Adar E. M., Gev I., Lipp J., Yakir D. and Gat J. R. (1995) Utilization of oxygen-18 and deuterium in stem flow for the identification of transpiration source: soil water versus ground water in sand dune terrain. In Application of Tracers in Arid Zone Hydrology (E. M. Adar and C. Leibundgut, eds) Vol 232, pp 329-338, Association of Scientific Hydrology Publications.

Barbour M. M. (1999) A physiological study of organic oxygen isotope composition. PhD thesis, Australian National University, Canberra.

Barbour M. M. and Farquhar G. D. (2000) Relative humidity- and ABA-induced variation in carbon and oxygen isotope ratios of cotton leaves. Plant Cell Environ 23: 473-485.

Barbour M. M., Fischer R. A., Sayre K. D. and Farquhar G. D. (2000a) Oxygen isotope ratio of leaf and grain material correlates with stomatal conductance and grain yield in irrigated wheat. Aust J Plant Physiol 27: 625-637.

Barbour M. M., Andrews A.J. and Farquhar G. D. (2001) Correlations between oxygen isotope ratios of wood constituents of Quercus and Pinus samples from around the world. Aust J Plant Physiol 28: 335-348.

Barbour M. M., Schurr U., Henry B. K., Wong S. C. and 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 Physiol 123: 671-679.

Barbour M. M., Walcroft A. S. and Farquhar G. D. (2002) Seasonal variation in 513C and <5lsO of cellulose from growth rings of Pinus radiata. Plant Cell Environ 25: 1483-1499.

Barbour M. M., Roden J. S., Farquhar G. D. and 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: 426-435.

Bariac T., Gonzalez-Dunia J., Tardieu F., Tessier D. and Mariotti A. (1994a) Spatial variation of the isotopic composition of water ('80, ^H) in organs of aerophytic plants: 1. Assessment under laboratory conditions. Chem Geol 115: 307-315.

Bariac T., Gonzalez-Dunia J., Tardieu F., Tessier D. and Mariotti A. (1994b) Spatial variation of the isotopic composition of water (I80, ^H) in the soil-plant-atmosphere system: 2. Assessment under field conditions. Chem Geol 115: 317-333.

Bender M. L., Labeyrie L., Raynaud D. and Loris C. (1985) Isotopic composition of atmospheric C>2 in ice linked to déglaciation and global primary productivity. Nature 318: 349-352.

Bret-Harte M. S. and Silk W. K. (1994) Nonvascular, symplastic diffusion of sucrose cannot satisfy the carbon demands of growth in the primary root tip of 7,ea mays L. Plant Physiol 105: 19-33.

Cernusak L. A., Pate J. S. and 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 Environ 25: 893-907.

Craig H. (1961) Isotopic variations in meteoric waters. Science 133: 1702-1703.

Craig H. and 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 Paleotemperatures (E. Tongiorgi, ed.) pp. 9-130. Laboratory of Geology and Nuclear Science, Pisa.

Dawson T. E., Pausch R. C. and Parker H. M. (1998) The role of hydrogen and oxygen stable isotopes in understanding water movement along the soil-plant-atmospheric continuum. In Stable Isotopes: Integration of Biological, Ecological and Geochemical Processes (H. Griffiths, ed.) pp. 169-183. BIOS Scientific Publishers, Oxford.

DeNiro M.J. and Epstein S. (1979) Relationship between oxygen isotope ratios of terrestrial plant cellulose, carbon dioxide and water. Science 204: 51-53.

DeNiro M.J. and Cooper L. W. (1989) Post-photosynthetic modification of oxygen isotope ratios of carbohydrates in the potato: Implications for paleoclimatic reconstruction based upon isotopic analysis of wood cellulose. Geochim Cosmochim Acta 53: 2573-2580.

Dongmann G., Nurnberg h. E., Forstel h. and Wagener K. (1974) On the enrichment of h218o in the leaves of transpiring plants. Radiat Environ Biophys 11: 41-52.

