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REFERENCES

  • Alberts B., Bray D., Lewis J., Raff M., Roberts K. & Watson J.D. (1989) Molecular Biology of the Cell. Garland Publishing, New York.
  • Allison G.B., Gat J.R. & Leaney F.W.J. (1985) The relationship between deuterium and oxygen-18 delta values in leaf water. Chemical Geology (Isotope Geoscience Section) 58, 145156.
  • Altus D.P., Canny M.J. & Blackman D.R. (1985) Water pathways in wheat leaves. II. Water-conducting capacities and vessel diameters of different vein types, and the behaviour of the integrated vein network. Australian Journal of Plant Physiology 12, 183199.
  • Appleby R.E. & Davies W.J. (1983) A possible evaporation site in the guard cell wall and the influence of leaf structure on the humidity response by stomata of woody plants. Oecologia 56, 3040.
  • Barbour M.M. & Farquhar G.D. (2000) Relative humidity- and ABA-induced variation in carbon and oxygen isotope ratios of cotton leaves. Plant, Cell and 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 yield in irrigated, field-grown 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., Ehleringer J.R. & Farquhar G.D. (2003) Expressing leaf water and cellulose oxygen isotope ratios as enrichment above source water reveals evidence of a Péclet effect. Oecologia in press.
  • Bariac T., Gonzalez-Dunia J., Tardieu F., Tessier D. & Mariotti A. (1994) 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., Rambal S., Jusserand C. & Berger A. (1989) Evaluating water fluxes of field-grown alfalfa from diurnal observations of natural isotope concentrations, energy budget and ecophysiological parameters. Agricultural and Forest Meteorology. 48, 263283.
  • Barnes B., Farquhar G. & Gan K. (2003) Modelling the isotope enrichment of leaf water. Journal of Mathematical Biology in press.
  • Boyer J.S. (1985) Water transport. Annual Review of Plant Physiology. 36, 473516.
  • Canny M.J. (1986) Water pathways in wheat leaves III. The passage of the mestome sheath and the function of the suberised lamellae. Physiologia Plantarum 66, 637647.
  • Canny M.J. (1988) Water pathways in wheat leaves IV. The interpretation of images of a fluorescent apoplastic tracer. Australian Journal of Plant Physiology. 15, 541555.
  • Canny M.J. (1990) What becomes of the transpiration stream? New Phytologist 114, 341368.
  • Chrispeels M.J. & Agre P. (1994) Aquaporins: water channel proteins of plant and animal cells. Trends in Biochemical Sciences 19, 421425.
  • Cowan I.R. (1977) Stomatal behaviour and environment. In Advances in Botanical Research (eds R.D.Preston & H.W.Woolhouse) Vol. 4, pp. 117228. Academic Press, New York, USA.
  • Cowan I.R. (1986) Economics of carbon fixation in higher plants. In On the Economy of Plant Form and Function (ed. T.J.Givnish), pp. 133170. Cambridge University Press, Cambridge, UK.
  • Craig H. & Gordon L.I. (1965) Deuterium and oxygen-18 variations in the ocean and the marine atmosphere. In Proceedings of a Conference on Stable Isotopes in Oceanographic Studies and Palaeotemperatures (ed. E.Tongiorgi), pp. 9130. Lischi and Figli, Spoleto, Italy.
  • Dainty J. (1963) Water relations of plant cells. Advances in Botanical Research 1, 179326.
  • Daniels M.J., Mirkov T.E. & Chrispeels M.J. (1994) The plasma membrane of Arabidopsis thaliana contains a mercury-insensitive aquaporin that is the homologue of the tonoplast water channel protein TIP. Plant Physiology 106, 13251333.
  • Ding B., Turgeon R. & Parthasarathy M.V. (1992) Substructure of freeze-substituted plasmodesmata. Protoplasma 169, 2841.
  • Dongmann G., Nurnberg H.W., Forstel H. & Wagener K. (1974) On the enrichment of H218O in the leaves of transpiring plants. Radiation and Environmental Biophysics 11, 4152.
  • Evans J.R. (1983) Photosynthesis and Nitrogen Partitioning in Leaves of Triticum aestivum and Related Species. PhD Thesis. Australian National University, Canberra, Australia.
  • Evert R.F., Russin W.A. & Botha C.E.J. (1996) Distribution and frequency of plasmodesmata in relation to photoassimilate pathways and phloem loading in barley leaf. Planta 198, 572579.
  • Farquhar G.D. & Gan K.S. (2003) On the progressive enrichment of the oxygen isotopic composition of water along leaves. Plant, Cell and 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. & Raschke K. (1978) On the resistance to transpiration of the sites of evaporation within a leaf. Plant Physiology 61, 10001005.
