Free access
Issue
Ann. For. Sci.
Volume 62, Number 8, December 2005
Page(s) 785 - 796
DOI http://dx.doi.org/10.1051/forest:2005084
Published online 15 December 2005
References of Ann. For. Sci. 62 785-796
  1. Alder D., The Preliminary Development of the CAFOGROM Forest Growth Model, Internal consultancy report, ODA/CPATU Silviculture Research Project, Belém, Brazil, 1994.
  2. Alder D., Silva J.N.M., An empirical cohort model for management of Terra Firme forests in the Brazilian Amazon, For. Ecol. Manage. 130 (2000) 141-157 [CrossRef].
  3. Alder D., Synnott T.J., Permanent Sample Plot Techniques for Mixed Tropical Forest, Tropical Forestry Papers 25, Oxford Forestry Institute, Department of Plant Sciences, University of Oxford, Oxford, 1992.
  4. Alvarez-Buylla E.R., Martinez-Ramos M., Demography and allometry of Cecropia obtusifolia, a neotropical pioneer tree, an evaluation of the climax-pioneer paradigm for tropical rain forests, J. Ecol. 80 (1992) 275-290.
  5. Assmann E., The Principles of Forest Yield Study, Pergamon Press, Oxford, UK, 1970.
  6. Atta-Boateng J., Moser J.W., A method for classifying commercial tree species of an uneven-aged mixed species tropical forest for growth and yield model construction, For. Ecol. Manage. 104 (1998) 89-99 [CrossRef].
  7. Aubréville A.M.A., La forêt coloniale: les forêts de l'Afrique Occidentale Française, Société d'Éditions Géographiques, Paris, 1938.
  8. Bazzaz F.A., Dynamics of wet tropical forests and their species strategies, in: Medina E., Mooney M.A., Vásquez-Yánes C. (Eds.), Physiological ecology of plants of the wet tropics: proceedings of an international symposium held in Oxatepec and Los Tuxtlas, Mexico, June 29 to July 6, 1983, W. Junk, The Hague, 1984, pp. 233-243.
  9. Bazzaz F.A., Pickett S.T.A., Physiological ecology of tropical succession: a comparative review, Annu. Rev. Ecol. Syst. 11 (1980) 287-310 [CrossRef].
  10. Boscolo M., Buongiorno J., Condit R., A model to predict biomass recovery and economic potential of a neotropical forest, in: Panayotou T. (Ed.), Environment for Growth: Environmental Management for Sustainability and Competitiveness in Central America, Harvard Studies in International Development, Harvard University Press, Cambridge, Massachusetts, 2001, p. 608.
  11. Bossel H., Krieger H., Simulation model of natural tropical forest dynamics, Ecol. Model. 59 (1991) 37-71 [CrossRef].
  12. Budowski G., The distinction between old secondary and climax species in tropical central American lowland forests, Trop. Ecol. 11 (1970) 44-48.
  13. Carey E.V., Brown S., Gillespie A.J.R., Lugo A.E., Tree mortality in mature lowland tropical moist and tropical lower montane moist forests of Venezuela, Biotropica 26 (1994) 255-265.
  14. Clark D.A., Clark D.B., Assessing the growth of tropical rain forest trees: issues for forest modeling and management, Ecol. Appl. 9 (1999) 981-997.
  15. Collinet F., Essai de regroupements des principales espèces structurantes d'une forêt dense humide d'après l'analyse de leur répartition spatiale, Thèse de doctorat, Université Claude Bernard-Lyon I, Lyon, 1997.
  16. Condit R., Research in large, long-term tropical forest plots, Trends Ecol. Evol. 10 (1995) 18-22 [CrossRef].
  17. Condit R., Hubbell S.P., Foster R.B., Mortality and growth of a commercial hardwood "el cativo", Prioria copaifera, in Panama, For. Ecol. Manage. 62 (1993) 107-122 [CrossRef].
