SEARCH

SEARCH BY CITATION

References

  • Balandreau, J. & Knowles, R. (1978). The rhizosphere. In: Interactions Between Non-pathogenic Soil Microorganisms and Plants. Developments in Agricultural and Managed-Forest Ecology, vol. 4 Ed. by (Y. K-Dommergues & S. V.Krupa), pp. 243268. Elsevier Scientific Publishing Company, Amsterdam .
  • Barber, D. A. (1978). Nutrient uptake. In: Interactions Between Non-pathogenic Soil Microorganisms and Plants. Developments in Agricultural and Managed-Forest Ecology, vol. 4 Ed. by (Y. R.Dommergues & S. V.Krupa), pp. 131162. Elsevier Scientific Publishing Company, Amsterdam .
  • Barber, D. A. & Gunn, K. B. (1974). The effect of mechanical forces on the exudation of organic substances by the roots of cereal plants grown under sterile conditions. New Phytologist, 73, 3945.
  • Barber, D. A. & Lynch, J. M. (1977). Microbial growth in the rhizosphere. Soil Biology and Biochemistry, 9, 305308.
  • Barber, D. A. & Martin, J. K. (1976). The release of organic substances by cereal roots into soil. New Phytologist, 76, 6980.
  • Beck, S. M. & Gilmour, C. M. (1983). Role of wheat root exudates in associative nitrogen fixation. Soil Biology and Biochemistry, 15, 3338.
  • Bennett, R. A. & Lynch, J. M. (1981a). Bacterial growth and development in the rhizosphere of gnotobiotic cereal plants. Journal of General Microbiology, 125, 95102.
  • Bennett, R. A. & Lynch, J. M. (1981b). Colonization potential of bacteria in the rhizosphere. Current Microbiology, 6, 137138.
  • Bowen, G. D. (1979). Integrated and experimental approaches to the study of growth of organisms around roots. In: Soil-borne Plant Pathogens Ed. (B.Schippers & W.Gams), pp. 207227. Academic Press, London .
  • Bowen, G. D. (1980). Misconceptions, concepts and approaches in rhizosphere biology In: Contemporary Microbial Ecology Ed. by (D. C.Ellwood, J. N.Hedger, M. J.Latham, J. M.Lynch & J. N.Slater), pp. 283304. Academic Press, London .
  • Bowen, G. D. (1981). The root-microorganism ecosystem. In: Biological and Chemical Interactions in the Rhizosphere. Proceedings of a Symposium of the Swedish Natural Science Research Council, 1981, pp. 342. Sundt Offset, Stockholm .
  • Bowen, G. D. & Foster, R. C. (1978). In: Proceedings of a Symposium on Soil Microbiology and Plant Nutrition (SOMIPLAN) Ed. by (W. J.Broughton & C. K.John), pp. 231256. University of Malaysia Press, Malaysia .
  • Bowen, G. D. & Theodorou, C. (1973). Growth of ectomycorrhizal fungi around seeds and roots. In Ectomycorrhizae: Their Ecology and Physiology Ed. by (G. C.Marks & T. T.Kozolowski), pp. 107150. Academic Press, London .
  • Buckman, H. O. & Brady, N. C. (1960). The nature and properties of soils. 6th Edn. MacMillan, New York .
  • Chapman, S. J. & Gray, T. R. G. (1981). Endogenous metabolism and macromolecular composition of Arthrobacter globiformis. Soil Biology and Biochemistry, 13, 1118.
  • Filinow, A. B. & Lockwood, J. L. (1979). Conidial exudation by Cochliobolus victorie on soils in relation to soil mycostasis In: Soil-borne Plant Pathogens Ed. by (B.Schippers & W.Gam), pp. 107119. Academic Press, London .
  • Hale, M. G., Moore, L. D. & Griffin, G. J. (1978). Root exudates and exudation. In: Interactions Between Non-pathogenic Soil Microorganisms and Plants. Developments in Agricultural and Managed-Forest Ecology, vol. 4 Ed. by (Y. R.Dommergues & S. V.Krupa), pp. 163203. Elsevier Scientific Publishing Company, Amsterdam .
  • Johnen, B. G. & Sauerreck, D. R. (1977). A tracer technique for measuring growth, mass and microbial breakdown of plant roots during vegetation. In: Soil Organisms as Components of Ecosystems. Proceedings of VI International Soil and Zoological Colloquium. Ecological Bulletin (Stockholm), vol. 25 Ed. by (V.Lohm & T.Persson), pp. 366373.
