SEARCH

SEARCH BY CITATION

REFERENCES

  • Ashworth E.N., Stirm V.E. & Volenec J.J. (1993) Seasonal variations in soluble sugars and starch within woody stems of Cornus sericea L. Tree Physiology 13, 379388.
  • Barbaroux C. & Bréda N. (2002) Contrasting distribution and seasonal dynamics of carbohydrates reserves in the stem wood of adult ring porous (sessile oak) and diffuse porous (common beech) trees. Tree Physiology 22, in press.
  • Benner R., Fogel M.L., Kent Sprague E. & Hodson R.E. (1987) Depletion of 13C in lignin and its implications for stable carbon isotope studies. Nature 329, 708710.
  • Borland A.M., Griffiths H., Broadmeadow M.S.J., Fordham M.C. & Maxwell C. (1994) Carbon-isotope composition of biochemical fractions and the regulation of carbon balance in leaves of the C3-crassulacean acid metabolism intermediate Clusia minor L. growing in Trinidad. Plant Physiology 106, 493501.
  • Brugnoli E., Hubick K.T., Von Caemmerer S., Wong S.C. & Farquhar G.D. (1988) Correlation between the carbon isotope discrimination in leaf starch and sugars of C3 plants and the ratio of intercellular and atmospheric partial pressures of carbon dioxide. Plant Physiology 88, 14181424.
  • Von Caemmerer S. & Evans J.R. (1991) Determination of the average partial pressure of CO2 in chloroplasts from leaves of several C3 plants. Australian Journal of Plant Physiology 18, 287305.
  • Cernusak L.A., Marshall J.D., Comstock J.P. & Balster N.J. (2001) Carbon isotope discrimination in photosynthetic bark. Oecologia 128, 2435.
  • Comstock J.P. & Ehleringer J.R. (1988) Contrasting photosynthetic behavior in leaves and twigs of Hymenoclea salsola, a green-twigged, warm desert shrub. American Journal of Botany 75, 13601370.
  • Condon A.G., Richards R.A. & Farquhar G.D. (1992) The effect of variation in soil water availability, vapour pressure deficit and nitrogen nutrition on carbon isotope discrimination in wheat. Australian Journal of Agricultural Resources 43, 935947.
  • Damesin C., Ceshia E., Le Goff N., Ottorini J.-M. & Dufrêne E. (2002) Stem and branch respiration of beech: from tree measurements to estimations at the stand level. New Phytologist 153, 159172.
  • Damesin C., Rambal S. & Joffre R. (1997) Between-tree variations in leaf δ13C of Quercus pubescens and Quercus ilex among Mediterranean habitats with different water availability. Oecologia 111, 2635.
  • Damesin C., Rambal S. & Joffre R. (1998) Seasonal and annual changes in leaf δ13C in two occurring Mediterranean oaks: relations to leaf growth and drought progression. Functional Ecology 12, 778785.
  • Deléens E. (1976) La discrimination du 13C et les trois types de métabolisme des plantes. Physiologie Végétale 14, 641656.
  • Deléens E., Schwebel-Dugue N. & Tremolieres A. (1984) Carbon isotope composition of lipidic classes isolated from tobacco leaves. Federation of European Biochemical Societies 178, 5558.
  • DeNiro M.J. & Epstein S. (1977) Mechanism of carbon isotope fractionation associated with lipid synthesis. Science 197, 261263.
  • Dupouey J.-L., Leavitt S., Choisnel E. & Jourdain S. (1993) Modelling carbon isotope fractionation in tree rings based on effective evapotranspiration and soil water status. Plant, Cell and Environment 16, 939947.
  • Duranceau M., Ghashghaie J., Badeck F., Deléens E. & Cornic G. (1999) δ13C of CO2 respired in the dark in relation to δ13C of leaf carbohydrates in Phaseolus vulgaris L. under progressive drought. Plant, Cell and Environment 22, 515523.
  • Ehleringer J.R. (1990) Correlations between carbon isotope discrimination and leaf conductance to water vapor in common beans. Plant Physiology 93, 14221425.
