SEARCH

SEARCH BY CITATION

REFERENCES

  • Adams M.A. & Grierson P.F. (2001) Stable isotopes at natural abundance in terrestrial plant ecology and ecophysiology: an update. Plant Biology 3, 299310.
  • Barbour M.M. & Farquhar G.D. (2000) Relative humidity- and ABA-induced variation in carbon and oxygen isotope ratios of cotton leaves. Plant, Cell & Environment 23, 473485.
  • Barbour M.M., Fischer R.A., Sayre K.D. & Farquhar G.D. (2000a) Oxygen isotope ratio of leaf and grain material correlates with stomatal conductance and grain yield in irrigated wheat. Australian Journal of Plant Physiology 27, 625637.
  • Barbour M.M., Schurr U., Henry B.K., Wong S.C. & Farquhar G.D. (2000b) Variation in the oxygen isotope ratio of phloem sap sucrose from castor bean. Evidence in support of the Péclet effect. Plant Physiology 123, 671679.
  • Barbour M.M., Roden J.S., Farquhar G.D. & Ehleringer J.R. (2004) Expressing leaf water and cellulose oxygen isotope ratios as enrichment above source water reveals evidence of a Péclet effect. Oecologia 138, 426435.
  • Barbour M.M., Hunt J.E., Dungan R.J., Turnbull M.H., Brailsford G.W., Farquhar G.D. & Whitehead D. (2005) Variation in the degree of coupling between δ13C of phloem sap and ecosystem respiration in two mature Nothofagus forests. New Phytologist 166, 497512.
  • Bottinga Y. & Craig H. (1969) Oxygen isotope fractionation between CO2 and water, and the isotopic composition of marine atmospheric CO2. Earth and Planetary Science Letters 5, 285295.
  • Brandes E., Kodama N., Whittaker K., Weston C., Rennenberg H., Keitel C., Adams M.A. & Gessler A. (2006) Short-term variation in the isotopic composition of organic matter allocated from the leaves to the stem of Pinus sylvestris – effects of photosynthetic and post-photosynthetic carbon isotope fractionation. Global Change Biology (in press).
  • Brendel O. (2001) Does bulk-needle δ13C reflect short-term discrimination? Annals of Forest Science 58, 135141.
  • 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 C-3 plants and the ratio of intercellular and atmospheric partial pressures of carbon dioxide. Plant Physiology 88, 14181424.
  • Cappa C.D., Hendricks M.B., DePaolo D.J. & Cohen R.C. (2003) Isotopic fractionation of water during evaporation. Journal of Geophysical Research – Atmospheres 108, 45254534.
  • Cernusak L.A., Arthur D.J., Pate J.S. & Farquhar G.D. (2003a) Water relations link carbon and oxygen isotope discrimination to phloem sap sugar concentration in Eucalyptus globulus. Plant Physiology 131, 15441554.
  • Cernusak L.A., Wong S.C. & Farquhar G.D. (2003b) Oxygen isotope composition of phloem sap in relation to leaf water in Ricinus communis. Functional Plant Biology 30, 10591070.
  • Cernusak L.A., Farquhar G.D. & Pate J.S. (2005) Environmental and physiological controls over oxygen and carbon isotope composition of Tasmanian blue gum, Eucalyptus globulus. Tree Physiology 25, 129146.
  • Damesin C., Rambal S. & Joffre R. (1998) Seasonal and annual changes in leaf δ13C in two co-occurring Mediterranean oaks: relations to leaf growth and drought progression. Functional Ecology 12, 778785.
  • Dongmann G., Nurnberg H.W., Förstel H. & Wagener K. (1974) On the enrichment of H218O in the leaves of transpiring plants. Radiation and Environmental Biophysics 11, 4152.
  • Farquhar G.D. & Cernusak L.A. (2005) On the isotopic composition of leaf water in the non-steady state. Functional Plant Biology 32, 293303.
  • Farquhar G.D. & Lloyd J. (1993) Carbon and oxygen isotope effects in the exchange of carbon dioxide between terrestrial plants and the atmosphere. In Stable Isotopes and Plant Carbon–Water Relations (eds J.R.Ehleringer, A.E.Hall & G.D.Farquhar), pp. 4770. Academic Press, San Diego, CA, USA.
  • Farquhar G.D., O’Leary M.H. & Berry J.A. (1982) On the relationship between carbon isotope discrimination and the inter-cellular carbon-dioxide concentration in leaves. Australian Journal of Plant Physiology 9, 121137.