  • Farquhar G.D., Henry B.K. & Styles J.M. (1997) A rapid on-line technique for determination of oxygen isotope composition of nitrogen-containing organic matter and water. Rapid Communications in Mass Spectrometry 11, 15501560.
  • Farquhar G.D., Hubick K.T., Condon A.G. & Richards R.A. (1989) Carbon isotope fractionation and plant water-use effeciency. In Stable Isotopes in Ecological Research (eds P.W.Rundel, J.R.Ehleringer & K.A.Nagy), pp. 2140. Springer Verlag, New York, USA.
  • Fisher D.B. (1999) The estimated pore diameter for plasmodesmatal channels in the Abutilon nectary trichome should be about 4 nm, rather than 3 nm. Planta. 208, 299300.
  • Fisher D.B. (2000) Long-distance transport. In Biochemistry and Molecular Biology of Plants (eds B.B.Buchanan, W.Grissem & R.L. Jones) pp. 730784. American Society of Plant Physiologists, Rockville, MD, 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. 7090.Academic Press, San Diego, CA, USA.
  • Flanagan L.B., Bain J.F. & Ehleringer J.R. (1991a) Stable oxygen and hydrogen isotope composition of leaf water in C3 and C4 plant species under field conditions. Oecologia 88, 394400.
  • Flanagan L.B., Comstock J.P. & Ehleringer J.R. (1991b) Comparison of modeled and observed environmental influences on the stable oxygen and hydrogen isotope composition of leaf water in Phaseolus vulgaris L. Plant Physiology 96, 588596.
  • Flanagan L.B., Marshall J.D. & Ehleringer J.R. (1993) Photosynthetic gas exchange and the stable isotope compostition of leaf water: comparison of a xylem-tapping mistletoe and its host. Plant, Cell and Environment 16, 623631.
  • Flanagan L.B., Philips S.L., Ehleringer J.R., Lloyd J. & Farquhar G.D. (1994) Effects of changes in leaf water oxygen isotopic composition on discrimination against C18O16O during photosynthesis. Australian Journal of Plant Physiology 21, 221234.
  • Frange N., Maeshima M., Schaffner A.R., Mandel T., Martinoia E. & Bonnemain J.-L. (2001) Expression and distribution of a vacuolar aquaporin in young and mature leaf tissues of Brassica napus in relation to water fluxes. Planta 212, 270278.
  • Fricke W. (2000) Water movement between epidermal cells of barley leaves – a symplastic connection? Plant, Cell and Environment 23, 991997.
  • Gaff D.F. & Carr D.J. (1961) The quantity of water in the cell wall and its significance. Australian Journal of Biological Science 12, 299311.
  • 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 and Environment 26, 14791495.
  • Gat G.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 Geochemical Society, St Louis, MO, 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 the USA 97, 78947898.
  • Höfte H., Hubbard L., Reizer J., Ludevid D., Herman E.M. & Chrispeels M.J. (1992) Vegetative and seed-specific isoforms of a putative solute transporter in the tonoplast of Arabidopsis thaliana. Plant Physiology 99, 561570.
  • House C.R. (1974) Water Transport in Cells and Tissues. Edward Arnold, London, UK.
  • Ikeda T. (1983) Maximum Principles in Finite Element Models for Convection-Diffusion Phenomena. North Holland, Amsterdam, The Netherlands.
  • Johansson I., Larsson C., Ek B. & Kjellbom P. (1996) The major integral proteins of spinach leaf plasma membranes are putative aquaporins and are phosphorylated in response to Ca2+ and apoplastic water potential. Plant Cell 8, 11811191.
  • Kaldenhoff R., Grote K., Zhu J.-J. & Zimmermann U. (1998) Significance of plasmalemma aquaporins for water-transport in Arabidopsis thaliana. Plant Journal 14, 121128.
  • Kammerloher W., Fischer U., Piechottka G.P. & Schaffner R. (1994) Water channels in the plant plasma membrane cloned by immunoselection from a mammalian expression system. Plant Journal 6, 187199.
  • Kuo J., O'Brien T.P. & Canny M.J. (1974) Pit-field distribution, plasmodesmatal frequency, and assimilate flux in the mestome sheath cells of wheat leaves. Planta 121, 97118.
  • Meidner H. (1976) Water vapour loss from a physical model of a substomatal cavity. Journal of Experimental Botany 27, 691694.
  • Norris R.F. & Bukovac M.J. (1968) Structure of pear leaf cuticle with special reference to cuticular penetration. American Journal of Botany 55, 975983.