  • Kucey, R. M. N. & Paul, E. A. (1982). Carbon flow, photosynthesis, and N2 fixation in mycorrhizal and nodulated faba beans (Viciafaba L.). Soil biology and biochemistry, 14, 407412.
  • Lee, K. J. & Gaskins, M. H. (1982). Increased root exudation of 14C-compounds by sorghum seedlings inoculated with nitrogen-fixing bacteria. Plant and Soil, 69, 391399.
  • Luscombe, B. M. & Gray, T. R. G. (1974). Characteristics of Arthrobacter grown in continuous culture. Journal of General Microbiology, 82, 213222.
  • Lynch, J. M. (1982). The rhizosphere In: Experimental Microbial Ecology Ed. by (R. G.Burns & J. H.Slater), pp. 345411. Blackwell Scientific Publications, Oxford .
  • Lynch, J. M. (1983). Interactions between bacteria and plants in the root environment In: Bacteria and Plants Ed. by (M. E.Rhodes-Robert & F. A.Skinner), pp. 123. Academic Press, London .
  • McDougall, B. M. (1970). Movement of 14C-photosynthate into roots of wheat seedlings and exudation of 14C from intact roots. New Phytologist, 69, 3746.
  • McDoucau, B. M. & Rovira, A. D. (1970). Sites of exudation of 14C-labelled compounds from wheat roots. New Phytologist, 69, 9991003.
  • Martin, J. K. (1971). 14C-labelled material leached from the rhizosphere of plants supplied with 14CO2. Australian Journal of Biological Science, 24, 11311142.
  • Martin, J. K. (1975). 14C-labelled material leached from the rhizosphere of plants supplied continuously with 14CO2. Soil Biology and Biochemistry, 7, 395399.
  • Martin, J. K. (1977a). Factors influencing the loss of organic carbon from wheat roots. Soil Biology and Biochemistry, 9, 17.
  • Martin, J. K. (1977b). Effects of soil moisture on the release of organic carbon from wheat roots. Soil Biology and Biochemistry, 9, 303304.
  • Martin, J. K. (1977c). The chemical nature of the carbon-14-labelled organic matter released into soil from growing wheat roots. In: Soil Organic Matter Studies, vol. 1 pp. 197203. International Atomic Energy Agency, Vienna .
  • Martin, J. K. & Kemp, J. R. (1980). Carbon loss from roots of wheat cultivars. Soil Biology and Biochemistry, 12, 551554.
  • Meynell, G. G. & Meynell, E. (1965). Theory and Practice in Experimental Bacteriology. Cambridge University Press, Cambridge .
  • Minchin, F. R., Summerfield, R. J., Hadley, P., Roberts, E. H. & Rawsthorne, S. (1981). Carbon and nitrogen nutrition of nodulated roots of grain legumes. Plant, Cell and Environment, 4, 526.
  • Newman, E. I. & Bowen, H. J. (1974). Patterns of distribution of bacteria on root surfaces. Sail Biology and Biochemistry, 6, 205209.
  • Newman, E. I. & Watson, A. (1977). Microbial abundance in the rhizosphere. A computer model. Plant and Soil, 48, 1756.
  • Pang, P. C. & Paul, E. A. (1980). Effects of vesicular-arbuscular mycorrhizae on 14C and 15N distribution in nodulated faba beans. Canadian Journal of Soil Science, 60, 241250.
  • Paul, E. A. & Voroney, R. P. (1980). Nutrient and energy flows through soil microbial biomass In: Contemporary Microbial Ecology Ed. by (D. C.Ellwood, J. N.Hedger, M. J.Latham, J. M.Lynch & J. H.Slater), pp. 215237. Academic Press, London .
  • Reid, C. P. P. & Mexal, J. G. (1977). Water stress effects on root exudation by lodgepole pine. Soil Biology and Biochemistry, 9, 417422.
  • Recalcati, L. M., Basso, B., Albergoni, F. G. & Radice, M. (1982). On the determination of 14C-labelled photosynthesis products by liquid scintillation counting. Plant Science Letters, 27, 2127.
  • Rovira, A. D. (1969). Plant root exudates. Botanical Review, 35, 3557.
  • Rovira, A. D. (1973). Zones of exudation along plant roots and spatial distribution of micro-organisms in the rhizosphere. Pesticide science, 4, 361366.
  • Rovira, A. D., Newman, E. I., Bowen, H. J. & Campbell, R. (1974). Quantitative assessment of the rhizoplane microflora by direct microscopy. Soil Biology and Biochemistry, 6, 211216.
