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All issues Volume 63 / No 7 (October-November 2006) Ann. For. Sci., 63 7 (2006) 699-706 References
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Issue
Ann. For. Sci.
Volume 63, Number 7, October-November 2006
Page(s) 699 - 706
DOI https://doi.org/10.1051/forest:2006050
Published online 18 October 2006
References of  Ann. For. Sci. 63 (2006) 699-706
  1. Barbosa R.I., Fearnside P.M., Wood density of trees in open savannas of the Brazilian Amazon, Forest. Ecol. Manage. 199 (2004) 115-123.
  2. Brown H.P., Panshin A.J., Forsaith C.C., Textbook of wood technology, McGraw-Hill, New York, 1949.
  3. Core H.A., Côté W.A., Day A.C., Wood structure and identification, Syracuse University Press, New York, 1979.
  4. De Kort I., Loeffen V., Baas P., Ring width, density and wood anatomy of Douglas-fir with different crown vitality, IAWA B. 12 (1991) 453-465.
  5. De Kort I., Relationships between sapwood amount, latewood percentage, moisture-content and crown vitality of Douglas-fir, Pseudotsuga-Menziesii, IAWA J. 14 (1993) 413-427.
  6. De Kort I., Wood production and latewood percentage of Douglas-fir from different stands and vitality classes, Can. J. Forest. Res. 23 (1993) 1480-1486.
  7. Decoux V., Contribution à l'interprétation anatomique des microvariations de la densité du bois de Douglas, Ph.D. thesis, Université Libre de Bruxelles, 2003.
  8. Decoux V., Varcin E., Leban J.M., Relationships between the intra-ring wood density assessed by X-ray densitometry and optical anatomical measurements in conifers. Consequences for the cell wall apparent density determination, Ann. For. Sci. 61 (2004) 251-262 [EDP Sciences] [CrossRef].
  9. Deleuze C., Houllier F., A simple process-based xylem growth model for describing wood microdensitometric profiles, J. Theor. Biol. 193 (1998) 99-113 [CrossRef].
  10. Diaz-Vaz J.E., Echols R., Knigge W., Vergleichende Untersuchung der Schwankungen von Tracheidendimensionen und röntgenoptisch ermittelter Rohdichte innerhalb des Jahrrings, Forst-Wiss. Centralbl. 94 (1975) 161-175.
  11. Donaldson L.A., Lausberg M.J.F., Comparison of conventional transmitted light and confocal microscopy for measuring wood cell dimensions by image analysis, IAWA J. 19 (1998) 321-336.
  12. Elliott G.K., Brook S.E.G., Microphotometric technique for growth-ring analysis, J. Inst. Wood Sci. 18 (1967) 24-43.
  13. Erickson H.D., Harrison A.T., Douglas-fir wood quality studies, part I: effects of age and stimulated growth on wood density and anatomy, Wood Sci. Technol. 8 (1974) 207-226 [CrossRef].
  14. Fengel D., Stoll M., On the variation of the cell cross area, the thickness of the cell wall and of the wall layers of sprucewood tracheids within an annual ring, Holzforschung 27 (1973) 1-7.
  15. Fengel D., Wegener G., Wood: chemistry, ultrastructure, reactions, Walter de Gruyter, Berlin, 1989.
  16. Ferrand J.C., Réflexion sur la densité du bois, 1$^{\rm re}$ partie : définition de la densité du bois, Holzforschung 36 (1982) 99-105.
  17. Gilmore A.R., Metcalf G.E., Boggess W.R., Specific gravity of shortleaf pine and loblolly pine in southern Illinois, J. For. 59 (1959) 894-896.
  18. Guilley E., Herve J.C., Nepveu G., The influence of site quality, silviculture and region on wood density mixed model in Quercus petraea Liebl., For. Ecol. Manage. 189 (2004) 111-121 [CrossRef].
  19. Hannrup B., Danell O., Ekberg I., Moell M., Relationships between wood density and tracheid dimensions in Pinus sylvestris L., Wood Fiber Sci. 33 (2001) 173-181.
