Free access
Issue
Ann. For. Sci.
Volume 61, Number 6, September 2004
Page(s) 489 - 498
DOI http://dx.doi.org/10.1051/forest:2004043
References of Ann. For. Sci. 61 489-498
  1. Aerts R., Chapin III F.S., The mineral nutrition of wild plants revised: a re-evaluation of processes and patterns, Adv. Ecol. Res. 30 (2000) 1-63.
  2. Alban D.H., Perala D.A., Schlaegel B.E., Biomass and nutrient distribution in aspen, pine, and spruce stands on the same soil type in Minnesota, Can. J. For. Res. 8 (1978) 290-299.
  3. Alriksson A., Eriksson H.M., Variation in mineral nutrient and C distribution in the soil and vegetation compartments of five temperate tree species in NE Sweden, For. Ecol. Manage. 108 (1998) 261-273.
  4. Andersson M., Balsberg-Påhlsson A.-M., Falkengren-Grerup U., Tyler G., Environment and mineral nutrients of beech (Fagus sylvatica L.) in South Sweden, Flora 183 (1989) 405-441.
  5. Arthur M.A., Siccama T.G., Yanai R.D., Calcium and magnesium in wood of northern hardwood forest species: relations to site characteristics, Can. J. For. Res. 29 (1999) 339-346 [CrossRef].
  6. Augusto L., Ranger J., Ponette Q., Rapp M., Relationships between forest tree species, stand production and stand nutrient amount, Ann. For. Sci. 57 (2000) 313-324 [EDP Sciences] [CrossRef].
  7. Balsberg-Påhlsson A.-M., Mineral nutrients, carbohydrates and phenolic compounds in leaves of beech (Fagus sylvatica L.) in southern Sweden as related to environmental factors, Tree Physiol. 5 (1989) 485-495 [PubMed].
  8. Barber S. A., Soil nutrient bioavailability: a mechanistic approach, John Wiley & Sons, 1995.
  9. Bastrup-Birk A., Hansen K., Helge R.-P., Jørgensen B.B., Mikkelsen T., Piledaard K., Bille-Hansen J., Biomasse og produktion, in: Hansen K. (Ed.), Næringsstofkredsløb i skove - ionbalanceprojektet, Forskningsserien, FSL, 2003.
  10. Bauer G., Schulze E.-D., Mund M., Nutrient contents and concentrations in relation to growth of Picea abies and Fagus sylvatica along a European transect, Tree Physiol. 17 (1997) 777-786 [PubMed].
  11. Bergmann W., Nutritional disorders of plants: development, visual and analytical diagnosis, Fischer, Jena, Stuttgart, New York, 1992.
  12. Bockheim J.G., Leide J.E., Foliar nutrient dynamics and nutrient-use efficiency of oak and pine on a low fertility soil in Wisconsin, Can. J. For. Res. 2l (1991) 925-934.
  13. Boucher P., Côté B., Characterizing base-cation immobilization in the stem of six hardwoods of eastern Canada, Ann. For. Sci. 59 (2002) 397-407 [EDP Sciences] [CrossRef].
  14. Cape J.N., Freer-Smith P.H., Paterson I.S., Parkinson J.A., Wolfenden J., The nutritional status of Picea abies (L.) Karst. across Europe, and implications for "forest decline", Trees 4 (1990) 211-224.
  15. Colin-Belgrand M., Ranger J., d'Argouges S., Transferts internes d'éléments nutritifs dans le bois de châtaignier (Castanea sativa Miller): approche dynamique sur une chronoséquence de peuplements. I. Distribution des éléments minéraux, Acta Oecol. 14 (1993) 653-680.
  16. Dinwoodie J.M., Timber: Its nature and behaviour, 2nd ed., E & FN Spon, New York, 2000.
  17. Dunham R.J., Nye P.H., The influence of soil water content on the uptake of ions by roots. III. Phosphate, potassium, calcium and magnesium uptake and concentration gradient in soil, J. Appl. Ecol. 13 (1976) 967-984.
