690.
  • Hayman, D. S. (1983). The physiology of vesicular arbuscular endomycorrhizal symbiosis. Canadian Journal of Botany 61, 944963.
  • Hepper, C. M. & Warner, A. (1983). Role of organic matter in growth of a vesicular-arbuscular mycorrhizal fungus in soil. Transactions of the British Mycological Society 81, 155156.
  • Janos, D. P. (1980). Mycorrhizae influence tropical succession. Biotropica 12 (suppl.), 5664.
  • Jensen, W. A. (1962). Botanical Histnchemistry. Freeman, San Francisco .
  • Johnson, C. R., Graham, J. H., Leonard, R. T. & Menge, J. A. (1982). Effect of flower bud development in Chrysanthemum on vesicular-arbuscular mycorrhiza formation. New Phytologist 90, 671675.
  • Koide, R. & Elliott, G. (1989). Cost, benefit and efficiency of the vesicular arbuscular mycorrhizal symbiosis. Functional Ecology 3, 252255.
  • Koide, R. & Li, M. (1989). Appropriate controls for vesicular arbuscular mycorrhiza research. New Phvtologist 111, 3546.
  • Koide, R. Li M., Lewis, J. Irhv, C. (1988). Role of mycorrhizal infection in the growth and reproduction of wild vs. cultivated plants. I. Wild vs. cultivated oats. Oecologia 77, 537543.
  • Koide, R. & Mooney, H. (1987). Spatial variation in inoculum potential of vesicular arbuscular mycorrhizal fungi caused by formation of gopher mounds. New Phylologisl 107, 173182.
  • Machilis, L. & Torrey, J. G. (1956). Plants in Action. Freeman, San Francisco .
  • Mosse, B. (1962). The establishment of vesicular arbuscular mycorrhiza under aseptic conditions. Journal of General Microbiology 27, 509520.
  • Mosse, B. (1978). Mycorrhiza and plant growth. In: Structure and functioning of Plant Populations (Ed. by A.H. J.F'reyscn & J. W.Woldendorp), pp. 269298. North-Holland Publishing Co.
  • Nelsen, C. E. & Saeir, G. R. (1982). Increased drought tolerance of mycorrhizal onion plants caused by improved phosphorus nutrition. Planla 154, 407413.
  • Schwab, S. M., Menge, J. A. & Leonard, R. T. (1983). Comparison of stages of vesicular–arbuscular mycorrhiza formation in sudangrass grown at two levels of phosphorus nutrition. American Journal of Botany 70, 12251232.
  • Smith, S. E. (1980). Mycorrhizns of autotrophic higher plants. Biological Reviews 55, 475510.
  • Son, C. L. & Smith, S. E. (1988). Mycorrhizal growth responses: interactions between photon irradiance and phosphorus nutrition. New Phytologist 108, 305314.
  • STSC (1987). Statgraphics Statistical Graphics System. STSC, Inc.
  • Watanabe, F. S. & Olsen, S. R. (1965). Test of an ascorbic acid method for determining phosphorus in water and NaHCO3, extracts from soil. Soil Science Society Proceedings 29, 677678.