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Issue
Ann. For. Sci.
Volume 62, Number 6, September-October 2005
Page(s) 553 - 564
DOI http://dx.doi.org/10.1051/forest:2005048
References of Ann. For. Sci. 62 553-564
  1. Abrams M.D., Kubiske M.E., Leaf structural characteristics of 31 hardwood and conifer tree species in central Wisconsin: influence of light regime and shade-tolerance rank, For. Ecol. Manage. 31 (1990) 245-253 [CrossRef].
  2. Ackerly D.D., Canopy structure and dynamics: integration of growth processes in tropical pioneer trees, in: Mulkey S.S., Chazdon R.L., Smith A.P. (Eds.), Tropical forest plant ecophysiology, Chapman and Hall, New York, 1996, pp. 619-658.
  3. Allsopp A., Heteroblastic development in vascular plants, Adv. Morphog. 6 (1967) 127-171 [PubMed].
  4. Ashby E., Studies in the morphogenesis of leaves, New Phytol. 47 (1948) 153-176.
  5. Baraloto C., Tradeoffs between neotropical tree seedling traits and performance in contrasting environments, Ph.D. dissertation, Philosophy (Ecology and Evolutionary Biology), University of Michigan, 2001.
  6. Barthod S., Epron D., Variation of construction cost associated to leaf area renewal in saplings of two co-occurring temperate tree species (Acer platanoides L. and Fraxinus exelsior L.) along a light gradient, Ann. For. Sci. 62 (2005) 545-551.
  7. Bariteau M., Geoffroy J., Sylviculture et régénération naturelle en forêt guyanaise, Rev. For. Fr. 41(1989) 309-323.
  8. Barthélémy D., Levels of organization and repetition phenomena in seed plants, Acta Biotheor. 39 (1991) 309-323 [CrossRef].
  9. Barthélémy D., Botanical background for plant architecture analysis and modelling, in: Bao-Gang Hu, M. Jaeger (Eds.), Plant Growth Modelling an Applications, Bejing (China), October 13-16, 2003, Tsinghua University, Springer, 2003, pp. 1-20.
  10. Barthélémy D., Edelin C., Hallé F., Architectural concepts for tropical trees, in: Holm-Nielsen L.B., Nielsen I.C., Balslev H. (Eds.), Tropical forests: botanical dynamics, speciation and diversity, Academic Press, London, 1989, pp. 89-100.
  11. Belsley D.A., Kuhe E., Welsch R.E., Regression diagnostics: identifying influential data and sources of collinearity, John Willey and sons, New York, 1980.
  12. Björkman O., Responses to different quantum flux densities, in: Lange O.L., Nobel P.S., Osmond C.B., Zeigler H. (Eds.), Encyclopedia of Plant Physiology, Springer Verlag, Heidelberg, 1981, pp. 57-107.
  13. Blaise F., Barczi J.F., Jaeger M., Dinouard P., de Reffye P., Simulation of the growth of plants. Modelling of metamorphosis and spatial interactions in the architecture and development of plants, in: Kunii T.L., Luciani A. (Eds.), Cyberworlds, Springer Verlag, Berlin, Tokyo, 1998, pp. 81-109.
  14. Borchert R., The concept of juvenility in woody plants, Acta Hort. 56 (1976) 21-33.
  15. Caraglio Y., Nicolini E., Pétronelli P., Observations on the links between the architecture of a tree (Dicorynia guianensis Amshoff) and Cerambycidae activity in French Guiana, J. Trop. Ecol. 17 (2001) 459-463 [CrossRef].
  16. Chabot B.F., Jurik T.W., Chabot J.F., Influence of instantaneous and integrated light-flux density on leaf anatomy and photosynthesis, Am. J. Bot. 66 (1979) 940-945.
  17. Chazdon R.L., Kaufmann S., Plasticity of leaf anatomy of two rain forest shrubs in relation to photosynthetic light acclimation, Funct. Ecol. 7 (1993) 385-394.