Edwards T. W. D. and Fritz P. ( 1986) Assessing meteoric water composition and relative humidity from lsO and 2H in wood cellulose: Paleoclimatic implications for southern Ontario. Can J Earth Sci 22: 1720-1726.

Epstein S., Thompson P. and Yapp C.J. (1977) Oxygen and hydrogen isotopic ratios in plant cellulose. Science 198: 1209.

Farquhar G. D., O'Leary M. H. and Berry J. A. (1982) On the relationship between carbon isotope discrimination and the intercellular carbon dioxide concentration in leaves. Aust J Plant Physiol 9: 121-137.

Farquhar G. D. and 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 (J. R. Ehleringer, A. E. Hall and G. D. Farquhar, eds) pp. 47-70. Academic Press, San Diego.

Farquhar G. D., Condon A. G. and Masle J. (1994) On the use of carbon and oxygen isotope composition and mineral ash content in breeding for improved rice production under favorable, irrigated conditions. In Breaking the Yield Barrier (K. G. Cassman, ed.) pp. 95-101. International Rice Research Institute, Manila.

Farquhar G. D., Barbour M. M. and Henry B. K. (1998) Interpretation of oxygen isotope composition of leaf material. In Stable Isotopes: Integration of Biological, Ecological and Geochemical Processes (H. Griffiths, ed.) pp. 27-61. BIOS Scientific Publishers, Oxford.

Flanagan L. B., Phillips S. L., Ehleringer J. R., Lloyd J. and Farquhar G. D. (1994) Effects of changes in leaf water oxygen isotopic composition on discriminations against c180160 during photosynthesis. Aust J Plant Physiol 21: 221-234.

Gonfiantini R. (1984) Advisory Group Meeting on Stable Isotope Reference Samples for Geochemical and Hydrological Investigations. Isotope Atomic Energy Commission, Vienna.

Gonfiantini R., Gratziu S. and Tongiorgi E. (1965) Oxygen isotopic composition of water in leaves. In Isotopes and Radiation in Soil Plant Nutrition Studies, Tech. Rep. Ser. No 206, pp. 405-410. Isotope Atomic Energy Commission, Vienna.

Gray J. and Thompson P. (1977) Climatic information from analysis of cellulose, lignin and whole wood from tree rings. Nature 270: 708-709.

Guy R. D., Fogel M. F., Berry J. A. and Hoering T. C. (1987) Isotope fractionation during oxygen production and consumption by plants. In Progress in Photosynthetic Research III (J. Biggins, ed.) pp. 597-600. Kluwer, Dordrecht.

Helliker B. R. and Ehleringer J. R. (2000) Establishing a grassland signature in veins: lsO in the leaf water of C3 and C4 grasses. Proc. Natl Acad Sci USA 97: 7894-7898.

Helliker B. R. and Ehleringer J. R. (2002a) Differential lsO enrichment of leaf cellulose in Cg versus C4 grasses. Fund Plant Biol 29: 435-442.

Helliker B. R. and Ehleringer J. R. (2002b) Grass blades as tree-rings: environmentally induced changes in the oxygen isotope ratio of cellulose along the length of grass blades. New Phytologist 155: 417-424.

Hill S. A., WaterhouseJ. S., Field E. M., Switsur V. R. and apRees T. (1995) Rapid recycling of triose phosphates in oak stem tissue. Plant Cell Environ 18: 931-936.

International Atomic Energy Agency (1992) Statistical Treatment of Data on Environmental Isotopes in Precipitation. IAEA, Austria.

Libby L. M., Pandolfi L. J., Payton P. H„ Marshall J. Ill, Becker B. and Giertz-Sienbenlist V. (1976) Isotopic tree thermometers. Nature 261: 284-288.

Lu Z. M., Radin J. W., Turcotte E. L., Percy R. and Zeiger E. (1994) High yields in advanced lines of Pima cotton are associated with higher stomatal conductance, reduced leaf area and lower leaf temperature. Physiologia Plantarum 92: 266-272.

