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References

  • 1
    Amthor J.S. (1989) Respiration and Crop Productivity. Springer-Verlag, Berlin.
  • 2
    Amthor J.S. (1991) Respiration in a future, higher CO2 world. Plant, Cell and Environment 14, 1320.
  • 3
    Amthor J.S. (1997) Plant respiratory responses to elevated CO2 partial pressure. In Advances in Carbon Dioxide Effects Research (eds L.H. Allen, M.B. Kirkham, D.M. Olszyk & C.E. Whitman), pp. 35–77. American Society of Agronomy Special Publication (Proceedings of 1993 ASA Symposium, Cincinnati, Ohio). ASA, CSSA, and SSSA, Madison WI.
  • 4
    Atkin O.K., Westbeek M.H.M., Cambridge M.L., Lambers H., Pons T.L. (1997) Dark respiration in leaves during light and darkness: a comparison of slow- and fast-growing Poa species. Plant Physiology 113, 961965.
  • 5
    Azcon-Bieto J. & Osmond C.B. (1983) Relationship between photosynthesis and respiration. Plant Physiology 71, 574581.
  • 6
    Azcon-Bieto J.M., Gonzàlez-Meler M.A., Dougherty W., Drake B.G. (1994) Acclimation of respiratory O2 uptake in green tissues of field grown native species after. Plant Physiology 106, 11631168.
  • 7
    Baker J.T., Laugel F., Boote K.J., Allen J.H. (1992) Effects of daytime carbon dioxide concentration on dark respiration in rice. Plant, Cell and Environment 15, 231239.
  • 8
    Bloom A.J., Sukrapanna S.S., Warner R.L. (1992) Root respiration associated with ammonium and nitrate absorption and assimilation in barley. Plant Physiology 99, 12941301.
  • 9
    Bown A.W. (1985) CO2 and intracellular pH. Plant, Cell and Environment 8, 459465.
  • 10
    Bunce J.A. (1994) Responses of respiration to increasing atmospheric carbon dioxide concentrations. Physiologia Plantarum 90, 427430.
  • 11
    Bunce J.A. (1995) The effect of carbon dioxide concentration on respiration of growing and mature soybean leaves. Plant, Cell and Environment 18, 575581.
  • 12
    Bunce J.A. & Caulfield F. (1991) Reduced respiratory carbon dioxide efflux during growth at elevated carbon dioxide in three herbaceous perennial species. Annals of Botany 67, 325330.
  • 13
    Bunce J.A. & Ziska L.H. (1996) Responses of respiration to increases in carbon dioxide concentration and temperature in three soybean cultivars. Annals of Botany 77, 507514.
  • 14
    Casella E. & Soussana J.F. (1997) Long-term effects of CO2 enrichment and temperature increase on the carbon balance of a temperature grass sward. Journal of Experimental Botany 48, 13091321.
  • 15
    Chapin F.S. III (1989) The costs of tundra plant structures: evaluation of concepts and currencies. American Naturalist 133, 119.
  • 16
    Cotrufo M.F., Ineson P., Scott A. (1998) Elevated CO2 reduces the nitrogen concentration of plant tissues. Global Change Biology 4, 4354.
  • 17
    Curtis P.S. (1996) A meta-analysis of leaf gas exchange and nitrogen in trees grown under elevated carbon dioxide. Plant, Cell and Environment 19, 127137.
  • 18
    Curtis P.S. & Wang X. (1998) A meta-analysis of elevated CO2 effects on woody plant mass, form, and physiology. Oecologia 113 (6), 299313.
  • 19
    DerVartanian D.V. & Veeger C. (1964) Studies on succinate dehydrogenase. I. Spectral properties of the purified enzyme and formation of enzyme-competitive inhibitor complexes. Biochim Biophys Acta 92, 233247.
  • 20
    Diemer M.W. (1994) Mid-season gas-exchange of an alpine grassland under elevated CO2. Oecologia 98, 429435.
  • 21
    Drake B.G., Gonzàlez-Meler M.A., Long S.P. (1997a) More efficient plants: a consequence of rising atmospheric CO2? Annual Review of Plant Physiology and Molecular Biology 48, 609639.
  • 22
    Drake B.G., Muehe M.S., Peresta G., Gonzàlez-Meler M.A., Matamala R. (1997b) Acclimation of photosynthesis, respiration and ecosystem carbon flux of a wetland on Chesapeake Bay, Maryland to elevated atmospheric CO2 concentration. Plant and Soil 187, 111118.
