EDP Sciences logo
Search
Menu
All issues Volume 66 / No 4 (June 2009) Ann. For. Sci., 66 4 (2009) 412 References
Free Access
Issue
Ann. For. Sci.
Volume 66, Number 4, June 2009
Article Number 412
Number of page(s) 10
DOI https://doi.org/10.1051/forest/2009014
Published online 06 May 2009
References of  Ann. For. Sci. 66 (2009) 412
  1. Aber J., McDowell W., Nadelhoffer K., Magill A., Berntson G., Kamakea M., McNulty S., Currie W., Rustad L., and Fernandez I., 1998. Nitrogen saturation in temperate forest ecosystems. Bioscience 48: 921–934 [CrossRef].
  2. Adams M.B., 1999. Acidic deposition and sustainable forest management in the central Appalachians, USA. For. Ecol. Manage. 122: 17–28 [CrossRef].
  3. Alewell C., Bredemeier M., Matzner E., and Blanck K., 1997. Soil solution response to experimentally reduced acid deposition in a forest ecosystem. J. Environ. Qual. 26: 658–665.
  4. Alfani A., Baldantoni D., Maisto G., Bartoli G., and Virzo de Santo A., 2000. Temporal and spatial variation in C, N, S and trace element contents in the leaves of Quercus ilex within the urban area of Naples. Environ. Pollut. 109: 119–129 [PubMed] [CrossRef].
  5. Barber S.A., 1995. Soil Nutrient Bioavailability: a mechanistic approach, John Wiley & Sons, New York, 414 p.
  6. Bonneau M., 1995. Fertilisation des forêts dans les pays tempérés. ENGREF, Nancy, 367 p.
  7. Bonneau M., Belkacem S., Nys C., Ranger J., Gelhaye D., Lefèvre Y., and Humbert D., 2000. Evolution d'un sol forestier acide des Vosges sur une période de 10 ans. Observatoire de la Qualité des Sols du DONON. Etude et Gestion des Sols 7: 99–118.
  8. Brêthes A. and Ulrich E., 1997. RENECOFOR – Caractéristiques pédologiques des 102 peuplements du réseau. Office national des forêts, département des recherches techniques, 573 p.
  9. Cluzeau C., Ulrich E., Lanier M., and Garnier F., 1998. RENECOFOR – Interprétation des mesures dendrométriques de 1991 à 1995 des 102 peuplements du réseau. Office national des forêts, Département des recherches techniques, 309 p.
  10. Cole D.W. and Rapp M., 1981. Elemental cycling in forest ecosystems, dynamic properties of forest ecosystems, Reichle D.E. (Ed.), Cambridge University Press, Cambridge, UK, pp. 341–409
  11. Compton J.E. and Cole D.W., 1998. Phosphorus cycling and soil P fractions in Douglas-fir and red alder stands. For. Ecol. Manage. 110: 101–112 [CrossRef].
  12. Croisé L., Cluzeau C., Ulrich E., Lanier M., and Gomez A., 1999. RENECOFOR – Interprétation des analyses foliaires réalisées dans les 102 peuplements du réseau entre 1993 et 1997 et premières évaluations interdisciplinaires. Office national des forêts, Département recherche et développement, 413 p.
  13. DeBell D.S. and Radwan M.A., 1984. Foliar chemical concentrations in red alder stands of various ages. Plant Soil 77: 391–394 [CrossRef].
  14. Duquesnay A., Dupouey J.L., Clement A., Ulrich E., and Le Tacon F., 2000. Spatial and temporal variability of foliar mineral concentration in beech (Fagus sylvatica) stands in northeastern France. Tree Physiol. 20: 13–22 [PubMed].
  15. Flückiger W. and Braun S., 1998. Nitrogen deposition in Swiss forests and its possible relevance for leaf nutrient status, parasite attacks and soil acidification. Environ. Pollut. 102: 69–76 [CrossRef].
