References

Arnone, J.A. III and Körner, C. (1993) Influence of elevated CO2 on canopy development and red:far red ratios in two-storied stands of Ricinus communis. Oecologia 94, 510-515.

Arp, W.J. (1991) Effects of source-sink relations on photosynthetic acclimation to elevated CO2. Plant, Cell and Environment 14, 869-875.

Badeck, F.W., Dufrene, E., Epron, D., Le Dantec, V., Liozon, R., Mousseau, M., Pontailler, J.Y. and Saugier, B. (1997) Sweet chestnut and beech saplings under elevated CO2. In: Mohren, G.M.J., Kramer, K. and Sabate, S. (eds) Impacts of Global Change on Tree Physiology and Forest Ecosystems. Kluwer Academic Publishers, Dordrecht, pp. 15-25.

Bazzaz, F.A. and Miao, S.L. (1993) Successional status, seed size, and responses of seedlings to CO2, light, and nutrients. Ecology 74, 104-112.

Becker, M., Bert, G.D., Bouchon, J., Dupouey, J.L., Picard, J.F. and Ulrich, E. (1995) Long term changes in forest productivity in northern France: the dendro-chronological approach. In: Landmann, G. and Bonneau, M. (eds) Forest Decline and Atmospheric Deposition Effects in the French Mountains. Springer-Verlag, Berlin, pp. 143-156.

Beerling, D.J. (1997) Carbon isotope discrimination and stomatal response of mature Pinus sylvestris L. exposed in situ for three years to elevated CO2 and temperature. Acta Oecologica 18, 697-712.

Beerling, D.J., Heath, J., Woodward, F.I. and Mansfield, T.A. (1996) Drought-CO2 interactions in trees: observations and mechanisms. New Phytologist 134, 235-242.

Berg, B. (1996) Climate change: does it influence the decomposition processes of plant litter and soil organic matter? Atti della Societa Italiana di Ecologia 17, 19-22.

Berman, M.E. and Dejong, T.M. (1996) Water stress and crop load effects on fruit fresh and dry weights in peach (Prunus persica). Tree Physiology 16, 859-864.

Berntson, G.M. and Bazzaz, F.A. (1998) Regenerating temperate forest mesocosms in elevated CO2: below-ground growth and nitrogen cycling. Oecologia 113, 115-125.

Berryman, C.A., Eamus, D. and Duff, G.A. (1994) Stomatal responses to a range of variables in two tropical tree species grown with CO2 enrichment. Journal of Experimental Botany 45, 539-546.

Besford, R.T., Mousseau, M. and Matteucci, G. (1998) Biochemistry, physiology and biophysics of photosynthesis. In: Jarvis, P.G. (ed.) European Forests and Global Change: the Likely Impacts of Rising CO2 and Temperature. Cambridge University Press, Cambridge, UK, pp. 29-78.

Boerner, R.E.J. and Rebbeck, J. (1995) Decomposition and nitrogen release from leaves of three hardwood species grown under elevated O3 and/or CO2. Plant and Soil 170, 149-157.

Borchert, R. (1991) Growth periodicity and dormancy. In: Raghavendra, A.S. (ed.) Physiology of Trees. John Wiley & Sons, New York, pp. 221-245.

Bryant, J.P., Chapin, F.S. III. and Klein, D.R. (1983) Carbon/nutrient balance of boreal plants in relation to vertebrate herbivory. Oikos 40, 357-368.

Buwalda, J.G. and Lenz, F. (1995) Water use by European pear trees growing in drainage lysimeters. Journal of Horticultural Science 70, 531-540.

Ceulemans, R. and Mousseau, M. (1994) Effects of elevated atmospheric CO2 on woody plants. New Phytologist 127, 425-446.

Ceulemans, R. and Saugier, B. (1991) Photosynthesis. In: Raghavendra, A.S. (ed.) Physiology of Trees. John Wiley & Sons, New York, pp. 21-49.

Ceulemans, R., Jiang, X.N. and Shao, B.Y. (1995) Effects of elevated atmospheric CO2 on growth, biomass production and nitrogen allocation in two Populus clones. Journal of Biogeography 22, 261-268.