  • Farquhar G.D., Hubick K.T., Condon A.G. & Richards R.A. (1989) Carbon isotope discrimination and water-use efficiency. In Stable Isotopes in Ecological Research (eds P.W.Rundel, J.R.Ehleringer & K.A.Nagy), pp. 2146. Springer, New York, USA.
  • Farquhar G.D., Barbour M.M. & Henry B.K. (1998) Interpretation of oxygen isotope composition of leaf material. In Stable Isotopes – Integration of Biology, Ecological and Geochemical Processes (ed. H.Griffiths), pp. 2774. Bios Scientific Publishers, Oxford, UK.
  • Förstel H. & Hützen H. (1983) 18O/16O ratios of water in a local ecosystem as a basis of climate record. In Palaeoclimates and Palaeowaters: A Collection of Environmental Isotope Studies pp. 6781. IAEA, Vienna, Austria.
  • Fotelli M.N., Rennenberg H., Holst T., Mayer H. & Gessler A. (2003) Carbon isotope composition of various tissues of beech (Fagus sylvatica) regeneration is indicative of recent environmental conditions within the forest understorey. New Phytologist 159, 229244.
  • Fritsch J. (1998) Energiebilanz und Verdunstung eines bewaldeten Hanges im Hochschwarzwald. Bericht Des Meteorologischen Instituts der Universität Freiburg 1.
  • Gessler A., Schneider S., Weber P., Hanemann U. & Rennenberg H. (1998) Soluble N compounds in trees exposed to high loads of N: a comparison between the roots of Norway spruce (Picea abies) and beech (Fagus sylvatica) trees grown under field conditions. New Phytologist 138, 385399.
  • Gessler 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.
  • Gessler A., Kreuzwieser J., Dopatka T. & Rennenberg H. (2002) Diurnal courses of ammonium net uptake by the roots of adult beech (Fagus sylvatica) and spruce (Picea abies) trees. Plant and Soil 240, 2332.
  • Gessler A., Keitel C., Nahm M. & Rennenberg H. (2004a) Water shortage affects the water and nitrogen balance in central European beech forests. Plant Biology 6, 289298.
  • Gessler A., Rennenberg H. & Keitel C. (2004b) Stable isotope composition of organic compounds transported in the phloem of European beech – evaluation of different methods of phloem sap collection and assessment of gradients in carbon isotope composition during leaf-to-stem transport. Plant Biology 6, 721729.
  • Granier A., Loustau D. & Breda N. (2000) A generic model of forest canopy conductance dependent on climate, soil water availability and leaf area index. Annals of Forest Science 57, 755765.
  • Helle G. & Schleser G.H. (2004) Beyond CO2-fixation by Rubisco – an interpretation of C-13/C-12 variations in tree rings from novel intra-seasonal studies on broad-leaf trees. Plant, Cell & Environment 27, 367380.
  • Hemming D., Yakir D., Ambus P., et al. (2005) Pan-European δ13C values of air and organic matter from forest ecosystems. Global Change Biology 11, 10651093.
  • Hultine K.R. & Marshall J.D. (2000) Altitude trends in conifer leaf morphology and stable carbon isotope composition. Oecologia 123, 3240.
  • Jäggi M., Saurer M., Fuhrer J. & Siegwolf R. (2003) Seasonality of δ18O in needles and wood of Picea abies. New Phytologist 158, 5159.
  • Keitel C., Adams M.A., Holst T., Matzarakis A., Mayer H., Rennenberg H. & Gessler A. (2003) Carbon and oxygen isotope composition of organic compounds in the phloem sap provides a short-term measure for stomatal conductance of European beech (Fagus sylvatica L.). Plant, Cell & Environment 26, 11571168.
  • Körner C., Farquhar G.D. & Wong S.C. (1991) Carbon isotope discrimination by plants follows latitudinal and altitudinal trends. Oecologia 88, 3040.
  • Korol R.L., Kirschbaum M.U.F., Farquhar G.D. & Jeffreys M. (1999) Effects of water status and soil fertility on the C-isotope signature in Pinus radiata. Tree Physiology 19, 551562.
  • Kozlowski T.T. & Pallardy S.G. (2002) Acclimation and adaptive responses of woody plants to environmental stresses. Botanical Review 68, 270334.
  • Livingston N.J. & Spittlehouse D.L. (1996) Carbon isotope fractionation in tree ring early and late wood in relation to intra-growing season water balance. Plant, Cell & Environment 19, 768774.
  • Matzarakis A., Mayer H., Schindler D. & Fritsch J. (2000) Simulation des Wasserhaushaltes eines Buchenwaldes mit dem forstlichen Wasserhaushaltsmodell WBS3. Bericht Des Meteorologischen Instituts der Universität Freiburg 5, 137146.
