SEARCH

SEARCH BY CITATION

References

  • 1
    Allen L.H., Bisbal E.C., Boote K.J., Jones P.H. (1991) Soybean dry matter allocation under subambient and superambient levels of carbon dioxide. Agronomy Journal 83, 875883.
  • 2
    Azcon-Bieto J., Lambers H., Day D.A. (1983) Effect of photosynthesis and carbohydrate status on respiratory rates and the involvement of the alternative pathway in leaf respiration. Plant Physiology 72, 598603.
  • 3
    Baker J.T., Hartwell Allen L.Jr, Boote K.J., Pickering N.B. (1997) Rice responses to drought under carbon dioxide enrichment. I. growth and yield. Global Change Biology 3, 119128.
  • 4
    Ball J.T. & Berry J.A. (1982) The Ci/Ca ratio: a basis for predicting stomatal control of photosynthesis. Carnegie Institute of Washington Yearbook 81, 8892.
  • 5
    Barnola J.M., Raynaud D., Korotkevich Y.S., Lorius C.D. (1987) Vostok ice core provides 160,000 year record of atmospheric CO2. Nature 329, 408418.
  • 6
    Beadle C.L. (1993) Growth analysis. In Photosynthesis and Production in a Changing Environment: a Field and Laboratory Manual (eds D.O. Hall, J.M.O. Scurlock, H.R. Bolhar-Nordenkampf, R.C. Leegood & S.P. Long), pp. 36–46. Chapman and Hall, London.
  • 7
    Beck E. (1994) The morphogenic response of plants to soil nitrogen: adaptive regulation of biomass distribution and nitrogen metabolism by phytohormones. In Flux Control in Biological Systems: From Enzymes to Populations and Ecosystems (ed. E.D. Schulze), pp. 119–152. Academic Press, San Diego.
  • 8
    Berchtold A., Besson J.M., Feller U. (1993) Effects of fertilization levels in two farming systems on senescence and nutrient contents in potato leaves. Plant and Soil 154, 8188.
  • 9
    Brooks A. & Farqhar G.D. (1985) Effect of temperature on the CO2/O2 specificity of ribulose-1,5-bisphosphate carboxylase/ oxygenase and the rate of respiration in the light. Planta 165, 397406.
  • 10
    Dickson R.E. (1979) Analytical procedures for the sequential extraction of 14C-labelled constituents from leaves, bark and wood of cottonwood plants. Physiologia Plantarum 45, 480488.
  • 11
    Dippery J.K., Tissue D.T., Thomas R.B., Strain B.R. (1995) Effects of low and elevated CO2 on C3 and C4 annuals: I. growth and biomass allocation. Oecologia 101, 1320.
  • 12
    Dodd I.C. & Davies W.J. (1994) Leaf growth responses to ABA are temperature dependent. Journal of Experimental Botany 45, 903907.
  • 13
    Farquhar G.D. & Von Caemmerer S. (1982) Modelling of photosynthetic response to environmental conditions. In Physiological Plant Ecology II (eds O.L. Lange, P.S. Nobel, C.B. Osmond & H. Ziegler), pp. 549–587. Springer, Berlin.
  • 14
    Farrar J.F. (1993) Measurement of major carbohydrates and protein. In Photosynthesis and Production in a Changing Environment: a Field and Laboratory Manual (eds D.O. Hall, J.M.O. Scurlock, H.R. Bolhar-Nordenkampf, R.C. Leegood & S.P. Long), pp. 232–246. Chapman and Hall, London.
  • 15
    Hoagland D.R. & Arnon D.I. (1938) The water culture method for growing plants without soil. University of California Agricultural Experiment Station Circular, no. 347. Berkeley, CA.
  • 16
    Hsiao T.C. (1993) Effects of drought and elevated CO2 on plant water use efficiency and productivity. In Interacting Stresses on Plants in a Changing Climate (eds Jackson M.B. & Black C.R.), pp. 435–465. Springer, Berlin.
  • 17
    Irigoyen J.J., Emerich D.W., Sanchez-Diaz M. (1992) Alfalfa leaf senescence induced by drought stress: photosynthesis, hydrogen peroxide metabolism, lipid peroxidation and ethylene evolution. Physiologia Plantarum 84, 6772.
  • 18
    Jacqmard A., Houssa C., Bernier G. (1994) Regulation of the cell cycle by cytokinins. In Cytokinins: Chemistry, Activity, and Function (eds D.W.S. Mok & M.C. Mok), pp. 197–215. CRC Press, Boca Raton, FL.
  • 19
    Johnson H.B., Polley H.W., Mayeux H.S. (1993) Increasing CO2 and plant–plant interactions: effects on natural vegetation. Vegetatio 104/105, 157170.
  • 20
    Jouzel J., Barkov N.I., Barnola J.M., Bender M., Chappellaz J., Genthon C., Kotlyakov V.M., Lipenkov V., Lorius C., Petit J.R., Raynaud D., Raisbeck G., Ritz C., Sowers T., Stievenard M., Yiou F., Yiou P. (1993) Extending the Vostok ice-core record of paleoclimate to the penultimate glacial period. Nature 364, 407412.
  • 21
    Kriedemann P.E., Sward R.J., Downton J.S. (1976) Vine response to carbon dioxide enrichment during heat therapy. Australian Journal of Plant Physiology 3, 605618.
  • 22
    Kutzbach J., Gallimore R., Harrison S., Behling P., Selin R., Laarif F. (1997) Climate and biome simulations for the past 21,000 years. Quaternary Science Reviewsin press:
  • 23
    Lambers H. (1985) Respiration in intact plants and tissues: its regulation and dependence on environmental factors, metabolism, and invaded organisms. In Higher Plant Cell Respiration (eds R. Douce & D.A. Day), pp. 418–473. Springer, Berlin.
  • 24
    Lin T. & Markhart H. (1996) Phaseolus acutifolius A. Gray is more heat tolerant than Phaseolus vulgaris L. in the absences of water stress. Crop Science 36, 100114.
  • 25
    Ong C.K. & Baker C.K. (1985) Temperature and leaf growth. In Control of Leaf Growth (eds N.R. Baker, W.J. Davies & C.K. Ong), pp. 175–200. Cambridge University Press, Cambridge.
  • 26
    Ong C.K. & Monteith J.L. (1992) Canopy establishment: light capture and loss by crop canopies. In Crop Photosynthesis: Spatial and Temporal Determinants (eds N.R. Baker & H. Thomas), pp. 1–9. Elsevier Science, Amsterdam.
  • 27
    Osmond C.B., Austin M.P., Berry J.A., Billings W.D., Boyer J.S., Dacey J.W.H., Nobel P.S., Smith S.D., Winner W.E. (1987) Stress physiology and the distribution of plants. BioScience 37, 3848.
  • 28
    Pell E.J. & Dann M.S. (1991) Multiple stress-induced foliar senescence and implications for whole-plant longevity. In Response of Plants to Multiple Stresses (eds H.A. Mooney, W.E. Winner & E.J. Pell), pp. 189–204. Academic Press, San Diego.
  • 29
    Polley H.W., Johnson H.B., Marino B.D., Mayeux H.S. (1993a) Increase in C3 plant water-use efficiency and biomass over glacial to present CO2 concentrations. Nature 361, 6163.
  • 30
    Polley H.W., Johnson H.B., Mayeux H.S., Malone S.R. (1993b) Physiology and growth of wheat across a subambient carbon dioxide gradient. Annals of Botany 71, 346356.
  • 31
    Porra R.J., Thompson W.A., Kriedemann P.E. (1989) Determination of accurate extinction coefficients and simultaneous equations for assaying chlorophylls a and b extracted with four different solvents: verification of the concentration of chlorophyll standards by atomic absorption spectroscopy. Biochimica Biophysica Acta 975, 384394.
  • 32
    Potter J.R. & Jones J.W. (1977) Leaf area partitioning as an important factor in growth. Plant Physiology 59, 1014.
  • 33
    Rogers H.H., Peterson C.M., McCrimmon J.N., Bingham G.E. (1984) Influence of elevated carbon dioxide on water relations of soybeans. Plant Physiology 74, 233238.
  • 34
    Ryan M.G. (1991) Effects of climate change on plant respiration. Ecological Applications 1, 157167.
  • 35
    Sage R.F. (1994) Acclimation of photosynthesis to increasing atmospheric CO2: the gas exchange perspective. Photosynthesis Research 39, 351368.
  • 36
    Sage R.F. (1995) Was low atmospheric CO2 during the Pleistocene a limiting factor for the origin of agriculture?Global Change Biology 1, 93106.
  • 37
    Sage R.F. & Reid C.D. (1992) Photosynthetic acclimation to sub-ambient CO2 (20 Pa) in the C3 annual Phaseolus vulgaris L. Photosynthetica 27, 605617.
  • 38
    Sage R.F. & Reid C.D. (1994) Photosynthetic response mechanisms to environmental change in C3 plants. In Plant–Environment Interactions (ed. R.E. Wilkinson), p. 413–499. Marcel Dekker, New York.
  • 39
    Sage R.F., Santrucek J., Grise D. (1995) Temperature effects on the photosynthetic response of C3 plants to long-term CO2 enrichment. Vegetatio 121, 6777.
  • 40
    Sage R.F. & Sharkey T.D. (1987) The effect of temperature on the occurrence of O2 and CO2 insensitive photosynthesis in field grown plants. Plant Physiology 84, 658664.
  • 41
    Sharkey T.D. (1985) O2-insensitive photosynthesis in C3 plants. Its occurrence and a possible explanation. Plant Physiology 78, 7175.
  • 42
    Sturgeon R.J. (1990) Monosaccharides. In Methods in Plant Biochemistry (Vol. 2): Carbohydrates (eds P.M. Dey & J.B. Harborne), pp. 1–37. Academic Press, London.
  • 43
    Thomas R.B. & Strain B.R. (1991) Root restriction as a factor in photosynthetic acclimation of cotton seedlings grown in elevated carbon dioxide. Plant Physiology 96, 627634.
  • 44
    Tissue D.T., Griffin K.L., Thomas R.B., Strain B.R. (1995) Effects of low and elevated CO2 on C3 and C4 annuals: II. photosynthesis and leaf biochemistry. Oecologia 101, 2128.
  • 45
    Tissue D.T. & Wright S.J. (1995) Effect of seasonal water availability on phenology and the annual shoot carbohydrate cycle of tropical forest shrubs. Functional Ecology 9, 518527.
  • 46
    Von Caemmerer S. & Farquhar G.D. (1981) Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta 153, 376387.
  • 47
    Ziska L.H. & Bunce J.A. (1994) Direct and indirect inhibition of single leaf respiration by elevated CO2 concentrations: interaction with temperature. Physiologia Plantarum 90, 130138.