SEARCH

SEARCH BY CITATION

References

  • Aerts R, Chapin FS III. 2000. The mineral nutrition of wild plants revisited: a re-evaluation of processes and patterns. Advances in Ecological Research 30: 167.
  • Atkin OK, Schortemeyer M, McFarlane N, Evans JR. 1999. The response of fast- and slow-growing acacia species to elevated atmospheric CO2: an analysis of the underlying components of relative growth rate. Oecologia 120: 544554.
  • Bassirirad H. 2000. Kinetics of nutrient uptake by roots: responses to global change. New Phytologist 147: 155169.
  • Baxter R, Gantley M, Ashenden TW, Farrar JF. 1994. Effects of elevated carbon dioxide on three grass species from montane pasture. 2. Nutrient uptake, allocation and efficiency of use. Journal of Experimental Botany 45: 12671278.
  • Berendse F, Aerts R. 1987. Nitrogen-use efficiency: a biologically meaningful definition? Functional Ecology 1: 293296.
  • Berendse F, Elberse WT. 1989. Competition and nutrient losses from the plant. In: LambersH, ed. Causes and Consequences of Variation in Growth Rate and Productivity of Higher Plants. The Hague, the Netherlands: SPB Academic Publishing, 269284.
  • Caldwell MM, Richards JH, Manwaring JH, Eissenstat DM. 1987. Rapid shifts in phosphate acquisition show direct competition between neighbouring plants. Nature 327: 615616.
  • Casella E, Soussana JF, Loiseau P. 1996. Long-term effect of CO2 enrichment and temperature increase on a temperate grass sward. I. Productivity and water use. Plant and Soil 182: 8399.
  • Casper BB, Jackson RB. 1997. Plant competition underground. Annual Review of Ecology and Systematics 28: 545570.
  • Chapin FS III. 1980. The mineral nutrition of wild plants. Annual Review of Ecology and Systematics 11: 233260.
  • Daepp M, Nosberger J, Luscher A. 2001. Nitrogen fertilization and developmental stage alter the response of Lolium perenne to elevated CO2. New Phytologist 150: 347358.
  • Dawson LA, Mayes RW, Elston DA, Smart TS. 2000. Root hydrocarbons as potential markers for determining species composition. Plant, Cell & Environment 23: 743750.
  • Dove H. 1992. Using the normal alkanes of plant cuticular wax to estimate the species composition of herbage mixtures. Australian Journal of Agricultural Research 43: 17111724.
  • Drake BG, Gonzalez-Meier MA, Long SP. 1997. More efficient plants: a consequence of rising atmospheric CO2? Annual Review of Plant Physiology and Plant Molecular Biology 48: 607637.
  • Faurie O, Soussana JF, Sinoquet H. 1996. Radiation interception, partitioning and use in grass–clover mixtures. Annals of Botany 77: 3545.
  • Garnier E, Aronson J. 1998. Nitrogen-use efficiency from leaf to stand level: clarifying the concept. In: LambersH, PoorterH, VanVuurenMMI, eds. Inherent Variation in Plant Growth Physiological Mechanisms and Ecological Consequences. Leiden, the Netherlands: Backhuys, 515538.
  • Hikosaka K, Hirose T. 2001. Nitrogen uptake and use by competing individuals in a Xanthium canadense stand. Oecologia 126: 174181.
  • Hirose T, Bazzaz FA. 1998. Trade-off between light- and nitrogen-use efficiency in canopy photosynthesis. Annals of Botany 82: 195202.
  • Hirose T, Werger MJA. 1987. Maximising daily canopy photosynthesis with respect to the leaf nitrogen allocation pattern within the canopy. Oecologia 72: 520526.
  • Hirose T, Ackerly DD, Traw MB, Bazzaz FA. 1996. Effects of CO2 elevation on canopy development in the stands of two co-occurring annuals. Oecologia 108: 215223.
  • Imsande J, Touraine B. 1994. N demand and the regulation of nitrate uptake. Plant Physiology 105: 37.
  • Jackson RB, Moore LA, Hoffmann WA, Pockman WT, Linder CR. 1999. Ecosystem rooting depth determined with caves and DNA. Proceedings of the National Academy of Sciences, USA 96: 1138711392.
