SEARCH

SEARCH BY CITATION

References

  • Alperin, M. J., W. S. Reeburgh, Inhibition experiments on anaerobic methane oxidation, Appl. Environ. Microbiol., 50, 940945, 1985.
  • Aravena, R., B. G. Warner, D. J. Charman, L. R. Belyea, S. P. Mathur, H. Dinel, Carbon isotopic composition of deep carbon gases in an ombrogenous peatland, northwestern Ontario, Canada, Radiocarbon, 35, 271276, 1993.
  • Benstead, J., D. Lloyd, Direct mass spectrometric measurements of gases in peat cores, FEMS Microbiol. Ecol., 13, 233240, 1994.
  • Bergman, I., B. H. Svensson, M. Nilsson, Regulation of methane production in a Swedish acid mire by pH, temperature and substrate, Soil Biol. Biochem., 306, 729741, 1998.
  • Blair, N. E., W. D. Carter, The carbon isotope biogeochemistry of acetate from a methanogenic marine sediment, Geochim. Cosmochim. Acta, 56, 12471258, 1992.
  • Boutton, T. W., Stable carbon isotope ratios of natural materials, II, Atmospheric, terrestrial, marine and freshwater environments, inCarbon Isotope Techniques, edited byD. Coleman, andB. Fry, chap. 11, pp.173185,Academic,San Diego, Calif.,1991.
  • Brown, A., S. P. Mathur, D. J. Kushner, An ombrotrophic bog as a methane reservoir, Global Biogeochem. Cycles, 33, 205213, 1989.
  • Brown, D. A., R. P. Overend, Methane metabolism in raised bogs of northern wetlands, Geomicrobiol. J., 11, 3548, 1993.
  • Buttler, A., H. Dinel, P. E. M. Levesque, Effects of physical, chemical and botanical characteristics of peat on carbon gas fluxes, Soil Sci., 1585, 365373, 1994.
  • Chanton, J. P., J. W. H. Dacey, Effects of vegetation on methane flux, reservoirs and carbon isotope composition, Trace Gas Emissions From PlantsT. Sharkey, et al., 6592, Academic, San Diego, Calif., 1991.
  • Chanton, J. P., J. E. Bauer, P. A. Glaser, D. I. Siegel, C. A. Kelley, S. C. Tyler, E. H. Romanowicz, A. Lazrus, Radiocarbon evidence for the substrates supporting methane formation within Minnesota peatlands, Geochim. Cosmochim. Acta, 59, 36633668, 1995.
  • Chanton, J. P., G. J. Whiting, N. E. Blair, C. W. Lindau, P. K. Bollich, Methane emission from rice: Stable isotopes, diurnal variations, and CO2 exchange, Global Biogeochem. Cycles, 111, 1527, 1997.
  • Claricoates, J., Gas production during peat decay, Ph.D. dissertation,Univ. of London,London,1990.
  • Clymo, R. S., The ecology of peatlands, Sci. Prog., 71, 593614, 1987.
  • Clymo, R. S., D. M. E. Pearce, Methane and carbon dioxide production in, transport through and efflux from a peatland, Philos. Trans. Soc. London, Ser. A, 3511696, 249259, 1995.
  • Coleman, D. D., J. B. Risatti, M. Schoell, Fractionation of carbon and hydrogen isotopes by methane oxidising bacteria, Geochim. Cosmochim. Acta, 45, 10331037, 1981.
  • Craig, H., Isotopic standards for mass spectrometric analysis of carbon dioxide, Geochim. Cosmochim. Acta, 12, 133149, 1957.
  • deGraaf, W., P. Wellsbury, R. J. Parkes, T. E. Cappenberg, Comparison of acetate turnover in methanogenic and sulfate-reducing sediments by radiolabeling and stable isotope labeling and by use of specific inhibitors: Evidence for isotopic exchange, App. Environ. Microbiol., 62, 772777, 1996.
  • Delozada, D. S., P. Vandevivere, P. Bayeve, S. Zinder, Decrease in the hydraulic conductivity of sand columns by Methanosarcina barkeri, World J. Microbiol. Biotech., 103, 325333, 1994.
  • Dinel, H., S. P. Mathur, A. Brown, M. Levesque, A field study of the effect of depth on methane production in peatlands waters: Equipment and preliminary results, J. Ecol., 76, 10831091, 1988.
  • Dunfield, P., R. Knowles, R. Dumont, T. R. Moore, Methane production and consumption in temperate and subarctic peat soils: Response to temperature and pH, Soil. Biol. Biochem., 253, 321326, 1993.
  • Ehleringer, J. R., 13C/12C fractionation and its utility in terrestrial plant studies, inCarbon Isotope Techniques, edited byD. Coleman, andB. Fry, chap. 12, pp.187200,Academic,San Diego, Calif.,1991.
  • Friedman, I., R. L. Smith, The deuterium content of water in some glasses, Geochim. Cosmochim. Acta, 15, 218228, 1958.
  • Hameed, S., R. D. Cess, Impact of global warming on biospheric sources of methane and its climatic consequences, Tellus, Ser. B, 35, 17, 1983.