Ceulemans, R., Shao, B.Y., Jiang, X.N. and Kalina, J. (1996) First- and second-year aboveground growth and productivity of two Populus hybrids grown at ambient and elevated CO2. Tree Physiology 16, 61-68.

Ceulemans, R., Taylor, G., Bosac, C., Wilkins, D. and Besford, R.T. (1997) Photo-synthetic acclimation to elevated CO2 in poplar grown in glasshouse cabinets or in open top chambers depends on duration of exposure. Journal of Experimental Botany 48, 539-546.

Cochard, H., Bréda, N. and Granier, A. (1996) Whole tree hydraulic conductance and water loss regulation in Quercus during drought: evidence for stomatal control of embolism. Annales des Sciences Forestières 53, 197-206.

Conroy, J.P., Milham, P.J., Reed, M.L. and Barlow, E.W. (1990) Increases in phosphorous requirements of CO2-enriched pine species. Plant Physiology 92, 977-982.

Cotrufo, M.F. and Ineson, P. (1995) Effects of enhanced atmospheric CO2 and nutrient supply on the quality and subsequent decomposition of fine roots of Betula pendula Roth. and Picea sitchensis (Bong.) Carr. Plant and Soil 170, 267-277.

Cotrufo, M.F., Ineson, P. and Rowland, A.P. (1994) Decomposition of tree leaf litters grown under elevated CO2: effect of litter quality. Plant and Soil 163, 121-130.

Cotrufo, M.F., Ineson, P. and Scott, A. (1998) Elevated CO2 reduces the nitrogen concentration of plant tissues. Global Change Biology 4, 43-54.

Coûteaux, M.-M., Mousseau, M., Célérier, M.-L. and Bottner, P. (1991) Increased atmospheric CO2 and litter quality: decomposition of sweet chestnut leaf litter with animal food webs of different complexities. Oikos 61, 54-64.

Curtis, P.S. and Wang, X. (1998) A meta-analysis of elevated CO2 effects on woody plant mass, form, and physiology. Oecologia 113, 299-313.

Curtis, P.S., Zak, D.R., Pregitzer, K.S. and Teeri, J.A. (1994) Above- and belowground response of Populus grandidentata to elevated atmospheric CO2 and soil N availability. Plant and Soil 165, 45-51.

DeLucia, E.H., Callaway, R.M., Thomas, E.M. and Schlesinger, W.H. (1997) Mechanisms of phosphorous acquisition for Ponderosa pine seedlings under high CO2 and temperature. Annals of Botany 79, 111-120.

Diaz, S., Grime, J.P., Harris, J. and McPherson, E. (1993) Evidence of a feedback mechanism limiting plant response to elevated carbon dioxide. Nature 364, 616-617.

Dixon, M., Le Thiec, D. and Garrec, J.P. (1995) The growth and gas exchange response of soil planted Norway spruce (Picea abies Karst) and red oak (Quercus rubra L.) exposed to elevated CO2 and naturally occurring drought. New Phytologist 129, 265-273.

Dufrêne, E., Pontailler, J.Y. and Saugier, B. (1993) A branch bag technique for simultaneous CO2 enrichment and assimilation in beech (Fagus sylvatica L.). Plant, Cell and Environment 16, 1131-1138.

Eamus, D. and Jarvis, P.G. (1989) The direct effects of the increases in the global atmospheric concentration on natural and commercial temperate trees and forests. Advances in Ecological Research 19, 1-55.

Eckstein, K., Robinson, J.C. and Davies, S.J. (1995) Physiological responses of banana (Musa AAA; cavendish sub group) in the subtropics. III. Gas exchange, growth analysis and source sink interaction over a complete crop cycle. Journal of Horticultural Science 70, 169-180.

El Kohen, A., Venet, L. and Mousseau, M. (1993) Growth and photosynthesis of two deciduous forest species at elevated carbon dioxide. Functional Ecology 7, 480-486.

Epron, D., Liozon, R. and Mousseau, M. (1996) Effects of elevated CO2 concentration on leaf characteristics and photosynthetic capacity of beech (Fagus sylvatica) during the growing season. Tree Physiology 16, 425-432.

FAO (1995) Forest products 1991-1995. FAO Forestry series No. 30, FAO statistic series No.137, FAO, Rome, 57 pp.

