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All issues Volume 63 / No 5 (July-August 2006) Ann. For. Sci., 63 5 (2006) 537-546 References
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Issue
Ann. For. Sci.
Volume 63, Number 5, July-August 2006
Page(s) 537 - 546
DOI https://doi.org/10.1051/forest:2006036
Published online 19 July 2006
References of  Ann. For. Sci. 63 (2006) 537-546
  1. Bellamy P.H., Loveland P.J., Bradley R.I., Lark R.M., Kirk G.J.D., Carbon losses from all soils across England and Wales 1978-2003, Nature 437 (2005) 245-248 [CrossRef].
  2. Barnes B.V., Zak D.R., Denton S.R., Spurr S.H., Forest Ecology, 4th ed., John Wiley & Sons, Inc., New York, 1998, p. 774.
  3. Berg B., Ekbohm G., Litter mass-loss rates and decomposition patterns in some needle and leaf litter types. Long-term decomposition in a Scots pine forest, Can. J. Bot. 69 (1991) 1449-1456.
  4. Brink R., Dubach P., Lynch D., Measurement of carbohydrates in soil hydrolyzates with anthrone, Soil Sci. 89 (1959) 157-166.
  5. Davidson E.A., Trumbore S.E., Amundson R., Soil warming and organic carbon content, Nature 408 (2000) 789-790 [CrossRef] [PubMed].
  6. Day P.R., Particle fractionation and particle-size analysis, in: Black C.A., Evans D.D., Ensminger L.E., White J.L., Clark F.E. (Eds.), Methods of Soil Analysis. Part 1 - Physical and Mineralogical Properties, Including Statistics of Measurement and Sampling, American Society of Agronomy, Inc., Madison, 1965, pp. 545-567.
  7. Epron D., Ngao J., Granier A., Interannual variation of soil respiration in a beech forest ecosystem over a six-year study, Ann. For. Sci. 61 (2004) 499-505 [EDP Sciences] [CrossRef].
  8. Folland C.K., Karl T.R., Christy J.R., Clarke R.A., Gruza G.V., Jouzel J., Mann M.E., Oerlemans J., Salinger M.J., Wang S.W., Observed climate variability and change, in: Houghton J.T., Ding Y., Griggs D.J., Noguer M., van der Linden P.J., Dai X., Maskell K., Johnson C.A. (Eds.), Climate Change 2001: The Scientific Basis. Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge and New York, 2001, 881 p.
  9. Giardina C.P., Ryan M.G., Evidence that decomposition rates of organic carbon in mineral soil do not vary with temperature, Nature 404 (2000) 858-861 [CrossRef].
  10. Gu L., Post W.M., King A.W., Fast labile carbon turnover obscures sensitivity of heterotrophic respiration from soil to temperature: A model analysis, Glob. Biogeochem. Cycles 18 (2004) GB1022, doi:10.1029/2003GB002119.
  11. Hutchinson G.L., Mosier A.R., Improved soil cover method for field measurement of nitrous oxide fluxes, Soil Sci. Soc. Am. J. 45 (1981) 311-316.
  12. IPCC, Technical Summary, in: Houghton J.T., Ding Y., Griggs D.J., Noguer M., van der Linden P.J., Dai X., Maskell K., Johnson C.A. (Eds.), Climate Change 2001: The Scientific Basis, Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change, Cambridge University Press, Cambridge and New York, 2001, 881 p.
  13. Ishizuka S., Ishizuka K., Improvement of the method of enzyme activity analysis for the forest soils, Jpn. J. Soil Sci. Plant Nutr. 67 (1996) 190-193.
  14. Ishizuka S., Tsuruta H., Murdiyarso D., An intensive field study on CO2, CH4 and N2O emissions and soil properties at four land-use types in Sumatra, Indonesia, Glob. Biogeochem. Cycles 16 (2002) 1049 [CrossRef], doi:10.1029/2001GB001614.
  15. Janssens I.A., Lankreijer H., Matteucci G., Kowalski A.S., Buchmann N., Epron D., Pilegaard K., Kutsch W., Longdoz B., Grünwald T., Montagnani L., Dore S., Rebmann C., Moors E.J., Grelle A., Rannik Ü., Morgenstern K., Oltchev S., Clement R., Gudmundsson J., Minerbi S., Berbigier P., Ibrom A., Moncrieff J., Aubinet M., Bernhofer C., Jensen N.O., Vesala T., Granier A., Schulze E.D., Lindroth A., Dolman A.J., Jarvis P.G., Ceulemans R., Valentini R., Productivity overshadows temperature in determining soil and ecosystem respiration across European forests, Glob. Change Biol. 7 (2001) 269-278 [CrossRef].