Model P., Ponticorvo L. and Rittenberg D. (1968) Catalysis of an oxygen-exchange reaction of fructose-1,6-diphosphate and fructose-l-phosphate with water by rabbit muscle aldolase. Biochemistry7: 1339-1347.

RodenJ. S. and Ehleringer J. R. (1999) Hydrogen and oxygen isotope ratios of tree-ring cellulose for riparian trees grown long-term under hydroponically controlled environments. Oecologia 121: 467-477.

RodenJ. S. and Ehleringer J. R. (2000) Hydrogen and oxygen isotope ratios of tree ring cellulose for field-grown riparian trees. Oecologia 123: 481-489.

Roden J. S., Lin G. and Ehleringer J. R. (2000) A mechanistic model for interpretation of hydrogen and oxygen isotope ratios in tree-ring cellulose. Geochim Cosmochim Acta 64: 21-35.

Samuel D. and Silver B. L. (1965) Oxygen isotope exchange reactions of organic compounds. Adv Phys Org Chem 3: 1885-1895.

Saurer M„ Aellen K. and Siegwolf R. (1997) Correlating <513C and «$180 in cellulose of trees. Plant Cell Environ 20: 1543-1550.

Sayre K. D., Rajaram S. and Fischer R. A. (1997) Yield potential progress in short bread wheats in Northwest Mexico. Crop Sci 37: 36-42.

Scheidegger Y., Saurer M., Bahn M. and Siegwolf R. (2000) Linking stable oxygen and carbon isotopes with stomatal conductance and photosynthetic capacity: A conceptual model. Oecologia 125: 350-357.

Schmidt H.-L., Werner R. A. and RoBmann A. (2001) I80 pattern and biosynthesis of natural plant products. Phytochemistry 58: 9-32.

Sternberg L. and DeNiro M. (1983) Biogeochemical implications of the isotopic equilibrium fractionation factor between oxygen atoms of acetone and water. Geochim Cosmochim Acta 47: 2271-2274.

Sternberg L., DeNiro M. and Savidge R. (1986) Oxygen isotope exchange between metabolites and water during biochemical reactions leading to cellulose synthesis. Plant Physiol 82: 423-427.

Sternberg L., Mulkey S. S. and Wright S.J. (1989) Oxygen isotope ratio stratification in a tropical moist forest. Oecologia 81: 51-56.

Walker C. D. and Lance R. C. (1991) The fractionation of 2H and lsO in leaf water of barley. Aust]Plant Physiol 18: 411-425.

Wang X.-F. and Yakir D. (1995) Temporal and spatial variation in the oxygen-18 content of leaf water in different plant species. Plant Cell Environ 18: 1377-1385.

Wang X.-F., Yakir D. and Avishai M. (1998) Non-climatic variations in the oxygen isotopic compositions of plants. Global Change Biol 4: 835-849.

Yakir D., DeNiro M.J. and Rundel R W. (1989) Isotopic inhomogeneity of leaf water: Evidence and implications for the use of isotopic signals transduced by plants. Geochim Cosmochim Acta 53: 2760-2773.

Yakir D. and DeNiro M.J. (1990) Oxygen and hydrogen isotope fractionation during cellulose metabolism in Lemna gibba L. Plant Physiol 93: 325-332.

Yakir D., DeNiro M. and Gat J. (1990) Natural deuterium and oxygen-18 enrichment in leaf water of cotton plants grown under wet and dry conditions: Evidence for water compartmentation and its dynamics. Plant Cell Environ 13: 49-56.

Yakir D. and Israeli Y. (1995) Reduced solar irradiance effects on net primary productivity (NPP) and the 5I3Cand <5lsO values in plantations of Musa sp. Musaceae. Geochim Cosmochim Acta 59: 2149-2151.

Zundel G., Miekeley W., Grisi B. M. and Forstel H. (1978) The H2180 enrichment in the leaf water of tropic trees: Comparison of species from the tropical rain forest and the semi-arid region ofBrazil. Radial Environ Biophys 15: 203-212.

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