Farquhar, G.D., O'Leary, M.H. and Berry, J.A. (1982) On the relationship between carbon isotope discrimination and the intracellular carbon dioxide concentration in leaves. Australian Journal of Plant Physiology 9, 121-137.

Fog, K. (1988) The effect of added nitrogen on the rate of decomposition of organic matter. Biological Reviews 63, 433-462.

Fritts, H.C. (1976) Tree Rings and Climate. Academic Press, London, 567 pp.

Godbold, D.L. and Berntson, G.M. (1997) Elevated atmospheric CO2 concentration changes ectomycorrhizal morphotype assemblages in Betula papyrifera. Tree Physiology 17, 347-350.

Godbold, D.L., Berntson, G.M. and Bazzaz, F.A. (1997) Growth and mycorrhizal colonization of three North American tree species under elevated atmospheric CO2. New Phytologist 137, 433-440.

Goodfellow, J., Eamus, D. and Duff, G. (1997) Diurnal and seasonal changes in the impact of CO2 enrichment on assimilation, stomatal conductance and growth in a long-term study of Mangifera indica in the wet-dry tropics of Australia. Tree Physiology 17, 291-299.

Granier, A., Biron, P., Bréda, N., Pontaillier, J.Y. and Saugier, B. (1996) Transpiration of trees and forest stands: short term and long term monitoring using sap flow methods. Global Change Biology 2, 265-274.

Guehl, J.M., Moussain, D., Falconnet, B. and Gruez, J. (1990) Growth, carbon dioxide assimilation capacity and water-use efficiency of Pinus pinea L. seedlings inoculated with different ectomycorrhizal fungi. Annales des Sciences Forestières 47, 91-100.

Guehl, J.M., Picon, C., Aussenac, G. and Gross P. (1994) Interactive effects of elevated CO2 and soil drought on growth and transpiration efficiency and its determinants in two European forest tree species. Tree Physiology 14, 707-724.

Gunderson, C.A. and Wullschleger, S.D. (1994) Photosynthetic acclimation of forest trees to a doubling of atmospheric CO2: a broader perspective. Photosynthesis Research 39, 369-388.

Harley, J.L. (1984) The mycorrhizal associations. In: Linskens, H.F. and Heslop-Harrison, J. (eds) Encyclopedia of Plant Physiology, Vol. 17. Springer-Verlag, Berlin, pp. 148-186.

Hättenschwiler, S. and Körner, C. (1998) Biomass allocation and canopy development in spruce model ecosystems under elevated CO2 and increased N deposition. Oecologia 113, 104-114.

Heath, H., Kerstiens, G. and Tyree, M.T. (1997) Stem hydraulic conductance of European beech (Fagus sylvatica L.) and pedunculate oak (Quercus robur L.) grown in elevated CO2. Journal of Experimental Botany 48, 1487-1489.

Hodge, A. (1996) Impact of elevated CO2 on mycorrhizal associations and implications for plant growth. Biology and Fertility of Soils 23, 388-398.

Hogan, K.P., Whitehead, D., Kallarackal, J., Buwalda, J. and Rogers, G.N.D. (1996) Photosynthetic activity of leaves of Pinus radiata and Nothofagus fusca after 1 year of growth at elevated CO2. Australian Journal of Plant Physiology 23, 623-630.

Hunter, A.F. and Lechowitcz, M.J. (1992) Foliage quality changes during canopy development of some northern hardwood trees. Oecologia 89, 316-323.

Idso, S.B. and Kimball B.A. (1997) Effects of long term atmospheric CO2 enrichment on the growth and fruit production of sour orange trees. Global Change Biology 3, 89-97.

Idso, S.B., Kimball, B.A. and Allen, S.G. (1991) CO2 enrichment of sour orange trees: 2.5 years into a long-term experiment. Plant, Cell and Environment 14, 351-353.

Ineichen, K., Wiemken, V. and Wiemken, A. (1995) Shoots, roots and ectomycorrhiza formation of pine seedlings at elevated atmospheric carbon dioxide. Plant, Cell and Environment 18, 703-707.

Jach, M.E. and Ceulemans, R. (1999) Effects of atmospheric CO2 on phenology, growth and crown structure of Scots pine (Pinus sylvestris) seedlings after two years of exposure in the field. Tree Physiology 19, 289-300.