  18. Condit R., Sukumar R., Hubbell S.P., Foster R.B., Predicting population trends from size distributions: a direct test in a tropical tree community, Am. Nat. 152 (1998) 495-509 [CrossRef].
  19. Crow T.R., A rainforest chronicle: a 30-year record of change in structure and composition at El Verde, Puerto Rico, Biotropica 12 (1980) 42-55.
  20. Davies S.J., Tree mortality and growth in 11 sympatric Macaranga species in Borneo, Ecology 82 (2001) 920-932.
  21. Denslow J.S., Gap partitioning among tropical rainforest trees, Biotropica 12 (1980) 47-55.
  22. Denslow J.S., Tropical rainforest gaps and tree species diversity, Annu. Rev. Ecol. Syst. 18 (1987) 431-451 [CrossRef].
  23. Favrichon V., Classification des espèces arborées en groupes fonctionnels en vue de la réalisation d'un modèle de dynamique de peuplement en forêt guyanaise, Rev. Écol. (Terre et Vie) 49 (1994) 379-403.
  24. Favrichon V., Modèle matriciel déterministe en temps discret. Application à l'étude de la dynamique d'un peuplement forestier tropical humide (Guyane française), Thèse de doctorat, Université Claude Bernard-Lyon I, Lyon, 1995.
  25. Favrichon V., Gourlet-Fleury S., Dessard H., Bar-Hen A., Parcelles permanentes de recherche en forêt dense tropicale humide. Éléments pour une méthodologie d'analyse de données, Série FORAFRI, Vol. 14, CIRAD, Montpellier, 1998.
  26. Felfili J.M., Growth, recruitment and mortality in the Gama gallery forest in central Brazil over 6 year period (1985-1991), J. Trop. Ecol. 11 (1995) 67-83.
  27. Finegan B., Camacho M., Zamora N., Diameter increment patterns among 106 tree species in a logged and silviculturally treated Costa Rican rain forest, For. Ecol. Manage. 121 (1999) 159-176 [CrossRef].
  28. Franc A., Gourlet-Fleury S., Picard N., Introduction à la modélisation des forêts hétérogènes, ENGREF, Nancy, 1999.
  29. Gitay H., Noble I.R., What are functional types and how should we seek them? in: Smith T.M., Shugart H.H., Woodward F.I. (Eds.), Plant Functional Types: Their Relevance to Ecosystem Properties and Global Change, International Geosphere-Biosphere Programme, Vol. 1, Cambridge University Press, Cambridge, 1997, pp. 3-19.
  30. Gitay H., Noble I.R., Connell J.H., Deriving functional types for rain-forest trees, J. Veg. Sci. 10 (1999) 641-650.
  31. Gourlet-Fleury S., Modélisation individuelle spatialement explicite de la dynamique d'un peuplement de forêt dense tropicale humide (dispositif de Paracou, Guyane française), Thèse de doctorat, Université Claude Bernard-Lyon I, Lyon, 1997, 2 volumes.
  32. Gourlet-Fleury S., Dispositif sylvicole expérimental de Paracou (Guyane française): aperçus sur l'état et la dynamique des peuplements 13 ans après installation, rapport technique, Silvolab, Kourou, Guyane et Cirad-Forêt, Montpellier, 2000, 2 volumes.
  33. Gourlet-Fleury S., Houllier F., Modelling diameter increment in a lowland evergreen rain forest in French Guiana, For. Ecol. Manage. 131 (2000) 269-289 [CrossRef].
  34. Harcombe P.A., Tree life tables: simple birth, growth and death data encapsulate life histories and ecological roles, Bioscience 37 (1987) 557-568.
  35. Hartshorn G.S., Neotropical forest dynamics, Biotropica 12 (1980) 23-30.
  36. Hladik A., Dynamique d'une forêt équatoriale africaine: mesures en temps réel et comparaison du potentiel de croissance des différentes espèces, Acta Oecol. Oecol. Gen. 3 (1982) 373-392.
