SEARCH

SEARCH BY CITATION

REFERENCES

  • 1
    Alexandrov V.Y. (1977) Cells, Molecules and Temperature. Springer, Berlin.
  • 2
    Berry J. & Bjorkman O. (1980) Photosynthetic response and adaptation to temperature in higher plants. Annual Review of Plant Physiology 31, 491 543.
  • 3
    Bilger H.-W., Schreiber U., Lange O.L. (1984) Determination of leaf heat resistance: comparative investigation of chlorophyll fluorescence changes and tissue necrosis methods. Oecologia 63, 256 262.
  • 4
    Bongi G. & Long S.P. (1987) Light-dependent damage to photosynthesis in olive leaves during chilling and high temperature stress. Plant, Cell and Environment 10, 241 249.
  • 5
    Boyer J.S. (1982) Plant productivity and environment. Science 218, 443 448.
  • 6
    Cheng S.-H., Moore B.D., Seemann J.R. (1998) Effects of short- and long-term elevated CO2 on the expression of ribulose-1,5-biphosphate carboxylase/oxygenase genes and carbohydrate accumulation in leaves of Arabidopsis thaliana (L.) Heynh. Plant Physiology 116, 715 723.
  • 7
    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, 127 137.
  • 8
    Curtis P.S. & Wang X. (1998) A meta-analysis of elevated CO2 effects on woody plant mass, form and physiology. Oecologia 113, 299 313.
  • 9
    Davis M.B. (1986) Community Ecology (eds Diamond J. & Case T.J.), pp. 269 284. Harper & Row, New York.
  • 10
    Evans R.C., Tingey D.T., Gumpertz M.L., Burns W.F. (1982) Estimates of isoprene and monoterpene emission rates in plants. Botanical Gazette 143, 304 310.
  • 11
    Faria T., Wilkins D., Besford R.T., Vaz M., Pereira J.S., Chaves M.M. (1996) Growth at elevated CO2 leads to down-regulation of photosynthesis and altered response to high temperature in Quercus suber L. seedlings. Journal of Experimental Botany 47, 1755 1761.
  • 12
    Ferris R. & Taylor G. (1994) Elevated CO2, water relations and biophysics of leaf extension in four chalk grassland herbs. New Phytologist 127, 297 307.
  • 13
    Grace J. (1987) Climatic tolerance and the distribution of plants. New Phytologist 106 (Suppl.), 113 130.
  • 14
    Gruszecki W.I. & Strzalka K. (1991) Does the xanthophyll cycle take part in the regulation of fluidity of the thylakoid membrane? Biochimica et Biophysica Acta 1060, 310 314.
  • 15
    Harley P.C., Monson R.K., Lerdau M.T. (1999) Ecological and evolutionary aspects of isoprene emission from plants. Oecologia 118, 109 123.
  • 16
    Havaux M. (1993a) Characterization of thermal damage to the photosynthetic electron transport system in potato leaves. Plant Science 94, 19 33.
  • 17
    Havaux M. (1993b) Rapid photosynthetic adaptation to heat stress triggered in potato leaves by moderately elevated temperatures. Plant, Cell and Environment 16, 461 467.
  • 18
    Havaux M. (1998) Carotenoids as membrane stabilizers in chloroplasts. Trends in Plant Science 3, 147 151.
  • 19
    Havaux M. & Gruszecki W.I. (1993) Heat- and light-induced chlorophyll a fluorescence changes in potato leaves containing high or low levels of the carotenoid zeaxanthin: indications of a regulatory effect of zeaxanthin on thylakoid membrane fluidity. Photochemistry and Photobiology 58, 607 614.
  • 20
    Heckathorn S.A., Downs C.A., Sharkey T.D., Coleman J.S. (1998) The small, methionine-rich chloroplast heat-shock protein protects photosystem II electron transport during heat stress. Plant Physiology 116, 439 444.