  • Ehleringer J.R. (1993) Variations in leaf carbon isotope discrimination in Encelia farinosa: implications for growth, competition, and drought survival. Oecologia 95, 340346.
  • Ehleringer J.R. & Cooper T.A. (1988) Correlations between carbon isotope ratio and microhabitat in desert plants. Oecologia 76, 562566.
  • Ehleringer J.R., Hall A.E. & Farquhar G.D. (1993) Stable Isotopes and Plant Carbon-Water Relations. Academic Press, San Diego, Boston, New York.
  • Ekblad A. & Högberg P. (2001) Natural abundance of 13C in CO2 respired from forest soils reveals speed of link between tree photosynthesis and root respiration. Oecologia 127, 305308.
  • Farquhar G.D., Ehleringer J.R. & Hubick K.T. (1989) Carbon isotope discrimination and photosynthesis. Annual Review of Plant Physiology Plant Molecular Biology 40, 503537.
  • Farquhar G.D., Hubick K.T., Condon A.G. & Richards R.A. (1988) Carbon isotope fractionation and plant water use efficiency. In Applications of Stable Isotope Ratios to Ecological Research (eds P.W.Rundel, J.R.Ehleringer & K.Nagy), pp. 2140. Springer Verlag, New York, USA.
  • Farquhar G.D., O'Leary M.H. & Berry A. (1982) On the relationship between carbon isotope discrimination and the intercellular carbon dioxide concentration in leaves. Australian Journal of Plant Physiology 9, 121137.
  • Flanagan L.B., Brooks J.R., Varney G.T., Berry S.C. & Ehleringer J.R. (1996) Carbon isotope discrimination during photosynthesis and the isotope ratio of respired CO2 in boreal forest ecosystem. Global Biogeochemical Cycles 10, 629640.
  • Flanagan L.B., Kubien D.S. & Ehleringer J.R. (1999) Spatial and temporal variation in the carbon and oxygen stable isotope ratio of respired CO2 in a boreal forest ecosystem. Tellus 51B, 367384.
  • Francey R.J., Gifford R.M., Sharkey T.D. & Weir B. (1985) Physiological influences on carbon isotope discrimination in huon pine (Lagarostrobos franklinii). Oecologia 66, 211218.
  • Gebler A., Schrempp S., Matzarakis A., Mayer H., Rennenberg H. & Adams M.A. (2001) Radiation modifies the effect of water availability on the carbon isotope composition of beech (Fagus sylvatica). New Phytologist 150, 653664.
  • Ghashghaie J., Duranceau M., Badeck M., Cornic G., Adeline M.T. & Deléens E. (2001) δ13C of CO2 respired in the dark in relation to δ13C of leaf metabolites: comparison between Nicotiana sylvestris and Heliantus annuus under drought. Plant, Cell and Enviromnent 24, 505515.
  • Gleixner G., Danier H.-J., Werner R.A. & Schmidt H.-L. (1993) Correlations between the 13C content of primary and secondary plant products in different cell compartments and that in decomposing Basidiomycetes. Plant Physiology 102, 12871290.
  • Guehl J.M., Domenach A.M., Bereau M., Barigah T.S., Casabianca H., Ferhi A. & Garbaye J. (1998) Functional diversity in an Amazonian rainforest of French Guyana: a dual isotope approach (δ15C and δ13C). Oecologia 116, 316330.
  • Hanba Y.T., Mori S., Lei T.T., Koike T. & Wada E. (1997) Variations in leaf δ13C along a vertical profile of irradiance in a temperate Japanese forest. Oecologia 110, 253261.
  • Heaton T.H.E. & Crossley A. (1995) Carbon isotope variations in a plantation of Sitka spruce, and the effect of acid mist. Oecologia 103, 109117.
  • Hew C.S., Ng C.K.Y., Gouk S.S., Yong J.W.H. & Wong S.C. (1996) Variation in δ13C values for different plant parts of an Oncidium orchid. Photosynthetica 32, 135139.
