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References

  • Adebayo, A. A. & Harris, R. F. (1971). Fungal growth responses to osmotic as compared to matric water potential. Proceedings of the Soil Science Society of America, 35, 465.
  • Bernal, J. D. (1965). The structure of water and its biological implications. In: The State and Movement of water in Living Organisms (Ed. by G. E.Fogg), pp. 1732. Symposium of the Society of Experimental Biology, no. 19. Cambridge .
  • Bertsch, A. (1966). Über den CO2-Gaswechsel einiger Flechten nach Wasserdampfaufnahme. Planta, 68, 157.
  • Bewley, J. D. & Thorpe, T. A. (1974). On the metabolism of Tortula ruralis following desiccation and freezing: respiration and carbohydrate oxidation. Physiologia Plantarum, 32, 147.
  • Breese, M. H. (1955). Hysteresis curves in the hygroscopic equilibria of rough rice. Cereal Chemistry, 32, 481.
  • Briggs, G. E. (1967). Movement of Water in Plants. Blackwell, Oxford .
  • Brock, T. D. (1969). Microbial growth under extreme conditions. Symposium of the Society for General Microbiology, 19, 15.
  • Brock, T. D. (1975). The effect of water potential on photosynthesis in whole lichens and in their liberated algal components. Planta, 124, 13.
  • Buch, H. (1945, 1947). Über die Wasser- und Mineralstoffversorgung der Moose. I: Commentatioties biologicae, 9(16), 1; II: Ibid., 9 (20), 1.
  • Casas de Plug, C. & Molinas, M. L. (1974). Etude au microscope electronique à balayage de la surface des feuilles de Tortula ruralis (Hedw.) Gaertn. var. hirsuta (Vent.) Par. Revue bryologiqiie et lichënologique, 40, 267.
  • Christensen, G. N. & Kelsey, K. E. (1958). The sorption of water vapour by the constituents of wood: determination of sorption isotherms. Australian Journal of applied Science, 9, 265.
  • Crowt, J. H. (1971). Anhydrobiosis: an unsolved problem. American Naturalist, 105, 563.
  • Dhindsa, R. S. & Bewley, J. D. (1976). Water stress and protein synthesis. IV. Responses of a drought tolerant plant. Journal of Experimental Botany, 27, 513.
  • Dilks, T. J. K. & Proctor, M. C. F. (1974). The pattern of recovery of bryophytes after desiccation. Journal of Bryology, 8, 97.
  • Dilks, T. J. K. & Proctor, M. C. F. (1976a). Seasonal variation in desiccation tolerance in some British bryophytes. Journal of Bryology, 9, 239.
  • Dilks, T. J. K. & Proctor, M. C. F. (1976b). Effects of intermittent desiccation on bryophytes. Journal of Bryology, 9, 249.
  • Ensgraber, A. (1954). Über den Einfluss der Antrocknung auf die Assimilation und Atumung von Moosen und Flechten. Flora, 141, 432.
  • Farrar, J. F. & Smith, D. C. (1976). Ecological physiology of the lichen Hypogymnia physodes. III. The importance of the rewetting phase. Nezv Phytologist, 77, 115.
  • Gates, D. M. (1968). Transpiration and leaf temperature. Annual Review of Plant Physiology, 19, 211.
  • Harris, G. P. (1971). The ecology of corticolous lichens. II. The relationship between physiology and the environment. Journal of Ecology, 59, 441.
  • Hinshiri, H. M. & Proctor, M. C. F. (1971). The effect of desiccation on subsequent assimilation and respiration of the bryophytes Anomodon viticulosus and Porella platyphylla. New Phytologist, 70, 527.
  • Hosokawa, T. & Kubota, H. (1957). On the osmotic pressure and resistance to desiccation of epiphytic mosses from the beech forest, south-west Japan. Journal of Ecology, 45, 579.
  • Hubbard, H. E., Earle, F. R. & Senti, F. R. (1957). Moisture relations in wheat and corn. Cereal Chemistry, 34, 422.
  • Keilin, D. (1959). The problem of anabiosis or latent life: history and current concept. Proceedings of the Royal Society, B150, 149.
  • Kelsey, K. E. (1957). The sorption of water vapour by wood. Australian Journal of Applied Science, 8, 42.
  • Kershaw, K. A. (1972). The relationship between moisture content and net assimilation rate of lichen thalli and its ecological significance. Canadian Journal of Botany, 50, 543.
  • Klepper, B. (1963). Water relations of Dicranum scoparium. Bryologist, 66, 41.
  • Lange, O. L. (1955). Untersuchungen über die Hitzeresistenz der Moose in Beziehung zu ihrer Verbreitung. I. Die Resistenz stark ausgetrockneter Moose. Flora, 142, 381.
  • Lange, O. L. (1969). CO2-Gaswechsel von Moosen nach Wasserdampfaufnahme aus dem Luftraim. Planta, 89, 90.
  • Laüchli, A. (1976). Apoplasmic transport in tissues. In Encyclopaedia of Plant Physiology (Ed. by U.Lüttge & M. G.Pitman), pp. 334. N.S. 2: Transport in Plants. IIB: Tissues and Organs. Springer, Berlin .