  16. Granier A. and Bréda N., 1996. Modeling canopy conductance and stand transpiration of an oak forest from sap flow measurements. Ann. Sci. For. 53: 537–546 [CrossRef].
  17. Hagen-Thorn A., Armolaitis K., Callesen I., and Stjernquist I., 2004. Macronutrients in tree stems and foliage: a comparative study of six temperate forest species planted at the same sites. Ann. For. Sci. 61: 489–498 [EDP Sciences] [CrossRef].
  18. Hippeli P. and Branse C., 1992. Veränderungen der nährelementkonzentrationen in den nadeln mittelalter kiefernbestände auf pleistozänen sandstandorten brandeburgs in den jahren 1964 bis 1988. Forstwiss. Centralbl. 111: 44–60 [CrossRef].
  19. Jonard M., Misson L., and Ponette Q., 2006. Long-term thinning effects on the forest floor and the foliar nutrient status of norway spruce stands in the Belgian Ardennes. Can. J. For. Res. 36: 2684–2695 [CrossRef].
  20. Jonard M., Ulrich E., Giot-Wirgot P., and Dambrine E., 2008. RENECOFOR – Facteurs explicatifs de la variabilité et évolution temporelle de la nutrition foliaire dans les réseaux de suivi à long terme des écosystèmes forestiers de France (RENECOFOR), de Belgique (Wallonie) et du Grand-Duché de Luxembourg (période 1993–2005). Office national des forêts, direction technique et commercial Bois, 67 p.
  21. Jonard M., Augusto L., Morel C., Achat D., and Saur E., 2009. Forest floor contribution to P nutrition: experimental data. Ann. For. Sci. 66: in press.
  22. Kimmins J.P., 1997. Forest ecology: a foundation for sustainable forest management, 2nd ed., Prentice and Hall, Upper Saddle River, New Jersey, 596 p.
  23. Lebourgeois F., Granier A., and Bréda N., 2001. Une analyse des changements climatiques régionaux en France entre 1956 et 1997. Réflexions en terme de conséquences pour les écosystèmes forestiers. Ann. For. Sci. 58: 733–754.
  24. Le Tacon F. and Toutain F., 1973. Variations saisonnières et stationnelles de la teneur en éléments minéraux des feuilles de hêtre (Fagus sylvatica) dans l'est de la France. Ann. Sci. For. 30: 1–29 [CrossRef].
  25. Luyssaert S., Raitio H., Vervaeke P., Mertens J., and Lust N., 2002. Sampling procedure for the foliar analysis of deciduous trees. J. Environ. Monitor. 4: 858–864 [CrossRef].
  26. Luyssaert S., Sulkava M., Raitio H., and Hollmén J., 2004. Evaluation of forest nutrition based on large-scale foliar surveys: are nutrition profiles the way of the future? J. Environ. Monitor. 6: 160–167 [CrossRef].
  27. Luyssaert S., Sulkava M., Raitio H., and Hollmén J., 2005. Are N and S deposition altering the mineral composition of Norway spruce and Scots pine needles in Finland ? Environ. Pollut. 138: 5–17 [CrossRef].
  28. Marschner H., 1995. Mineral nutrition of higher plants. 2nd ed., Academic Press, London, 889 p.
  29. Mellert K.H., Prietzel J., Straussberger R., and Rehfuess K.E., 2004. Long-term nutritional trends of conifer stands in Europe: results from the RECOGNITION project. Eur. J. For. Res. 123: 305–319.
  30. Mohren G.M.J., Van Den Burg J., and Burgen F.W., 1986. Phosphorus deficiency induced by nitrogen input in Douglas fir in the Netherlands. Plant Soil 95: 191–200 [CrossRef].
  31. Northup R.R., Dahlgren R.A., and Yu Z., 1995. Intraspecific variation of conifer phenolic concentration on a marine terrace soil acidity gradient; a new interpretation. Plant Soil 171: 255–262.
  32. Overgaard R., Gemmel P., and Karlsson M., 2007. Effect of weather conditions on mast year frequency in beech (Fagus sylvatica L.) in Sweden. Forestry 80: 553–563.