  18. Chazdon R.L., Pearcy R.W., Lee D.W., Fetcher N., Photosynthetic responses of tropical forest plants to contrasting light environments, in: Mulkey S.S., Chazdon R.L., Smith A.P. (Eds.), Tropical forest plant ecophysiology, Chapman and Hall, New-York, 1996, pp. 5-55.
  19. Collet C., Colin F., Bernier F., Height growth, shoot elongation and branch development of young Quercus petraea grown under different levels of resource availability, Ann. For. Sci. 54 (1997) 65-81.
  20. Drénou C., Approche architecturale de la sénescence des arbres. Le cas de quelques angiospermes tempérées et tropicales, Ph.D. dissertation, Université Montpellier II, 1994.
  21. Ducrey M., Variation in leaf morphology and branching pattern of some tropical rain forest species from Guadeloupe (French West Indies) under semi-controlled light conditions, Ann. For. Sci. 49 (1992) 553-570.
  22. Durbin J., Watson G.S., Testing for serial correlations in least squares regression II, Biometrika 38 (951) 159-178.
  23. Eschenbach C., Glauner R., Kleine M., Kappen L., Photosynthesis rates of selected tree species in lowland dipterocarp rain forest of Sabah, Malaysia, Trees 72 (1998) 356-365.
  24. Evans J.R., Partitioning of nitrogen between and within leaves grown under different irradiances, Aust. J. Plant Physiol. 16 (1989) 533-548.
  25. 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. Ecol. Terre Vie 49 (1994) 379-403.
  26. Fetcher N., Strain B.R., Oberbauer S.F., Effects of light regime on the growth, leaf morphology, and water relations of seedlings of two species of tropical, Oecologia 58 (1983) 314-319 [CrossRef].
  27. Field C., Mooney H.A., The photosynthesis-nitrogen relationship in wild plants, in: Givnish T.J. (Ed.), On the economy of plant form and function, Cambridge University Press, Cambridge, 1986, pp. 25-55.
  28. Friedman M., The use of rank to avoid the assumption of normality implicit in the analysis of variance, J. Am. Stat. Assoc. 32 (1937) 675-701.
  29. Gatsuk L.E, Smirnova O.V., Vorontzova L.I., Zaugolnova L.B., Zhukova L.A., Age states of plants of various growth forms: a review, J. Ecol. 68 (1980) 675-696.
  30. Givnish T.J., Adaptation to sun and shade: a whole plant perspective, Aust. J. Plant Physiol. 15 (1988) 63-92.
  31. Grosfeld J., Barthélémy D., Brion C., Architectural variations of Araucaria araucana (Molina) K. Koch (Araucariaceae) in its natural habitat, in: Kurmann M.H., Hermsley A.R. (Eds.), The Evolution of Plant Architecture, Royal Botanic Gardens, Kew, 1999, pp. 109-122.
  32. Gutschick V.P., Wiegel F.W., Optimizing the canopy photosynthetic rate by patterns of investment in specific leaf mass, Am. Nat. 132 (1988) 67-86 [CrossRef].
  33. Hallé F., Oldeman R.A.A., Tomlinson P.B., Tropical trees and forests, Springer-Verlag, Berlin, 1978.
  34. Hanson P.J., Mc Roberts R.E., Isebrands J.G., Dixon R.K., An optimal sampling strategy for determining CO2 exchange rate as a function of photosynthetic photon flux density, Photosynthetica 21 (1987) 98-101.
  35. Harper J.L., The value of a leaf, Oecologia 80 (1989) 53-58 [CrossRef].
  36. Heuret P., Barthélémy D., Nicolini E., Atger C., Analyse des composantes de la croissance en hauteur et de la formation du tronc chez le chêne sessile (Quercus petraea (Matt.) Liebl. (Fagaceae) en sylviculture dynamique, Can. J. Bot. 78 (2000) 361-373 [CrossRef].