  • Mägdefrau, K. (1937). Der Wasserhaushalt der Moose. Annales Bryologici, 10, 141.
  • Michel, B. E. & Kaufmann, M. R. (1973). The osmotic potential of polyethylene glycol 6000. Plant Physiology, 51, 914.
  • Morton, M. R. (1977). Ecological studies of grassland bryophytes. Ph.D. thesis, University of London.
  • Nobel, P. S. (1974). Introduction to Biophysical Plant Physiology. Freeman, San Francisco .
  • Ochi, H. & Yonehara, S. (1954). On the relation of the osmotic value of the cell-sap of mosses with environmental factors. Botanical Magazine (Tokyo), 67, 265.
  • Patterson, P. M. (1946). Osmotic values of bryophytes and problems presented by refractory types. American Journal of Botany, 33, 604.
  • Peterson, W. L. & Mayo, J. M. (1975). Moisture stress and its effects on photosynthesis in Dicranum polysetum. Canadian Journal of Botany, 53, 2897.
  • Plantefol, L. (1927). Etude biologique de l'Hypnum triquetrum. Annales Science Naturelle, sér. 10.9, 1.
  • Powell, D. B. B. & Blanchard, T. W. (1976). The quantitative analysis of water potential/symplastic water volume curves. Journal of Experimental Botany, 27, 597.
  • Preston, R. D. (1974). The Physical Biology of Plant Cell Walls. Chapman and Hall, London .
  • Proctor, M. C. F. (1977). Evidence on the carbon nutrition of moss sporophytes from 14CO2 uptake and the subsequent movement of labelled assimilate. Journal of Bryology, 9, 375.
  • Ried, A. (1960a). Thallusbau und Assimilationshaushalt von Laub- und Krustenflechten. Biologisches Zentralblatt, 79, 129.
  • Ried, A. (1960b). Stoffwechsel und Verbreitungsgrenzen von Flechten. II. Wasser - und Assimilationshaushalt, Entquellungs- und Submersionsresistenz von Krustenflechten benachbarter Standorte. Flora, 149, 345.
  • Roberts, E. H. (1975). Problems of long-term storage of seed and pollen for genetic resources conservation. In Crop Genetic Resources for Today and Tomorrow pp. 269296. I.B.P. Cambridge .
  • Roberts, E. H. & Abdalla, F. H. (1968). The influence of temperature, moisture and oxygen on period of seed viability in barley, broad beans, and peas. Annals of Botany, 32, 97.
  • Robinson, G. W. (1949). Soils: Their Origin, Constitution and Classification, 3rd edn. Thomas Murby, London .
  • Robinson, H. (1971). Scanning electron microscope studies on moss leaves and peristomes. Bryologist, 74, 473.
  • Romose, V. (1940). Ökologische Untersuchungen über Homalothecium sericeum, seine Wachstumsperioden und seine Stoffproduktion. Dansk botanisk Arkiv, 10, 1.
  • Schofield, R. K. (1935). The pF of the water in soil. Transactions of the 3rd International Congress of Soil Sciences, 2, 38.
  • Shepherd, W. (1976). Indices of plant water status: some comparisons within and between crop species. Journal of applied Ecology, 13, 205.
  • Slatyer, R. O. (1967). Plant–Water Relationships. Academic Press, London , New York .
  • Slavik, B. (1965). The influence of decreasing hydration level on photosynthetic rate in the thalli of the hepatic Conocephalum conicum. In Water Stress in Plants (Ed. by B.Slavik), pp. 195201. W. Junk. The Hague .
  • Smith, D. C. & Molesworth, S. (1973). Lichen physiology. XIII. Effects of rewetting dry lichens. New Phytologist, 72, 525.
  • Stålfelt, M. G. (1937). Der Gasaustausch der Moose. Planta, 27, 30.
  • Tallis, J. H. (1959). Studies in the biology and ecology oi Rhacomitrium lanugi nosum Brid. II. Growth, reproduction and physiology. Journal of Ecology, 47, 325.
  • Tyree, M. T. (1968). Determination of transport constants of isolated Nitella cell walls. Canadian Journal of Botany, 46, 317.
  • Weatherly, P. E. (1950). Studies in the water relations of the cotton plant. I. The field measurement of water deficits in leaves. New Phtyologist, 49, 81.
  • Weast, R. C., (ed.) (1973). Handbook of Chemistry and Physics, 54th ed. CRC Press, Cleveland , Ohio .
  • Willis, A. J. (1964). Investigations on the physiological ecology of Tortula ruraliformis. Transactions of the British bryological Sodety, 4, 668.
  • Wolf, A. V., Brown, M. G. & Prentiss, P. G. (1973). Concentrative properties of aqueous solutions. In: Handbook of Chemistry and Physics, 54th edn. (Ed. by R. C.Weast), pp. D192D234. CRC Press, Cleveland , Ohio .
  • Wylie, R. G. (1961). In: Encyclopaedic Dictionary of Physics (Ed. by J.Thewliss), Vol. 3, 722. Pergamon, Oxford .