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References

  • Aba-Husayn, M. M. (1970). The trace element content of plants growing in saline unit alkaline media. M.S. thesis, University of Arizona, Tucson, Arizona.
  • Abbot, L. K. & Rohson, A. D. (1984). The effect of VA mycorrhizae on plant growth. In: VA Mycorrhiza (Ed. by C. LI.Powell & N. J.Bagyaraj), pp. 113130. CRC Press, Boca Raton , Florida .
  • Barea, J. M., Escudbro J. L. & Azcon-G. De Aguilar, C. (1980). Effects of introduced and indigenous VA mycorrhizal fungi on nodulation, growth and nutrition of Medicago saliva in phosphate-fixing soils as affected by P fertilizers Plant and Soil 54, 283296.
  • Bernstein, L. & Ayers, A. D. (1953). Salt tolerance of five varieties of carrots. Proceedings of the American Society for Horticultural Science 61, 360366.
  • Bernstein, L., Francois, L. E. & Clark, R. A. (1974). Interactive effects of salinity and fertility on yields of grains and vegetables. Agronomy Journal 66, 412421.
  • Bingham, F. T. (1963). Relation between phosphorus and micronutriems in plants. Proceedings, Sort Science Society of American 27, 389391.
  • Blngham F. T. & Garber, M. J. (1960). Solubility and availability of micronutrients in relation to phosphorus fertilization. Proceedings, Soil Science Society of America 24, 209213.
  • Bloss, H. E. (1980). Vesicular arbuscular mycorrhiza in guayule. Mycologia 72, 213216.
  • Bloss, H. E. & Pfeiffer, C. M. (1981). Growth and nutrition of mycorrhizal guayule plants. Annals of Applied Biology 99, 267274.
  • Bloss, H. E. & Pfeiffer, C. M. (1984). Latex content and biomass increase in mycorrhizal guayule (Parthenium argentatum) under field conditions. Annuals of Applied Biology 104, 175183.
  • Chambers, C. A., Smith, S. E. & Smith, F. A. (1980). Effects of ammonium and nitrate ions on mycorrhizal infection, nodulation and growth of Trifolium subterraneurn. New Phytologist 85, 4762.
  • Chapman, H. D. & Pratt, P. F. (1961). Plant analysis. In: Methods of Analysis for Soils, Plants and Waters, pp. 5664. University of California, Division of Agricultural Sciences, Riverside , California .
  • Gimore, A. E. (1971). The influence of endotrophic mycorrhizae on the growth of peach seedlings. Journal of the American Society for Horticultural Science 96, 3538.
  • Hammond, B. L. & Polhamus, L. G. (1965). Research on guayule (Parthenium argentatum): 1942–1959. USD A Technical Bulletin 1327, 157 pp.
  • Hayman D. S. (1070). Endogone spore numbers in soil and vesicular arbuscular–mycorrhiza in wheat as influenced by season and soil treatment. Transactions of the British Mycological Society 54, 5363.
  • Hirrel, M. C. (1081). The effect of sodium and chloride salts on the germination of Gigaspora margarita. Mycologia 73, 610617.
  • Hirrel, M. C. & Gerdemann, J. W. (1980). Improved growth of onion and bell pepper in saline soils by two vesicular arbuscular mycorrhizal fungi. Journal, Soil Science Society of America 44, 654655.
  • Jeschke, W. D. (1984). K+-Na+ exchange at cellular membranes, intracellular compartmentation of cations, and salt tolerance. In: Salinity Tolerance in Plants: Strategies for Crop Improvement (Ed. by R. C.Staples & G. H.Toenniessen), pp. 3766, Wiley, New York .
  • Khan, A. G. (1974). The occurrence of mycorrhizas in halophytes, hydrophytes and xerophytes, and of Endogone spores in adjacent soils. Journal of General Microbiology 81, 714.
  • Lambert, D. H., Baker, D. E. & Cole: H. (1970). The role of mycorrhizae in the interactions of phosphorus with zinc, copper, and other elements. Journal, Soil Science Society of America 43, 976980.
  • Maas, E. V., Ogata, G. & Garber, M. J. (1972). Influence of salinity on Fe, Mn, and Zn uptake by plants. Agronomy Journal 64, 793795.
