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References

  • Antunez, I., Retamosa, E.C. & Villar, R. (2001) Relative growth rate in phylogenetically related deciduous and evergreen woody species. Oecologia 128, 172180.
  • Atkin, O.K., Botman, B. & Lambers, H. (1996) The relationship between the relative growth rate and nitrogen economy of alpine and lowland Poa species. Plant, Cell & Environment 19, 13241330.
  • Atkin, O.K., Schortemeyer, M., McFarlane, N. & Evans, J.R. (1998) Variation in the components of relative growth rate in ten Acacia species from contrasting environments. Plant, Cell & Environment 21, 10071017.
  • Bryk, A.S. & Raudenbush, S.W. (1992) Hierarchical Linear Models: Applications and Data Analysis Methods. Sage Publications, Newbury Park, CA, USA.
  • Campbell, D.R. & Rochefort, L. (2003) Germination and seedling growth of bog plants in relation to the recolonization of milled peatlands. Plant Ecology I169, 7184.
  • Candel, M.J.J.M. (2004) Performance of empirical Bayes estimators of random coefficients in multilevel analysis: some results for the random intercept-only model. Statistica Neelandica 58, 197219.
  • Cornelissen, J.H.C., Castro-Diez, P. & Hunt, R. (1996) Seedling growth, allocation and leaf attributes in a wide range of woody plant species and types. Journal of Ecology 84, 755765.
  • Cornelissen, J.H.C., Castro-Diez, P. & Carnelli, A.L. (1998) Variation in relative growth rate among woody species. Inherent Variation in Plant Growth. Physiological Mechanisms and Ecological Consequences (eds H.Lambers, H.Poorter and M.M.I.Van Vuuren), pp. 363392. Backhuys, Leiden, the Netherlands.
  • Den Dubbelden, K.C. & Verburg, R.W. (1996) Inherent allocation patterns and potential growth rates of herbaceous climbing plants. Plant and Soil 184, 341347.
  • Fanelli, G. & De Lillis, M. (2004) Relative growth rate and hemerobiotic state in the assessment of disturbance gradients. Applied Vegetation Science 7, 133140.
  • Garnier, E. (1992) Growth analysis of congeneric annual and perennial grass species. Journal of Ecology 80, 665675.
  • Grime, J.P. (1979) Plant Strategies and Vegetation Processes. John Wiley and Sons, New York.
  • Grime, J.P. (2001) Plant Strategies, Vegetation Processes, and Ecosystem Properties, 2nd edn. John Wiley & Sons, New York.
  • Grotkopp, E., Rejmanek, M. & Rost, T.L. (2002) Toward a causal explanation of plant invasiveness: seedling growth and life-history strategies of 29 pine (Pinus) species. American Naturalist 159, 396419.
  • Grubb, P.J., Lee, W.G., Kollmann, J. & Wilson, J.B. (1996) Interaction of irradiance and soil nutrient supply on growth of seedlings of ten European tall-shrub species and Fagus sylvatica. Journal of Ecology 84, 827840.
  • Huante, P. & Rincon, E. (1998) Responses to light changes in tropical deciduous woody seedlings with contrasting growth rates. Oecologia 113, 5366.
  • Huante, P., Rincon, E. & Acosta, I. (1995) Nutrient availability and growth rate of 34 species from a tropical deciduous forest in Mexico. Functional Ecology 9, 849858.
  • Hunt, R. & Cornelissen, J.H.C. (1997) Components of relative growth rate and their interrelationships in 59 temperate plant species. New Phytologist 135, 395417.
  • Lambers, H., Chapin, F.S. & Pons, T.L. (1998) Plant Physiological Ecology. Springer, New York.
  • Loveys, B.R., Scheurwater, I., Pons, T.L., Fitter, A.H. & Atkin, O.K. (2002) Growth temperature influences the underlying components of relative growth rate: an investigation using inherently fast- and slow-growing plant species. Plant, Cell & Environment 25, 975987.
  • Maranon, T. & Grubb, P.J. (1993) Physiological basis and ecological significance of the seed size–relative growth rate relationship in Mediterranean annuals. Functional Ecology 7, 591599.
  • McKenna, M.F. & Shipley, B. (1999) Interacting determinants of interspecific relative growth: empirical patterns and a theoretical explanation. Ecoscience 6, 286296.
  • Meziane, D. & Shipley, B. (1999) Interacting components of interspecific relative growth rate: constancy and change under differing conditions of light and nutrient supply. Functional Ecology 13, 611622.
  • Myerscough, P.J. & Whitehead, F.H. (1967) Comparative biology of Tussilago farfara L., Chamaenerion angustifolium (L.) Scop., Epilobium montanum L. and Epilobium adenocaulon Hasskn. II. Growth and ecology. New Phytologist 66, 785823.
  • Osunkoya, O.O., Ash, J.E., Hopkins, M.S. & Graham, A.W. (1994) Influence of seed size and seedling ecological attributes on shade-tolerance of rain-forest tree species in Northern Queensland. Journal of Ecology 82, 149163.