  18. Ekström H., Lövvirke - Tillgångar och industriell användning (Hardwood - supplies and industrial utilization), The Swedish University of Agricultural Sciences, Rapport No. 197, Uppsala, ISBN 91-576-3273-1, 1987 (in Swedish with English abstract).
  19. Eriksson H.M., Rosén K., Nutrient distribution in a Swedish tree species experiment, Plant Soil 164 (1994) 51-59.
  20. FAO/Unesco Soil Map of the World, Revised Legent, World Resources Report 60, FAO, Rome, Reprinted as Technical Paper 20, ISRIC, Wageningen, 1989.
  21. George E., Marschner H., Nutrient and water uptake by roots of forest trees, Z. Pflanzenernähr. Bodenkd. 159 (1996) 11-21.
  22. Hagen-Thorn A., Callesen I., Armolaitis K., Nihlgård B., The impact of six European tree species on the chemistry of mineral topsoil in forest plantations on former agricultural land, For. Ecol. Manage 195 (2004) 373-384.
  23. Holmquist J., Thelin G., Rosengren U., Stjernquist I., Wallman P., Sverdrup H., Assessment of sustainability in the Asa Forest Park, in: Sverdrup H., Stjernquist I. (Eds.), Developing principles and models for sustainable forestry in Sweden, Kluwer Academic Publishers, 2002, pp. 381-426.
  24. Gülpen M., Türk S., Fink S., Ca nutrition of conifers, Z. Pflanzenernähr. Bodenkd. 158 (1995) 519-527.
  25. Ingerslev M., Above ground biomass and nutrient distribution in a limed and fertilized Norway spruce (Picea Abies) plantation. Part I. Nutrient concentrations, For. Ecol. Manage. 119 (1998) 13-20.
  26. Innes J.L., Methods to estimate forest health, Silva Fenn. 27 (1993) 145-157.
  27. ISRIC/FAO-UN, Procedures for Soil Analysis, van Reeuwijk L.P. (Ed.), Technical Paper 9, 5th ed., 1995.
  28. Kazda M., Salzer J., Reiter I., Photosynthetic capacity in relation to nitrogen in the canopy of a Quercus robur, Fraxinus angustifolia and Tilia cordata flood plain forest, Tree Physiol. 20 (2000) 1029-1037 [PubMed].
  29. Linder S., Foliar analysis for detecting and correcting nutrient imbalances in Norway spruce, Ecol. Bull. 44 (1995) 178-190.
  30. Marschner H., Mineral nutrition of higher plants, 2nd ed., Academic press, 1995.
  31. Meerts P., Mineral nutrient concentrations in sapwood and heartwood: a literature review, Ann. For. Sci. 59 (2002) 713-722 [EDP Sciences] [CrossRef].
  32. Montgomery D.C., Design and analysis of experiments, 5th ed., John Wiley & Sons, 2001.
  33. Nihlgård B., Plant biomass primary production and distribution of chemical elements in a beech and a planted spruce forest in South Sweden, Oikos 23 (1972) 69-81.
  34. Nihlgård B., Markundersökningar 1993 på fasta skogsprovytor I Skåne (Soil investigations 1993 on permanent forest observation plots in Scania) Lund University, Rapport 16, 1996 (in Swedish with English abstract).
  35. Nihlgård B., Rosengren-Brinck and Thelin, G., Barrkemi på Skånska gran - och tallprovytor 1994 - relationer till markkemi och tillväxt (Needle chemistry on Scanian spruce and pine plots 1994 - relation to soil chemistry and growth) Lund University, Rapport No. 17, 1997 (in Swedish with English abstract).
  36. Norden U., Influence of tree species on acidification and mineral pools in deciduous forest soils of South Sweden, Water Air Soil Pollut. 76 (1994) 363-381 [CrossRef].
  37. Penninckx V., Glineur S., Gruber W., Herbauts J., Meerts P., Radial variations in wood mineral element concentrations: a comparison of beech and pedunculate oak from the Belgian Ardennes, Ann. For. Sci. 58 (2001) 253-260 [EDP Sciences] [CrossRef].
