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REFERENCES

  • Armstrong W. (1970) Rhizosphere oxidation in rice and other species: a mathematical model based on the oxygen flux component. Physiologia Plantarum 23, 623 630.
  • Armstrong W. (1971) Radial oxygen loss from intact rice roots as affected by distance from the apex, respiration and waterlogging. Physiologia Plantarum 25, 192 197.
  • Armstrong W. (1979) Aeration in higher plants. Advances in Botanical Research 7, 225 332.
  • Armstrong W. (1994) Polarographic oxygen electrodes and their use in plant aeration studies. Proceedings of the Royal Society of Edinburgh 102B, 511 527.
  • Armstrong J. & Armstrong, W. (1988) Phragmites australis– A preliminary study of soil-oxidising sites and internal gas transport pathways. New Phytologist 108, 373 382.
  • Armstrong W. & Gaynard T.J. (1976) The critical oxygen pressures for respiration in intact plants. Physiologia Plantarum 37, 200 206.
  • Armstrong W., Healy M.T., Webb T. (1982) Oxygen diffusion in pea. I. Pore space resistance in the primary root. New Phytologist 91, 647 659.
  • Armstrong W., Healy M.T., Webb T. (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, 549 559.
  • Armstrong W. & Wright E.J. (1975) Radial oxygen loss from roots: the theoretical basis for the manipulation of flux data obtained by the cylindrical platinum electrode technique. Physiologia Plantarum 25, 21 26.
  • Colmer T.D., Gibberd M.R., Wiengweera A., Tinh T.K. (1998) The barrier to radial oxygen loss from roots of rice (Oryza sativa L.) is inducted by growth in stagnant solution. Journal of Experimental Botany 49, 1431 1436.
  • Gibberd M.R. & Cocks P.S. (1997) Effect of waterlogging and soil pH on the micro-distribution of naturalised annual legumes. Australian Journal of Agricultural Research 48, 223 229.
  • Jackson M.B., Fenning T.M., Drew M.C., Saker L.R. (1985) Stimulation of ethylene production and gas space (aerenchyma) formation in adventitious roots of Zea mays L. by small partial pressures of oxygen. Planta 165, 486 492.
  • James E.K., Minchin F.R., Sprent J.I. (1992) The physiology and nitrogen-fixing capability of aquatically and terrestrially grown Neptunia plena: the importance of nodule oxygen supply. Annals of Botany 69, 181 187.
  • Justin S.H.F.W. & Armstrong W. (1987) The anatomical characteristics of roots and plant response to soil flooding. New Phytologist 106, 465 495.
  • Laan P., Smolders A., Blom C.W.P.M., Armstrong W. (1989) The relative roles of internal aeration, radial oxygen losses, iron exclusion and nutrient balances in flood tolerance of Rumex species. Acta Botanica Neerlandica 38, 131 145.
  • Laan P., Tosserams M., Blom C.W.P.M., Veen B.W. (1990) Internal oxygen transport in Rumex species and its significance for respiration under ‘hypoxic’ conditions. Plant and Soil 122, 39 46.
  • Pugh R., Witty J.F., Mytton L.R., Minchin F.R. (1995) The effect of waterlogging on nitrogen fixation and nodule morphology in soil grown white clover (Trifolium repens L.). Journal of Experimental Botany 46, 285 290.
  • Raskin I. (1983) A method for measuring leaf, density, thickness and internal gas. Hortscience 18, 698 699.
  • Rogers M.E. & West D.W. (1993) The effects of root-zone salinity and hypoxia on shoot and root growth in Trifolium species. Annals of Botany 72, 503 509.
  • Shiferaw W., Shelton H.M., So H.B. (1992) Tolerance of some subtropical pasture legumes to waterlogging. Tropical Grasslands 26, 187 195.
  • Thomson C.J., Armstrong W., Waters I., Greenway H. (1990) Aerenchyma formation and associated oxygen movement in seminal and nodal roots of wheat. Plant, Cell and Environment 13, 395 403.
  • Thomson C.J., Colmer T.D., Watkin E.L.J., Greenway H. (1992) Tolerance of wheat (Triticum aestivum cvs. Gramenya and Kite) and Triticale (Triticosecale cv. Muir) to waterlogging. New Phytologist 120, 335 344.
  • Walker B.A., Pate J.S., Kuo J. (1983) Nitrogen fixation by nodulated roots of Viminaria juncea (Schrad. & Wendl.) Hoffmans. (Fabaceae) when submerged in water. Australian Journal of Plant Physiology 10, 409 421.
  • Wiengweera A., Greenway H., Thomson C.J. (1997) The use of agar nutrient solution to simulate lack of convection in waterlogged soils. Annals of Botany 80, 115 123.
  • Zook D.M., Erwin D.C., Stolzy L.H. (1986) Anatomical, morphological, and physiological responses of alfalfa to flooding. Plant and Soil 96, 293 296.