  • 21
    Hugly S., Kunst L., Browse J., Somerville C. (1989) Enhanced thermal tolerance of photosynthesis and altered chloroplast ultrastructure in a mutant of Arabidopsis deficient in lipid desaturation. Plant Physiology 90, 1134 1142.
  • 22
    Huxman T.E., Hamerlynck E.P., Loik M.E., Smith S.D. (1998) Gas exchange and chlorophyll fluorescence responses of three south-western Yucca species to elevated CO2 and high temperature. Plant, Cell and Environment 21, 1275 1283.
  • 23
    Jordan D.N., Zitzer S.F., Hendry G.R., Lewin K.F., Nagy J., Nowak R.S., Smith S.D., Coleman J.S., Seemann J.R. (1999) Biotic, abiotic and performance aspects of the Nevada Desert Free-Air CO2 Enrichment (FACE) Facility. Global Change Biology 5, 659 668.
  • 24
    Koniger M., Harris G.C., Pearcy R.W. (1998) Interaction between photon flux density and elevated temperatures on photoinhibition in Alocasia macrorrhiza. Planta 205, 214 222.
  • 25
    Logan B.A. & Monson R.K. (1999) Thermotolerance of leaf discs from four isoprene-emitting species is not enhanced by exposure to exogenous isoprene. Plant Physiology 120, 821 825.
  • 26
    Loreto F. & Sharkey T.D. (1990) A gas-exchange study of photosynthesis and isoprene emission in Quercus rubra L. Planta 182, 523 531.
  • 27
    Manabe S. (1998) Study of global warming by GFDL climate models. Ambio 27, 182 186.
  • 28
    Monson R.K., Hills A.J., Zimmerman P.R., Fall R.R. (1991) Studies of the relationship between isoprene emission rate and CO2 or photon-flux density using a real-time isoprene analyser. Plant, Cell and Environment 14, 517 523.
  • 29
    Moore B.D., Cheng S.-H., Sims D., Seemann J.R. (1999) The biochemical and molecular basis for photosynthetic acclimation to elevated atmospheric CO2. Plant, Cell and Environment 22, 567 582.
  • 30
    Moore B.D., Palmquist D.E., Seemann J.R. (1997) Influence of plant growth at high CO2 concentrations on leaf content of ribulose-1,5-biphosphate carboxylase/oxygenase and intracellular distributions of soluble carbohydrates in tobacco, snapdragon, and parsley. Plant Physiology 115, 241 248.
  • 31
    Pearcy R.W. (1978) Effect of growth temperature on the fatty acid composition of the leaf lipids in Atriplex lentiformis (Torr.) Wats. Plant Physiology 61, 484 486.
  • 32
    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: Carbon Dioxide, Populations and Communities (eds Korner C. & Bazzaz F.A.), pp. 375 412. Academic Press, San Diego.
  • 33
    Poorter H., Van Berkel Y., Baxter R., Den Hertog J., Dijkstra P., Gifford R.M., 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, 472 482.
  • 34
    Ramnathan V. (1998) Trace-gas greenhouse effect and global warming. Ambio 27, 187 197.
  • 35
    Rekika D., Monneveux P., Havaux M. (1997) The in vivo tolerance of photosynthetic membranes to high and low temperatures in cultivated and wild wheats of the Triticum and Aegilops genera. Journal of Plant Physiology 150, 734 738.
  • 36
    Roden J.S. & Ball M.C. (1996a) The effect of elevated [CO2] on growth and photosynthesis of two Eucalyptus species exposed to high temperatures and water deficits. Plant Physiology 111, 909 919.
  • 37
    Roden J.S. & Ball M.C. (1996b) Growth and photosynthesis of two eucalypt species during high temperature stress under ambient and elevated [CO2]. Global Change Biology 2, 115 128.
  • 38
    Roden J.S., Egerton J.J.G., Ball M.C. (1999) Effect of elevated [CO2] on photosynthesis and growth of snow gum (Eucalyptus pauciflora) seedlings during winter and spring. Australian Journal of Plant Physiology 26, 37 46.