  • Israeli Y., Schwartz A., Plaut Z. & Yakir D. (1996) Effects of light regime on δ13C, photosynthesis and yield of field-grown banana (Musa sp., Musaceae). Plant, Cell and Environment 19, 225230.
  • Jäggi M., Saurer M., Fuhrer J. & Siegwolf R. (2002) The relationship between the stable isotope composition of needle bulk material, starch, and tree rings in Picea abies. Oecologia 131, 325332.
  • Jordan M.O. & Mariotti A. (1998) Can carbon isotopic discrimination in young peach trees be considered as a tool to understand the seasonal dynamic of the stored carbon? In Proceedings of the Fourth International Peach Symposium (ed. R.Monet), pp. 327335. International Society for Horticultural Science, Leuven, Belgium.
  • Kozlowski T.T., Kramer P.J. & Pallardy S.G. (1991) The Physiological Ecology of Woody Plants. Academic Press, San Diego, CA, USA.
  • Kühn C., Barker L., Bürkle L. & Frommer W.-B. (1999) Update on sucrose transport in higher plants. Journal of Experimental Botany 50, 935953.
  • Le Roux X., Bariac T., Sinoquet H., Genty B., Piel C., Mariotti A., Girardin C. & Richard P. (2001) Spatial distribution of leaf water-use efficiency and carbon isotope discrimination within an isolated tree crown. Plant, Cell and Environment 24, 10211032.
  • Le Roux-Swarthout D.J., Terwilliger V.J. & Martin C.E. (2001) Deviation between δ13C and leaf intercellular CO2 in Salix interior cuttings developing under low light. International Journal of Plant Science 162, 10171024.
  • Leavitt S.W. & Long A. (1982) Evidence for 13C/12C fractionation between tree leaves and wood. Nature 298, 742743.
  • Leavitt S.W. & Long A. (1985) Stable-carbon isotopic composition of maple sap and foliage. Plant Physiology 78, 427429.
  • Leavitt S.W. & Long A. (1986) Stable-carbon isotope variability in tree foliage and wood. Ecology 67, 10021010.
  • Lin G. & Ehleringer J.R. (1997) Carbon isotopic fractionation does not occur during dark respiration in C3 and C4 plants. Plant Physiology 114, 391394.
  • Lipp J., Trimborn P., Fritz P., Moser H., Becker B. & Frenzel B. (1991) Stable isotopes in tree-ring cellulose and climatic change. Tellus 43B, 322330.
  • Lowdon J.A. & Dyck W. (1974) Seasonal variations in the isotope ratios of carbon in maple leaves and other plants. Canadian Journal of Earth Science 11, 7988.
  • Marshall J.D. & Monserud R.A. (1996) Homeostatic gas-exchange parameters inferred from 13C/12C in tree rings of conifers. Oecologia 105, 1321.
  • Martinelli L.A., Almeida S., Brown I.F., Moreira M.Z., Victoria R.L., Sternberg L.S.L., Ferreira C.A.C. & Thomas W.W. (1998) Stable carbon isotope ratio of tree leaves, boles and fine litter in a tropical forest in Rondonia, Brazil. Oecologia 114, 170179.
  • Medina E., Sternberg L. & Cuevas E. (1991) Vertical stratification of δ13C values in closed natural and plantation forests in the Luquillo mountains, Puerto Rico. Oecologia 87, 369372.
  • Miller J.M., Williams R.J. & Farquhar G.D. (2001) Carbon isotope discrimination by a sequence of Eucalyptus species along a subcontinental rainfall gradient in Australia. Functional Ecology 15, 222232.
  • Morecroft M.D. & Roberts J.M. (1999) Photosynthesis and stomatal conductance of mature canopy oak (Quercus robur) and sycamore (Acer pseudoplatanus) trees throughout the growing season. Functional Ecology 13, 332342.
  • Nilsen E.T. & Sharifi M.R. (1997) Carbon isotopic composition of legumes with photosynthetic stems from Mediterranean and desert habitats. American Journal of Botany 84, 17071713.
