SEARCH

SEARCH BY CITATION

REFERENCES

  • Abrams, G. J. von (1953). Auxin relations of the dwarf pea. PI. Physiol. Lancaster, 23, 443.
  • Andreae, W. A. (1964). Auxin metabolism and root growth inhibition. In: Regulateurs Naturels de la Croissance Végétale, p. 559. Gif-sur-Yvette.
  • Araki, T. & Hamada, H. (1937). Lokalisation der lichtempfindlichkeit von Keimorganen bei Avena sativa. Bot. Mag., Tokyo , 51, 498. (Summary seen in Jap. J. Bot. (1937), p. 9.)
  • Audus, L. J. (1959). Plant Growth Substances. Leonard Hill, London .
  • Avery, G. S. & Burkholder, P. R. (1936). Polarized growth and cell studies on the Avena coleoptile, phytohormone test object. Bull. Torrey bot. Club, 63, 1.
  • Avery, G. S., Burkholder, P. R. & Creighton, H. B. (1937). Polarized growth and cell studies in the first internode and coleoptile of Avena in relation to light. Bot. Gaz., 99, 125.
  • Avery, G. S. & Larue, C. D. (1938). Growth and geotropic responses of excised Avena coleoptiles. Bot. Gaz., 100, 186.
  • Ball, N. G. (1963). Plant tropisms. In: Vistas in Botany, Vol. 3 (Ed. by W. B.Turrill), p. 228. Pergamon Press, Oxford .
  • Bentley, J. A. & Bickle, A. S. (1952). Studies on plant growth hormones. II. Further biological properties of 3-indolylacetonitriIe. J. exp. Bot., 3, 406.
  • Bonner, J. & Foster, R. J. (1955). The growth-time relationships of the aiixin-induced growth in Avena coleoptile sections. J. exp. Bot., 6, 293.
  • Bonner, J. & Thimann, K. V. (1935). Studies on the growth hormone of plants. VII. The fate of growth substance in the plant and the nature of the growth process. J. gen. Physiol, 18, 649.
  • Boysen-Jensen, P. (1936). Growth Hormones in Plants (Translated by G. S.Avery & P. R.Burkholder). McGraw-Hill, New York .
  • Brian, P. W. (1959). Effects of gibberellins on plant growth and development. Biol. Rev., 34, 37.
  • Brian, P. W. (1961). Interactions between gibberellins and auxins. In: Recent Advances in Botany, p. 1099. Academic Press, London and New York .
  • Brian, P. W. & Heming, H. H. (1958). Complementary action of gibberellic acid and auxins in pea internode extension. Ann. Bot., 22, 1.
  • Briggs, W. R. (1963). Red light, auxin relationships, and phototropic responses of corn and oat coleoptiles. Am. J. Bot., 50, 196.
  • Briggs, W. R. & Chon, H. P. (1966). The physiological versus the spectro-photometric status of phyto-chrome in corn coleoptiles. PI. PhysioL, Lancaster , 41, 1159.
  • Briggs, W. R., Tocher, R. D. & Wilson, J. F. (1957). Phototropic auxin redistribution in corn coleoptiles. Science. N.Y., 126, 210.
  • Causton, D. R. (1965). Cell division and extension in Avena seedlings as affected by carbon dioxide and other external factors. M.Sc. thesis. University of London.
  • Causton, D. R. & Mer, C. L. (1966). Analytical studies of the growth of the etiolated seedling of Avena sativa. I. Meristematic activity in the mesocotyl with special reference to the effect of carbon dioxide. New Phytol, 65, 87.
  • Dattaray, P. & Mer, C. L. (1964). Auxin metabolism and the growth of etiolated oat seedlings. In: Regulateurs Naturels de la Croissance Végétale, p. 475. Gif-sur-Yvette.
  • Dolk, H. E. (1926). Concerning the sensibility of decapitated coleoptiles of Avena sativa for light and gravitation. Proc. K. ned. Akad. Wet., 29, 1113.
  • Dore, J. & Williams, W. T. (1956). Studies in the regeneration of horseradish. II. Correlation phenomena. Ann. Bot., 20, 231.
  • Fiedler, H. (1936). Entwicklungs- und reiz-physiologische Untersuchungen an Kulturen isolierter Wurzelspitzen. Z. Bot., 30, 385.
  • Furano, A. V. & Green, J. P. (1963). Differences in the disposition of endogenous and exogenous suhstances by cells. Nature. Lond., 199, 380.
  • Gillespie, B. & Briggs, W. R. (1961). Mediation of geotropic response by lateral transport of auxin. PL Physiol, Lancaster , 36, 364.
  • Gillespie, B. & Thimann, K. V. (1963). Transport and distribution of auxin during tropistic response. I. The lateral migration of auxin in geotropism. Pl. Physiol, Lancaster , 38, 214.
