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REFERENCES

  • Amthor J.S. (1996) Plant respiratory responses to elevated CO2 partial pressure. In Advances in CO2 Effects Research (ed. L. H.Allen), in press. American Society of Agronomy, Madison .
  • Amthor J.S., Mitchell R.J., Runion G.B., Rogers H.H., Prior S.A. & Wood C.W. (1994) Energy content, construction cost and phytomass accumulation of Glycine max (L.) Merr. and Sorghum bicolor(L.) Moench grown in elevated CO2 in the field. New Phytologist 128, 443450.
  • Baxter R., Bell S.A., Sparks T.H., Ashenden T.W. & Farrar J.F. (1995) Effects of elevated CO2 concentrations on three montane grass species. III. Source leaf metabolism and whole plant carbon partitioning. Journal of Experimental Botany 46, 917929.
  • Bligh E.G. & Dyer W.J. (1959) A rapid method of total lipid extraction and purification. Canadian Journal of Biochemistry and Physiology 37, 911917.
  • Boudet A.M., Lapierre C. & Grima-Pettenati J. (1995) Biochemistry and molecular biology of lignification. New Phytologist 129, 203236.
  • Bunce J.A. (1995) The effect of carbon dioxide concentration on respiration of growing and mature soybean leaves. Plant, Cell and Environment 18, 576581.
  • Cataldo D.A., Haroon M., Schrader L.E. & Youngs V. (1975) Rapid colorimetric determination of nitrate in plant tissue by nitration of salicylic acid. Communications in Soil Science and Plant Analysis 6, 7180.
  • Cipollini M.L., Drake B.G. & Whigham D. (1993) Effects of elevated CO2 on growth and carbon/nutrient balance in the deciduous woody shrub Lindera benzoin (L.) Blume (Lauraceae). Oecologia 96, 339346.
  • Coleman J.S., McConnaughy K.D.M. & Bazzaz F.A. (1993) Elevated CO2 and plant nitrogen-use: is reduced tissue nitrogen concentration size-dependent Oecologia 93, 195200.
  • Conroy J.P. (1992) Influence of elevated atmospheric CO2 concentrations on plant nutrition. Australian Journal of Botany 40, 445456.
  • Cotrufo M.F., Ineson P. & Rowland A.P. (1994) Decomposition of tree leaf litters grown under elevated CO2: effect of litter quality. Plant and Soil 163, 121130.
  • Diaz S., Grime J.P., Harris J. & McPherson E. (1993) Evidence of a feedback mechanism limiting plant response to elevated carbon dioxide. Nature 364, 616617.
  • Fales F.W. (1951) The assimilation and degradation of carbohydrates by yeast cells. Journal of Biology and Chemistry 193, 113124.
  • Gifford R.M., Barrett D.J., Lutze J.L. & Samarakoon A.B. (1996) Agriculture and global change: scaling direct carbon dioxide impacts and feedbacks through time. In Global Change and Terrestrial Ecosystems (eds B. H.Walker & W. L.Steffen), pp. 229259. Cambridge University Press, Cambridge .
  • Griffin K.L., Thomas R.B. & Strain B.R. (1993) Effects of nutrient supply and elevated carbon dioxide on construction cost in leaves of Pinus taeda seedlings. Oecologia 95, 575580.
  • Griffin K.L., Winner W.E. & Strain B.R. (1995) Growth and biomass partitioning in loblolly pine and ponderosa pine seedlings in response to carbon and nitrogen availability. New Phytologist 129, 547556.
  • Iiyama K. & Wallis F.A. (1990) Determination of lignin in herbaceous plants by an improved acetyl bromide procedure. Journal of the Science of Food and Agriculture 51, 145161.
  • Jungk A. (1968) Die Alkalität der Pflanzenasche als Mass für den Kationeniiberschluss in der Pflanze. Zeitschrift für Pflanzenernährung und Bodenkunde 120, 99105.
  • Kemp P.R., Waldecker D.G., Owensby C.E., Reynolds J.F. & Virginia R.A. (1994) Effects of elevated CO2 and nitrogen fertilization on decomposition of tallgrass prairie leaf litter. Plant and Soil 165, 115127.
  • Körner C. & Miglieta F. (1994) Long term effects of naturally elevated CO2 on mediterranean grassland and forest trees. Oecologia 99, 343351.
  • Körner C., Pelaez-Riedl S. & Van Bel A.J.E. (1995) CO2 responsiveness of plants: a possible link to phloem loading. Plant, Cell and Environment 18, 595600.
  • Lambers H. (1993) Rising CO2, secondary plant metabolism, plant herbivore interactions and litter decomposition. Vegetatio 104/105, 263271.
  • Loehle C. (1995) Anomalous responses of plants to CO2 enrichment. Oikos 73, 181187.
  • Loomis R.S. & Lafitte H.R. (1987) The carbon economy of a maize crop exposed to elevated CO2 concentrations and water stress, as determined from elemental analyses. Field Crops Research 17, 6374.
  • Melillo J.M., Aber J.D. & Muratore J.E. (1982) Nitrogen and lignin control of hardwood leaf litter decomposition dynamics. Ecology 63, 621626.