  • 23
    Gifford R.M. (1994) The global carbon cycle: a viewpoint on the missing sink. Australian Journal of Plant Physiology 21, 115.
  • 24
    Gifford R.M., Lambers H., Morison J.I.L. (1985) Respiration of crop species under CO2 enrichment. Physiologia Plantarum 63, 351356.
  • 25
    Gonzàlez-Meler M.A. & Siedow J.N. (1999) Direct inhibition of mitochondrial respiratory enzymes by elevated CO2: consequences for tissue and whole plant level respiration. Tree Physiology 19, 253259.
  • 26
    Gonzàlez-Meler M.A., Drake B.G., Azcon-Bieto J. (1996a) Rising atmospheric carbon dioxide and plant respiration. In Global Change: Effects on Coniferous Forests and Grasslands (eds A.I. Breymeyer, D.O. Hall, J.M. Melillo & G.I. Ågren), pp. 161–181. John Wiley & Sons Ltd., Chichester, UK.
  • 27
    Gonzàlez-Meler M.A., Ribas-Carbo M., Siedow J.N., Drake B.G. (1996b) Direct inhibition of plant mitochondrial respiration by elevated CO2. Plant Physiology 112, 13491355.
  • 28
    Ham J.M., Owensby C.E., Coyne P.I., Bremer D.J. (1995) Fluxes of CO2 and water vapor from a prairie ecosystem exposed to ambient and elevated atmospheric CO2. Agricultural and Forest Meteorology 77, 7393.
  • 29
    Hrubec T.C., Robinson J.M., Donaldson R.P. (1985) Effects of CO2 enrichment and carbohydrate content on the dark respiration of soybeans. Plant Physiology 79, 684689.
  • 30
    Kidd F. (1916) The controlling influence of carbon dioxide. Part III. The retarding effect of carbon dioxide on respiration. Proceedings of the Royal Society of London, Series B 89, 136156.
  • 31
    King A.W., Post W.M., Wullschleger S.D. (1997) The potential response of terrestrial carbon storage to changes in climate and atmospheric CO2. Climatic Change 35, 199227.
  • 32
    Lambers H., Atkin O.K., Scheurwater I. (1996) Respiratory patterns in roots in relation to their functioning. In Plant Roots: the Hidden Half (eds Y. Waisel, A. Eshel & U. Kafkaki), pp. 323–362. Marcel Decker, Inc., New York.
  • 33
    Lambers H., Scheurwater I., Millenaar F. (1997) Variation in carbon utilization in root respiration and exudation as dependent on a species’ potential growth rate and nutrient supply. In Radical Biology: Advances and Perspectives in the Function of Plant Roots (eds H.E. Flores, J.P. Lynch & D.M. Eissenstat) Current Topics in Plant Physiology, Vol. 17. pp. 87–101. American Society of Plant Physiology, Rockville, MD.
  • 34
    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.
  • 35
    Mousseau M. (1993) Effects of elevated CO2 on growth, photosynthesis and respiration of sweet chestnut (Castanea sativa Mill.). Vegetatio 104/105, 413419.
  • 36
    Murray D.R. (1995) Plant responses to carbon dioxide. American Journal of Botany. 82, 690697.
  • 37
    Navas M.-L., Guillerm J.-L., Fabreguettes J., Roy J. (1995) The influence of elevated CO2 on community structure, biomass and carbon balance of Mediterranean old-field microcosms. Global Change Biology 1, 325335.
  • 38
    Nijs I. & Impens I. (1989) Effects of long-term elevated atmospheric CO2 concentration on Loilium perenne and Trifolium repens canopies in the course of a terminal drought stress. Canadian Journal of Botany 67, 27202725.
  • 39
    Nijs I., Impens I., Behaeghe T. (1989) Effects of different CO2 environments on the photosynthesis-yield relationship and the carbon and water balance of a white clover (Trifolium repens L. cv. Blanca) sward. Journal of Experimental Botany 40, 353359.
  • 40
    Nott D.L. & Osmond C.B. (1982) Purification and properties of phosphoenol pyruvate carboxylase from plants with crassulacean acid metabolism. Australian Journal of Plant Physiology 9, 409422.
  • 41
    Palet A., Ribas-Carbo M., Argiles J.M., Azcon-Bieto J. (1991) Short-term effects of carbon dioxide on carnation callus cell respiration. Plant Physiology 96, 467472.