  • Macrobbie, E. A. C. (1977). Functions of ion transport in plant cells and tissue. In: International Review of Biochemistry, Plant Biochemistry H, vol. 13, (Ed, by D. H.Northcote), pp. 211247. University Park Press, Baltimore , Maryland .
  • Mason, E. (1928). Note on the presence of mycorrhiza in the roots of salt marsh plants. New Phytologist 27, 193195.
  • Menge, J. A., Labanauskas, C. K., Johnson, E. L. V. & Platt, R. G. (1978a). Partial substitution of mycorrhizal fungi for phosphorus fertilization in the greenhouse culture of citrus. Journal, Soil Science Society of America 42, 926930.
  • Menge, J. A., Steirle, D., Bagyaraj, D. J., Johnson, E. L. Y. & Leonard, R. T. (1978b). Phosphorus concentrations in plants responsible for inhibition of mycorrhizal infection. New Phytologist 80, 575578.
  • Nieman, R. H. & Clark, R. A. (1976). Interactive effect of salinity and phosphorus nutrition on the concentrations of phosphate and phosphate esters in mature photosynthesizing corn leaves. Plant Physiology 57, 157161.
  • Ojala, J. C, Jarrell, W. M., Menge, J. A. & Johnson, E. L. V. (1983). Influence of mycorrhizal fungi on the mineral nutrition and yield of onion in saline soil. Agronomy Journal, 75, 255259.
  • Olsen, S. R. (1072). Micronutrient interactions. In: Micro-nutrients in Agriculture (Ed. by J. J.Mortvedt, P. M.Giordano & W. L.Lindsay), pp. 243263. Soil Science Society of America Inc., Madison , Wisconsin .
  • Pfeiffer, C. M. (1986). Growth and nutrition of mycorrhizal guayule in saline soils. Ph.D, dissertation, University of Arizona, Tucson, Arizona.
  • Pfeiffer, C. M. & Bloss, H. E. (1985). The effect of the addition of sodium chloride and calcium phosphate to soil on endo-mycorrhizae of guayule (Parthenium argentatum). Abstract, American Phytopathological Society, Reno, Nevada.
  • Phillips, J. M. & Hayman, D. S. (1970). Improved procedures for clearing roots and staining parasitic and vesicular-arbuscular mycorrhizal fungi for rapid assessment of infection. Transactions of the British Mycological Society 55, 158160.
  • Pond, E. C, Menge, J. A. & Jarrell, W. M. (1084). Improved growth of tomato in salinized soil by vesicular-arbuscular mycorrhizal fungi collected from saline soils. Mycologia 76, 7484.
  • Raj, J., Bagyaraj, D. J. & Manjunath, A. (1981). Influence of soil inoculation with vesicular arbuscular mycorrhiza and a phosphate-dissolving bacterium on plant growth and 32P-uptake. Soil Biology and Biochemistry 13, 105108.
  • Ravikovitch, S. & Porath, A. (1967). The effect of nutrients on the salt tolerance of crops. Plant and Soil 25, 4071.
  • Rhodes, L. H. & Gerdemann, J. W. (1975). Phosphate uptake zones of mycorrhizal and non-mycorrizal onions. New Phytologist 75, 555561.
  • Storey, R. & WynJones, R. G. (1978). Salt stress and comparative physiology in the Gramineae. I. Ion relations of two salt-and water-stressed barley cultivars, California Mariout and Aiimar. Australia Journal of Plant Physiology 5, 801816.
  • Tinker, P. B.H. (1978). Effects of vesicular-arbuscular mycorrhizas on plant nutrition and plant growth. Physiologic Vegetate 16, 743751.
  • Timmer, L. W. & Leyden, R. F. (1078). Stunting of citrus seedlings in fumigated soils in Texas and its correction by phosphorus fertilization and inoculation with mycorrhizal funfgi. Journal of the American Society for Horticultural Science 103, 533537.
  • Wyn Jones, R. G., Brady, C. J. & Speirs, J. (1979). Ionic and osmotic relations in plant cells. In: Recent Advances in the Biochemistry of Cereals (Ed. by D. L.Laidman & R. G.WynJones), pp. 63103. Academic Press, London .