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  • Agrell D., Larsson C.-M., Larsson M., MacKown C.T., Rufty T.W.Jr( 1997) Initial kinetics of 15N-nitrate labelling of root and shoot N fractions of barley cultured at different relative addition rates of nitrate-N. Plant Physiology and Biochemistry 35, 923931.
  • Baas R., Van Der Werf A., Lambers H. (1989) Root respiration and growth in Plantago major as affected by vesicular–arbuscular mycorrhizal infection. Plant Physiology 91, 227232.
  • Bates T.E. (1971) Factors affecting critical nutrient concentrations in plants and their evaluation: a review. Soil Science 112, 116130.
  • Bieleski R.L. (1973) Phosphate pools, phosphate transport and phosphate availability. Annual Review of Plant Physiology 25, 225252.
  • Biere A. (1996) Intra-specific variation in relative growth rate: impact on competitive ability and performance of Lychnis flos-cuculi in habitats differing in soil fertility. Plant and Soil 182, 313327.
  • Björkman O. (1981) Responses to different quantum flux densities. In Physiological Plant Ecology I: Responses to the Physical Environment (eds O.L. Lange, P.S. Nobel, C.B. Osmond & H. Ziegler), pp. 57107. Springer-Verlag, Berlin.
  • Carvajal M., Cooke D.T., Clarkson D.T. (1996) Responses of wheat plants to nutrient deprivation may involve the regulation of water-channel function. Planta 199, 372381.
  • Corré W.J. (1983) Growth and morphogenesis of sun and shade plants: III. The combined effects of light intensity and nutrient supply. Acta Botanica Neerlandica 32, 277294.
  • De Groot C.C., Marcelis L.F.M., Van den Boogaard R., Lambers H. (2001) Regulation of growth by phosphorus supply in whole tomato plants. In Proceedings of XIV International Plant Nutrition Colloquium, 27 July−3 August 2001, Hannover, Germany (eds W.J. Horst, M.K. Schenl, A. Bükert et al.) pp. 114115. Kluwer Academic Publishers, Dordrecht, The Netherlands.
  • Ericsson T. & Ingestad T. (1988) Nutrition and growth of birch seedlings at varied relative phosphorus addition rates. Physiologica Plantarum 72, 227235.
  • Evans G.C. (1972) The Quantitative Analysis of Plant Growth. Blackwell Scientificn Publications, Oxford.
  • Fredeen A.L., Rao I.M., Terry N. (1989) Influence of phosphorus nutrition on growth and carbon partitioning in Glycine max. Plant Physiology 89, 225230.
  • Garnier E. (1991) Resource capture, biomass allocation and growth in herbaceous plants. Trends in Ecology and Evolution 6, 126131.
  • Gent M.P.N. (1986) Carbohydrate level and growth of tomato plants: II. The effect of irradiance and temperature. Plant Physiology 81, 10751079.
  • Haüsler R.E., Helge Schlieben N., Schulz B., Flügge U.-F. (1998) Compensation of decreased triose phosphate/phosphate translocator activity by accelerated starch turnover and glucose transport in transgenic tobacco. Planta 204, 366376.DOI: 10.1007/s004250050268
  • Heineke D., Kruse A., Flügge U.-I., Frommer W.B., Riesmeier J.W., Willmitzer L., Heldt H.W. (1994) Effect of antisense repression of the chloroplast triose–phosphate translocator on photosynthetic metabolism in transgenic potato plants. Planta 193, 174180.
  • Humphries E.C. (1956) Mineral components and ash analysis. In Modern Methods of Plant Analysis Vol. 1 (eds K. Paech & M.V. Tracey), pp. 468502. Springer-Verlag, Berlin.
  • Hunt R. (1978) Plant Growth Analysis. Edward Arnold, London.
  • Lambers H., Freijsen N., Poorter H., Hirose T., Van Der Werf A. (1990) Analysis of growth based on net assimilation rate and nitrogen productivity: their physiological background. In Causes and Consequences of Variation in Growth Rate and Productivity of Higher Plants (eds H. Lambers, M.L. Cambridge, H. Konings & T.l. Pons), pp. 118. SPB Academic Publishing, The Hague, The Netherlands.
  • Lauer M.J., Blevins D.G., Sierzputowska-Gracz H. (1988) 31P-Nuclear magnetic resonance determination of phosphate compartmentation in leaves of reproductive soybeans (Glycine max L.) as affected by phosphate nutrition. Plant Physiology 89, 13311336.