  37. Hubbell S.P., Foster R.B., La estructura espacial en gran escala de un bosque neotropical, Rev. Biol. Trop. 35 (1987) 7-22.
  38. Huth A., Ditzer T., Long-term impacts of logging in a tropical rain forest - a simulation study, For. Ecol. Manage. 142 (2001) 33-51 [CrossRef].
  39. Knight D.H., A phytosociological analysis of species-rich tropical forest on Barro Colorado Island, Panama, Ecol. Monogr. 45 (1975) 259-284.
  40. Köhler P., Ditzer T., Huth A., Concepts for the aggregation of tropical tree species into functional types and the application to Sabah's lowland rain forests, J. Trop. Ecol. 16 (2000) 591-602 [CrossRef].
  41. Korning J., Balslev H., Growth rates and mortality patterns of tropical lowland tree species and the relation to forest structure in Amazonian Ecuador, J. Trop. Ecol. 10 (1994) 151-166.
  42. Lahoreau G., Picard N., Gourlet-Fleury S., Grouping species to model forest dynamics: a case study of a forest in the Central African Republic, Bois For. Trop. 271 (2002) 89-100.
  43. Lang G.E., Knight D.H., Tree growth, mortality, recruitment, and canopy gap formation during a 10-year period in a tropical moist forest, Ecology 64 (1983) 1075-1080.
  44. Lavorel S., Garnier E., Predicting changes in community composition and ecosystem functioning from plant traits: revisiting the Holy Grail, Funct. Ecol. 16 (2002) 545-556 [CrossRef].
  45. Lavorel S., McIntyre S., Landsberg J., Forbes T.D.A., Plant functional classifications: from general groups to specific groups based on response to disturbance, Trends Ecol. Evol. 12 (1997) 474-478 [CrossRef].
  46. Lieberman D., Lieberman M., Hartshorn G., Peralta R., Growth rates and age-size relationships of tropical wet forest trees in Costa Rica, J. Trop. Ecol. 1 (1985) 97-109.
  47. Lortet J., Formation de groupes d'espèces homogènes pour la croissance dans la forêt dense tropicale humide d'Uppangala, Inde, Mémoire de DEA, Université Claude Bernard Lyon 1, Lyon, 1998.
  48. Manokaran N., Kochumen K.M., Recruitment, growth and mortality of tree species in a lowland dipterocarp forest in Peninsular Malaysia, J. Trop. Ecol. 3 (1987) 315-330.
  49. Manokaran N., Kochumen K.M., Tree growth in primary lowland and hill dipterocarp forests, J. Trop. For. Sci. 6 (1994) 332-345.
  50. Oldeman R.A.A., Van Dijk J., Diagnosis of the temperament of tropical rain forest trees, in: Gomez-Pompa A., Whitmore T.C., Hadley M. (Eds.), Rain Forest Regeneration and Management, UNESCO - Man and the Biosphere Series, Vol. 6, The Parthenon Publishing Group, Paris, 1991, pp. 21-63.
  51. Ong R., Kleine M., DIPSIM: A Dipterocarp Forest Growth Simulation Model for Sabah, FRC Research Papers 2, Forestry Department, Sabah, Malaysia, 1996.
  52. Pascal J.P., Pélissier R., Structure and floristic composition of a tropical evergreen forest in south-west India, J. Trop. Ecol. 12 (1996) 191-214.
  53. Pélissier R., Pascal J.P., Two-year tree growth patterns investigated from monthly girth records using dendrometer bands in a wet evergreen forest in India, J. Trop. Ecol. 16 (2000) 429-446 [CrossRef].
  54. Phillips O.L., Gentry A.H., Increasing turnover through time in tropical forests, Science 263 (1994) 954-958.
  55. Phillips P.D., Yasman I., Brash T.E., van Gardingen P.R., Grouping tree species for analysis of forest data in Kalimantan (Indonesian Borneo), For. Ecol. Manage. 157 (2002) 205-216 [CrossRef].
