• Gardner, W. K., Barber, D. A. & Parbery, D. G. (1982). Effect of microorganism on the formation and activity of proteoid roots of Lupinus albus L. Australian Journal of Botany, 30, 303309.
  • Gardner, W. K., Parbeby, D. G. & Barber, D. A. (1982). The acquisition of phosphorus by Lupinus albus L. I. Some characteristics of the soil/root interface. Plant and Soil, 68, 1932.
  • Jackson, M. L. (1958). Soil Chemical Analysis. Prentice Hall, Englewood Cliffs , New Jersey .
  • Jeffrey, D. W. (1967). Phosphate nutrition of Australian heath plants. 1. The importance of proteoid roots in Banksia (Proreaceae). Australian Journal of Botany, 15, 403411.
  • Lamont, B. (1972a). The morphology and anatomy of proteoid roots in the genus Hakea. Australian Journal of Botany, 20, 155174.
  • Lamont, B. (1972b). The effect of soil nutrients in the production of proteoid roots by Hakea species. Australian Journal of Botany, 20, 2740.
  • Lamont, B. (1973). Factors affecting the distribution of proteoid roots within the root systems of two Hakea species. Australian Journal of Botany, 21, 165187.
  • Lamont, B. (1976). The effects of seasonality and waterlogging on the root systems of a number of Hakea species. Australian Journal of Botany, 24, 691702.
  • Lamont, B. (1981a). Specialized roots of non-symbiotic origin. In: Heathlands and Related Shrublands. B. Analytical Studies (Ed. by R. L.Specht), pp. 183195, Elsevier, Amsterdam .
  • Lamont, B. (1981b). Availability of water and inorganic nutrients in the persistent leaf bases of the grasstree Kingia australis, and uptake and translocation of labelled phosphate by the embedded aerial roots. Physiologia Plantarum, 52, 181186.
  • Lamont, B. (1982). Mechanisms for enhancing uptake m plants, with particular reference to Mediterranean South Africa and Western Australia. Botanical Review, 48, 597689.
  • Lamont, B. (1983a). Proteoid roots in the South African Proteaceae. Journal of South African Botany, 49, 103123.
  • Lamont, B. (1983b). Root hair dimensions and surface/volume/weight ratios of roots with aid of scanning electron microscopy. Plant and Soil, 74, 149152.
  • Lamont, B. (1984). Specialised modes of nutrition. In: Plant Life of the Sandplain (Ed. by J. S.Pate & J. S.Beard), University of W. A. Press, Perth .
  • Lamont, B. B. & McComb, A.J. (1974). Soil microorganisms and the formation of proteoid roots. Australian Journal of Botany, 22, 681688.
  • MacVicar, C. N., De Villirs, J. M., Loxton, R. F., Verster, E., Lambrechts, J. J. N., Merryweather, F. R., Le Roux, J., Van Rooyen, T. H. & Von Mharmse, H. J. (1977). Soil classification. A binomial system for South Africa. Department of Agricultural Technical Services, Pretoria .
  • Malajczuk, N. & Bowen, G. D. (1974). Proteoid roots are microbially induced. Nature, 251, 316327.
  • Murphy, J. & Riley, J. B. (1962). A modified single solution method for the determination of phosphate in natural waters. Analytical Chemistry, 27, 3136.
  • Sibbesen, E. (1977). A simple exchange resin procedure for extracting plant available elements from soil. Plant and Soil, 46, 665669.
  • Skeffington, R. A. & Stewart, W. D. (1976). Evidence from inhibitor studies that the endophyte synthesises nitrogenase in the root nodules of Alnus glutinosa L. Gaertn. Planta, 129, 16.
  • Williams, I. J. (1972). A revision of the genus Leucadendron (Proteaceae). Contributions from the Bolus Herbarium 3, 1425.