  • Rovira, A. D. & Vendrell, M. (1972). Ethylene in sterilized soil: its significance in studies of interactions between micro-organisms and plants. Soil Biology and Biochemistry, 4, 6369.
  • Sauerbeck, D. & Johnen, B. G. (1971). Ein vollstandiges Klein-Phytotron zur Herstellung 14C markierter Pflanzen. In: Proceedings of the 8th International Symposium of Nuclear energy and Agriculture, pp. 217228. Agrochemica, Pisa .
  • Sauerbeck, D. & Johnen, B. G. (1977). Root formation and decomposition during plant growth. In: Proceedings of the International Symposium on Soil Organic Matter Studies, vol. 1, pp. 141148. International Atomic energy Authority, Vienna .
  • Sauerbeck, D., Johnen, B. G. & Six, R. (1976). Atmung, Abbau und Ausscheidungen von Weizenwurzeln im Laufe ihrer entwicklung. Landwirtschaftliche Forschung Sonderheft 32, 4958.
  • Schippers, B. & van Vuurde, J. W. L. (1978). Studies of microbial colonization of wheat roots and the manipulation of the rhizosphere flora In: Microbial Ecology Ed. by (M. W.Loutit & J. A. R.Miles), pp. 295298. Springer-Verlag, Berlin .
  • Shamoot, S., McDonald, J. & Bartholomew, W. V. (1968). Rhizo-deposition of organic debris in soil. Soil Science Society of America Proceedings, 32, 817820.
  • Shone, M. G. T. & Flood, A. V. (1983). Effects of periods of localized water stress on subsequent nutrient uptake by barley roots and their adaptation by osmotic adjustment. New Phytologist, 94, 561572.
  • Singh, J. S. & Colkman, D. C. (1974). Distribution of photo-assimilated 14carbon in the root system of a shortgrass prairie. Journal of Ecology, 62, 359365.
  • Snellgrove, R. C. Splittstoesser, W. E., Stribley, D. P. & Tinker, P. B. (1982). The distribution of carbon and the demand of the fungal symbiont in leek plants with vesicular-arbuscular mycorrhizas. New Phytologist, 92, 7587.
  • Sprent, J. I. & Gallagher, A. (1976). Anaerobiosis in soybean root nodules under water stress. Soil Biology and Biochemistry, 8, 317320.
  • Subba-Rao, M. S., Bidwell, R. G. S. & Bailey, D. L. (1962). Studies of rhizosphere activity by the use of isotopically labelled carbon. Canadian Journal of Botany, 40, 203212.
  • van Veen, J. A. & Paul, E. A. (1979). Conversion of biovolume measurements of soil organisms, grown under various moisture tensions, to biomass and their nutrient content. Applied and Environmental Microbiology, 37, 686692.
  • van Vuurde, J. W. L., Kruvswyk, C. J. & Schippers, B. (1979). Bacterial colonization of wheat roots in a root-soil model system In: Soil-borne Pathogens Ed. by (B.Schippers & W.Gams), pp. 229234. Academic Press, London .
  • van Vuubre, J. W. L. & Schippers, B. (1980). Bacterial colonization of seminal wheat roots. Soil Biology and Biochemistry, 12, 559565.
  • Wabembourg, F. R. (1977). Les flux de carbons dans la végetation, la rhizosphère et le sol de formations herbacées marquees avec du C14 These, Doctor D'etat. Academic de Montpellier Universite des Science et techniques due Languedoc.
  • Wakembourg, F. R. & Billes, G. (1979). Estimating carbon transfers in the plant rhizosphere In: The Soil-Root Interface Ed. by (J. L.Harley & R. S.Russell), pp. 183196. Academic Press, London .
  • Warembourg, F. R., Montange, D. & Bardin, R. (1982). The simultaneous use of 14CO2 and 15N2 labeling techniques to study the carbon and nitrogen economy of legumes grown under natural conditions. Physiologia Plantarum, 56, 4655.
  • Waremhourg, F. R. & Paul, E. A. (1977). Sesonal transfers of assimilated 14C in grassland: plant production and turnover, soil and plant respiration. Soil Biology and Biochemistry, 9, 295301.
  • Wiedenroth, E. & Poskuta, J. (1981). The influence of oxygen deficiency in roots on CO2 exchange rates of shoots and distribution of 14C-photoassimilates of wheat seedlings. Zeitschrift für Pflanzenphysiologie flanzenphysiologie, 103, 459467.
  • Woldendorp, J. W. (1981). Nutrients in the rhizosphere. In: 16th Colloquium of the International Potash Institute. Agricultural Yield Potentials in Continental Climates, pp. 89115. International Potash Institute, Warsaw .