Janssens, I.A., Crookshanks, M., Taylor, G. and Ceulemans, R. (1998) Elevated atmospheric CO2 increases fine root production, respiration, rhizosphere respiration and soil CO2 efflux in young Scots pine seedlings. Global Change Biology 4, 871-878.

Jarvis, P.G. (1998) European Forests and Global Change: the Likely Impacts of Rising CO2 and Temperature. Cambridge University Press, Cambridge, UK, 380 pp.

Johnson, D.W., Henderson, P.H., Ball, J.T. and Walker, R.F. (1995) Effects of CO2 and N on growth and N dynamics in Ponderosa pine: results from the first two growing seasons. In: Koch, G.W. and Mooney, H.A. (eds) Carbon Dioxide and Terrestrial Ecosystems, Academic Press, San Diego, pp. 23-40.

Kellomäki, S. and Wang, K.Y. (1997a) Effects of elevated O3 and CO2 concentrations on photosynthesis and stomatal conductance in Scots pine. Plant, Cell and Environment 20, 995-1006.

Kellomäki, S. and Wang, K.Y. (1997b) Effects of long-term CO2 and temperature elevation on crown nitrogen distribution and daily photosynthetic performance of Scots pine. Forest Ecology and Management 99, 309-326.

Kirschbaum, M.U.F. and Fischlin, A. (1996) Climate change impacts on forests. In: Watson, R.T., Zinyowera, M.C. and Ross, R.H. (eds) Climate Change 1995Impacts, Adaptations and Mitigation of Climate Change: Scientific-Technical Analysis. Cambridge University Press, Cambridge, UK, pp. 99-129.

Klironomos, J.N., Rillig, M.C., Allen, M.F., Zak, D.R., Kubiske, M. and Pregitzer, K.S. (1997) Soil fungal-arthropod responses to Populus tremuloides grown under enriched atmospheric CO2 under field conditions. Global Change Biology 3, 473-478.

Kozlowski, T.T. and Pallardy, S.G. (1996) Physiology of Woody Plants. Academic Press, New York, 400 pp.

Kull, O., Sober, A., Coleman, M.D., Dickson, R.E., Isebrands, J.G., Gagnon, Z. and Karnosky, D.F. (1996) Photosynthetic response of aspen clones to simultaneous exposures to ozone and CO2. Canadian Journal of Forest Research 26, 639-648.

Le Dantec, V., Dufrene, E. and Saugier, B. (1997) Soil respiration in mini-beech stands under elevated CO2. In: Mohren, G.M.J., Kramer, K. and Sabate, S. (eds) Impacts of Global Change on Tree Physiology and Forest Ecosystems. Kluwer Academic Publishers, Dordrecht, pp. 179-186.

Lee, H., Overdieck, D. and Jarvis, P.G. (1998) Biomass, growth and carbon allocation. In: Jarvis, P.G. (ed.) European Forests and Global Change: the Likely Impacts of Rising CO2 and Temperature. Cambridge University Press, Cambridge, UK, pp. 126-191.

Lewis, J.D., Thomas, R.B. and Strain, B.R. (1994) Effect of elevated CO2 on mycorrhizal colonization of loblolly pine (Pinus taeda L.) seedlings. Plant and Soil 165, 81-88.

Lindroth, R.L. (1995) CO2 mediated changes in tree chemistry and tree-Lepidoptera interactions. In: Koch, G.W. and Mooney, H.A. (eds) Carbon Dioxide and Terrestrial Ecosystems. Academic Press, San Diego, pp. 105-118.

Luxmoore, R.J. (1981) CO2 and phytomass. Bioscience 31, 626.

Markkola, A.-M., Ohtonen, A., Ahonen-Jonnarth, U. and Ohtonen, R. (1996) Scots pine responses to CO2 enrichment. I. Ectomycorrhizal fungi and soil fauna. Environmental Pollution 94, 309-316.

Mousseau, M. and Saugier, B. (1992) The direct effect of increased CO2 on gas exchange and growth of forest tree species. Journal of Experimental Botany 43, 1121-1130.