  20. Heger L., Parker M.L., Kennedy R.W., X-ray densitometry: a technique and an example of application, Wood Sci. 7 (1974) 140-148.
  21. Ilic J., Hillis W.E., Video image processor for wood anatomical quantification, Holzforschung 37 (1983) 47-50.
  22. Jayme G., Krause T., Über die Packungsdichte der Zellwände in Laubhölzern, Holz als Roh- Werkst. 21 (1963) 14-19.
  23. Kibblewhite R.P., Bailey D.G., Measurement of fibre cross-section dimensions using image analysis, APPITA 41 (1988) 297-303.
  24. Leclerq A., Relationships between beechwood anatomy and its physico-mechanical properties, IAWA B. 1 (1980) 65-71.
  25. Lindström H., Fiber length, tracheid diameter, and latewood percentage in Norway spruce: Development from pith outwards, Wood Fiber Sci. 29 (1997) 21-34.
  26. Mothe F., Duchanois G., Zannier B., Leban J.M., Microdensitometric analysis of wood samples: data computation method used at Inra-ERQB (CERD program), Ann. Sci. For. 55 (1998) 301-313.
  27. Mothe F., Sciama D., Leban J.M., Nepveu G., Localization of the earlywood-latewood transition in oak rings using microdensitometric analysis, Ann. Sci. For. 55 (1998) 437-449.
  28. Panshin A.J., De Zeeuw C., Textbook of wood technology, McGraw-Hill, New York, 1980.
  29. Park W.K., Development of the microtechniques for the image analysis of tree rings, J. Agr. Sci. 9 (1991) 16-21.
  30. Park Y. I., Dallaire G., Morin H., A method for multiple intra-ring demarcation of coniferous trees, Ann. For. Sci. 63 (2006) 9-14 [EDP Sciences].
  31. Polge H., Établissement des courbes de variation de la densité du bois par exploration densitométrique de radiographies d'échantillons prélevés à la tarière sur des arbres vivants - Applications dans les domaines technologique et physiologique, Ann. Sci. For. 23 (1966) 1-215.
  32. Polge H., Fifteen years of wood radiation densitometry, Wood Sci. Technol. 12 (1978) 187-196 [CrossRef].
  33. SAS Institute Inc., SAS OnlineDoc $^\circledR$, Version 8, Cary, NC, 1999.
  34. Schweingruber F.H., Microscopic Wood Anatomy, Swiss Federal Institute for Forest, Snow and Landscape Research, 1990.
  35. Smith D.M., Rapid measurement of tracheid cross-sectional dimensions of conifers, For. Prod. J. 15 (1965) 325-334.
  36. Tsoumis G., Microscopic measurement of the amount of cell wall substance in wood and its relationship to specific gravity, TAPPI J. 47 (1964) 675-677.
  37. Vonnet G., Perrin J.R., Ferrand J.-C., Réflexions sur la Densité du Bois. 4$^{\rm e}$ partie: densité et hétérogénéité du bois de Douglas, Holzforschung 39 (1985) 273-279.
  38. Wang L., Payette S., Begin Y., Relationships between anatomical and densitometric characteristics of black spruce and summer temperature at tree line in northern Quebec, Can. J. For. Res. 32 (2002) 477-486 [CrossRef].
  39. Wimmer R., Intraannual cellular characteristics and their implications for modeling softwood density, Wood Fiber Sci. 27 (1995) 413-420.
  40. Zhang S.Y., Zhong Y., Structure-property relationship of wood in East-Liaoning oak, Wood Sci. Technol. 26 (1992) 139-149 [CrossRef].
  41. Zhang S.Y., Eyeno R., Nepveu G., Mothe F., Dhôte J.-F., Modelling wood density in European oak (Quercus petraea and Quercus robur) and simulating the sivicultural influence, Can. J. For. Res. 23 (1993) 2587-2593.
  42. Zobel B.J., Van Buijtenen J.P., Wood variations - Its causes and control, Springer-Verlag, Berlin, 1989.