SEARCH

SEARCH BY CITATION

References

  • Craig H, Gordon LI. 1965. Deuterium and oxygen-18 variations in the ocean and the marine atmosphere. In: Tongiorgi E, ed. Stable isotopes in oceanographic studies and paleotemperatures. Pisa, Italy: Laboratory of Geology and Nuclear Science, 9130.
  • Da Silveira L, Sternberg L, Mulkey SS, Wright SJ. 1989. Ecological interpretation of leaf carbon isotope ratios: influence of respired carbon dioxide. Ecology 70: 13171324.
  • Deniro MJ, Epstein S. 1979. Relationship between the oxygen isotope ratios of terrestrial plant cellulose, carbon dioxide and water. Science 204: 5153.
  • Ehleringer ER, Roden J, Dawson TE. 2000. Assessing ecosystem-level water relations through stable isotope ratio analyses. In: Sala OE, Jackson RB, Mooney HA, Howarth RW, eds. Methods in Ecosystem Science. New York, NY, USA: Springer-Verlag, 181198.
  • Evans JR, Sharkey TD, Berry JA, Farquhar GD. 1986. Carbon isotope discrimination measured concurrently with gas exchange to investigate diffusion in leaves of higher plants. Australian Journal of Plant Physiology 13: 281292.
  • Farquhar GD, Cernusak LA. 2005. On the isotopic composition of leaf water in the non-steady state. Functional Plant Biology 32: 293303.
  • Farquhar GD, Ehleringer JR, Hubick KT. 1989. Carbon isotope discrimination and photosynthesis. Annual Review of Plant Physiology and Plant Molecular Biology 40: 503537.
  • Farquhar GD, O'Leary MH, Berry JA. 1982. On the relationship between carbon isotope discrimination and the intercellular carbon dioxide concentrations in leaves. Australian Journal of Plant Physiology 9: 121137.
  • Harwood KG, Gillon JS, Roberts A, Griffiths H. 1999. Determinants of isotopic coupling of CO2 and water vapour within a Quercus petraea forest canopy. Oecologia 119: 109119.
  • Helliker BR, Griffiths H. 2007. Toward a plant-based proxy for the isotope ratio of atmospheric water vapor. Global Change Biology 13: 723733.
  • Jones MD, Leng MJ, Arrowsmith C, Deuchars C, Hodgson J, Dawson TE. 2007. Local δ18O and δ2H variability in UK rainfall. Hydrology and Earth System Sciences Discussions 4: 24032423.
  • Kornexl BE, Gehere M, Hofling R, Werner RA. 1999. On-line δ18O measurement of organic and inorganic substances. Rapid Communications in Mass Spectrometry 13: 16851693.
  • Loader NJ, Robertson I, Barker AC, Switsur VR, Waterhouse JS. 1997. An improved technique for the batch processing of small wholewood samples to α-cellulose. Chemical Geology 136: 313317.
  • Majoube M. 1971. Fractionnement en oxygene-18 et en deuterium entre l'eau et sa vapeur. Journal de Chimie Physique et de Physico-Chimie Biologique 58: 14231436.
  • Maseyk K, Green TGA, Klinac D. 1999. Photosynthetic responses of New Zealand Sphagnum species. New Zealand Journal of Botany 37: 155165.
  • Merlivat L. 1970. Quantitative aspects of the study of water balances in lakes using the deuterium and oxygen-18 concentrations in the water, (L'etude quantitative de bilans de lacs a l'aide des concentrations en deuterium et oxygene-18 dans l'eau). Isotope Hydrology 1970, Proc Symp.
  • Meyer M, Seibt U, Griffiths H. 2008. To concentrate or ventilate? Carbon acquisition, isotope discrimination and physiological ecology of early land plant forms. Philosophical Transactions of The Royal Society B 363: 27672778.
  • Murray KJ, Harley PC, Beyers J, Walz H, Tenhunen JD. 1989. Water content effects on photosynthetic response of Sphagnum mosses from the foothills of the Philip Smith Mountains. Alaska. Oecologia 79: 244250.