Mousseau, M., Dufrene, E., El Kohen, A., Epron, D., Godard, D., Liozon, R., Pontailler, J.Y. and Saugier, B. (1995) Growth strategy and tree response to elevated CO2 : a comparison of beech (Fagus sylvatica) and sweet chestnut (Castanea sativa Mill.). In: Koch, G.W. and Mooney, H.A. (eds) Carbon Dioxide and Terrestrial Ecosystems. Academic Press, San Diego, pp. 71-86.

Murray, M.B. and Ceulemans, R. (1998) Will tree foliage be larger and live longer? In: Jarvis, P.G. (ed.) European Forests and Global Change: the Likely Impacts of Rising CO2 and Temperature. Cambridge University Press, Cambridge, UK, pp. 94-125.

Murthy, R., Dougherty, P.M., Zarnoch, S.J. and Allen, H.L. (1996) Effects of carbon dioxide, fertilization and irrigation on photosynthetic capacity of loblolly pine trees. Tree Physiology 16, 537-546.

Myneni, R.B., Keeling, C.D., Tucker, C.J., Asrar, G. and Nemani, R.R. (1997) Increased plant growth in the northern latitudes from 1981 to 1991. Nature 386, 698-702.

Norby, R.J. (1994) Issues and perspectives for investigating root responses to elevated atmospheric carbon dioxide. Plant and Soil 165, 9-20.

Norby, R.J., O'Neill, E.G., Gregory Hood, W. and Luxmoore, R.J. (1987) Carbon allocation, root exudation and mycorrhizal colonization of Pinus echinata seedlings grown under CO2 enrichment. Tree Physiology 3, 203-210.

Norby, R.J., Gunderson, C.A., Wullschleger, S.D., O'Neill, E.G. and McCracken, M.K. (1992) Productivity and compensatory responses of yellow-poplar trees in elevated CO2. Nature 357, 322-324.

Norby, R.J., O'Neill, E.G. and Wullschleger, S.D. (1995a) Belowground responses to atmospheric carbon dioxide in forests. In: McFee, W.W. and Kelly, J.M. (eds) Carbon Forms and Functions in Forest Soils. Soil Science Society of America, Madison, Wisconsin, pp. 397-418.

Norby, R.J., Wullschleger, S.D., Gunderson, C.A. and Nietch, C.T. (1995b) Increased growth efficiency of Quercus alba trees in a CO2-enriched atmosphere. New Phytologist 131, 91-97.

Norby, R.J., Wullschleger, S.D. and Gunderson, C.A. (1995c) Tree responses to elevated CO2 and the implications for forests. In: Koch, G.W. and Mooney, H.A. (eds) Carbon Dioxide and Terrestrial Ecosystems. Academic Press, San Diego, pp. 1—21.

Norby, R.J., Wullschleger, S.D., Gunderson, C.A., Johnson, D.W. and Ceulmans, R. (1999) Tree responses to rising CO2 in field experiments: implications for the future forest. Plant, Cell and Environment 22, 683-714.

OIV (1998) The state of viticulture in the world, statistical information in 1996, Bulletin de l'Office International de la Vigne et du Vin, Paris, (Supplement) 803-804.

O'Neill, E.G. (1994) Responses of soil biota to elevated atmospheric carbon dioxide. Plant and Soil 165, 55-65.

O'Neill, E.G. and Norby, R.J. (1991) First-year decomposition dynamics of yellow-poplar leaves produced under CO2 enrichment. Bulletin of the Ecological Society of America 72 (Suppl.), 208.

O'Neill, E.G. and Norby, R.J. (1996) Litter quality and decomposition rates of foliar litter produced under CO2 enrichment. In: Koch, G.W. and Mooney, H.A. (eds) Carbon Dioxide and Terrestrial Ecosystems. Academic Press, San Diego, pp. 87-103.

O'Neill, E.G., Luxmoore, R.J. and Norby, R.J. (1987) Increases in mycorrhizal colonization and seedling growth in Pinus echinata and Quercus alba in an enriched CO2 atmosphere. Canadian Journal of Forest Research 17, 878-883.

Oplustilova, M. and Dvorak, V. (1997) Growth processes of Norway spruce in elevated CO2 concentration. In: Mohren, G.M.J., Kramer, K. and Sabaté, S. (eds) Impacts of Global Change on Tree Physiology and Forest Ecosystems. Kluwer Academic Publishers, Dordrecht, pp. 53-58.

