Free Access
Issue
Ann. For. Sci.
Volume 65, Number 8, December 2008
Article Number 814
Number of page(s) 12
DOI https://doi.org/10.1051/forest:2008060
Published online 04 December 2008
References of  Ann. For. Sci. 65 (2008) 814
  1. Adams M.B. Allen and H.L., 1985. Nutrient proportions in foliage of semi-mature loblolly pine. Plant Soil 86: 27–34 [CrossRef].
  2. Albaugh T.J. Allen H.L. Dougherty, P.M. Kress, L.W., and King, J.S., 1998. Leaf area and growth responses of loblolly pine to nutrient and water additions. For. Sci. 44: 317–328.
  3. Albaugh T.J., Allen H.L., Dougherty P.M., and Johnsen K.H., 2004. Long term growth responses of loblolly pine to optimal nutrient and water resource availability. For. Ecol. Manage. 192: 3–19 [CrossRef].
  4. Barker J.E., 1978. Some sylvicultural effects of fertilisation. N.Z. J. For. Sci. 8: 160–177.
  5. Berbigier P., and Bonnefond J.M., 1995. Measurement and modelling of radiation transmission within a stand of maritime pine (Pinus pinaster Ait.). Ann. Sci. For. 52: 23–42 [CrossRef].
  6. Bergh J., Linder S., and Lundmark T., Elfving, B., 1999. The effect of water and nutrient availability on the productivity of Norway spruce in northern and southern Sweden. For. Ecol. Manage. 119: 51–62 [CrossRef].
  7. Benson M.L., Landsberg J.J., Borough C.J., and 1992. The Biology of forest growth experiment: an introduction. For. Ecol. Manage. 52: 1–16.
  8. Bonneau M., 1995. La fertilisation des forêts dans les pays tempérés. ENGREF, Nancy, 367 p.
  9. Bonneau M., Gelpe J.,and Le Tacon F., 1968. Influence des conditions de nutrition minérale sur le dépérissement du Pin maritime dans les Landes de Gascogne. Ann. For. Sci. 25: 251–289 [EDP Sciences] [CrossRef].
  10. Chapman D.G., 1961. Statistical problems in dynamics of exploited fisheries populations. In: Proceedings of the 4th Berkeley Symposium of Mathematics, Statistics and Probability 4: 153–168.
  11. Chen J.M. and Black T.A., 1992. Defining leaf area index for non-flat leaves. Plant Cell Environ. 15: 421–429 [CrossRef].
  12. Coll L., Messier C., Delagrange, S., and Berninger, F., 2007 Growth, allocation and leaf gas exchanges of hybrid poplar plants in their establishment phase on previously forested sites: effect of different vegetation management techniques, Ann. For. Sci. 64: 275–285.
  13. Dagnélie P., 1975. Théorie et méthodes Statistiques, Vol. 2. Les Presses Agronomiques de Gembloux.
  14. Danjon F., Bert D., Godin C., and Trichet, P., 1999. Structural root architecture of 5-year-old Pinus pinaster measured by 3D digitising and analysed with AMAPmod. Plant Soil 217: 49–63 [CrossRef].
  15. Delzon S., and Loustau D., 2005. Age-related decline in stand water use: sap flow and transpiration in a pine forest chronosequence. Agric. For. Meteorol. 129: 105–119 [CrossRef].
  16. Delzon S., Sartore M., Granier A., and Loustau D., 2004a. Radial profiles of sap flow with increasing tree size in maritime pine. Tree Physiol. 24: 1285–1293 [PubMed].
  17. Delzon S., Sartore M., Burlett R., Dewar R., and Loustau D., 2004b. Hydraulic responses to height growth in maritime pine trees. Plant Cell Environ. 27: 1077–1087 [CrossRef].
  18. Delzon S., Bosc A., Cantet L., and Loustau D., 2005. Variation of the photosynthetic capacity across a chronosequence of maritime pine correlates with needle phosphorus concentration. Ann. For. Sci. 62: 537–543 [EDP Sciences] [CrossRef].