  56. Picard N., Franc A., Are ecological groups of species optimal for forest dynamics modelling? Ecol. Model. 163 (2003) 175-186 [CrossRef].
  57. Picard N., Gourlet-Fleury S., Sist P., Using process-dependent groups of species to model the dynamics of a tropical rain-forest, in: Amaro A., Reed D., Soares P. (Eds.), Modelling Forest Systems, CAB International Publishing, Wallingford, 2003, pp. 237-248.
  58. Raunkiaer C., The Life-forms of Plants and Statistical Plant Geography, Oxford University Press, Oxford, 1934.
  59. Roggy J.C., Prévost M.F., Gourbiere F., Casabianca H., Garbaye J., Domenach A.M., Leaf natural 15N abundance and total N concentration as potential indicators of plant N nutrition in legumes and pioneer species in a rainforest of French Guiana, OEcologia 120 (1999) 171-182.
  60. Rollet B., Étude quantitative d'une forêt dense humide sempervirente de Guyane vénézuelienne, Thèse de doctorat, Université de Toulouse, Toulouse, 1969.
  61. Rollet B., L'architecture des forêts denses humides sempervirentes de plaine, CTFT, Nogent-sur-Marne, 1974.
  62. Shugart H.H., A Theory of Forest Dynamics: The Ecological Implications of Forest Succession Models, Springer Verlag, New York, 1984.
  63. Silver W.L., Brown S., Lugo A.E., Effects of changes in biodiversity on ecosystem function in tropical forests, Conserv. Biol. 10 (1996) 17-24 [CrossRef].
  64. Sist P., Nguyen-Thé N., Logging damage and the subsequent dynamics of a dipterocarp forest in East Kalimantan (1990-1996), For. Ecol. Manage. 165 (2002) 85-103 [CrossRef].
  65. Swaine M.D., Population dynamics of moist tropical forest near Kade, Ghana, in: Puig H. (Ed.), Atelier sur l'aménagement et la conservation de l'écosystème forestier tropical humide, UNESCO, IUFRO, FAO, Paris, 1992, pp. 40-61.
  66. Swaine M.D., Hall J.B., Alexander I.J., Tree population dynamics at Kade, Ghana (1968-1982), J. Trop. Ecol. 3 (1987) 331-345.
  67. Swaine M.D., Whitmore T.C., On the definition of ecological species groups in tropical rain forests, Vegetatio 75 (1988) 81-86 [CrossRef].
  68. Turner I.M., The Ecology of Trees in the Tropical Rain Forest, Cambridge Tropical Biology Series, Cambridge University Press, Cambridge, 2001.
  69. Van Steenis C.G.G.J., Rejuvenation as a factor for judging the status of vegetation types. The biological nomad theory, in: Study of Tropical Vegetation. Proceedings of the Kandy symposium on humid tropics vegetation, Kandy, Ceylon, 19-21 March 1956, UNESCO, Paris, 1956, pp. 212-215.
  70. Vanclay J.K., Aggregating tree species to develop diameter increment equations for tropical rainforests, For. Ecol. Manage. 42 (1991) 143-168 [CrossRef].
  71. Vanclay J.K., Mortality functions for North Queensland rainforests, J. Trop. For. Sci. 4 (1991) 15-36.
  72. Vanclay J.K., Modelling regeneration and recruitment in a tropical moist forest, Can. J. For. Res. 22 (1992) 1235-1248.
  73. Wan Razali B.W.M., Development of a generalized forest growth and yield modelling system for mixed tropical forests of peninsular Malaysia, Ph.D. thesis, University of Washington, 1986.
  74. Westoby M., Leishman M., Categorizing plant species into functional types, in: Smith T.M., Shugart H.H., Woodward F.I. (Eds.), Plant Functional Types: Their Relevance to Ecosystem Properties and Global Change, IGBP Book Series, Vol. 1, Cambridge University Press, Cambridge, 1997, pp. 104-121.