SEARCH

SEARCH BY CITATION

References

  • Aber, J., J. M. Melillo, Nitrogen immobilization in decaying liardwood leaf litter as a function of initial nitrogen and lignin content, Can. J. Bot., 60, 22632269, 1982.
  • Aber, J., P. Nadelhoffer, P. Steudler, J. M. Melillo, Nitrogen saturation in northern forest ecosystems, BioScience, 39, 378386, 1989.
  • Adamsen, A. P. S., G. M. King, Methane consumption in temperate and subarctic forest soils: Rates, vertical zonation, and responses to water and nitrogen, Appl. Environ. Microbiol, 59, 485490, 1993.
  • Amaral, J. A., R. Knowles, Inhibition on methane consumption in forest soils and pure cultures of methanotrophs by aqueous forest soil extracts, Soil Biol. Biochem., 29, 17131720, 1997.
  • Ambus, P., S. Christensen, Spatial and seasonal nitrous oxide and methane fluxes in Danish forest-, grassland-, and agroecosystems, J. Environ. Qual., 24, 9931001, 1995.
  • Anderson, T. H., K. H. Domsch, The metabolic quotient for CO2 (qCO2) as a specific activity parameter to assess the effects of environmental conditions, such as pH, on the microbial biomass of forest soils, Soil Biol. Biochem., 25, 393395, 1993.
  • Ball, B. C., K. A. Smith, L. Klemedtsson, R. Brumme, K. Sitaula, S. Hansen, S. Christensen, A. Priemé, J. MacDonald, G. W. Horgan, The influence of soil gas transport properties on methane oxidation in a selection of northern European soils, J. Geophys. Res., 102, 2330923317, 1997.
  • Benecke, P., Modellierung des Wasserhaushaltes von Okosystemen, Beitr. Hydro., 2, 235266, 1982.
  • Benstead, J., G. M. King, Response of methanotrophic activity in forest soil to methane availability, FEMS Microbio. Ecol., 23, 333340, 1997.
  • Borken, W., R. Brumme, Liming practice in temperate forest ecosystems and the effects on CO2, N2O and CH4 fluxes, Soil Use Manage., 13, 251257, 1997.
  • Bowden, R. D., M. S. Castro, J. M. Melillo, P. A. Steudler, J. D. Aber, Fluxes of greenhouse gases between soils and the atmosphere in a temperate forest following a simulated hurricane blowdown, Biogeochemistry, 21, 6171, 1993.
  • Bredemeier, M., Stoffbilanzen, interne Pronenproduktion und Gesamtsäurebelastung des Bödens in verschiedenen Waldökosystemen Norddeutschalds, Ber.Forsch.Waldökosysteme, 33, Reihe A, 1183, 1987.
  • Brumme, R., F. Beese, Simultaneous determination of nitrogen transformation rates in soil columns using 15-N: N-model of a Terra fusca-Rendzina, Z. Pflanzenernähr.Bodenk., 154, 205210, 1991.
  • , Bundesministerium fur Ernährung, Landwirtschaft und Forsten, Deutscher Waldbodenbericht 1996, 1144, Bonn, 1997.
  • Cassens-Sasse, E., Witterungsbedingte saisonale Versauerungsschube im Böden zweier Waldökosysteme, Ber.Forsch. Waldökosysteme, 30, Reihe A, 1287, 1987.
  • Crill, P. M., Seasonal patterns of methane uptake and carbon dioxide release by a temperate woodland soil, Global Biogeochem. Cycles, 5, 319334, 1991.
  • Dobbie, K. E., K. A. Smith, Comparison of CH4 oxidation rates in woodland, arable and set aside soils, Soil Biol. Biochem., 28, 13571365, 1996.
  • Dobbie, K. E., K. A. Smith, A. Priemé, S. Christensen, A. Degorska, P. Orlanski, Effect of land use on the rate of methane uptake by surface soils in Northern Europe, Atmos. Environ., 30, 10051011, 1996.
  • 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., 25, 321326, 1993.
  • Edwards, C. A., P. J. Bohlen, Biology and Ecology of Earthworms, Chapman and Hall, New York, 1996.
  • , Intergovernmental Panel on Climate Change, Climate Change 1995, The Science of Climate Change, Cambridge Uni. Press, New York, 1996.
  • Kasimir-Klemedtsson, A., L. Klemedtsson, Methane uptake in Swedish forest soil in relation to liming and extra N-deposition, Biol. Fertil. Soils., 25, 296301, 1997.
  • Keller, M., M. E. Mitre, R. R. Stallard, Consumption of atmospheric methane in soils of central Panama: Effects of agricultural developement, Global Biogeochem. Cycles, 4, 2127, 1990.
  • Killham, K., Soil Ecology, Cambridge Univ. Press, New York, 1995.
  • Lessard, R., P. Rochette, E. Topp, E. Pattey, R. L. Desjardins, Methane and carbon dioxide fluxes from poorly drained adjacent cultivated and forest sites, Can. J. Soil Sci., 74, 139146, 1994.