  19. Gelpe J. and Guinaudeau J., 1974. Essai de fertilisation minérale sur Pins maritimes à Mimizan (Landes), résultats après la 16 année. Rev. For. Fr. XXVI: 459–463.
  20. Gough C., Seiler J.R., Johnsen K.H., and Sampson D.A., 2004a. Seasonal photosynthesis in fertilized and nonfertilized loblolly pine. For. Sci. 50: 1–9.
  21. Gough C., Seiler J.R., and Maier C.A., 2004b. Short-term effects of fertilization on loblolly pine physiology. Plant Cell Environ. 27: 876–866 [CrossRef].
  22. Gower S.T., Ghloz H.L., Nakane K., and Baldwin V.C., 1994. Production and carbon allocation pattern of pine forests. Ecol. Bull. (Copenhagen) 43: 115–135.
  23. Hirvela H. and Hynynen J., 1990. Effect of fertilization on the growth, top damage and susceptibility to windthrow of Scots pine stands in Lapland. Folia For. 764: 1–16 (in Finnish, with English summary).
  24. Hüttl R., 1986. Forest fertilisation: result from Germany, France and the Nordic countries. The Fertiliser Society, Proceedings No. 250, 40 p.
  25. IEFC, 2002. Forest Atlas of the South Atlantic Arc, 78 pp.
  26. Jarvis P.G. and Leverenz J.W., 1983. Productivity of temperate, deciduous and evergreen forests. In: Lange, O.L. Nobel, P.S. Osmond, C.B. Ziegler, H. (Eds.), Physiological Plant Ecology IV. Ecosystem Processes, Mineral Cycling, Productivity and Man's Influence. Springer-Verlag, pp. 233–280.
  27. Jokela E. J., Dougherty P.M., and Martin, T.A., 2004. Production dynamics of intensively managed loblolly pine stands in the southern United States: a synthesis of seven long-term experiments. For. Ecol. Manage. 192: 117–130 [CrossRef].
  28. Laiho O., 1987. Susceptibility of forest stands to windthrow in southern Finland. Folia For. 706: 1–24 (in Finnish, with English summary).
  29. Lefrou G., 1979. Résultats, après dix ans d'expérimentation de deux essais de fertilisation de regonflage sur pin maritime dépérissant dans les Landes de Gascogne. Rev. For. Fr. XXXI: 127–133.
  30. Lemoine B., Decourt N., 1969. Tables de production pour le pin maritime dans le sud ouest de la France. Rev. For. Fr. XXI: 5–16.
  31. Lemoine B., Gelpe J., Ranger J., Nys C., 1986. Biomasse et croissance du pin maritime. Étude de la variabilité dans un peuplement de 16 ans. Ann. For. Sci. 43: 67–84.
  32. Linder S., 1987. Responses to water and nutrition in coniferous ecosystems. In: Schultze E.-D., Zwölfer H. (Eds.), Potentials and limitations of ecosystem Analysis. Springer–Verlag, Ecol. Stud. 61: pp. 180–202.
  33. Linder S., 1995. Foliar analysis for detecting and correcting nutrient imbalances in Norway spruce. Ecol. Bull. (Copenhagen) 44: 178–190.
  34. Linder S., Rook D.A., 1984. Effects of mineral nutrition on carbon dioxide exchange and partitioning of carbon in trees. In: Bowen G.D., Nambiar E.K.S. (Eds.), Nutrition of Plantation Forests. Academic Press, New York, pp. 211–236.
  35. Linder S., Benson M.L., Myers B.J. and Raison R.J., 1987. Canopy dynamics and growth of Pinus radiata. I. Effects of irrigation and fertilisation during a drought. Can. J. For. Res. 10: 1157–1165.
  36. Lorette D., 1996. La forêt française et son bois, CRDP.
  37. Loustau D., Bert D. and Trichet P., 1999a. La productivité forestière du massif landais et sa gestion durable. Rev. For. Fr. LI: 571–591.
  38. Loustau D., Ben Brahim M., Gaudillère J.P. and Dreyer E., 1999b. Photosynthetic responses to phosphorus nutrition in two-year-old maritime pine seedlings. Tree Physiol. 19: 707–715 [PubMed].