  • 39
    Santarius K.A. (1973) The protective effect of sugars on chloroplast membranes during temperature and water stress and its relationship to frost, desiccation and heat resistance. Planta 113, 105 114.
  • 40
    Schreiber U. & Berry J.A. (1977) Heat-induced changes of chlorophyll fluorescence in intact leaves, correlated with damage of the photosynthetic apparatus. Planta 136, 233 238.
  • 41
    Seemann J.R., Berry J.A., Downton W.J.S. (1984) Photosynthetic response and adaptation to high temperature in desert plants. Plant Physiology 75, 364 368.
  • 42
    Seemann J.R., Downton W.J.S., Berry J.A. (1986) Temperature and leaf osmotic potential as factors in the acclimation of photosynthesis to high temperature in desert plants. Plant Physiology 80, 926 930.
  • 43
    Sharkey T.D. & Loreto F. (1993) Water stress, temperature, and light effects on the capacity for isoprene emission and photosynthesis of kudzu leaves. Oecologia 95, 328 333.
  • 44
    Sharkey T.D. & Singsaas E.L. (1995) Why plants emit isoprene. Nature 374, 769.
  • 45
    Sharkey T.D., Loreto F., Delwiche C.F. (1991) High carbon dioxide and sun/shade effects on isoprene emission from oak and aspen tree leaves. Plant, Cell and Environment 14, 333 338.
  • 46
    Sicher R.C. & Kremer D.F. (1996) Rubisco activity is altered in a starchless mutant of Nicotiana sylvestris grown in elevated carbon dioxide. Environmental and Experimental Botany 36, 385 391.
  • 47
    Singsaas E.L., Lerdau M., Winter K., Sharkey T.D. (1997) Isoprene increases thermotolerance of isoprene-emitting species. Plant Physiology 115, 1413 1420.
  • 48
    Stapel D., Kruse E., Kloppstech K. (1993) The protective effect of heat shock proteins against photoinhibition under heat stress in barley (Hordeum vulgare). Journal of Photochemistry and Photobiology [B]: Biology 21, 211 218.
  • 49
    Tardy F. & Havaux M. (1997) Thylakoid membrane fluidity and thermostability during the operation of the xanthophyll cycle in higher-plant chloroplasts. Biochimica et Biophysica Acta 1330, 179 193.
  • 50
    Thomas P.G., Dominy P.J., Vigh L., Mansourian A.R., Quinn P.J., Williams W.P. (1986) Increased thermal stability of pigment–protein complexes of pea thylakoids following catalytic hydrogenation of membrane lipids. Biochimica et Biophysica Acta 849, 131 140.
  • 51
    Tognetti R., Johnson J.D., Michelozzi M., Raschi A. (1998) Response of foliar metabolism in mature trees of Quercus pubescens and Quercus ilex to long-term elevated CO2. Environ-mental and Experimental Botany 39, 233 245.
  • 52
    Wagner D. (1996) Scenarios of extreme temperature events. Climatic Change 33, 385 407.
  • 53
    Wildermuth M.C. & Fall R. (1996) Light-dependent isoprene emission: characterization of a thylakoid-bound isoprene synthase in Salix discolor chloroplasts. Plant Physiology 112, 171 182.
  • 54
    Williams M., Robertson E.J., Leech R.M., Harwood J.L. (1998) Lipid metabolism in leaves from young wheat (Triticum aestivum cv. Hereward) plants grown at two carbon dioxide levels. Journal of Experimental Botany 49, 511 520.
  • 55
    Williams W.P., Brain A.P.R., Dominy P.J. (1992) Induction of non-bilayer lipid phase separations in chloroplast thylakoid membranes by compatible co-solutes and its relation to the thermal stabillity of photosystem II. Biochimica et Biophysica Acta 1099, 137 144.