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REFERENCES

  • Bongarten B.C. & Teskey R.O. (1986) Water relations of loblolly pine seedlings from diverse geographic origins. Tree Physiology 1, 265276.
  • Bunce J.A. (1992) Light, temperature and nutrient as factors in photosynthetic adjustment to an elevated concentration of carbon dioxide. Physiologia Plantarum 86, 173179.
  • Callaway, R. M., DeLucia E.H., Thomas E.M. & Schlesinger W.H. (1994) Compensatory responses of CO2 exchange and biomasss allocation and their effects on the relative growth rate of ponderosa pine in different CO2 and temperature regimes. Oecologia 98, 159166.
  • Chapman H.D. & Pratt P.F. (1961) Methods of Analysis for Soils, Plants and Waters. University of California Press, Riverside .
  • Cooler E.J., Eder B.K., LeDuc S.K. & Truppi L. (1993) General circulation model output for forest climate change research and applications. USDA General Technical Report SE-85. Asheville NC .
  • Ellsworth D.S., Oren R., Huang C., Phillips N. & Hendrey G.R. (1995) Leaf and canopy responses to elevated CO2 in a pine forest under free-air CO2 enrichment. Oecologia 104, 139146.
  • Farquhar G.D. & von Caemmerer S. (1982) Modelling of photosynthetic responses to environmental conditions. In Physiological Plant Ecology II. Encyclopedia of Plant Physiology, New Series, Vol. 12B (eds O. L.Lange, P. S.Nobel, C. B.Osmond & H.Ziegler), pp. 548577. Springer-Verlag, Berlin .
  • Farquhar G.D., von Caemmerer S. & Berry J.A. (1980) A biochemical model of photosynthetic CO2 assimilation in leaves of C3 species. Planta 149, 7890.
  • Field C.B., Ball, J.T. & Berry J.A. (1991) Photosynthesis: principles and field techniques. In Plant Physiological Ecology Field Methods and Instrumentation (eds R. W.Percy, J. R.Ehleringer, H. A.Mooney & P. W.Rundel), pp. 209254. Chapman & Hall, London .
  • Garcia R.L., Idso S.B., Wall G.W. & Kimball B.A. (1994) Changes in net photosynthesis and growth of Pinus eldarica seedlings in response to atmospheric CO2 enrichment. Plant, Cell and Environment 17, 971978.
  • Harley P.C., Thomas R.B., Reynolds J.F. & Strain B.R. (1992) Modelling photosynthesis of cotton grown in elevated CO2. Plant, Cell and Environment 15, 271282.
  • Idso S.B. & Balling R.C. (1992) US temperature/precipitation relationships: implications for future ‘greenhouse’ climates. Agricultural and Forest Meteorology 58, 143147.
  • Idso S.B., Kimball B.A., Anderson M.G. & Mauney J.R. (1987) Effect of atmospheric CO2 enrichment on plant growth: the interactive role of air temperature. Agricultural Ecosystems and Environment 20, 110.
  • Innes J.L. (1994) Climatic sensitivity of temperate forests. Environmental Pollution 83, 237243.
  • Issac R.C. & Johnson W.C. (1976) Determination of total nitrogen in plant tissue. Journal Association Official Analytical Chemists 59, 98100.
  • Kirschbaum M.U.F. (1994) The sensitivity of C3 photosynthesis to increasing CO2 concentration: a theoretical analysis of its dependence on temperature and background CO2 concentration. Plant. Cell and Environment 17, 747754.
  • Liu S. & Teskey R.O. (1995) Responses of foliar gas exchange to long-term elevated CO2 concentrations in mature loblolly pine trees. Tree Physiology 15, 351359.
  • Long S.P. (1991) Modification of the response of photosynthetic productivity to rising temperature by atmospheric CO2 concentrations: Has its importance been underestimated Plant, Cell and Environment 14, 729739.
  • Long S.P. & Drake B.C. (1991) Effects of long-term elevation of CO2 concentration in the field on the quantum yield of photosynthesis of the CO3 sedge, Scirpus olneyi. Plant Physiology 96, 221226.
  • McMurtrie R.E. & Wang, Y.-P. (1993) Mathematical models of the photosynthetic response of tree stands to rising CO2 concentrations and temperatures. Plant, Cell and Environment 16, 113.
  • Ruffner J.A. (1980) Climates of the United States, pp. 162180. Gale Research Company, Detroit , Michigan .
  • Scherm H. & van Bruggen A.H.C. (1994) Global warming and nonlinear growth: How important are changes in average temperature Phytopathology 84, 13801384.
  • Teskey R.O. (1995) A field study of the effects of elevated CO2 on carbon assimilation, stomatal conductance and leaf and branch growth of Pinus taeda trees. Plant, Cell and Environment 18, 565573.
  • Teskey R.O., Dougherty P.M. & Wiselogel A.E. (1991) Design and performance of branch chambers suitable for long-term ozone fumigation of foliage in large trees. Journal of Environmental Quality 20, 591595.
  • Tissue D.T., Thomas R.B. & Strain B.R. (1996) Growth and photosynthesis of loblolly pine (Pinus taeda) after exposure to elevated CO2, for 19 months in the field. Tree Physiology 16, 4959.
  • Tschaplinski, T.J. Stewart D.B., Hanson P.J. & Norby R.J. (1995) Interactions between drought and elevated CO2 on growth and gas exchange of seedlings of three deciduous tree species. New Phytologist 129, 6371.
  • Wang K., Keilomäki & Laitien K. (1995) Effects of needle age, long-term temperature and CO2 treatments on the photosynthesis of Scots pine. Tree Physiology 15, 211218.
  • Watson R.T., Rodhe H., Oescheger H & Siegenthaler U. (1990) Greenhouse gases and aerosols. In Climate Change: the IPCC Scientific Assessment (eds J. T.Houghton, G. L.Jenkins & J. JEphraums), pp. 140. Cambridge University Press, Cambridge .
  • Wigley T.M.L. & Raper S.C.B. (1992) Implications for climate and sea level of revised IPCC emissions scenarios. Nature 357 293300.
  • Ziska L.H. & Bunce J.A. (1993) Inhibition of whole plant respiration by elevated CO2 as modified by growth temperature. Physiologia Plantarum 87, 459466.