Palmer, J.W., Giuliani, R. and Adams, H.M. (1997) Effect of crop load on fruiting and leaf photosynthesis of 'Braeburn/M26' apple trees. Tree Physiology 17, 741-746.

Penuelas, J. and Estiarte, M. (1998) Can elevated CO2 affect secondary metabolism and ecosystem function? Trends in Ecology and Evolution 13, 20-24.

Pérez-Soba, M., Dueck, T.A., Puppi, G. and Kuiper, P.J.C. (1995) Interactions of elevated CO2, NH3 and O3 on mycorrhizal infection, gas exchange and N metabolism in saplings of Scots pine. Plant and Soil 176, 107-116.

Picon, C., Guehl, J.M. and Fehri, A. (1996) Leaf gas exchange and carbon isotope composition responses to drought in a drought-avoiding (Pinus pinaster) and a drought-tolerant (Quercus petraea) species under present and elevated atmospheric CO2 concentrations. Plant, Cell and Environment 19, 182-190.

Polley, H.W., Johnson, H.B. and Mayeux, H.S. (1997) Leaf physiology, production, water use, and nitrogen dynamics of the grassland invader Acacia smallii at elevated CO2 concentrations. Tree Physiology 17, 89-96.

Poorter, H., Van Berkel, Y., Baxter, R., den Hertog, J., Dijkstra, P., Gifford, R.M., Griffin, K.L., Roumet, C., Roy, J. and Wong, S.C. (1997) The effect of elevated CO2 on the chemical composition and construction costs of leaves of 27 C3 species. Plant, Cell and Environment 20, 472-482.

Pregitzer, K.S., Zak, D.R., Curtis, P.S., Kubiske, M.E., Teeri, J.A. and Vogel, C.S. (1995) Atmospheric CO2, soil nitrogen and fine root turnover. New Phytologist 129, 579-585.

Prior, S.A., Runion, G.B., Mitchell, R.J., Rogers, H.H. and Amthor, J.S. (1997) Effects of atmospheric CO2 on longleaf pine: productivity and allocation as influenced by nitrogen and water. Tree Physiology 17, 397-405.

Raghavendra, A.S. (1991) Physiology of Trees. John Wiley & Sons, New York, 509 pp.

Rennenberg, H., Eschrich, W. and Ziegler, H. (1997) Trees - Contributions to Modern Tree Physiology. Backhuys Publishers, Leiden, 565 pp.

Rey, A. and Jarvis, P.G. (1997) Long term photosynthetic acclimation to elevated atmospheric CO2 concentration in birch (Betula pendula Roth.). In: Mohren, G.M.J., Kramer, K. and Sabaté, S. (eds) Impacts of Global Change on Tree Physiology and Forest Ecosystems. Kluwer Academic Publishers, Dordrecht, pp. 87-92.

Rey, A., Barton, C.V.M. and Jarvis, P.G. (1997) Belowground responses to increased atmospheric CO2 in birch (Betula pendula Roth.). In: Mohren, G.M.J., Kramer, K. and Sabaté, S. (eds) Impacts of Global Change on Tree Physiology and Forest Ecosystems. Kluwer Academic Publishers, Dordrecht, pp. 207-212.

Rogers, H.H., Runion, G.B. and Krupa, S.V. (1994) Plant responses to atmospheric CO2 enrichment with emphasis on roots and the rhizosphere. Environmental Pollution 83, 155-189.

Rogers, H.H., Runion, G.B., Prior, S.A. and Torbert, H.A. (1999) Response of plants to elevated atmospheric CO2: root growth, mineral nutrition and soil carbon. In: Luo, Y. and Mooney, H. (eds) Carbon Dioxide and Environmental Stress. Academic Press, New York, pp. 215-244.

Runion, G.B., Mitchell, R.J., Rogers, H.H., Prior, S.A. and Counts, T.K. (1997) Effects of nitrogen and water limitation and elevated atmospheric CO2 on ectomycorrhiza of longleaf pine. New Phytologist 137, 681-689.