  37. Hoflacher H., Bauer H., Light acclimation in leaves of the juvenile and adult life phase of ivy (Hedera helix), Physiol. Plant. 56 (1982) 117-182.
  38. Huc R., Ferhi A., Guehl J.M., Pioneer and late stage tropical rainforest tree species (French Guiana) growing under common conditions differ in leaf gas exchange regulation, carbon isotope discrimination and leaf water potential, Oecologia 99 (1984) 297-305.
  39. Kincaid D.T., Anderson P.J., Mori S.A., Leaf variation in a tree of Pourouma tomentosa (Cecropiaceae) in French Guiana, Brittonia 50 (1998) 324-338.
  40. Kozlowsky T.T., Growth and development in trees, Academic Press Inc., New-York, London, 1971.
  41. Krammer P.J., Kozlowsky T.T., Physiology of woody plants, Academic Press Inc., New-York, London, 1979.
  42. Kubiske M.E., Abrams M.D., Mostoller S.A., Stomatal and nonstomatal limitations of photosynthesis in relation to the drought and shade tolerance of tree species in open and understory environments, Trees 11 (1996) 76-82 [CrossRef].
  43. Kull O., Niinemets Ü., Variation in leaf morphometry and nitrogen concentration in Betula pendula Roth., Corylus avellana L. and Lonicera xylosteum L., Tree Physiol. 12 (1993) 311-318 [PubMed].
  44. Le Roux X., Grand S., Dreyer E., Daudet F.A., Parameterization and testing of a biochemically based photosynthesis model for walnut (Juglans regia) trees and seedlings, Tree Physiol. 19 (1999) 481-492 [PubMed].
  45. Le Roux X., Sinoquet H., Vandame M., Spatial distribution of leaf dry weight per area and leaf nitrogen concentration in relation to local radiation regime within an isolated tree crown, Tree Physiol. 19 (1999) 181-188 [PubMed].
  46. Lee D., Oberbauer W.S.F., Jonhson P., Krishnapilay B., Mansor M., Mohamad H., Yap S.K., Effect of irradiance and spectral quality on leaf structure and function in seedlings of two southeast Asian Hopea (Dipterocarpaceae) species, Am. J. Bot. 87 (2000) 447-455 [PubMed].
  47. Loik M.E., Holl K.D., Photosynthetic responses of tree seedlings in grass and under shrubs in early-successional tropical old fields, Costa Rica, Oecologia 127 (2001) 40-50 [CrossRef].
  48. Neter J., Wasserman W., Kutner H.H., Applied linear statistical models: regression, analysis of variance and experimental designs, Homewood, Illinois, Irwin, 1985.
  49. Nicolini E., Architecture et gradients morphogénétiques chez de jeunes hêtres (Fagus sylvatica L., Fagaceae) en milieu forestier, Can. J. Bot. 76 (1998) 1232-1244 [CrossRef].
  50. Nicolini E., Barthélémy D., Heuret P., Influence de la densité du couvert forestier sur le développement architectural de jeunes chênes sessiles, Quercus petraea (Matt.) Liebl. (Fagaceae), en régénération forestière, Can. J. Bot. 78 (2000) 1531-1544 [CrossRef].
  51. Nicolini E., Caraglio Y., L'influence de divers caractères architecturaux sur l'apparition de la fourche chez Fagus sylvatica L., en fonction de l'absence ou de la présence d'un couvert, Can. J. Bot. 72 (1994) 1723-1734.
  52. Nicolini E., Chanson B., La pousse courte, un indicateur du degré de maturation chez le hêtre (Fagus sylvatica L.), Can. J. Bot. 77 (1999) 1539-1550 [CrossRef].
  53. Nicolini E., Caraglio Y., Pélissier R., Leroy C., Roggy J.C., Epicormic branches: a growth indicator for the tropical forest tree Dicorynia guianensis Amshoff (Caesalpiniaceae), Ann. Bot. 92 (2003) 97-105 [CrossRef] [PubMed].