  16. Kirschbaum M.U.F., The temperature dependence of soil organic matter decomposition, and the effect of global warming on soil organic C storage, Soil Biol. Biochem. 27 (1995) 753-760 [CrossRef].
  17. Kirshbaum M.U.F., Will changes in soil organic carbon act as a positive or negative feedback on global warming? Biogeochemistry 48 (2000) 21-51 [CrossRef].
  18. Melillo J.M., Steudler P.A., Aber J.D., Newkirk K., Lux H., Bowles F.P., Catricala C., Magill A., Ahrens T., Morrisseau S., Soil warming and carbon-cycle feedbacks to the climate system, Science 298 (2002) 2173-2176 [CrossRef].
  19. Miller G., Golder R., Miller E., Determination of pentoses, Anal. Chem. 23 (1951) 903-905 [CrossRef].
  20. Nambu K., Yonebayashi K., Role of dissolved organic matter in translocation of nutrient cations from organic layer materials in coniferous and broad leaf forests, Soil Sci. Plant Nutr. 45 (1999) 307-319.
  21. Pancholy S.K., Rice E.L., Soil enzymes in relation to old field succession: amylase, cellulase, invertase, dehydrogenase, and urease, Soil Sci. Soc. Am. Proc. 37 (1973) 47-50.
  22. Rustad L., Matter of time on the prairie, Nature 413 (2001) 578-579 [CrossRef] [PubMed].
  23. Raich J.W., Schlesinger W.H., The global carbon dioxide flux in soil respiration and its relationship to vegetation and climate, Tellus 44B (1992) 81-99.
  24. Sakata T., Ishizuka S., Takahashi M., A method for measuring fluxes of greenhouse gases from forest soils, Bull. For. For. Prod. Res. Inst. 392 (2004) 259-265.
  25. Schlesinger W.H., Carbon balance in terrestrial detritus, Ann. Rev. Ecol. Syst. 8 (1977) 51-81 [CrossRef].
  26. Schlesinger W.H., Andrews J.A., Soil respiration and the global carbon cycle, Biogeochemistry 48 (2000) 7-20 [CrossRef].
  27. Sinsabaugh R.L., Antibus R.K., Linkins A.E., An enzymic approach to the analysis of microbial activity during plant litter decomposition, Agric. Ecosyst. Environ. 34 (1991) 43-54.
  28. Somogyi M., Notes on sugar determination, J. Biol. Chem. 195 (1952) 19-23.
  29. Stevenson F., Gross chemical fractionation of organic matter, in: Black C. (Ed.), Methods of Soil Analysis, Part 2, Chemical and Microbiological Properties, American Society of Agronomy Inc., Madison, 1965, 1409-1421.
  30. Tabatabai M.A., Soil enzymes, in: Weaver R.W. et al. (Ed.), Methods of Soil Analysis. Part 2 - Microbiological and Biochemical Properties, Soil Science Society of America Inc., Madison, 1994, pp. 775-833.
  31. Trumbore S.E., Chadwick O.A., Amundson R., Rapid exchange between soil carbon and atmospheric carbon dioxide driven by temperature change, Science 272 (1996) 393-396.
  32. Trumbore S.E., Age of soil organic matter and soil respiration: radiocarbon constraints on belowground C dynamics, Ecol. Appl. 10 (2000) 399-411.
  33. Valentini R., Matteucci G., Dolman A.J., Schulze E.-D., Rebmann C., Moors E.J., Granier A., Gross P., Jensen N.O., Pilegaard K., Lindroth A., Grelle A., Bernhofer C., Grunwald T., Aubinet M., Ceulemans R., Kowalski A.S., Vesala T., Rannik U., Berbigier P., Loustau D., Gudmundsson J., Thorgeirsson H., Ibrom A., Morgenstern K., Clement R., Moncrieff J., Montagnani L., Minerbi S., Jarvis P.G., Respiration as the main determinant of carbon balance in European forests, Nature 404 (2000) 861-865 [CrossRef] [PubMed].
  34. Vance E.D., Brooks P.C., Jenkinson D.S., An extracted method for measuring soil microbial biomass C, Soil Biol. Biochem. 19 (1987) 703-707 [CrossRef].