  38. Perala D.A., Alban D.H., Biomass nutrient distribution and litterfall in Populus tremuloides, Pinus spp. and Picea glauca stands on 2 different soils in Minnesota USA, Plant Soil 64 (1982) 177-192.
  39. Pigott C.D., Biological flora of the British Isles, J. Ecol. 79 (1991) 1147-1207.
  40. Ponette Q., Ranger J., Ottorini J-M., Ulrich E., Aboveground biomass and nutrient content of five Douglas-fir stands in France, For. Ecol. Manage. 142 (2001) 109-127.
  41. Rochon P., Paré D., Messier C., Development of an improved model estimating the nutrient content of the bole for four boreal tree species, Can. J. For. Res. 28 (1998) 37-43 [CrossRef].
  42. Rosengren-Brinck U. and Nihlgård B., Nutritional status in needles of Norway spruce in relation to water and nutrient supply, Ecol. Bull. 44 (1995) 168-177.
  43. Rosengren U., Stjernquist I., Thelin G., Nitrogen and nutrient imbalance, in: Sverdrup H., Stjernquist I. (Eds.), Developing principles and models for sustainable forestry in Sweden, Kluwer Academic Publishers, 2002, pp. 236-245.
  44. Santa Regina I., Organic matter distribution and nutrient fluxes within a sweet chestnut (Castanea sativa Mill.) stand of the Sierra de Gata, Spain, Ann. For. Sci. 57 (2000) 691-700 [EDP Sciences] [CrossRef].
  45. Sokal R.R., Rolf F.J., Biometry: the principles and practice of statistics in biological research, 3d ed., W.H. Freeman and Company, New York, 1995.
  46. Son Y., Gower S.T., Nitrogen and phosphorus distribution for five plantation species in southwestern Wisconsin, For. Ecol. Manage, 53 (1992) 175-193.
  47. Stefan K., Fürst A., Hacker R., Bartels, U., Forest Foliar Condition in Europe - Results of large-scale foliar chemistry surveys (survey 1995 and data from previous years), EC-UN/EC, Austrian Federal Research Centre, 1997, 207 p.
  48. Thelin G., Rosengren-Brinck U., Nihlgård B., and Barkman A., Trends in needle and soil chemistry of Norway spruce and Scots pine stands in South Sweden 1985-1994, Environ. Pollut. 99 (1998) 149-158 [CrossRef] [PubMed].
  49. Thelin G., Rosengren U., Callesen I., Ingeslev M., The nutrient status of Norway spruce in pure and in mixed-species stands, For. Ecol. Manage. 160 (2002) 115-125.
  50. Thelin G., Sverdrup H., Holmquist J., Rosengren U., Linden M., Assessing nutrient sustainability for single stands at Jämjö, in: Sverdrup H., Stjernquist I. (Eds.), Developing principles and models for sustainable forestry in Sweden, Kluwer Academic Publishers, 2002, pp. 236-245.
  51. Van den Burg J., Foliar analysis for determination of tree nutrient status - a compilation of literature data. Rijksinstituut voor onderzoek in de bos - en landschapsbouw "De Dorschkamp", Rapport No. 414, Wageningen, 1985.
  52. Wang J.R., Zhong A.L., Simard S.W., Kimmins J.P., Aboveground biomass and nutrient accumulation in an age sequence of paper birch (Betula papyrifera) in the Interior Cedar Hemlock zone, British Colombia, For. Ecol. Manage. 83 (1996) 27-38.
  53. Zöttl H.W., Hüttl R.F., Nutrient supply and forest decline in southern Germany, Water Air Soil Pollut. 31 (1986) 449-462.
  54. Ågren G.I., Ingestad T., Root: shoot ratio as a balance between nitrogen productivity and photosynthesis, Plant Cell Environ. 10 (1987) 579-586.
  55. Yugai A.N., Effect of lime Tilia cordata trees on forest growing soil properties, Izv. Timiryazev s/kh akad 0 (5) (1980) (Recd. 1981) 111-115 (in Russian with English abstract).