  33. Paré D. and Bernier B., 1989a. Origin of the phosphorus deficiency observed in declining sugar maple stands in the Quebec Appalachians. Can. J. For. Res. 19: 24–34 [CrossRef].
  34. Paré D. and Bernier B., 1989b. Phosphorus-fixing potential of Ah and H horizons subjected to acidification. Can. J. For. Res. 19: 132–134 [CrossRef].
  35. Party J.P., Probst A., Thomas A.L., and Dambrine E., 2001. Calcul et cartographie des charges critiques azotées en France: application de la méthode empirique. Critical loads for nutrient nitrogen: calculations and mapping by empirical method for France. Pollution Atmosphérique 172: 531–544.
  36. Pearson J. and Stewart G.R., 1993. Tansley review No. 56. The deposition of atmospheric ammonia and its effects on plants. New Phytol. 125: 283–305.
  37. Piovesan G. and Adams J.M., 2001. Masting behaviour in beech: linking reproduction and climatic variation. Can. J. Bot. 79: 1039–1047 [CrossRef].
  38. Ponette Q., Ulrich E., Brêthes A., Bonneau M., and Lanier M., 1997. RENECOFOR – Chimie des sols dans les 102 peuplements du réseau. Office national des forêts, Département des recherches techniques, 427 p.
  39. Prescott C.E., Blevins L.L., and Staley C.L., 2000. Effects of clear-cutting on decomposition rates of litter and forest floor in forests of British Columbia. Can. J. For. Res. 30: 1751–1757 [CrossRef].
  40. Schleppi P., Tobler L., Bucher J.B., and Wyttenbach A., 2000. Multivariate interpretation of the foliar chemical composition of Norway spruce (Picea abies). Plant Soil 219: 251–262 [CrossRef].
  41. Thelin G., Rosengren-Brinck U., Nihlgard B., and Barkman A., 1998. Trends in needle and soil chemistry of Norway spruce and Scots pine in South Sweden 1985–1994. Environ. Pollut. 99: 149–158 [PubMed] [CrossRef].
  42. Ulrich E., Adrian M., and Lanier M., 1994. Manuel de référence No. 6 pour l'échantillonnage foliaire, la préparation des échantillons et l'analyse, 2$^{\rm e}$ version, juin 1994. O.N.F., département des recherches techniques, D.T.C. 5 (Fontainebleau), 43 p.
  43. Van Breemen N., Mulder J., and Driscoll C.T., 1983. Acidification and alkalinization of soils. Plant Soil 75: 283–308 [CrossRef].
  44. Van den Burg J., 1985. Foliar analysis for determination of tree nutrient status: a compilation of literature data. Report No. 414, Rijksinstituut voor onderzoek in de bos en landschapsbouw “De Dorschkamp”, Wageningen, 615 p.
  45. Van den Burg J., 1990. Foliar analysis for determination of tree nutrient status: a compilation of literature data 2. Literature 1985–1989. Report No. 591, “De Dorschkamp” Institute for forestry and urban ecology, Wageningen, The Netherlands, 220 p.
  46. Wesselink L.G., Meiwes K.J., Matzner E., and Stein A., 1995. Long-term changes in water and soil chemistry in spruce and beech forests, Solling, Germany. Environ. Sci. Technol. 29: 51–58 [CrossRef].
  47. Wood T., Bormann F.H., and Voigt G.K., 1984. Phosphorus cycling in a northern hardwood forest: Biological and chemical control. Science 223: 391–393 [PubMed] [CrossRef].
  48. Yasumura Y., Hikosaka K., and Hirose T., 2006. Resource allocation to vegetative and reproductive growth in relation to mast seeding in Fagus crenata. For. Ecol. Manage. 229: 228–233 [CrossRef].
  49. Yanai R.D., Currie W.S., and Goodale C.L., 2003. Soil carbon dynamics after forest harvest: an ecosystem paradigm reconsidered. Ecosystems 6: 197–212 [CrossRef].