  • Nahm M., Holst T., Matzarakis A., Mayer H., Rennenberg H. & Gessler A. (2006) Soluble N compound profiles and concentrations in European beech (Fagus sylvatica L.) are influenced by local climate and thinning. European Journal of Forest Research 125, 114.
  • Pataki D.E., Oren R. & Phillips N. (1998) Responses of sap flux and stomatal conductance of Pinus taeda L. trees to stepwise reductions in leaf area. Journal of Experimental Botany 49, 871878.
  • Pate J. & Arthur D. (1998) δ13C analysis of phloem sap carbon: novel means of evaluating seasonal water stress and interpreting carbon isotope signatures of foliage and trunk wood of Eucalyptus globulus. Oecologia 117, 301311.
  • Pepin S. & Körner C. (2002) Web-FACE: a new canopy free-air CO2 enrichment system for tall trees in mature forests. Oecologia 133, 19.
  • Roden J.S., Lin G.G. & Ehleringer J.R. (2000) A mechanistic model for interpretation of hydrogen and oxygen isotope ratios in tree-ring cellulose. Geochimica et Cosmochimica Acta 64, 2135.
  • Saurer M., Aellen K. & Siegwolf R. (1997) Correlating δ13C and δ18O in cellulose of trees. Plant, Cell & Environment 20, 15431550.
  • Scartazza A., Mata C., Matteucci G., Yakir D., Moscatello S. & Brugnoli E. (2004) Comparisons of δ13C of photosynthetic products and ecosystem respiratory CO2 and their response to seasonal climate variability. Oecologia 140, 340351.
  • Scheidegger Y., Saurer M., Bahn M. & Siegwolf R. (2000) Linking stable oxygen and carbon isotopes with stomatal conductance and photosynthetic capacity: a conceptual model. Oecologia 125, 350357.
  • Schneider S., Gessler A., Weber P., Von Sengbusch D., Hanemann U. & Rennenberg H. (1996) Soluble N compounds in trees exposed to high loads of N: a comparison of spruce (Picea abies) and beech (Fagus sylvatica) grown under field conditions. New Phytologist 134, 103114.
  • Schulze E.D., Williams R.J., Farquhar G.D., Schulze W., Langridge J., Miller J.M. & Walker B.-H. (1998) Carbon and nitrogen isotope discrimination and nitrogen nutrition of trees along a rainfall gradient in northern Australia. Australian Journal of Plant Physiology 25, 413425.
  • Sparks J.P. & Ehleringer J.R. (1997) Leaf carbon isotope discrimination and nitrogen content for riparian trees along elevational transects. Oecologia 109, 362367.
  • Sternberg L. & Deniro M.J. (1983) Bio-geochemical implications of the isotopic equilibrium fractionation factor between oxygen atoms of acetone and water. Geochimica et Cosmochimica Acta 47, 22712274.
  • Stewart G.R., Turnbull M.H., Schmidt S. & Erskine P.D. (1995) C-13 natural-abundance in plant-communities along a rainfall gradient – a biological integrator of water availability. Australian Journal of Plant Physiology 22, 5155.
  • Switsur R. & Waterhouse J. (1998) Stable isotopes in tree ring cellulose. In Stable Isotopes – Integration of Biology, Ecological and Geochemical Processes (ed. H.Griffiths), pp. 303321. Bios Scientific Publishers, Oxford, UK.
  • Tyerman S.D., Niemietz C.M. & Bramley H. (2002) Plant aquaporins: multifunctional water and solute channels with expanding roles. Plant, Cell & Environment 25, 173194.
  • Wang X.F. & Yakir D. (1995) Temporal and spatial variations in the oxygen-18 content of leaf water in different plant species. Plant, Cell & Environment 18, 13771385.
  • Warren C.R., McGrath J.F. & Adams M.A. (2001) Water availability and carbon isotope discrimination in conifers. Oecologia 127, 476486.
  • Whitehead D. & Jarvis P.G. (1981) Coniferous forests and plantations. In Water Deficits and Plant Growth, Vol. 6 (ed. T.T.Kozlowski), pp. 4952. Academic Press, San Diego, CA, USA.
  • Yakir D. (1998) Oxygen-18 of leaf water: a crossroad for plant-associated isotopic signals. In Stable Isotopes – Integration of Biology, Ecological and Geochemical Processes (ed. H.Griffiths), pp. 147168. Bios Scientific Publishers, Oxford, UK.
  • Yakir D. & Deniro M.J. (1990) Oxygen and hydrogen isotope fractionation during cellulose metabolism in Lemna gibba. Plant Physiology 93, 325332.