  • Parker M.L. & Ford M.A. (1982) The structure of the mesophyll of flag leaves in three Triticum species. Annals of Botany 49, 165176.
  • Pesacreta T.C. & Hasenstein K.H. (1999) The internal cuticle of Cirsium horridulum (Asteraceae) leaves. American Journal of Botany 86, 923928.
  • Qui X., Tai C.-Y. & Wasserman B.P. (1995) Plasma membrane intrinsic proteins of Beta vulgaris L. Plant Physiology 108, 387392.
  • Reinecke S.A. & Sleep B.E. (2002) Knudsen diffusion, gas permeability, and water content in an unconsolidated porous medium. Water Resources Research 38, 1280.
  • Robinson D.G., Sieber H., Kammerloher W. & Schaffner A.R. (1996) PIP1 aquaporins are concentrated in plasmalemmasomes of Arabidopsis thaliana mesophyll. Plant Physiology 111, 645649.
  • 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.
  • Roden J.S., Lin G. & Ehleringer J.R. (2000) A mechanistic model for the interpretation of hydrogen and oxygen isotope ratios in tree-ring cellulose. Geochimica et Cosmochimica Acta 64, 2135.
  • Schäffner A.R. (1998) Aquaporin function, structure and expression: are there more surprises to surface in water relations? Planta 204, 131139.
  • Sternberg L. & DeNiro M. (1983) Biogeochemical implications of the isotopic equilibrium fractionation factor between the oxygen atoms of acetone and water. Geochimica et Cosmochimica Acta 47, 22712274.
  • Steudle E., Murrmann M. & Peterson C.A. (1993) Transport of water and solutes across maize roots modified by puncturing the endodermis. Further evidence for the composite transport model of the root. Plant Physiology 103, 335349.
  • Steudle E., Zimmermann U. & Zillikens J. (1982) Effect of turgor on hydraulic conductivity and elastic modulus of Elodea leaf cells. Planta 154, 371380.
  • Strugger S. (1943) Der aufsteigende Saftsrom in der Pflanze. Naturwissenschaft 31, 181191.
  • Tanton T.W. & Crowdy S.H. (1972) Water pathways in higher plants. III. The transpiration stream within leaves. Journal of Experimental Botony 23, 619625.
  • Tyerman S.D., Bohnert H.J., Maurel C., Steudle E. & Smith J.A.C. (1999) Plant aquaporins: their molecular biology, biophysics and significance for plant water relations. Journal of Experimental Botany 50, 10551071.
  • Tyree M.T. (1970) The symplast concept, a general theory of symplastic transport according to the thermodynamics of irreversible processes. Journal of Theoretical Biology 26, 181214.
  • Tyree M.T. & Yianoulis P. (1980) The site of water evaporation from sub-stomatal cavities, liquid path resistances and hydroactive stomatal closure. Annals of Botany 46, 175193.
  • Walker C.D. & Brunel J.-P. (1990) Examining evapotranspiration in a semi-arid region using stable isotopes of hydrogen and oxygen. Journal of Hydrology 118, 5575.
  • Walker C.D. & Lance R.C.M. (1991) The fractionation of 2H and 18O in leaf water of barley. Australian Journal of Plant Physiology 18, 411425.
  • Walker C.D., Leaney F.W., Dighton J.C. & Allison G.B. (1989) The influence of transpiration on the equilibration of leaf water with atmospheric water vapour. Plant, Cell and Environment 12, 221234.
  • Wang X.-F. & Yakir D. (1995) Temporal and spatial variation in the oxygen-18 content of leaf water in different plant species. Plant, Cell and Environment 18, 13771385.
  • Wang X.-F., Yakir D. & Avishai M. (1998) Non-climatic variations in the oxygen isotopic compositions of plants. Global Change Biology 4, 835849.
  • Wullschleger S.D. & Oosterhuis D.M. (1989) The occurrence of an internal cuticle in cotton (Gossypium hirsutum L.) leaf stomates. Environmental and Experimental Botany 29, 229235.
  • Yakir D., DeNiro M. & Gat J. (1990) Natural deuterium and oxygen-18 enrichment in leaf water of cotton plants grown under wet an dry conditions: evidence for water compartmentation and its dynamics. Plant, Cell and Environment 13, 4956.
  • 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 et Cosmochimica Acta 53, 27692773.
  • Yianoulis P. & Tyree M.T. (1984) A model to investigate the effect of evaporative cooling on the pattern of evaporation in sub-stomatal cavities. Annals of Botany 53, 189206.