SEARCH

SEARCH BY CITATION

References

  • Armstrong, W. (1969). Rhizosphere oxidation in rice: an analysis of intervarietal differences in oxygen flux from the roots. Physiologia Plantarum, 22, 296303.
  • Armstrong, W. (1971). Radial oxygen losses from intact rice roots as affected by distance from the apex, respiration and waterlogging. Physiologia Plantarum, 25, 192197.
  • Armstrong, W. (1979). Aeration in higher plants. In: Advances in Botanical Research, vol. 7 (Ed. by H. W.Woolhouse), pp. 225332. Academic Press. London .
  • Armstrong, W., Healy, M. T., & Webb, T. (1982). Oxygen diffusion in pea. I. Pore space resistance in the primary root. New Phytologist, 91, 647659.
  • Armstrong, W., Healy, M. T., & Lythe, S. (1983). Oxygen diffusion in pea. II. Oxygen concentrations in the primary pea root apex as affected by growth, the production of laterals and radial oxygen loss. New Phytologist, 94, 549559.
  • Beckel, D. K. B. (1956). Cortical disintegration in roots of Bouteloua gracilis (H.B.K.) Lag. New Phytologist, 55, 183190.
  • Clapham, A. R., Tutin, T. G., & Warburg, E. F. (1962). Flora of the British Isles. Cambridge University Press. Cambridge , pp. 1269.
  • Coffey, M. D., Palevitz, B. A., & Allen, P. J. (1972). The fine structure of two rust fungi. Puccinia helianthi, & Melampsora lini. Canadian Journal of Botany, 50, 231240.
  • DAS, D. K., & JAT, R. L. (1977). Influence of three soil-water regimes on root porosity and growth of four rice varieties. Agronomy Journal, 69, 197200.
  • Drew, M. C, Jackson, M. B., & Giffard, S. C. (1979). Ethylene-promoted rooting and development of cortical air-spaces (aerenchyma) in roots may be adaptive responses to flooding in Zea mays L. Planta, 147, 8388.
  • Drew, M. C, Jackson, M. B., Giffard, S. C., & Campbell, R. (1981). Inhibition by silver ions of gas space (aerenchyma) formation in adventitious roots of Zea mays L. subjected to exogenous ethylene or to oxygen deficiency. Planta, 153, 217224.
  • Drew, M. C, Saglio, P. H., & Pradet, A. (1985). Larger adenylate charge and ATP/ADP ratios in aerenchymatous roots of Zea mays in anaerobic media as a consequence of improved internal oxygen transport. Planta, 165, 5158.
  • Fitter, A. (1978). An Atlas of the Wild Flowers of Britain and Northern Europe. Collins, London , pp. 272.
  • Jackson, M. B., Fenning, T. M., Drew, M. C., & Saker, L. R. (1985a). Stimulation of ethylene production and gas space (aerenchyma) formation in adventitious roots of Zea mays L. by small partial pressures of oxygen. Planta, 165, 486492.
  • Jackson, M. B., Fenning, T. M., & Jenkins, W. (1985b). Aerenchyma (gas-space) formation in adventitious roots of rice (Oryza sativa) L. is not controlled by ethylene or small partial pressure of oxygen. Journal of Experimental Botany, 36, 15661572.
  • Jensen, C. R., Luxmoore, R. J., Van Gundy, S. D., & Stolzy, L. H. (1969). Root air space measurements by a pycnometer method. Agronomy Journal, 61, 474475.
  • Kawase, M. (1981). Anatomical and morphological adaptation of plants to waterlogging. Horticulture Science, 16, 3034.
  • Könings, H. (1982). Ethylene-promoted formation of aerenchyma in seedling roots of Zea mays L. under aerated and non-aerated conditions. Physiologia Plantarum, 54, 119124.
  • Könings, H., & Verschuren, G. (1980). Formation of aerenchyma in roots of Zea mays L. in aerated solutions and its relation to nutrient supply. Physiologia Plantarum, 49, 265270.
  • Luxmoore, R. J., Stolzy, L. H., & Letey, J. (1970). Oxygen diffusion in the soil-plant system. Agronomy Journal, 62, 317322.
  • Smirnoff, N., & Crawford, R. M. M. (1983). Variation in the structure and response to flooding of root aerenchyma in some wetland plants. Annals of Botany, 51, 237249.
  • Smith, J. E. (SIR) (1824 –1828). The English Flora, vols I-IV. Longman, Hurst, Rees, Orme, Brown & Green .
  • Tetley, U. (1925). The secretory system of the roots of the Compositae. New Phytologist, 24, 138162.
  • Webb, T., & Armstrong, W. (1983). The effects of anoxia and carbohydrates on the growth and viability of rice, pea and pumpkin roots. Journal of Experimental Botany, 34, 579603.
  • Yamasaki, T. (1952). Studies on the ‘excess moisture injury’ of upland crops in overmoist soil from the viewpoint of soil chemistry and plant physiology (Japanese with English summary). Bulletin of the National Institute for Agricultural Science (Japan), B, 1, 192.
  • Yu, P. T., Stolzy, L. H., & Letey, J. (1969). Survival of plants under prolonged flooding. Agronomy Journal, 61, 844847.