Free Access
Ann. For. Sci.
Volume 64, Number 2, March 2007
Page(s) 151 - 158
Published online 24 February 2007
References of  Ann. For. Sci. 64 (2007) 151-158
  1. Augusto L., Ranger J., Impact of tree species on soil solutions in acidic conditions, Ann. For. Sci. 58 (2001) 47-58 [EDP Sciences] [CrossRef].
  2. Barraclough D., The use of mean pool abundances to interpret 15N tracer experiments. I. Theory, Plant Soil 131 (1990) 89-96.
  3. Bengtsson G., Bengtson P., Mansson K.F., Gross nitrogen mineralization, immobilization-, and nitrification rates as a function of soil C/N ratio and microbial activity, Soil Biol. Biochem. 35 (2003) 143-154 [CrossRef].
  4. Berendse F., Effects of dominant plant species on soils during succession in nutrient-poor ecosystems, Biogeochemistry 42 (1998) 73-88 [CrossRef].
  5. Bonneau M., Modification de la fertilité des sols sous boisement artificiels de résineux purs, Compte rendu de fin d'étude, 1977, 88 p.
  6. Bonneau M., Evolution of the mineral fertility of an acid soil during a period of ten years in the Vosges mountains (France). Impact of humus mineralization, Ann. For. Sci. 62 (2005) 253-260 [EDP Sciences] [CrossRef].
  7. Brierley E.D.R., Wood M., Shaw P.J.A., Influence of tree species and ground vegetation on nitrification in an acid forest soil, Plant Soil 229 (2001) 97-104 [CrossRef].
  8. Chaussod R., Houot S., Guiraud G., Hetier J.M., Size and turnover of the microbial biomass in agricultural soils: laboratory and field experiments, in: Jenkinson D.S., Smith K.A. (Eds.), Nitrogen efficiency in agricultural soils, Elsevier, Amsterdam, 1987, pp. 323-338.
  9. Colin-Belgrand M., Dambrine E., Bienaimé S., Nys C., Turpault M.P., Influence of tree roots on nitrogen mineralization, Scand. J. For. Res. 18 (2003) 260-268 [CrossRef].
  10. De Boer W., Kovalchuk G. A. Nitrification in acid soils: micro-organisms and mechanisms, Soil Biol. Biochem. 33 (2001) 853-866 [CrossRef].
  11. Gundersen P., Callesen I., de Vries W., Nitrate leaching in forest ecosystems is related to forest floor C/N ratios, Environ. Pollut. 102 (1998) 403-407 [CrossRef].
  12. Hamilton, E.W., Frank D.A., Can plants stimulate soil microbes and their own nutrient supply? Evidence from a grazing tolerant grass, Ecology 82 (2001) 2397-2402 [CrossRef].
  13. Jussy J.H., Ranger J., Bienaimé S., Dambrine E., Effects of a clear-cut on the in situ nitrogen mineralisation and the nitrogen cycle in a 67-year-old Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco) plantation, Ann. For. Sci. 61 (2004) 397-408 [EDP Sciences] [CrossRef].
  14. Kirkham D., Bartholemew D.W., Equations for following nutrient transformations in soil utilizing tracer data, Soil Sci. Soc. Am. Proc. 18 (1954) 33-34.
  15. Lata J.C., Durand J., Lensi R., Abbadie L., Stable coexistence of contrasted nitrification statuses in a wet tropical savannah ecosystem, Funct. Ecol. 13 (1999) 762-768.
  16. Leuschner C., On the niche breadth of Fagus sylvatica: soil nutrient status in 50 Central European beech stands on a broad range of bedrocks types, Ann. For. Sci. 63 (2006) 355-368 [EDP Sciences] [CrossRef].
  17. Luxhoi J., Nielsen N.E., Jensen L.S., Influence of (15NH4+)-application on gross N turnover rates in soil, Soil Biol. Biochem. 35 (2003) 603-606 [CrossRef].
  18. Matheson F.E., Nguyen M.L., Cooper A.B., Burt T.P., Short-term nitrogen transformation rates in riparian wetland soil determined with nitrogen-15, Biol. Fertil. Soils 38 (2003) 129-136 [CrossRef].
  19. Mary B., Recous S., Measurement of nitrogen mineralisation and immobilisation fluxes in soil as a means of predicting net mineralisation, Eur. J. Agron. 3 (1994) 291-300.