  • Happell, J. D., J. P Chanton, W. S. Showers, The influence of methane oxidation on the stable isotopic composition of methane emitted from Florida swamp forests, Geochim. Cosmochim. Acta, 58, 43774388, 1994.
  • Hornibrook, E. R. C., F. J. Longstaffe, W. S. Fyfe, Spatial distribution of microbial methane production pathways in temperate zone wetland soil: Stable carbon and hydrogen isotope evidence, Geochim. Cosmochim Acta, 61, 745753, 1997.
  • Ingram, H. A. P., Ecohydrology of Scottish peatlands, Trans. Soc. Edinburgh Earth Sci., 78, 287296, 1987.
  • Krzycki, J. A., W. R. Kenealy, M. J. DeNiro, J. G. Zeikus, Stable carbon isotope fractionation by Methanosarcina barkeri during methanogenesis from acetate, methanol or carbon dioxide-hydrogen, Appl. Environ. Microbiol., 53, 25972599, 1987.
  • Lansdown, J. M., P. D. Quay, S. L. King, CH4 production via CO2 reduction: A source of 13C depleted CH4, Geochim. Cosmochim. Acta, 56, 34933503, 1992.
  • Lidstrom, M. E., L. Somers, Seasonal study of methane oxidation in Lake Washington, Appl. Environ. Microbiol., 47, 12551260, 1984.
  • Lovley, D. R., M. J. Klug, Sulfate reducers can outcompete methanogens at freshwater sulfate concentrations, Appl. Environ. Microbiol., 45, 187192, 1983.
  • Nedwell, D., A. Watson, Methane production, oxidation and emission in a UK ombrotrophic peat bog: Influence of sulphate from acid rain, Soil Biol. Biochem., 277, 893903, 1995.
  • Reynolds, W. D., D. A. Brown, S. P. Mathur, R. P. Overend, Effect of in-situ gas accumulation on the hydraulic conductivity of peat, Soil Sci., 1535, 397408, 1992.
  • Romanowicz, E. A., D. I. Siegel, J. P. Chanton, P. H. Glaser, Temporal variations in dissolved methane deep in the Lake Agassiz Peatlands, Minnesota, Global Biogeochem. Cycles, 92, 197212, 1995.
  • , Scottish Natural Heritage, Ellergower Moss site of special scientific interest citationFile Ref. 1755, Edinburgh, 1988.
  • Sirin, A. A., D. B. Shumov, L. S. Vlasova, Investigation of bog water circulation using 3H analysis data, Water Resour., 246, 625633, 1997.
  • Steinmann, P., W. Shotyk, Chemical composition, pH, and redox state of sulfur and iron in complete vertical porewater profiles from tow Sphagnum peat bogs, Jura Mountains, Switzerland, Geochim. Cosmochim. Acta, 61, 11431163, 1997.
  • Stevens, C. M., Atmospheric methane, Chem. Geol., 71, 1121, 1988.
  • Stevens, C. M., F. E. Rust, The carbon isotope composition of methane from natural gases of various origins, Geochim. Cosmochim. Acta, 44, 649661, 1982.
  • Stuermer, D. H., K. E. Peters, I. R. Kaplan, Source indicators of humic substances and proto-kerogen: Stable isotope ratios, elemental compositions and electron spin resonance spectra, Geochim. Cosmochim. Acta, 42, 989997, 1978.
  • Tyler, S. C., Stable carbon isotope ratios in atmospheric methane and some of its sources, J. Geophys. Res., 9112, 1323213238, 1986.
  • Waldron, S., A. Fallick, A. Hall, Comment on “Spatial distribution of microbial methane production pathways in temperate zone wetland soils: Stable carbon and hydrogen evidence” by E.R.C. Hornibrook, F.J. Longstaffe and W.S. Fyfe, Geochim. Cosmochim. Acta, 62, 369372, 1998a.
  • Waldron, S., I. A. Watson-Craik, A. J. Hall, A. E. Fallick, The carbon and hydrogen stable isotope composition of bacteriogenic methane: A laboratory study, Geomicrobiol. J., 15, 157169, 1998b.
  • Whiticar, M. J., E. Faber, M. Schoell, Biogenic methane formation in marine and freshwater environments: CO2 reduction vs. acetate fermentation — Isotope evidence, Geochim. Cosmochim. Acta, 50, 693709, 1986.
  • Williams, R. T., R. L. Crawford, Methane production in Minnesota peatlands, Appl. Environ. Microbiol., 47, 12661271, 1984.
  • Yavitt, J. B., G. E. Lang, M. D. Downey, Potential methane production and methane oxidation rates in peatland ecosystems of the Appalachian Mountains, Unites States, Global Biogeochem. Cycles, 23, 253268, 1988.
  • Yavitt, J. B., D. M. Downey, E. Lancaster, G. E. Lang, Methane consumption in decomposing Sphagnum derived peat, Soil Biol. Biochem., 224, 441447, 1990.
  • Zehnder, A. J. B., T. D. Brock, Methane formation and methane oxidation by methanogenic bacteria, J. Bacteriol., 137, 420432, 1979.