  • Gillespie, B. & Thimann, K. V. (1964). Transport and distribution of auxin during tropistic response. II. The lateral migration of auxin in phototropism of coleoptiles. Pl. Physiol, Lancaster , 39, 341.
  • Goodwin, R. H. (1941). On the inhibition of the first internode ol Aveéia by light. Am. J. Bot., 28, 325.
  • Guttenberg, H. von & Zetsche, K. (1956). Der Einfluss des Lichtes auf die Auxinbildung und den Auxintransport. Planta, 48, 99.
  • Heslop-Harrison, J. (1963). Plant growth substances. In: Vistas in Botany, Vol. 3 (Ed. by W. B.Turrell), p. 104. Pergamon Press, Oxford .
  • Heslop-Harrison, J. (1964). The control of flower differentiation and sex expression. In: Regulateurs Naturels de la Croissance Végétate, p. 649. Gif-sur-Yvette.
  • Huisinga, B. (1964). Influence of light on growth, geotropism and guttation of Avena seedlings grown in total darkness. Acta Bot. néerl, 13, 445.
  • Jacobs, W. P. (1959). What substance normally controls a given biological process Dvl Biol, 1, 527.
  • Jacobs, W. P. & Case, D. B. (1965). Auxin transport, gibberellin and apical dominance. Science. N.Y., 148, 1729.
  • Kefford, N. P. & Goldacre, P. L. (1961). The changing concept of auxin. Am. J. Bot., 48, 643.
  • Laibach, F. & Meyer, F. (1935). Uber die Schwankungen des Auxingehaltes bei Zea Mays und Helianthus anniius im Verlauf der Ontogenese. Senckenbergiana, 17, 73.
  • Leopold, A. C. (1949). The control of tillering in grasses by auxin. Am. J. Bot., 36, 437.
  • Lockhart, J. A. (1959). Studies on the mechanism of stem growth inhibition by visible radiation. Pl. Physiol, Lancaster , 34, 457.
  • Lockhart, J. A. (1961a). Photoinhibition of stem elongation by full solar radiation. Am.J. Bot., 48, 387.
  • Lockhart, J. A. (1961b). Interactions between gibberellin and various environmental factors in stem growth. Am. J. Bot., 48, 516.
  • Lockhart, J. A. (1965). The analysis of interactions of physical and chemical factors on plant growth. A. Rev. Pl. Physiol, 16, 37.
  • Mer, C. L. (1951). A critical study of the auxin theory of growth regulation in the mesocotyl of Avena sativa. Ann. Bot. N.s., 15, 179.
  • Mer, C. L. (1957a). Further observations of the effect of carbon dioxide on the growth of etiolated Avena seedlings. Ann. Bot. N.s., 21, 13.
  • Mer, C. L. (1957b). A re-examination of the supposed effect of riboflavm on growth. PL Physiol, Lancaster , 32, 175.
  • Mer, C. L. (1959a). A study of the growth and photoperceptivity of etiolated oat seedlings. J. exp. Bot., 10, 220.
  • Mer, C. L. (1959b). The analysis of correlative growth in the etiolated oat seedling in relation to carbon dioxide and nutrient supply. Ann. Bot. N.s., 23, 177.
  • Mer, C. L. (1961). Carbon dioxide and ethanol as factors controlling the growth ot etiolated oat seedlings. Nature. Lond., 191, 260.
  • Mer, C. L. (1966). The inhibition of cell division in the mesocotyl of etiolated oat plants by light of different frequencies. Ann. Bot. n.s., 30, 17.
  • Mer, C. L. & Causton, D. R. (1963). Carbon dioxide: a factor influencing a cell division. Nature. Lond., 199, 360.
  • Mer, C. L. & Causton, D. R. (1967). Analytical studies of the growth of the etiolated seedling of Avena sativa. II. The effects of growth-modifying factors on cell division and extension. New PhytoL, 66.
  • Mer, C. L., Dixon, P. F., Diamond, B. C. & Drake, C. F. (1963). The dominant influence of nitrogen on growth correlation in etiolated oat seedlings, Ann. Bot. n.s., 27, 693.
  • Merry, J. & Goddard, D. R. (1941) - A respiratory study of barley gram and seedhngs. Proc. Rochester Acad. Sci., 8, 28.
  • Ng, E. K. (1961) A ‘study of the growth of coleoptile’, first internode, and first leaf of Avena sativa seedlings, with special reference to the effects of growth regulators. Ph.D. thesis, University of London.
  • Ng E. K. & Audus L. J. (1964) Growth-regulator interactions m growth of the shoot system oi Avena ‘sativa seedlinss I The growth of the first internode. J. exp. Bot, 15, 67.
  • Nitsch J. P. & Nitsch C (1956). Studies on the growth of coleoptile and first internode sections. A new sensitive straight-growth test for auxins. Pl. Physiol., Lancaster , 13, 94.