  54. Niinemets Ü., Distribution of foliar carbon and nitrogen across the canopy of Fagus sylvatica: adaptation to a vertical light gradient, Acta Oecol. 16 (1995) 525-521.
  55. Niinemets Ü., Role of foliar nitrogen in light harvesting and shade tolerance of four temperate deciduous woody species, Funct. Ecol. 11, (1997) 518-531.
  56. Niinemets Ü., Distribution patterns of foliar carbon and nitrogen as affected by tree dimensions and relative light conditions in the canopy of Picea abies, Trees 11 (1997) 144-154 [CrossRef].
  57. Niinemets Ü., Acclimation to low irradiance of Picea abies: influences of past and present light climate on foliage structure and function, Tree Physiol. 17 (1997) 723-732 [PubMed].
  58. Niinemets Ü., Global-scale climatic controls of leaf dry mass per area, density and thickness in trees and shrubs, Ecology 82 (2001) 453-469.
  59. Niinemets Ü., Kull O., Effects of light availability and tree size on the architecture of assimilative surface in the canopy of Picea abies: variation in needle morphology, Tree Physiol. 15 (1995) 307-315 [PubMed].
  60. Niinemets Ü., Kull O., Biomass investment in leaf lamina versus lamina support in relation to growth irradiance and leaf size in temperate deciduous trees, Tree Physiol. 19 (1999) 349-358 [PubMed].
  61. Niinemets Ü., Kull O., Tenhunent J.D., Variability in leaf morphology and chemical composition as a function of canopy light environment in coexisting deciduous trees, Int. J. Plant Sci. 160 (1999) 837-848 [CrossRef] [PubMed].
  62. Nobel P.S., Internal leaf area and cellular CO2 resistance: photosynthetic implications of variations with growth conditions and plant species, Physiol. Plant. 40 (1977) 137-144.
  63. Nobel P.S., Hartsock P.S., Development of leaf thickness for Plecthranthus parviflorus - Influence of photosynthetically active radiation, Physiol. Plant. 51 (1981) 163-166.
  64. Oldeman R.A.A., L'architecture de la forêt guyanaise, Mémoire n° 73, Paris: Organisme de Recherche Scientifique pour les Territoires d'Outre-Mer, 1974.
  65. Poethig R.S., Phase change and the regulation of shoot morphogenesis in plants, Science 250 (1990) 923-930.
  66. Ponton S., Dupouey J.L., Dreyer E., Leaf morphology as species indicator in seedlings of Quercus robur L. and Q. petraea (Matt) Liebl.: modulation by irradiance and growth flush, Ann. For. Sci. 61 (2004) 73-80 [EDP Sciences] [CrossRef].
  67. Poorter L., Growth responses of fifteen rain forest tree species to a light gradient; the relative importance of morphological and physiological traits, Funct. Ecol. 13 (1999) 396-410.
  68. Poorter L., Werger M.J.A., Light environment, sapling architecture, and leaf display in six rain forest tree species, Am. J. Bot. 86 (1999) 1464-1473 [PubMed].
  69. Poorter L., Kwant R., Hernández R., Medina E., Werger M.J.A., Leaf optical properties in Venezuelan cloud forest trees, Tree Physiol. 20 (2000) 519-526 [PubMed].
  70. Popma J., Bonger S.F., Werger M.J.A., Gap-dependence and leaf characteristics of trees in a tropical lowland rain forest in Mexico, Oikos 63 (1992) 207-214.
  71. Puntieri J., Raffaele E., Martinez P., Barthélémy D., Brion C., Morphological and architectural features of young Nothofagus pumilio (Poepp. et Endl.) Krasser (Fagaceae) plants, Bot. J. Linn. Soc. 130 (1999) 395-410 [CrossRef].
  72. Raaimakers D., Boot R.G.A., Dijkstra P., Pot S., Pons T., Photosynthetic rates in relation to leaf phosphorus content in pioneer versus climax tropical rainforest trees, Oecologia 102 (1995) 120-125.