  • Morison J.I.L. (1987) Intercellular CO2 concentration and stomatal response to CO2. In Stomatal Functioning (eds E.Zeiger, G. D.Farquhar & I. R.Cowan), pp. 229251. Stanford University Press, Stanford .
  • Morrison I.M. (1972) A semi-micro method for the determination of lignin and its use in predicting the digestibility of forage crops. Journal of the Science of Food and Agriculture 23, 455463.
  • Penning de Vries F.W.T., Brunsting A.H.M. & Van Laar H.H. (1974) Products, requirements and efficiency of biosynthetic processes: a quantitative approach. Journal of Theoretical Biology 45, 339377.
  • Poorter H. (1993) Interspecific variation in the growth response of plants to an elevated ambient CO2 concentration. Vegetatio 104/105, 7797.
  • Poorter H. (1994) Construction costs and payback time of biomass: a whole plant perspective. In A Whole Plant Perspective on Carbon-Nitrogen Interactions (eds J.Roy & E.Gamier), pp. 111127. SPB Academic Publishing, The Hague .
  • Poorter H. & Bergkotte M. (1992) Chemical composition of 24 wild species differing in relative growth rate. Plant, Cell and Environment 15, 221229.
  • Poorter H. & Villar R. (1997) Chemical composition of plants: Causes and consequences of variation in allocation of C to different plant compounds. In Resource Allocation in Plants (eds F.Bazzaz & J.Grace), Physiological Ecology Series. Academic Press, San Diego .
  • Poorter H., Gifford R.M., Kriedemann P.E. & Wong S.C. (1992) A quantitative analysis of dark respiration and carbon content as factors in the growth response of plants to elevated CO2. Australian Journal of Botany 40, 501513.
  • Poorter H., Roumet C. & Campbell B.D. (1996) Interspecific variation in the growth response of plants to elevated CO2: a search for functional types. In Biological Diversity in a CO2-rich world (eds C.Körner & F. A.Bazzaz), pp. 375412. Physiological Ecology Series. Academic Press, San Diego .
  • Roumet C., Bel M.P., Sonie L., Jardon F. & Roy J. (1996) Growth response of grasses to elevated CO2: a physiological plurispecific analysis. New Phytologist 133, 595603.
  • Sage R.F. (1994) Acclimation of photosynthesis to increasing atmospheric CO2: The gas exchange perspective. Photosynthesis Research 39, 351368.
  • Schenk U., Manderscheid R., Hugen J. & Weigel H.J. (1995) Effects of CO2 enrichment and intraspecific competition on biomass partitioning, nitrogen content and microbial biomass carbon in soil of perennial ryegrass and white clover. Journal of Experimental Botany 46, 987993.
  • Singleton V.L. (1988) Wine Analysis. In Modern Methods of Plant Analysis, New Series, Vol. 6 (eds H. F.Linskens & J. F.Jackson), pp. 200207. Springer Verlag, Berlin .
  • Strebel O. & Duynsveld W.H.M. (1989) Nitrogen supply to cereals and sugar beet by mass flow and diffusion on a silty loam. Zeitschrift für Pflanzenernährung und Bodenkunde 152, 135141.
  • Stulen I & Den Hertog J. (1993) Root growth and functioning under atmospheric CO2 enrichment. Vegetatio 104/105, 99116.
  • Thomas R.B. & Griffin K.L. (1994) Direct and indirect effects of atmospheric carbon dioxide enrichment on leaf respiration of Glycine max (L.) Merr. Plant Physiology 104, 355361.
  • Thomas R.B., Reid C.D., Ybema R. & Strain B.R. (1993) Growth and maintenance components of leaf respiration of cotton grown in elevated carbon dioxide partial pressure. Plant, Cell and Environment 16, 539546.
  • Thornley J.H.M. (1970) Respiration, growth and maintenance in plants. Nature 227, 304305.
  • Van der Werf A., Poorter H. & Lambers H. (1994) Respiration as dependent on a species' inherent growth rate and on the nitrogen supply to the plant. In A Whole-Plant Perspective on Carbon-Nitrogen Interactions (eds J.Roy & E.Gamier), pp. 91110. SPB Academic Publishing, The Hague .
  • Vertregt N. & Penning de Vries F.W.T. (1987) A rapid method for determining the efficiency of biosynthesis of plant biomass. Journal of Theoretical Biology 128, 109119.
  • Wong S.C. (1990) Elevated atmospheric partial pressure of CO2 and plant growth. II. Non-structural carbohydrate content and its effect on growth parameters. Photosynthesis Research 23, 171180.
  • Wullschleger S.D. & Norby R.J. (1992) Respiratory cost of leaf growth and maintenance in white oak saplings exposed to atmospheric CO2 enrichment. Canadian Journal of Forest Research 22, 17171721.
  • Wullschleger S.D., Norby R.J. & Gunderson C.A. (1992) Growth and maintenance respiration in leaves of Liriodendron tulipifera L. exposed to long-term carbon dioxide enrichment in the field. New Phytologist 121, 515523.