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REFERENCES

  • Cernichiari, E., Muscatine, L. & Smith, D. C. (1969). Maltose excretion by the symbiotic algae of Hydra viridis. Proc. Roy. Soc, B, 173, 557.
  • Drew, E. A. (1966). Some aspects of the carbohydrate metabolism of lichens. D. Phil, thesis, University of Oxford.
  • Drew, E. A. & Smith, D. C. (1967a). Studies in the physiology of lichens. VII. The physiology of the Nostoc symbiont of Peltigera polydactyla compared with cultured and free-living forms. New Phytol., 66, 379.
  • Drew, E. A. & Smith, D. C. (1967b). Studies in the physiology of lichens. VIII. Movement of glucose from alga to fungus during photosynthesis in the thallus of Peltigera polydactyla. New Phytol., 66, 389.
  • Green, T. G. A. (1970). The biology of lichen symbionts. D. Phil, thesis, University of Oxford.
  • Hackmann, R. H. & Trikojus, V. M. (1952). The composition of the honeydew excreted by Australian coccids of the genus Ceroplastes. Biochem. J., 51, 653.
  • Harley, J. L. & Smith, D. C. (1956). Sugar absorption and surface carbohydrase activity of Peltigera polydactyla (Neck.) Hoffm. Ann. Bot., N.s. 20, 513.
  • Hill, D. J. (1970). The carbohydrate movement between the symbionts of lichens. D.Phil, thesis, University of Oxford.
  • Hill, D. J. & Smith, D. C. (1972). Lichen physiology. XII. The ‘inhibition technique’ New Phytol., 71, 15.
  • Lang, N. J. (1968). The fine structure of blue-green algae. A. Rev. Micro boil., 22, 15.
  • Loughman, B. C. & Martin, R. P. (1957). Methods and equipment for the study of the incorporation of phosphorus by intact barley plants in experiments of short duration. J. exp. Bot., 8, 272.
  • Mahadevan, P. R. & Mahadkar, V. R. (1970). Role of enzymes in growth and morphology of Neurospora crassa: cell-wall-bound enzymes and their possible role in branching. J. Bad., 101, 941.
  • Peat, A. (1968). Fine structure of the vegetative thallus of the lichen, Peltigera polydactyla. Arch. Micro biol., 61, 212.
  • Percival, E. & Mcdowell, R.H. (1967). Chemistry and Enzymology of Marine Algal Polysacchandes. Academic Press, London & New York .
  • Richardson, D. H. S., Hill, D. J. & Smith, D. C. (1968). Lichen physiology. XI. The role of the alga indetermining the pattern of carbohydrate movement between lichen symbionts. New Phytol., 67, 469.
  • Smith, D. C. (1960). Studies in the physiology of lichens. 3. Experiments with dissected discs of Peltigera polydactyla. Ann. Bot., N.S. 24, 186.
  • Omith, D. C. (1961). The physiology of Peltigera polydactyla (Neck.) Hoffm. The Lichenologist, 1, 209.
  • Omith, D. C. (1963). Studies in the physiology of lichens. IV. Carbohydrates in Peltigera polydactyla and the utilization of absorbed glucose. New Phytol., 62, 205.
  • Smith, D. C. & Drew, E. A. (1965). Studies in the physiology of lichens. V. Translocation from the algal layer to the medulla in Peltigera polydactyla. New Phytol., 64, 195.
  • Smith, D., Muscatine, L. & Lewis, D. (1969). Carbohydrate movement from autotrophs to heterotrophs in parasitic and mutualistic symbiosis. Biol. Rev., 44, 17.
  • Smith, I., (Ed.) (1960). Chromatographic and Electrophoretic Methods, Vol. 1. 2nd edn. London.