Rygiewicz, P.T., Johnson, M.G., Ganio, L.M., Tingey, D.T. and Storm, M.J. (1997) Lifetime and temporal occurrence of ectomycorrhizae on ponderosa pine (Pinus ponderosa Laws.) seedlings grown under varied atmospheric CO2 and nitrogen levels. Plant and Soil 189, 275-287.

Sadowsky, M.J. and Schortemeyer, M. (1997) Soil microbial responses to increased concentrations of atmospheric CO2. Global Change Biology 3, 217-224.

Sage, R.F. (1994) Acclimation of photosynthesis to increasing atmospheric CO2: the gas exchange perspective. Photosynthesis Research 39, 351-368.

Samuelson, L.J. and Kelly, J.M. (1997) Ozone uptake in Prunus serotina, Acer rubrum and Quercus rubra forest trees of different sizes. New Phytologist 136, 255-264

Scarascia-Mugnozza, G. and de Angelis, P. (1998) Is water used more efficiently? In: Jarvis, P.G. (ed.) European Forests and Global Change: the Likely Impacts of Rising CO2 and Temperature. Cambridge University Press, Cambridge, UK, 192-214.

Spiecker, H., Mielikainen, K., Kohl, M. and Skovsgaard, J.P. (1996) Growth Trends in European Forests: Studies from 12 Countries. Springer-Verlag, Berlin, 372 pp.

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, 565-573.

Tigerstedt, P.M.A., Puttonen, P. and Koski, V. (1985) Crop Physiology of Forest Trees. Proceedings of an International Conference on Managing Forest Trees as Cultivated Plants, held in Finland, 23-28 July, 1984, University of Helsinki, Finland.

Tingey, D.T., Johnson, M.G., Phillips, D.L., Johnson, D.W. and Ball, J.T. (1996) Effects of elevated CO2 and nitrogen on the synchrony of shoot and root growth in ponderosa pine. Tree Physiology 16, 905-914.

Tissue, D.T., Thomas, R.B. and 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, 49-59.

Tognetti, R., Giovannelli, A., Longobucco, A., Miglietta, F. and Raschi, A. (1996) Water relations of oak species growing in the natural CO2 spring of Rapolano (central Italy). Annales des Sciences Forestières 53, 475-485.

Townend, J. (1995) Effects of elevated CO2, water relations and nutrients on Picea sitchensis (Bong.) Carr. seedlings. New Phytologist 130, 193-206.

Tyree, M.T. and Alexander, J.D. (1993) Plant water relations and the effects of elevated CO2: a review and suggestions for future research. Vegetatio 104/105, 47-62.

Wang, K., Kellomäki, S. and Laitinen, K. (1995) Effects of needle age, long-term temperature and CO2 treatments on the photosynthesis of Scots pine. Tree Physiology 15, 211-218.

Wibbe, M.L., Blanke, M.M. and Lenz, F. (1993) Effect of fruiting on carbon budgets of apple tree canopies. Trees 8, 56-60.

Williams, R.S., Lincoln D.E. and Thomas, R.B. (1997) Effects of elevated CO2-grown loblolly pine needles on the growth, consumption, development and pupal weight of red-headed pine sawfly larvae reared in open-top chambers. Global Change Biology 3, 501-511.

Winjum, J.K. and Schroeder, P.E. (1997) Forest plantations of the world: their extent, ecological attributes, and carbon storage. Agriculture and Forest Meteorology 84, 153-167.

Wullschleger, S.D., Norby, R.J. and Gunderson, C.A. (1997) Forest trees and their response to atmospheric CO2 enrichment: a compilation of results. In: Allen, L.H. Jr, Kirkham, M.B., Olszyck, D.M. and Williams, C.E. (eds) Advances in Carbon Dioxide Effects Research. ASA Special Publication No.61, American Society of Agronomy, Madison, Wisconsin, pp. 79-100.

Yakimchuk, R. and Hoddinot, J. (1994) The influence of ultraviolet-B light and carbon dioxide enrichment on the growth and physiology of seedlings of three conifer species. Canadian Journal of Forest Research 24, 1-8.

Zak, D.R., Pregitzer, K.S., Curtis, P.S., Teeri, J.A., Fogel, R. and Randlett, D.L. (1993) Elevated atmospheric CO2 and feedback between carbon and nitrogen cycles. Plant and Soil 151, 105-117.

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