  • Pinheiro, J.C. & Bates, D.M. (2000) Mixed-Effects Models in s and s-plus. Springer, New York.
  • Poorter, H. (1989) Interspecific variation in relative growth rate: on ecological causes and physiological consequences. 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. 4568. SPB Academic Publishing, The Hague.
  • Poorter, L. (1999) Growth responses of 15 rain-forest tree species to a light gradient: the relative importance of morphological and physiological traits. Functional Ecology 13, 396410.
  • Poorter, H. & Remkes, C. (1990) Leaf area ratio and net assimilation rate of 24 species differing in relative growth rate. Oecologia 83, 553559.
  • 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. Inherent Variation in Plant Growth. Physiological Mechanisms and Ecological Consequences (eds H.Lambers, H.Poorter and M.M.I.Van Vuuren), pp. 309336. Backhuys, Leiden, the Netherlands.
  • Reich, P.B., Walters, M.B. & Ellsworth, D.S. (1997) From tropics to tundra: global convergence in plant functioning. Proceedings of the National Academy of Sciences, USA 94, 1373013734.
  • Reich, P.B., Tjoelker, M.G., Walters, M.B., Vanderklein, D.W. & Buschena, C. (1998) Close association of RGR, leaf and root morphology, seed mass and shade tolerance in seedlings of nine boreal tree species grown in high and low light. Functional Ecology 12, 327338.
  • Reich, P.B., Buschena, C., Tjoelker et al. (2003) Variation in growth rate and ecophysiology among 34 grassland and savanna species under contrasting N supply: a test of functional group differences. New Phytologist 157, 617631.
  • Van Rijn, C. (2001) A physiological and genetic analysis of growth characteristics in Hordeum spontaneum. PhD thesis, Utrecht University, Utrecht, the Netherlands.
  • Roumet, C., Bel, M.P., Sonie, L., Jardon, F. & Roy, J. (1996) Growth responses of grasses to elevated CO2: a physiological plurispecific analysis. New Phytologist 133, 595603.
  • Ryser, P. & Wahl, S. (2001) Interspecific variation in RGR and the underlying traits among 24 grass species grown in full daylight. Plant Biology 3, 426436.
  • Saverimuttu, T. & Westoby, M. (1996) Components of variation in seedling potential relative growth rate: phylogenetically independent contrasts. Oecologia 105, 281285.
  • Shipley, B. (2002) Trade-offs between net assimilation rate and specific leaf area in determining relative growth rate: the relationship with daily irradiance. Functional Ecology 16, 682689.
  • SPLUS (1999) s-plus 2000 User's Guide. MathSoft, Seattle, WA, USA.
  • Taub, D.R. (2002) Analysis of interspecific variation in plant growth responses to nitrogen. Canadian Journal of Botany 80, 3441.
  • Tilman, D. (1988) Plant Strategies and the Dynamics and Structure of Plant Communities. Princeton University Press, Princeton, NJ, USA.
  • Tjoelker, M.G., Oleksyn, J. & Reich, P.B. (1998) Temperature and ontogeny mediate growth response to elevated CO2 in seedlings of five boreal tree species. New Phytologist 140, 197210.
  • Van Der Werf, A., Geerts, R.H.E.M., Jacobs, F.H.H., Korevaar, H., Oomes, M.J.M. & De Visser, W. (1998) The importance of relative growth rate and associated traits for competition between species, pp. 489502.
  • Veneklaas, E.J. & Poorter, L. (1998) Growth and carbon partitioning of tropical tree seedlings in contrasting light environments. Inherent Variation in Plant Growth. Physiological Mechanisms and Ecological Consequences (eds H.Lambers, H.Poorter and M.M.I.Van Vuuren), pp. 337361. Backhuys, Leiden, the Netherlands.
  • Villar, R., Maranon, T., Quero, J.L., Panadero, P., Arenas, F. & Lambers, H. (2005) Variation in relative growth rate of 20 Aegilops species (Poaceae) in the field: the importance of net assimilation rate or specific leaf area depends on the time scale. Plant and Soil 272, 1127.
  • Watling, J.R., Ball, M.C. & Woodrow, I.E. (1997) The utilization of lightflecks for growth in four Australian rainforest species. Functional Ecology 11, 231239.
  • Westoby, M. (1998) A leaf–height–seed (LHS) plant ecology strategy scheme. Plant and Soil 199, 213227.
  • Westoby, M., Falster, D.S., Moles, A.T., Vesk, P.A. & Wright, I.J. (2002) Plant ecological strategies: some leading dimensions of variation between species. Annual Review of Ecology and Systematics 33, 125159.
  • Wright, I.J. & Westoby, M. (2000) Cross-species relationships between seedling relative growth rate, nitrogen productivity and root vs leaf function in 28 Australian woody species. Functional Ecology 14, 97107.
  • Wright, I.J., Reich, P.B., Westoby, M. et al. (2004) The worldwide leaf economics spectrum. Nature 428, 821827.