  • Lambers H, Poorter H. 1992. Inherent variation in growth rate between higher plants: a search for physiological causes and ecological consequences. Advances in Ecological Research 23: 189261.
  • Lemaire G, Chapman DF. 1996. Tissue flows in grazed plant communities. In: HodgsonJ, IlliusAW (eds) The Ecology and Management of Grazing Systems. Wallingford, UK: CAB International, 336.
  • Loiseau P, Soussana JF. 1999. Elevated [CO2], temperature increase and N supply effects on the turnover of below-ground carbon in a temperate grassland ecosystem. Plant and Soil 210: 233247.
  • Luo Y, Field CB, Mooney HA. 1994. Predicting responses of photosynthesis and root fraction to elevated [CO2] (a): Interactions among carbon, nitrogen, and growth: theoretical paper. Plant, Cell & Environment 17: 11951204.
  • Mayes RW, Lamb C, Colgrove PM. 1986. The use of dosed and herbage n-alkanes as markers for the determination of herbage intake. Journal of Agricultural Science 107: 161170.
  • Newbery RM, Wolfenden J, Mansfield TA, Harrison AF. 1995. Nitrogen, phosphorus and potassium uptake and demand in Agrostis capillaris: The influence of elevated CO2 and nutrient supply. New Phytologist 130: 565574.
  • Nowak RS, Ellsworth DS, Smith SD. 2004. Functional responses of plants to elevated atmospheric CO2– do photosynthetic and productivity data from FACE experiments support early predictions? New Phytologist 162: 253280.
  • Ourry A, Boucaud J, Salette J, Duyme M. 1989. Métabolisme de l’azote chez le ray-grass (Lolium perenne L.). Etude par marquage 15N des remobilisations d’azote après une coupe. Agronomie 9: 401407.
  • Paynel F, Cliquet JB. 2003. N transfer from white clover to perennial ryegrass, via exudation of nitrogenous compounds. Agronomie 23: 503510.
  • Roumet C, Bel MP, Sonie L, Jardon F, Roy J. 1996. Growth response of grasses to elevated CO2: a physiological plurispecific analysis. New Phytologist 133: 595603.
  • Rumbaugh MD, Clark DH, Pendery BM. 1988. Determination of root mass ratios in alfalfa–grass mixtures using near infrared reflectance spectroscopy. Journal of Range Management 41: 488490.
  • Schwinning S, Weiner J. 1998. Mechanisms determining the degree of size asymmetry in competition among plants. Oecologia 113: 447455.
  • Soussana JF, Casella E, Loiseau P. 1996. Long-term effects of CO2 enrichment and temperature increase on a temperate grass sward. 2. Plant nitrogen budgets and root fraction. Plant and Soil 182: 101114.
  • Soussana JF, Minchin FR, Macduff JH, Raistrick N, Abberton MT, Michaelson-Yeates TPT. 2002. A simple model of feedback regulation for nitrate uptake and N2 fixation in contrasting phenotypes of white clover. Annals of Botany 90: 139147.
  • Teyssonneyre F. 2002. Effets d’une augmentation de la concentration atmosphérique en CO2 sur la prairie permanente et sur la compétition entre espèces prairiales associées. PhD thesis. Université de Paris XI, Centre d’Orsay, France.
  • Teyssonneyre F, Picon-Cochard C, Soussana JF. 2002. How can we predict the effects of elevated CO2 on the balance between two perennial C3 grass species competing for light? New Phytologist 154: 5364.
  • Tingey DT, Phillips DL, Johnson MG. 2000. Elevated CO2 and conifer roots: effects on growth, life span and turnover. New Phytologist 147: 87103.
  • Vazquez de Aldana BR, Berendse F. 1997. Nitrogen-use efficiency in six perennial grasses from contrasting habitats. Functional Ecology 11: 619626.
  • Williams WA, Jones MB, Demment MW. 1990. A concise table for path analysis statistics. Agronomy Journal of 82: 10221024.
  • Wright S. 1921. Correlation and causation. Journal of Agricultural Research 20: 557595.