SEARCH

SEARCH BY CITATION

REFERENCES

  • Abeles, F. B. (1967). Mechanism of action of abscission accelerators. Phyiologia Pl, 20, 442.
  • Abeles, F. B., Craker, L. E. & Leather, G. R. (1971). Abscission: tbe pbytogerontological effect of ethylene. Pl. Physiol, Lancaster, 47, 7.
  • Abeles, F. B. & Rubinstein, B. (1964). Regulation of ethylene evolution and leaf abscission by auxin. Pl Physiol, Lancaster, 39, 963.
  • Alvim, D. DE T. & Havis, J. R. (1954). An improved infiltration series for studying stomatal openings as illustrated with coffee. Pl Physiol, Lancaster, 29, 97.
  • Aspinall, D., Paleg, L. G. & Addicott, F. T. (1967). Abscisin II and some hormone-regulated plant responses. Aust. J. biol. Sci., 20, 869.
  • Barrs, H. D. (1968). Determination of water deficits in plant tissues. In: Water Deficits and Plant Growth (Ed. by T. T.Kozlowski), Vol. 1, p. 244. Academic Press. New York and London .
  • Beyer, E. M. JR & Morgan, P. W. (1970). A method for determining the concentration of ethylene in gas phase of vegetative plant tissues. Pl Physiol, Lancaster, 46, 354.
  • Brix, H. (1962). The effect of water stress on the rates of photosynthesis and respiration in tomato plant and lobolly pine seedlings. Physiologia Pl, 15, 10.
  • Brown, W. V. & Pratt, G. A. (1965). Stomatal inactivity in grasses. S. West. Nat., 10, 48.
  • Burg, S. P. (1968). Ethylene, plant senescence and abscission. Pl Physiol, Lancaster, 43, 1503.
  • Burg, S. P. & Burg, E. A. (1967). Molecular requirements for the biological activity of ethylene. Pl Physiol, Lancaster, 42, 144.
  • Burg, S. P. & Burg, E. A. (1968). Auxin stimulated ethylene formation. Its relationship to auxin inhibited growth, root geotropism and other plant processes. In: Biochemistry and Physiology of Plant Growth Substances (Ed. by F.Wightman & G.Setterfield), p. 1275. Rungt Press. Ottawa .
  • Burrows, W. J. & Carr, D. J. (1969). Effect of flooding the root system of sunflower plants on the cytokinin content in xylem sap. Physiologia Pl, 22, 1105.
  • Cooper, W. C., Rasmussen, G. K., Rogers, B. J., Reece, P. C. & Henry, W. H. (1968). Control of abscission in agricultural crops and its physiological basis. Pl Physiol, Lancaster, 43, 1560.
  • Dela Fuente, R. K. & Leopold, A. C. (1968). Senescence processes in leaf abscission. Pl. Physiol, Lancaster, 43, 1496.
  • Dove, L. D. (1971). Short-term responses and chemical control of ribonuclease activity in tomato leaflets. Neto Phytol., 70, 397.
  • Eagles, C. F. & Wareing, P. F. (1964). The role of growth substances in the regulation of bud dormancy. Physiologia Pl., 17, 697.
  • El-Antably, H. M. M., Wareing, P. F. & Hillman, J. (1967). Some physiological responses to D.L.- abscisin (Dormin). Planta, 73, 74.
  • Fuchs, Y. & Lieberman, M. (1968). Effect of kinetin, IAA and gibberellin on ethylene production and their interaction in growth of seedlings. Pl Physiol, Lancaster, 43, 2029.
  • Gardner, W. R. & Nieman, R. H. (1964). Lower limit of water availability to plants. Science, N.Y., 143, 1460.
  • Hatcher, E. S. J. (1959). Auxin relations of the woody shoot. The distribution of diffusible auxin in shoots of apple and plum rootstock varieties. Ann. Bot., N.S. 23, 409.
  • Heath, O. V. S. & Meidner, H. (1961) The influence of water strain or the minimum intercellular space carbon dioxide concentration. T. and stomatal movement in wheat leaves. J. Exp. Bot., 12, 226.