  39. Loustau D., Bosc A., Colin A., Ogée J., Davi H., François C., Dufrêne E., Déqué M., Cloppet E., Arrouays D., Le Bas C., Saby N., Pignard G., Hamza N., Granier A., Bréda N., Ciais P., Viovy N. and Delage F., 2005. Modeling climate change effects on the potential production of French plains forests at the sub-regional level. Tree Physiol. 25: 813–823 [PubMed].
  40. McMurtrie R.E., Benson M.L., Linder S., Running S.W., Talsma T., Crane W.J.B. and Myers B.J., 1990. Water/nutrient interactions affecting the productivity of stands of Pinus radiata. For. Ecol. Manage. 30, 415-423.
  41. Medlyn B.E., Loustau D. and Delzon, S., 2002. Temperature response of parameters of a biochemically based model of photosynthesis. I. Seasonal changes in mature maritime pine. Plant Cell Environ. 1155–1165.
  42. Milne R. and van Oijen M., 2005. A comparison of two modelling studies of environmental effects on forest carbon stocks across Europe. Ann. For. Sci. 62: 911–923 [EDP Sciences] [CrossRef]
  43. O'Neill J.V. and Webb R.A., 1970. Simultaneous determination of nitrogen, phosphorus, and potassium in plant material by automatic methods. J. Sci. Food Agric. 21: 217–219 [CrossRef].
  44. Pereira J.S., Madeira M.V., Linder S., Ericsson T., Tomé M. and Araujo M.C., 1994. Biomass production with optimised nutrition in Eucalyptus globulus plantations. In: “Eucalyptus for Biomass Production”, Peirera J.S., Peirera, H. (Eds.), Commission of the European Communities, pp 13–30.
  45. Porté A., Trichet P., Bert D. and Loustau D., 2002. Allometric relationships for branch and tree woody biomass of maritime pine (Pinus pinaster Aït.). For. Ecol. Manage. 158: 71–83 [CrossRef].
  46. SAS Software, 2002. SAS/STAT User's Guide, Version 8.1.
  47. Richards F.J., 1959. A flexible growth function for empirical use. J. Exp. Bot. 10: 209–300.
  48. Ritson P. and Sochacki S., 2003. Measurement and prediction of biomass and carbon content of Pinus pinaster trees in farm forestry plantations, south-western Australia. For. Ecol. Manage. 175: 103–117 [CrossRef].
  49. Saur E., 1989. Alimentation oligo-minérale du Pin maritime en relation avec quelques caractéristiques physico-chimiques des sols sableux des Landes de Gascogne. Ann. For. Sci. 46: 119–129 [EDP Sciences] [CrossRef].
  50. Snowdon P. and Benson M.L., 1992. Effect of combinations of irrigation and fertilisation on the growth and above-ground biomass production of Pinus radiata. For. Ecol. Manage. 52: 87–116 [CrossRef].
  51. Tamm C.O., 1991. Nitrogen in terrestrial ecosystems, questions of productivity, vegetational changes, and ecosystem stability. springer–verlag, Ecol. Stud. 81 115 p.
  52. Teskey R.O., Withehead D. and Linder S., 1994. Photosynthesis and carbon gain by pines. Ecol. Bull. (Copenhagen) 43: 35–49.
  53. Trichet P., Jolivet C., Arrouays D., Loustau D. and Ranger J., 1999a. Le maintien de la fertilité des sols forestiers landais dans le cadre de la sylviculture intensive du pin maritime. Revue bibliographique et pistes de recherches. Étude et Gestion des Sols 6 (4): 197–214.
  54. Trichet P., Vauchel V., Bert D. and Bonneau M., 1999b. Fertilisation initiale et réitérée du Pin maritime (Pinus pinaster Ait.): Principaux résultats de l'essai de Berganton. Rev. For. Fr. LII: 207–222.
  55. Vose J.M. and Allen H.L., 1988. Leaf area, stem wood growth, and nutrition relationships in loblolly pine. For. Sci. 34: 547–563.