  • O'Leary MH. 1988. Carbon isotopes in photosynthesis. BioScience 38: 328336.
  • Oliver MJ, Bewley JD. 1997. Desiccation tolerance of plant tissues: a mechanistic overview. Horticultural Reviews 18: 171214.
  • Oliver MJ, Velten J, Mishler BD. 2005. Desiccation tolerance in Bryophytes: a reflection of the primitive strategy for plant survival in dehydrating habitats? Integrative and Comparative Biology 45: 788799.
  • Oliver MJ, Velten J, Wood AJ. 2000. Bryophytes as experimental models for the study of environmental stress tolerance: Tortula ruralis and desiccation-tolerance in mosses. Plant Ecology 151: 7384.
  • Proctor MCF. 2000. The bryophyte paradox: tolerance of desiccation, evasion of drought. Plant Ecology 151: 4149.
  • Proctor MCF. 2001. Patterns of desiccation tolerance and recovery in bryophytes. Plant Growth Regulation 25: 147156.
  • Proctor MCF, Nagy KA, Csintalan Z, Takács Z. 1998. Water-content components in bryophytes: analysis of pressure–volume relationships. Journal of Experimental Botany 49: 18451854.
  • Proctor MCF, Oliver MJ, Wood AJ, Alpert P, Stark LR, Cleavitt NL, Mishler BD. 2007. Desiccation-tolerance in bryophytes: a review. Bryologist 110: 595621.
  • Reyes-García C, Mejia-Chang M, Jones GD, Griffiths H. 2008. Water vapour isotopic exchange by epiphytic bromeliads in tropical dry forests reflects niche differentiation and climatic signals. Plant, Cell and Environment 31: 828841.
  • Rice SK, Giles L. 1996. The influence of water content and leaf anatomy on carbon isotope discrimination and photosynthesis in Sphagnum. Plant, Cell & Environment 19: 118124.
  • Roberts AW, Roberts EM, Haigler CH. 2012. Moss cell walls: structure and biosynthesis. Frontiers in Plant Science 3. Article number: 00166. doi: 10.3389/fpls.2012.0016.
  • Silvola J. 1990. Combined effects of varying water content and CO2 concentration on photosynthesis in Spagnum fuscum. Holarctic Ecology 13: 224228.
  • Smirnoff N. 1992. The carbohydrates of bryophytes in relation to desiccation tolerance. Journal of Bryology 17: 185191.
  • Sternberg L, Pinzon MC, Anderson WT, Jahren AH. 2006. Variation in oxygen isotope fractionation during cellulose synthesis: intramolecular and biosynthetic effects. Plant, Cell & Environment 29: 18811889.
  • Sveinbjörnsson B, Oechel WC. 1992. Bryophytes and Lichens in a changing environment. In: Bates JW, Farmer AM, eds. Bryophytes and Lichens in a changing environment. Oxford, UK: Oxford University Press.
  • Werner RA, Kornexl BE, Rossmann A, Schmidt H-L. 1996. On-line determination of δ18O values of organic substances. Analytica Chimica Acta 319: 159164.
  • West AG, Patrickson SJ, Ehleringer JR. 2006. Water extraction times for plant and soil materials used in stable isotope analysis. Rapid Communications in Mass Spectrometry 20: 13171321.
  • Williams TG, Flanagan LB. 1996. Effects of changes in water content on photosynthesis, transpiration and discrimination against 13CO2 and C18O16O in Pleurozium and Sphagnum. Oecologia 108: 3846.
  • Yoshimura K, Kanamitsu M, Noone D, Oki T. 2008. Historical isotope simulation using reanalysis atmospheric data. Journal of Geophysical Research 113: D19108.
  • Zanazzi A, Mora G. 2005. Paleoclimatic implications of the relationship between oxygen isotope ratios of moss cellulose and source water in the wetlands of Lake Superior. Chemical Geology 222: 281291.