  • Meziane D. & Shipley B. (1999) Interacting determinants of specific leaf area in 22 herbaceous species: effects of irradiance and nutrient availability. Plant, Cell and Environment 22, 447459.DOI: 10.1046/j.1365-3040.1999.00423.x
  • Peace W.J.H. & Grubb P.J. (1982) Interaction of light and mineral nutrient supply in the growth of Impatiens parviflora. New Phytologist 90, 127150.
  • Plaut Z., Mayoral M.L., Reinhold L. (1987) Effect of altered sink : source ratio on photosynthetic metabolism of source leaves. Plant Physiology 85, 786790.
  • Poorter H. & Nagel O. (2000) The role of biomass allocation in the growth response of plants to different levels of light, CO2, nutrients and water: a quantitative review. Australian Journal of Plant Physiology 27, 595607.
  • Poorter H. & Van der Werf A. (1998) Is inherent variation in RGR determined by LAR at low irradiance and by NAR at high irradiance? A review of herbaceous species. In Inherent Variation in Plant Growth: Physiological Mechanisms and Ecological Consequences (edsH. Lambers, H. Poorter & M.M.I. Van Vuuren), pp. 309336. Backhuys Publishers, Leiden, The Netherlands.
  • Raaimakers D., Boot R.G.A., Dijkstra P., Pot S., Pons T. (1995) Photosynthetic rates in relation to leaf phosphorous content in pioneer vs climax tropical rain forest trees. Oecologia 120, 120125.
  • Radin J.W. & Boyer J.S. (1982) Control of leaf expansion by nitrogen nutrition in sunflower plants. Role of hydraulic conductivity and turgor. Plant Physiology 69, 771775.
  • Radin J.W. & Eidenbock M.P. (1984) Hydraulic conductance as a factor limiting leaf expansion of phosphorus-deficient cotton plants. Plant Physiology 75, 372377.
  • Rao I.M. & Terry N. (1989) Leaf phosphate status, photosynthesis and carbon partitioning in sugar beet. Plant Physiology 90, 814819.
  • Ratcliffe R.G. (1994) In vivo NMR studies of higher plants and algae. Advances in Botanical Research 20, 43123.
  • Rodríguez D., Keltjens W.G., Goudriaan J. (1998) Leaf area expansion and assimilate production in sunflower (Helianthus annuus L.) growing under low phosphorus conditions. Plant and Soil 202, 133147.DOI: 10.1023/a:1004348702697
  • Ryser P., Verduyn B., Lambers H. (1997) Phosphorus allocation and utilization in three grass species with contrasting response to N and P supply. New Phytologist 137, 293302.DOI: 10.1046/j.1469-8137.1997.00807.x
  • Schachtman D.P., Reid R.J., Ayling S.M. (1998) Phosphorus uptake by plants: from soil to cell. Plant Physiology 166, 447453.
  • Scheurwater I., Cornelissen C., Dictus F., Welschen R., Lambers H. (1998) Why do fast- and slow-growing grass species differ so little in their rate of respiration, considering the large differences in rate of growth and ion uptake? Plant, Cell and Environment 21, 9951005.DOI: 10.1046/j.1365-3040.1998.00341.x
  • Sims D.A., Seemann J.R., Luo Y. (1998) The significance of differences in the mechanisms of photosynthetic acclimation to light, nitrogen and CO2 for return on investment in leaves. Functional Ecology 12, 185194.DOI: 10.1046/j.1365-2435.1998.00194.x
  • Specht R.L. & Specht A. (1999) Australian Plant Communities: Dynamics of Structure, Growth and Biodiversity. Oxford University Press, Oxford.
  • Steiner A.A. (1984) The universal nutrient solution. In Proceedings of the Sixth International Congress on Soilless Culture, pp. 633649. International Society for Soilless Culture, Wageningen, The Netherlands.
  • Stitt M. (1991) Rising CO2 levels and their potential significance for carbon flow in photosynthetic cells. Plant, Cell and Environment 14, 741762.
  • Van Arendonk J.J.C.M., Niemann G.J., Boon J.J., Lambers H. (1997) Effects of nitrogen supply on the anatomy and chemical composition of leaves of four grass species belonging to the genus Poa, as determined by image-processing analysis and pyrolysis-mass spectrometry. Plant, Cell and Environment 20, 881897.
  • Van der Werf A. & Nagel O.W. (1996) Carbon allocation to shoots and roots in relation to nitrogen supply is mediated by cytokinins and sucrose: Opinion. Plant and Soil 185, 2132.