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references

  • Bewley, J. D., Dhindsa, R. S., Malek, L. & Winner, W. (1975). Physiological and biochemical aspects of the resistance of lower plants (mosses) to extreme environments. Proc. Circumpolar Coherence on Northern Ecology , 197202, Ottawa.
  • Carrodus, B. B. (1967). Absorption of nitrogen by mycorrhizal roots of beech. New Phytologist, 66, 1.
  • Crittenden, P. D. & Kershaw, K. A. (1978). Discovering the role of lichens in the nitrogen cycle in boreal-arctic ecosystems. Bryologist, 81, 258.
  • Drew, E. A. & Smith, D. C. (1967). Studies in the physiology of lichens. VII. The physiology of the Nostoc symbiont of Peltigera polydactyla compared with cultured and free-living forms. New Phytologist, 66, 379.
  • Farrar, J. F. (1973). Lichen physiology: progress and pitfalls. In: Air Pollution and Lichens (Ed. by B. W. Ferry, M. S. Baddeley, & D. L. Hawskworth), pp. 238382. University of Toronto Press.
  • Farrar, J. F. (1976a). Ecological physiology of the lichen Hypogymnia physodes. I. Some effects of constant water saturation. New Phytologist, 77, 93.
  • Harley, J. L. (1964). Incorporation of carbon dioxide into excised beech mycorrhizas in the presence and absence of ammonium. New Phytologist, 63, 203.
  • Harris, G. P. (1971). The ecology of corticolous lichens. II. The relationship between physiology and the environment. Journal of Ecology, 59, 411.
  • Kershaw, K. A. (1977). Physiological-environmental interactions in lichens. II. The pattern of net photosynthetic acclimation in Peltigera canina (L.) Willd. var. praetextata (Floerke in Somm.) Hue, and P. polydactyla (Neck.) Hoffm. New Phytologist, 79, 377.
  • Kershaw, K. A. & Harris, G. P. (1971). Simulation studies and ecology: use of the model. In: Statistical Ecology (Ed. by G. P. Patil, E. C. Pielou & W. E. Waters), vol. 3, pp. 2342. Pennsylvania University Press.
  • Kershaw, K. A., MacFarlane, J. D. & Tysiaczny, M. J. (1977). Physiological-environmental interactions in lichens. V. The interaction of temperature with nitrogenase activity in the dark New Phytologist, 79, 409.
  • Kohnberg, H. L. (1966). Anapleurotic sequences and their role in metabolism. In: Essays in Bio-Chemistry (Ed. by P. N. Campbell & G. D. Greville), vol. 2, pp. 131. Academic Press, London New York .
  • Lynch, V. H. & Calvin, M. (1952). Carbon dioxide fixation by micro-organisms. Journal of Bacteriology, 63, 525.
  • Lynch, V. H. & Calvin, M. (1953). Carbon dioxide fixation by Euglena. Annals of the New York Academy of Science, 56, 890.
  • Morris, I., Yentsch, C. M. & Yentsch, C S. (1971a), Relationship between light carbon dioxide fixation and dark carbon dioxide fixation in marine algae. Limnology and Oceanography, 16, 854.
  • Morris, I., Yentsch, C. M. & Yentsch, C. S. (1971b). The physiological state with respect to nitrogen of phytoplankton from low-nutrient subtropical water as measured by the effect of ammonium ion on dark carbon dioxide fixation. Limnology and Oceanography, 16, 859.
  • Moses, V., Holm-Hansen, O. & Calvin, M. (1959). Nonphotosynthetic fixation of carbon dioxide by three micro-organisms. Journal of Bacteriology, 77, 70.
  • Peak, J. J. & Peak, M. J. (1976). Heterotrophic (Dark) CO2 fixation by Euglena gracilis. Possible regulation by tricarboxylic acid cycle intermediates. Journal of Protozoology, 23, 165.
  • Raven, J. A. (1974). Carbon dioxide fixation. In: Algal Physiology and Biochemistry (Ed. by W. D.P Stewart), pp. 434455. Blackwell Scientific, Oxford .
  • Schnabl, H. & Mayer, I. (1976). Dark fixation of CO2 by flowers of cut tones. Planta (Berlin), 131, 51.
  • Tysiaczny, M. J. &, Kershaw, K. A. (1979). Physiological-environmental interactions in lichens. VII. The environmental control of glucose movement from Alga to fungus in Peltigera canina var. praetextata Hue. New Phytologist, 83, 137.