  • Loftfield, N., H. Flessa, J. Augustin, F. Beese, Automated gas chromatographic system for rapid analysis of the atmospheric trace gases methane, carbon dioxide, and nitrous oxide, J. Environ. Qual., 26, 560564, 1997.
  • Matzner, E., Acid precipitation: Case study Soiling, Acid PrecipitationD. C. Adriano, M. Havas, 95115, Springer-Verlag, New York, 1989.
  • Mochoge, B., F. Beese, The behaviour of nitrogen fertilizers in neutral and acid loess soils, I, Transport and transformation of nitrogen, Z. Pflamenernähr Bodenk., 146, 89100, 1983a.
  • Mochoge, B., F. Beese, The behaviour of nitrogen fertilizers in neutral and acid loess soils, II, Distribution and balances of 15N tagged nitrogen, Z. Pflanzenernähr. Bodenk., 146, 504515, 1983b.
  • Mosier, J. M., D. Schimel, D. Valentine, K. Bronsen, W. Parton, Methane and nitrous oxide fluxes in native, fertilized and cultivated grasslands, Nature, 350, 330332, 1991.
  • Ojima, D. S., D. W. Valentine, A. R. Mosier, W. J. Parton, D. S. Schimel, Effect of land use change on methane oxidation in temperate forest and grassland soils, Chemosphere, 26, 675685, 1993.
  • Persson, T., A. Wiren, Nitrogen mineralization and potential nitrification at difference depths in acid forest soils, Plant Soil, 168–169, 5565, 1995.
  • Priemé, A., J. L. Sitaula, A. Kasimir-Klemedtsson, L. Bakken, Extraction of methane oxidizing bacteria from soil particles, FEMS Microbiol. Ecol., 21, 5968, 1996.
  • Sah, S. P., K. J. Meiwes, Rates of acid deposition and their interaction with forest canopy and soil in two beech forest ecosystems on limestone and Triassic sandstone soils in N. Germany, Environ. Technol. Lett., 10, 9951002, 1989.
  • Schimel, J. P., E. A. Holland, D. Valentine, Controls on methane flux from terrestrial ecosystems, Agricultural Ecosystem Effects on Trace Gases and Global Climate Change, ASA Spec. Publ., 55, 167182, 1993.
  • Schnell, S., G. M. King, Mechanistic analysis of ammonium inhibition of atmospheric methane consumption in forest soils, Appl. Environ. Microbiol., 60, 35143521, 1994.
  • Sitaula, B. K., L. R Bakken, G. Abrahamsen, N-fertilization and acidification effects on N2O and CO2 emission from temperate pine forest, Soil Biol. Biochem., 27, 14011408, 1995.
  • Steudler, P. A., R. D. Bowden, J. M. Mellilo, J. D. Aber, Influence of nitrogen fertilization on methane uptake in temperate forest soils, Nature, 341, 314316, 1989.
  • Steudler, P. A., R. D. Jones, M. S. Castro, J. M. Mellilo, D. L. Lewis, Microbial controls of methane oxidation in temperate forest and agricultural soils, Microbiology of Atmospheric Trace Gases, NATO ASI Ser. G, 39J. C. Murrell, D. P. Kelly, 6984, Springer-Verlag, New York, 1996.
  • Torn, M. S., J. Harte, Methane consumption by montane soils. Implications for positive and negative feedback with climatic change, Biogeochemistry, 32, 5367, 1996.
  • Ulrich, B., Stability, elasticity, and resilience of terrestrial ecosystems with respect to matter balance, Ecological Studies, 61, 1149, Springer-Verlag, New York, 1987.
  • Ulrich, B., Effects of acidic precipitation on forest ecosystems in Europe, Acidic Precipitation, Biological and ecological effectsD. C. Adriano, A. H. Johnson, Springer-Verlag, New York, 1989.
  • Ulrich, B., Nutrient and acid-base budget of central European forest ecosystems, Effects of Acid Rain on Forest EcosystemsD. L. Godbold, A. Huttermann, 150, John Wiley, New York, 1994.
  • Veerhoff, M., S. Roscher, G. W. Brümmer, Ausmaβ und ökologische Gefahren der Versauerung von Böden unter Wald, Berichte des Umweltbundesamtes, 1, 1364, Erich Schmidt Verlag, Berlin, 1996.
  • vonZezschwitz, E., Beziehungen zwischen dem C/N-Verhaltnis der Waldhumusformen und dem Basengehalt des Bodens, Fortschr. Geol. Rheinl. Westfalen., 16, 143174, 1986.
  • Whalen, S. C., W. S. Reeburgh, V. A. Barber, Oxidation of methane in boreal forest soils: A comparison of seven measures, Biogeochemistry, 16, 181211, 1992.
  • Wolters, V., M. Schaefer, Effects of acid deposition on soil organisms and decomposition processes, Effects of Acid Rain on Forest EcosystemsD. L. Godbold, A. Huttermann, 83127, John Wiley, New York, 1994.