  20. Mary B., Recous S., Robin D., A model for calculating nitrogen fluxes in soil using 15N tracing, Soil Biol. Biochem. 30, (1998) 1-17.
  21. Moukoumi J., Munier-Lamy C., Berthelin J., Ranger J., Effect of tree species substitution on organic matter biodegradability and mineral nutrient availability in a temperate topsoil, Ann. For. Sci. 63 (2006) 763-771 [EDP Sciences] [CrossRef].
  22. Müller C., Stevens R.J., Laughlin R.J., A 15N tracing model to analyse N transformations in old grassland soil, Soil Biol. Biochem. 36 (2004) 619-632 [CrossRef].
  23. Northup R.R., Yu Z., Dahlgren R.A., Vogt K.A., Polyphenol control of nitrogen release from pine litter, Nature 377 (1995) 227-229 [CrossRef].
  24. Paavolainen L., Kitunen V., Somlander A., Inhibition of nitrification in forest soil by monoterpenes, Plant Soil 205 (1998) 147-154 [CrossRef].
  25. Pedersen H., Dunkin K.A., Firestone M.K., The relative importance of autotrophic and heterotrophic nitrification in a conifer forest soil as measured by 15N tracer and pool dilution techniques, Biogeochemistry 44 (1999) 135-150.
  26. Persson T., Rudebeck A., Jussy J.H., Colin-Belgrand M., Priemé A., Dambrine E., Karlsson P.S., Sjoberg R.M, Soil nitrogen turnover - mineralization, nitrification and denitrification in European forest soils, in: Schulze E.D. (Ed.), Carbon and nitrogen cycling in European forest ecosystems, Ecological Studies 142, Springer, Berlin, 2000, pp. 297-331.
  27. Ranger J., Andreux F., Bienaimé S., Berthelin J., Bonnaud P., Boudot J.P., Bréchet C., Buée M., Calmet J.P., Chaussod R., Gelhaye D., Gelhaye L., Gérard F., Jaffrain J., Lejon D., Le Tacon F., Lévèque J., Maurice J.P., Merlet D., Moukoumi J., Munier-Lamy C., Nourrisson G., Pollier B, Ranjard L., Simonsson M., Turpault M.P, Vairelles D., Zeller B., Effets des substitutions d'essence sur le fonctionnement organo-minéral de l'écosystème forestier, sur les communautés microbiennes et sur la diversité des communautés fongiques mycorhiziennes et saprophytes (cas du dispositif de Breuil - Morvan), Rapport final contrat INRA-GIP Ecofor 2001-24, 2004, 202 p.
  28. Recous S., Aita, C., Mary B., In situ changes in gross N transformations in bare soil after addition of straw, Soil Biol. Biochem. 31 (1999) 119-133 [CrossRef].
  29. Référentiel pedologique, Baize D., Girard M.C. (Eds.), Editions INRA, Paris, 1995, 332 p.
  30. Schöttelndreier M., Falkengren-Grerup U., Plant induced alteration in the rhizosphere and the utilization of soil heterogeneity, Plant and Soil 209 (1999) 297-309 [CrossRef].
  31. Son Y., Lee I.K., Soil nitrogen mineralization in adjacent stands of larch, pine and oak in central Korea, Ann. Sci. For. 54 (1997) 1-8.
  32. Stark J.M., Hart S.C., High rates of nitrification and nitrate turnover in undisturbed coniferous forests, Nature 385 (1997) 61-64 [CrossRef].
  33. Vance E.D., Brookes P.C., Jenkinson D.S., Microbial biomass measurements in forest soils: The use of the chloroform-fumigation-incubation method in strongly acid soils, Soil Biol. Biochem. 19 (1987) 697-702 [CrossRef].
  34. Verchot L.V., Holmes Z., Mulon L., Groffman P.M., Lovett G.M., Gross vs. net rates of N mineralization and nitrification as indicators of functional differences between forest types, Soil Biol. Biochem. 33 (2001) 1889-1901 [CrossRef].
  35. Wattson C.J., Travers G., Kilpatrick D.J., Laidlaw A.S., Riordan E.O., Overestimation of gross N transformation rates in grassland soils due to non-uniform exploitation of applied and native pools, Soil Biol. Biochem. 32 (2000) 2019-2030 [CrossRef].
  36. Zerva A., Mencuccini M., Carbon stock changes in a peaty soil profile after afforestation with Sitka spruce (Picea sitchensis), Ann. For. Sci. 62 (2005) 873-880 [EDP Sciences] [CrossRef].