  • Itai, C. & Vaadia, Y. (1965). Kinetin-like activity in root exudate of water-stressed sunflower plants. Physiologia Pl, 18, 941.
  • Jackson, M. B. & Osborne, D. J. (1970). Ethylene, the natural regulator of leaf abscission. Nature, Lond., 225, 1019.
  • Jansen, E. F. C. (1964). Metabolism of labelled ethylene in Avocado. II. Benzene and toluene from ethylene-14C, benzene from ethylene-3H. J biol. Chem., 239, 1664.
  • Jones, R. J. & Mansfield, T. A. (1970). Suppression of stomatal opening in leaves treated with abscisic acid. J. exp. Bot., 21, 714.
  • Kawase, M. (1972). Effect of flooding on ethylene concentration in horticultural plants. J. Am. Soc. hort. Sci., 97, 584.
  • Leopold, A. C. (1970). Physiological processes involved in abscission. Hort. Sci., 6, 376.
  • Mcafee, J. A. & Morgan, P. W. (1971). Rates of production and internal levels of ethylene in the vegetative cotton plant. Pl Cell Physiol, Tokyo, 12, 839.
  • McMichael, B. L., Jordan, W. R. & Powell, R. D. (1972). An effect of water stress on ethylene production by intact cotton petioles. Pl Physiol, Lancaster, 49, 658.
  • Naylor, A. W. (1972). Water deficits and nitrogen metabolism. In: Water Deficits and Plant Growth (Ed. by T. T.Kozlowski), Vol. III, p. 241. Academic Press. New York and London .
  • Pallaghy, C. K. & Raschke, K. (1972). No stomatal response to ethylene. Pl Physiol, Lancaster, 49, 275.
  • Phillips, I. D. J. (1964). Root-shoot hormone relations. II. Changes in endogenous auxin concentration produced by flooding of root system in Helianthus annuus. Ann. Bot., N.S. 28, 37.
  • Pratt, H. K. & Goeschl, J. D. (1968). The role of ethylene in fruit ripening. In: Biochemistry and Physiology of Plant Growth Substances (Ed. by F.Wightman & F. G.Setterfield), p. 1295. Runge Press. Ottawa .
  • Reid, D. M. & Crozier, A. (1971). Effect of waterlogging on gibberellin content and growth of tomato plants. J. exp. Bot., 22, 39.
  • Reid, D. M., Crozier, A. & Harvey, B. M. R. (1969). Effect of flooding on the export of gibberellins from the root to the shoot. Planta, 89, 376.
  • Shah, C. B. & Loomis, R. S. (1965). Ribonucleic acid and protein metabolism in sugar-beet during drought. Physiologia Pl, 18, 240.
  • Smith, K. A. & Russell, R. S. (1969). Occurrence of ethylene, and its significance in anaerobic soil. Nature, Lond., 222, 769.
  • Smith, O. E., Lyon, J. L., Addicott, F. T. & Johnson, R. E. (1968). Physiology of abscisic acid. In: Biochemistry and Physiology of Plant Growth Substances (Ed. by F.Wightman & G.Setterfield), p. 1547, Runge Press. Ottawa .
  • Wright, S. T. C. (1969). An increase in the “inhibitor B” content of detached wheat leaves following a period of wilting. Planta, 86, 10.
  • Wright, S. T. C. (1972). Physiological and biochemical responses to wilting and other stress conditions. In: Crop Processes in Controlled Environments (Ed. by A. R.Rees, K. E.Cockshull, D. W.Hand & R. G.Hurd), p. 349. Academic Press. New York and London .
  • Wright, S. T. C. & Hiron, R. W. (1970). The accumulation of abscisic acid in plants during wilting and under other stress conditions. In: Plant Growth Substances (Ed. by D. J.Carr), p. 291. Springer-Verlag, Berlin, Heidelberg and New York.
  • Yang, S. F. & Baur, A. H. (1969). Pathways of ethylene biosynthesis. Qualitns Pl. Mater, veg., 19, 13, 201.