SEARCH

SEARCH BY CITATION

References

  • Aitchison, P. A. & Butt, V. S. (1973) The relation between the synthesis of inorganic polyphosphate and phosphate uptake by Chlorella vulgaris. Journal of Experimental Botany, 24, 497510.
  • Allen, S. E., Grimshaw, H. M., Parkinson, J. A. & Quarmby, C. (1974) Chemical Analysis of Ecological Materials. Blackwell Scientific Publications, Oxford .
  • Annecke, D. P. & Neser, S. (1977) On the biological control of some Cape pest plants. In: Proceedings of the Second National Weeds Conference of South Africa. A. A. Balkema, Cape Town .
  • Ashford, A. E., Ling Lee, M. & Chilvers, G. A. (1975) Polyphosphate in eucalypt mycorrhizas; a cytochemical demonstration. New Phytologist, 74, 447453.
  • Bieleski, R. L. (1973) Phosphate pools, phosphate transport and phosphate availability. Annual Review of Plant Physiology, 24, 225252.
  • Bowen, G. E. (1981) Coping with low nutrients. In: Biology of Australian Plants (Ed. by J. S.Pate & A. J.McComb), pp. 3364. University of Western Australia Press, Perth .
  • Bray, R. H. & Kurtz, L. T. (1945) Determination of total, organic and available phosphorus in soils. Soil Science, 59, 3945.
  • Cosgrove, D. J. (1980) Inositol phosphates: their Chemistry, Biochemistry, and Physiology. Vol. 4. Studies in Organic Chemistry, pp. 191. Elsevier Scientific Publishing Company, Amsterdam .
  • Ergle, D. R. & Guinn, G. (1959) Phosphorus compounds of cotton embryos and their changes during germination. Plant Physiology, 34, 476481.
  • Fugler, S. R. (1982) Infestations of three Australian. Hakea species in South Africa and their control. South African Forestry Journal, 120, 6368.
  • Greaves, M. P., Anderson, G. & Webley, D. M. (1967) The hydrolysis of inositol phosphares in Aerobacter Aerogenes. Biochemica et Biophysica Acta, 132, 412418.
  • Harley, J. L. & McCready, C. C. (1981) Phosphate accumulation in Fagus mycorrhizas. New Phytologist, 89, 7580.
  • Harrison, A. F. (1979) Variation of four phosphorus properties in woodland soils. Soil Biology and Biochemistry, 11, 393403.
  • Hesse, D. R. (1971) A Textbook of Soil Chemical Analysis. John Murray, London .
  • Jackson, M. L. (1958) Soil Chemical Analysis. Prentice Hall, New Jersey .
  • Johnson, L. A. S. & Briggs B. G. (1975) On the Proteaceae - the evolution and classification of a southern family. Botany Journal of the Linnean Society, 70, 83182.
  • Kruger, F. J. (1979) South African heathlands. In: Heathlands and Related Shrublands of the World. A Descriptive Studies (Ed. by R. L.Specht), pp. 1980. Elsevier Scientific Publishing Company, Amsterdam .
  • Kruger, F. J., Mitchell, D. T. & Jarvis, J. U. M. (1983) Mediterranean–type Ecosystems: the Role of Nutrients. Vol. 43. Ecological Studies. Springer-Verlag, Berlin .
  • Kuo, J., Hocking, P. J. & Pate, J. S. (1982) Nutrient reserves in seeds of selected proteaceous species from south-western Australia. Australia Journal Botany, 30, 231249.
  • Lamont, B. B. (1972) The effect of soil nutrients on the production of Proteoid roots by. Hakea sprcies. Australian Journal of Botany, 20, 2740.
  • Lamont, B. 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. B. (1983) Proteoid roots in the South African Proteaceae. Journal of South African Botany, 49, 103123.
  • Lamont, B. B. & McComb, A. J. (1974) Soil microorganisms and the formation of Proteoid roots. Australian Journal of Botany, 22, 681688.
  • Levyns, M. R. (1966) A Guide to the Flora of the Cape Pennisula. Jura & Co., Cape Town .
  • Lott, J. N. A. & Buttrose, M. S. (1978) Location of reserves of mineral elements in seed protein bodies macadamia nut, walnut and hazel nut. Canadian Journal of Botany, 56, 20722082.
  • Malajczuk, N. & Bowen, G. D. (1974) Proteoid roots are microbially induced. Nature (London), 251, 316317.
  • Mitchell, D. T., Brown, G. & Jongens–Roberts, S. M. (1984) Variation of forms of phosphorus in the sandy soils of coastal fynbos, south–western Cape. Journal of Ecology, 72 (In press).
  • Mukherji, D. T., Brown, G. & Jongens S., Dev, B., Paul, A. K. & Sircar, S. M. (1971) Changes in phosphorus fractions and phytase activity of rice seeds during germination. Physiologia Plantarum, 25, 9497.
  • Murphy, J. & Riley J. P. (1962) A modified single solution method for the determination of phosphate in natural waters. Analytico Chimica Acta, 27, 3136.
  • Sartirana, M. L. & Bianchetti, R. (1967) The effects of phosphate on the development of phytase in the wheat embryo. Physiologia Plantarum, 20, 10661075.
  • Schofield, R. K. & Taylor, A. (1955) The measurement of soil pH. Soil Science Society of America Proceedings, 19, 164167.
  • Schmidt, G. & Thannhauser, S. J. (1945) A method for the determination of desoxyribonucleic acid, ribonucleic acid phosphoptoteins in animal tissues. The Journal of Biological Chemistry, 162, 8389.
  • Sibbesen, E. (1977) A simple exchange resin procedure for extracting plant available elements from soil. Plant and Soil, 46, 665669.
  • Van Staden, J. & Brown, N. A. C. (1977) Studies on the germination of South African Proteaceae - a review. Seed Science and Technology, 5, 633643.
  • Van Staden, J. & Comins, N. R. (1976) Energy dispersive X–ray analysis of protein bodies in. Protea compacta cotyledons, 130, 219221.
  • Van Staden, J., Gilliland, M. G. & Brown, N. A. C. (1975) Ultrastructure of dry viable and non-viable Protea compacta embryos. Zeitschrift für Pflonzenphysiologie, 76, 2835.