  • O'Leary M.H. (1981) Carbon isotope fractionation in plants. Phytochemistry 20, 553567.
  • O'Leary M.H. (1988) Carbon isotopes in photosynthesis. Fractionation techniques may reveal new aspects of carbon dynamics in plants. Bioscience 38, 328336.
  • Panek J. & Waring R.H. (1997) Stable carbon isotopes as indicators of limitations to forest growth imposed by climate stress. Ecological Applications 7, 854863.
  • Picon C., Guehl J.-M. & Ferhi 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, 182190.
  • Poorter H. & Farquhar G.D. (1994) Transpiration, intercellular carbon dioxide concentration and carbon-isotope discrimination of 24 wild species differing in relative growth rate. Australian Journal of Plant Physiology 21, 507516.
  • Sauter J.J. (1988) Temperature-induced changes in starch and sugars in the stem of Populus×canadensis ‘robusta. Journal of Plant Physiology 132, 608612.
  • Schleser G.H. (1990) Investigations of the δ13C pattern in leaves of Fagus sylvatica L. Journal of Experimental Botany 41, 565572.
  • Schleser G.H. (1992) δ13C pattern in a forest tree as an indicator of carbon transfer in trees. Ecology 73, 19221925.
  • Schleser G.H. & Jayasekera R. (1985) δ13C-variations of leaves in forests as an indication of reassimilated CO2 from the soil. Oecologia 65, 536542.
  • Smith S.D. & Osmond C.B. (1987) Stem photosynthesis in a desert ephemeral, Eriogonum inflatum. Morphology, stomatal conductance and water-use efficiency in field populations. Oecologia 72, 533541.
  • Sturm A. & Tang G.-Q. (1999) The sucrose-cleaving enzymes of plants are crucial for development, growth and carbon partitioning. Trends in Plant Science 4, 401407.
  • Syvertsen J.P., Smith M.L., Lloyd J. & Farquhar G.D. (1997) Net carbon dioxide assimilation, carbon isotope discrimination, growth, and water-use efficiency of Citrus trees in response to nitrogen status. Journal of the American Society for Horticultural Science 122, 226232.
  • Terwilliger V.J., Kitajima K., Le Roux-Swarthout D.J., Mulkey S. & Wright S.J. (2001) Intrinsic water-use efficiency and heterotrophic investment in tropical leaf growth of two netropical pioneer tree species as estimated from δ13C values. New Phytologist 152, 267281.
  • Troughton J.H., Card K.A. & Hendy C.H. (1974) Photosynthetic pathways and carbon isotope discrimination by plants. In Carnegie Institute of Washington, Yearbook 73 (ed. S.A.McGough), pp. 6880. Lucas Printing Co., Baltimore, MD, USA.
  • Vivin P. & Guehl J.M. (1997) Changes in carbon uptake and allocation patterns in Quercus robur seedlings in response to elevated CO2 and water stress: an evaluation with 13C labelling. Annals of Forest Science 54, 597610.
  • Wanek W., Heintel S. & Richter A. (2001) Preparation of starch and other carbon fractions from higher leaves for stable carbon isotope analysis. Rapid Communications in Mass Spectrometry 15, 11361140.
  • Watmough S.A., McNeely R. & Lafleur P.M. (2001) Changes in wood and foliar δ13C in sugar maple at Gatineau Park, Quebec, Canada. Global Change Biology 7, 955960.
  • Welker J.M., Wookey P.A., Parsons A.N., Press M.C., Callaghan T.V. & Lee J.A. (1993) Leaf carbon isotope discrimination and vegetative responses of Dryas octopetala to temperature and water manipulations in a high Arctic polar semi-desert, Svalbard. Oecologia 95, 463469.
  • West A.G., Midgley J.J. & Bond W.J. (2001) The evaluation of δ13C isotopes of trees to determine past regeneration environments. Forest Ecology and Management 147, 139149.
  • Witt W. & Sauter J.J. (1994) Starch metabolism in poplar ray cells during spring mobilization and summer deposition. Physiologia Plantarum 92, 916.