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  • Affek H.P., Krisch M.J. & Yakir D. (2006) Effects of intraleaf variations in carbonic anhydrase activity and gas exchange on leaf C18OO isoflux in Zea mays. New Phytologist 169, 321329.
  • Barbour M.M. & Farquhar G.D. (2003) Do pathways of water movement and leaf anatomical dimensions allow development of gradients in H218O between veins and the sites of evaporation within the leaves? Plant, Cell & Environment 27, 115.
  • Barbour M.M., Schurr U., Henry B.K., Wong S.C. & Farquhar G.D. (2000) Variation in the oxygen isotope ratio of phloem sap sucrose from castor bean. Evidence in support of the Péclet effect. Plant Physiology 123, 671679.
  • Bariac T. (1987) Evolutions de l'oxygène-18 et du deuterium de l'eau dans le continuum sol-plante-atmosphère. Bulletin du G.F.H.N. 21, 1133.
  • Bariac T., Jusserand C. & Mariotti A. (1990) Evolution spatio-temporelle de la composition isotopique de l'eau dans le continuum sol-plante-atmosphère. Geochimica et Cosmochimica Acta 54, 413424.
  • Bariac T., Deleens E., Gerbaud A., Andre M. & Mariotti A. (1991) La composition isotopique (18O,2H) de la vapeur d'eau transpirée: etude en conditions asservies. Geochimica et Cosmochimica Acta 55, 33913402.
  • Bariac T., Gonzalez-Dunia J., Tardieu F., Tessier D. & Mariotti A. (1994a) Variabilité spatiale de la composition isotopique de l'eau (18O,2H) au sein des organes des plantes aériennes: 1. Approche en conditions controlées: spatial variation of the isotopic composition of water (18O,2H) in organs of aerophytic plants: 1. Assessment under laboratory conditions. Chemical Geology 115, 307315.
  • Bariac T., Gonzalez-Dunia J., Katerji N., Bethenod O., Bertolini J.M. & Mariotti A. (1994b) Variabilité spatio-temporelle de la composition isotopique de l'eau (18O,2H) dans le continuum sol-plante-atmosphere 2. Approche en conditions naturelles: spatial variation of the isotopic composition of water (18O,2H) in the soil-plant-atmosphere system. 2. Assessment under field conditions. Chemical Geology 115, 317333.
  • Barnes B., Farquhar G.D. & Gan K. (2004) Modelling the isotope enrichment of leaf water. Journal of Mathematical Biology 48, 672702.
  • Buckley T.N. & Mott K.A. (2000) Stomatal responses to non-local changes in PFD: evidence for long-distance hydraulic interactions. Plant, Cell & Environment 23, 301309.
  • Cappa C.D., Hendricks M.B., DePaolo D.J. & Cohen R.C. (2003) Isotopic fractionation of water during evaporation. Journal of Geophysical Research 108 (D16), 4525. doi: 10.1029/2003JD003597
  • Cernusak L.A., Pate J.S. & Farquhar G.D. (2002) Diurnal variation in the stable isotope composition of water and dry matter in fruiting Lupinus angustifolius under field conditions. Plant, Cell & Environment 25, 893907.
  • Dongmann G., Nürnberg H.W., Förstel H. & Wagener K. (1974) On the enrichment of H218O in the leaves of transpiring plants. Radiation and Environmental Biophysics 11, 4152.
  • Easteal A.J., Edge A.V.J. & Woolf, L.A. (1984) Isotope effects in water. Tracer diffusion coefficients for H218O in ordinary water. Journal of Physical Chemistry 88, 60606063.
  • 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. & Gan K.S. (2003) On the progressive enrichment of the oxygen isotopic composition of water along a leaf. Plant, Cell & Environment 26, 15791597.
  • 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., Hubick K.T., Condon A.G. & Richards R.A. (1989) Carbon isotope fractionation and plant water-use efficiency. In Stable Isotopes in Ecological Research (eds P.W.Rundel, J.R.Ehleringer & K.A.Nagy), pp. 2140. Springer-Verlag, New York, NY, USA.
  • Flanagan L.B. (1993) Environmental and biological influences on the stable oxygen and hydrogen isotopic composition of leaf water. In Stable Isotopes and Plant Carbon–Water Relations (eds J.R.Ehleringer, A.E.Hall & G.D.Farquhar), pp. 7190. Academic Press, San Diego, CA, USA.
  • Flanagan L.B., Comstock J.P. & Ehleringer J.R. (1991) Comparison of modeled and observed environmental influences on the stable oxygen and hydrogen isotope composition of leaf water in Phasoleus vulgaris. Plant Physiology 96, 588596.
  • Fontes J.-C. & Gonfiantini R. (1967) Comportement isotopique au cours de l'evaporation de deux bassins sahariens. Earth and Planetary Science Letters 3, 258266.
  • Furbank R.T., Jenkins C.L.D. & Hatch M.D. (1989) CO2 concentrating mechanism of C4 photosynthesis: permeability of isolated bundle sheath cells to inorganic carbon. Plant Physiology 91, 13641371.