  • 42
    Palet A., Ribas-Carbo M., Gonzàlez-Meler M.A., Aranda X., Azcon-Bieto J. (1992) Short-term effects of CO2/bicarbonate on plant cell respiration. In Molecular, Biochemical and Physiological Aspects of Plant Respiration (eds. H. Lambers & L.H.W. van der Plas), pp. 597–601. SPB Academic Publishing bv, The Hague.
  • 43
    Penning de Vries F.W.T., Brunsting A.H.M., Van Laar H.H. (1974) Products, requirements and efficiency of biosynthesis: a quantitative approach. Journal of Theoretical Biology 45, 339377.
  • 44
    Perez-Trijo M.S. (1981) Mobilization of respiratory metabolism in potato tubers by carbon dioxide. Plant Physiology 67, 514517.
  • 45
    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. Granier), pp. 111–127. SPB Academic Publishing bv, The Hague.
  • 46
    Poorter H. & Villar R. (1997) The fate of acquired carbon in plants: Chemical composition and construction costs. In Plant Resource Allocation (eds F.A. Bazzaz & J. Grace), pp. 39–72.Academic Press, New York.
  • 47
    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.
  • 48
    Poorter H., Van Berkel Y., Baxter R., Den Hertog J., Dijkstra P., Gifford R., Griffin K.L., Roumet C., Roy J., 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, 472482.
  • 49
    Post W.M., King A.W., Wullschleger S.D. (1997) Historical variations in terrestrial biospheric carbon storage. Global Biogeochemical Cycles 11, 99109.
  • 50
    Reuveni J. & Gale J. (1985) The effect of high levels of carbon dioxide on dark respiration and growth of plants. Plant, Cell and Environment 8, 623628.
  • 51
    Reuveni J., Gale J., Mayer A.M. (1995) High ambient carbon dioxide does not affect respiration by suppressing the alternative cyanide resistant respiration. Annals of Botany 76, 291295.
  • 52
    Robertson E.J., Williams M., Harwood J.L., Lindsay J.G., Leaver C.J., Leech R.M. (1995) Mitochondria increase three-fold and mitochondrial proteins and lipid change dramatically in postmerismatic cells in young wheat leaves grown in elevated CO2. Plant Physiology 108, 469474.
  • 53
    Ruimy A., Dedieu G., Saugier B. (1996) TURC: a diagnostic model of continental gross primary productivity and net primary production. Global Biogeochemical Cycles 10, 269285.
  • 54
    Ryan M.G., Hubbard R.M., Pongracic S., Raison R.J., McMurtrie R.E. (1996) Foliage, fine-root, woody-tissue and stand respiration in Pinus radiata in relation to nitrogen status. Tree Physiology 16, 333343.
  • 55
    Schapendonk A.H.C.M., Dijkstra P., Groenwold J., Pot C.S., Van De Geijn S.C. (1997) Carbon balance and water use efficiency of frequently cut Lolium perenne L. swards at elevated carbon dioxide. Global Change Biology 3, 207216.
  • 56
    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.
  • 57
    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.
  • 58
    Ting I.P. & Osmond C.B. (1973) Photosynthetic phosphoenol pyruvate carboxylases. Characteristics of alloenzymes from leaves of C3 and C4 plants. Plant Physiology 51, 439477.
  • 59
    Tsukihara T., Aoyama H., Yamashita E., Tomizaki T., Yamaguchi K. et al. (1996) The whole structure of the 13-subunit oxidized cytochrome c oxidase at 2.8 Å. Science 272, 11361144.
  • 60
    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.
  • 61
    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.
  • 62
    Wullschleger S.D., Norby R.J., Hanson P.J. (1995) Growth and maintenance respiration in stems of Quercus alba after four years of CO2 enrichment. Physiologia Plantarum 93, 4754.
  • 63
    Wullschleger S.D., Ziska L.H., Bunce J.A. (1994) Respiratory response of higher plants to atmospheric CO2 enrichment. Physiologia Plantarum 90, 221229.
  • 64
    Wullschleger S.D., Norby R.J., Love J.C., Runck C. (1997) Energetic costs of tissue construction in yellow-poplar and white oak trees exposed to long-term CO2 enrichment. Annals of Botany 80, 289297.
  • 65
    Ziska L.H. & Bunce J.A. (1993) Inhibition of whole-plant respiration by elevated CO2 as modified by growth temperature. Physiologia Plantarum 87, 459466.