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REFERENCES

  • Abrol, B. K. & Audus, L. J. (1973a). The lateral transport of 2,4-dichlorophenoxyacetic acid in horizontal hypocotyl segments of Helianthus annuus. J. exp. Bot., 24, 1209.
  • Abrol, B.K. & Audus, L.J. (1973b). The effects of AT-i-naphthyl-phthalamic acid and (2-chloroethyl)- phosphonic acid on the gravity induced lateral transport of 2,4-dichlorophenoxyacetic acid. J. exp. Bot., 24, 1224.
  • Audus, L. J. (1969). Geotropism. In: The Physiology of Plant Growth and Development (ed. by M. B. Wilkins), p. 203. McGraw-Hill, London .
  • Bendixen, L. E. & Peterson, M. L. (1962). Physiological nature of gene-controlled growth form in Trifolium fragifemm L. Auxin-gibberellin relationships to growth form. Plant Physiol., 37, 345.
  • Blondon, F. & Harada, H. (1966). Effects of the growth retardant CCC on floral initiation and growth. Plant Cell Physiol., 7, 697.
  • Bowen, M. R., Wilkins, M. B., Cane, A. R. & McCorquodale, I. (1972). Auxin transport in roots. VIII. The distribution of radioactivity in the tissues of Zea root segments. Planta, 105, 273.
  • Brauner, L. & Diemer, R. (1971). The influence of geotropic induction on the content and the distribution of auxin in the hypocotyls of Helianthus and on their sensitivity to the growth substance. Planta, 97, 337.
  • Bridges, I. G., Hillman, J. R. & Wilkins, M. B. (1973). Identification and localization of auxin in primary roots of Zea mays by mass spectrometry. Planta, 115, 189.
  • Bruinsma, J., Karssen, C. M., Benschop, M. & Van Dort, J. B. (1975). Hormonal regulation of photo-tropism in the light-grown sunflower seedling, Helianthus annuus L.: immobility of endogenous indole-acetic acid and inhibition of hypocotyl growth by illuminated cotyledons. J. exp. Bot., (in press).
  • El-Antably, H. M. M. & Larsen, P. (1974). Redistribution of endogenous gibberellins in geotropically stimulated roots. Nature, Lond., 250, 76.
  • Fuente, R. K., De, La & Leopold, A. C. (1968). Lateral movement of auxin in phototropism. Plant Physiol., 43, 1031.
  • Goldsmith, M. H. M. & Wilkins, M. B. (1964). Movement of auxin in coleoptiles of Zea mays during geotropic stimulation. Plant Physiol., 39, 151.
  • Greenwood, M. S., Hillman, J. R. & Wilkins, M. B. (1973). Localization and identification of auxin in roots of Zea mays. Planta, 109, 369.
  • Halevy, A. H., Ashiri, A. & Ben-Tal, Y. (1969). Peanuts: gibberellin antagonists and genetically controlled differences in growth habit. Science, N.Y., 164, 1397.
  • Hartung, W. & Phillips, I. D. J. (1974). Basipetally polarised transport of [3H] Gibberellin A1 and [14C] Gibberellin A3, and acropetal polarity of [14C] Indole-3-acetic acid transport in stelar tissues of Pliaseolus coccineus roots. Planta, 1l8, 311.
  • Hertel, R., Fuente, R. K. de LA & Leopold, A. C. (1969). Geotropism and the lateral transport of auxin in the corn mutant amylomaize. Planta, 88, 204.
  • Hertel, R. & Leopold, A. C. (1963). Versuche zur Analyse des Auxintransports in der Koleoptile von Zea mays. Planta, 59, 535.
  • Melstrom, C. E., Maravolo, N. C. & Stroemer, J. R. (1974). Endogenous gibberellins in Marchantia polymorpha and their possible physiological role in thallus elongation and orthogeotropic growth. Bryologist, 77, 33.
  • Phillips, I. D. J. (1972). Endogenous gibberellin transport and biosynthesis in relation to geotropic induction of excised sunflower shoot-tips. Planta, 105, 234.
  • Phillips, I. D. J. & Hartung, W. (1974). Basipetal and acropetal transport of [3,4-3H]gibberellin A1 in short and long segments of Phaseolus coccineus second internode. Planta, 116, 109.
  • Railton, I. D. & Phillips, I. D. J. (1973). Gibberellins and geotropism in Zea mays coleoptiles. Planta, 109, 121.
  • Roberts, L. W. (1960). Experiments on xylem regeneration in stem wound responses in Coleus. Bot. Gaz., 121, 201.
  • Shaw, S., Gardner, G. & Wilkins, M. B. (1973). The lateral transport of IAA in intact coleoptiles of Avena saliva L. and Zea mays L. after geotropic stimulation. Planta, 115, 97.
  • Wangermann, E. (1974). The pathway of transport of applied indolyl-acetic acid through internode segments. New Phytol, 73, 623.
  • Webster, J. H. & Wilkins, M. B. (1974). Lateral movement of radio-activity from [14C]gibberellic acid (GA3) in roots and coleoptiles of Zea mays L. seedlings during geotropic stimulation. Planta, 121, 303.
  • Wilkins, M. B. & Nash, L. J. (1974). Movement of radioactivity from [3H] GA3 in geotropically stimulated coleoptiles of Zea mays. Planta, 115, 245.