  • Gan K.S., Wong S.C., Yong J.W.H. & Farquhar G.D. (2002) 18O spatial patterns of vein xylem water, leaf water and dry matter in cotton leaves. Plant Physiology 130, 10081021.
  • Gan K.S., Wong S.C., Yong J.W.H. & Farquhar G.D. (2003) Evaluation of models of leaf water 18O enrichment using measurements of spatial patterns of vein xylem, leaf water and dry matter in maize leaves. Plant, Cell & Environment 26, 14791495.
  • Gat J.R. & Bowser C. (1991) The heavy isotope enrichment of water in coupled evaporative systems. In Stable Isotope Geochemistry: A Tribute to Samuel Epstein (eds H.P.Taylor, J.R.O'Neil, & I.R.Kaplan), pp. 159168. The Geochemistry Society, St Louis, MO, USA.
  • Harwood K.G., Gillon J.S., Griffiths H. & Broadmeadow M.S.J. (1998) Diurnal variation of Δ13CO2, ΔC18O16O and evaporative site enrichment of ΔH218O in Piper aduncum under field conditions in Trinidad. Plant, Cell & Environment 21, 269283.
  • Hatch M.D., Osmond C.B. & Slatyer R.O. (1971) Photosynthesis and Photorespiration. Wiley InterScience, New York, NY, USA.
  • Helliker B.R. & Ehleringer J.R. (2000) Establishing a grassland signature in veins: 18O in the leaf water of C3 and C4 grasses. Proceedings of the National Academy of Science of USA 97, 78947898.
  • Helliker B.R. & Ehleringer J.R. (2002) Grass blades as tree rings: environmentally induced changes in the oxygen isotope ratio of cellulose along the length of grass blades. New Phytologist 155, 417424.
  • Horita J. & Wesolowski D.J. (1994) Liquid-vapor fractionation of oxygen and hydrogen isotopes of water from the freezing to the critical temperature. Geochimica et Cosmochimica Acta 58, 34253437.
  • Luo Y.H. & Sternberg L. (1992) Spatial D/H heterogeneity of leaf water. Plant Physiology 99, 348350.
  • Majoube M. (1971) Fractionnement en oxygène 18 et en deutérium entre l'eau et sa vapeur. Journal de Chimie Physique 68, 14231436.
  • Mathieu R. & Bariac T. (1996) A numerical model for the simulation of stable isotope profiles in drying soils. Journal of Geophysical Research 101, 1268512696.
  • Meinzer F.C. & Salendra N.Z. (1997) Spatial patterns of carbon isotope discrimination and allocation of photosynthetic activity in sugarcane leaves. Australian Journal of Plant Physiology 24, 767775.
  • Merlivat L. (1978) Molecular diffusivities of H216O, HD16O and H218O in gases. Journal of Chemical Physics 69, 28642871.
  • Mott K.A. & Buckley T.N. (1998) Stomatal heterogeneity. Journal of Experimental Botany 49, 407417.
  • Patankar S.V. (1980) Numerical Heat Transfer and Fluid Flow. Hemisphere Publishing Corporation, New York, NY, USA.
  • Reinecke S.A. & Sleep B.E. (2002) Knudsen diffusion, gas permeability, and water content in an unconsolidated porous medium. Water Resources Research 38, 1280, doi:1210.1029/2002WR001278.
  • Roden J.S. & Ehleringer J.R. (1999) Observations of hydrogen and oxygen isotopes in leaf water confirm the Craig–Gordon model under wide-ranging environmental conditions. Plant Physiology 120, 11651173.
  • Schäffner A.R. (1998) Aquaporin function, structure and expression: are there more surprises in water relations? Planta 204, 131139.
  • Voznesenskaya E.V., Franceschi V.R., Kiirats O., Artyusheva E.G., Freitag H. & Edwards G.E. (2002) Proof of C4 photosynthesis without Kranz anatomy in Bienertia cycloptera (Chenopodiaceae). The Plant Journal 31, 649662.
  • 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.
  • Wright W.E. & Leavitt S.W. (2006) Needle cell elongation and maturation timing derived from pine needle cellulose δ18O. Plant, Cell & Environment 29, 114.
  • Yakir D. (1992) Water compartmentation in plant tissue: isotopic evidence. In Water and Life (eds G.N.Somero, C.B.Osmond & L.Bolis), pp. 205222. Springer-Verlag, Berlin, Germany.
  • Yakir D. (1998) Oxygen-18 of leaf water: a crossroad forplant-associated isotopic signals. In Stable Isotopes (ed. H.Griffiths), pp. 147168. BIOS Scientific Publishers Ltd., Oxford, UK.
  • Yakir D., DeNiro M. & Rundel P.W. (1989) Isotopic inhomogeneity of leaf water: evidence and implications for the use of isotope signals transduced by plants. Geochimica and Cosmochimica Acta 53, 27692773.
  • Zhu F. & Schulten K. (2003) Water and proton conduction through carbon nanotubes as models for biological channels. Biophysical Journal 85, 236244.