  73. Rijkers T., Leaf function in tropical rain forest canopy trees. The effects of light on leaf morphology and physiology in different-sized trees, Ph.D. dissertation, University of Wageningen, The Netherlands, 2000.
  74. Rijkers T., de Vries J.L., Pons T.L., Bongers F., Photosynthetic induction in saplings of three shade-tolerant tree species: comparing understorey and gap habitats in a French Guiana rain forest, Oecologia 125 (2000) 331-340 [CrossRef].
  75. Rijkers T., Pons T.L., Bongers F., The effect of tree height and light availability on photosynthetic leaf traits of four neotropical species differing in shade tolerance, Funct. Ecol. 14 (2000) 77-86 [CrossRef].
  76. Rôças G., Barros C.F., Scarano F.R., Leaf anatomy plasticity of Alchornea triplinervia (Euphorbiaceae) under distinct light regimes in a Brazilian montane atlantic rain forest, Trees 11 (1997) 469-473 [CrossRef].
  77. Rosati A., Esparza G., DeJong T.M., Pearcy R.W., Influence of canopy light environment and nitrogen availability on leaf photosynthetic characteristics and photosynthetic nitrogen-use efficiency of field-grown nectarine trees, Tree Physiol. 19 (1999) 173-180 [PubMed].
  78. Sabatier S., Barthélémy D., Growth dynamics and morphology of annual shoots, according to their architectural position, in young Cedrus atlantica (Endl.) Manetti ex Carrière (Pinaceae), Ann. Bot. 84 (1999) 387-392 [CrossRef].
  79. Sachs T., Novoplansky A., Cohen D., Plants as competing populations of redundant organs, Plant Cell Environ. 16 (1993) 765-770.
  80. Sims D., Pearcy A., Response of leaf anatomy and photosynthetic capacity in Alocasia macrorrhiza (Araceae) to a transfer from low to high light, Am. J. Bot. 79 (1992) 449-455.
  81. Smith W.K., Vogelmann T.C., Delucia E.H., Bell D.T., Shepherd K.A., Leaf form and photosynthesis, BioScience 47 (1997) 785-793.
  82. Sterck F.J., Bongers F., Ontogenetic changes in size, allometry, and mechanical design of tropical rain forest trees, Am. J. Bot. 85 (1998) 266-272.
  83. Swaine M.D., Whitmore T.C., On the definition of ecological species groups in tropical rainforests, Vegetatio 75 (1988) 81-86 [CrossRef].
  84. Terashima I., Productive structure of a leaf, in: Briggs W.R. (Ed.), Photosynthesis, Liss, New-York, 1989, pp. 207-226.
  85. Uemura A., Ishida A., Nakano T., Terashima I., Tanabe H., Matsumoto Y., Acclimation of leaf characteristics of Fagus species to previous-year and current-year solar irradiances, Tree Physiol. 20 (2000) 945-951 [PubMed].
  86. Valladares F., Wright S.J., Lasso E., Kitajima K., Pearcy R.W., Plastic phenotypic response to light of 16 congeneric shrubs from a Panamanian rainforest, Ecology 81 (2000) 1925-1936.
  87. Valladares F., Skillman J.B., Pearcy R.W., Convergence in light capture efficiencies among tropical forest understory plants with contrasting crown architectures: a case of morphological compensation, Am. J. Bot. 89 (8) (2002) 1275-1284.
  88. Wareing P.F., Problems of juvenility and flowering in trees, Bot. J. Linn. Soc. 56 (1959) 282-289.
  89. Whitehead D., Kelliher F.M., Frampton C.M., Godfrey M.J.S., Seasonal development of leaf area in a young, widely spaced Pinus radiata D. Don stand, Tree Physiol. 14 (1994) 1019-1038 [PubMed].
  90. Witkowsky E.T.F., Lamont B.B., Leaf specific mass confounds leaf density and thickness, Oecologia 88 (1991) 846-493.