  • Nitsch J. P., Pratt, C, Nitsch, C. & Shaulis, N. R. (1960). Natural growth substances in Concord and Concord seedless grapes in relation to berry development. Am. J. Bot., 47, 566.
  • Norris W. E. & Brotzman, B. (1965). The effect of gibberellic acid on elongation and geotropically induced curvature of Avena coleoptiles. Physiologia Pl. 18. 403.
  • Overbeek J. van (1932). An analysis of phototropism in dicotyledons Proc. K. ned Akad Wet, 35, 2.
  • Overbeek J. van (1936) Growth hormone and mesocotyl growth. Red Trav. bot. Néeerl. 33, 333.
  • Overbeek J. van (1938a). Auxin distribution m seedlings and its bearing on the problem of bud inhibition. Bot. Gaz., 100, 133.
  • Overbeek, J. van (1938b). Auxin production in seedlings of dwarf maize. PL Physiol, Lancaster , 13, 587.
  • Overbeek, J. van (1959). Auxins. Bot. Rev., 25, 350.
  • Pilet, P. E. (1961). Les Phytohormones de Croissance. Masson, Paris .
  • Purves, W. K. & Hillman, W. S. (1989). Experimental separation of gibberellin and auxin actions in pea epicotyl sections. Physiologia Pl. 12, 786.
  • Rietsema, J. (1950). Action and penetration of growth substances. Ph.D. thesis, University of Utrecht.
  • Schneider, C. L. (1941). The effect of red light on growth of the Avena seedling, with special reference to the first internode. Am. J. Bot., 28, 886.
  • Scott, T. K. & Briggs, W. R. (1960). Auxin relationships in the ‘Alaska’ pea (Pisum sativum). Am. J. Bot., 47, 429.
  • Scott, T. K. & Briggs, W. R. (1963). Recovery of native and applied auxin from the dark-grown pea seedling. Am. J. Bot., 50, 652.
  • Skoog, F. (1937). A de-seeded Avena test method for small amounts of auxin and auxin precursors. J. gen. Physiol., 20, 311.
  • Stark, P. (1921). Studien über traumotrope und haptotrope Reizleitungsvorgänge mit besonderer Berücksichigung der Reizübertragung auf fremde Arten und Gattungen. Jb. wiss. Bot., 60, 67.
  • Thimann, K. V. (1964). Phototropism. In: Photochem. Photobiol, 3, 463.
  • Thimann, K. V. (1966). The movement of auxin in tropisms. Symposium on Plant Growth Regulators, Torun (Poland), p. 23.
  • Thimann, K. V. & Bonner, J. (1932). Studies of the growth hormone of plants. II. The entry of growth substance into the plant. Proc. natn. Acad. Sci. U.S.A., 18, 692.
  • Thomson, B. F. (1954). The effect of light on cell division and cell elongation in seedlings of oats and peas. Am. J. Bot., 41, 326.
  • Tucker, S. C. (1957). Ontogeny of the etiolated seedling mesocotyl ofZea mays. Bot. Gaz., 118, 160.
  • Wareing, P. F. (1958). Interaction between indole-acetic acid and gibberellic acid in cambial activity. Nature. Lond., 181, 1744.
  • Weintraub, R. L. & Mcalister, E. D. (1942). Developmental physiology of the grass seedling. I. Inhibition of the mesocotyl of Avena sativa by continuous exposure to light of low intensities. Smithson. misc. Collns, 101, No. 17.
  • Weintraub, R. L. & Price, L. (1947). Developmental physiology of the grass seedling. II. Inhibition of mesocotyl elongation in various grasses by red and violet light. Smithson. misc. Collns, 106, No. 21.
  • Went, F. W. (1928). Wuchsstoff und Wachstum. Reel Trav. bot. néerl., 25, 1.
  • Went, F. W. (1929). On a substance causing root formation. Proc. K. ned. Akad. Wet. 32, 35.
  • Went, F. W. (1935). Coleoptile growth as affected by auxin, ageing and food. Proc. K. ned. Akad. Wet., 38, 752.
  • Went, F. W. (1938). Specific factors other than auxin affecting growth and root formation. PL Physiol., Lancaster , 13, 55.
  • Went, F. W. (1942). Growth, auxin and tropisms in decapitated Avena coleoptiles. Pl. Physiol., Lancaster , 17, 236.
  • Went, F. W. (1956). Phototropism. In: Radiation Biology, Vol. 3 (Ed. by A. E.Hollaender), p. 463. McGraw-Hill.
  • Went, F. W. & Thimann, K. V. (1937). Phytohormones. Macmillan, New York .
  • Wright, S. T. C. (1956). Studies of fruit development in relation to plant hormones. III. Auxins in relation to fruit morphogenesis and fruit drop in the blackcurrant (Ribes nigrum). J. hort. Sci., 31, 196.