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Issue
Ann. For. Sci.
Volume 60, Number 1, January-February 2003
Page(s) 31 - 41
DOI http://dx.doi.org/10.1051/forest:2002071

References

  1. Anonyme, Reaction wood -Tension wood and compression wood, Forest Product Research Laboratory, Princes Risborough, Aylesbury Bucks, Leafl. 51 (1956) 16 p.
  2. Ball J., Synthesis of national reports on activities related to poplar and willow areas, production, consumption and the functioning of National Poplar Commissions, International Poplar Commission, 21st Session, Portland, USA, 2000.
  3. Barlow P.W., Gravity perception in plants: a multiplicity of systems derived by evolution?, Plant Cell Environ. 18 (1995) 951-962.
  4. Boury S., Estimation quantitative de la répartition du bois de tension chez le peuplier (Populus x euramericana cv. I214) à partir de l'hétérogénéité circonférencielle de la densité du bois, mémoire, Laboratoire de recherches sur la qualité du bois, INRA, Nancy-Champenoux, 1993.
  5. Burns G.P., Eccentric growth and the formation of redwood in the main stem of conifers, VT. Agr. Exp. Sta. Bull. 219 (1920) 16 p. [In: Timell, 1986].
  6. Casperson G., Über die bildung von zellwänden bei laubhölzern feststellung der kambiumaktivität durch erzeugung von reaktions holz, Ber. Deutsch Bot. Ges. 73 (1960) 349-357. [In: Zimmermann, 1964].
  7. Casperson G., Über die reaktionsholzbildung und krümmungsbewegungen in asten, Ber. Deutsch Bot. Ges. 79 (1966) 121-133. [In: Wicker, 1979].
  8. Castéra P., Nepveu G., Mahé F., Valentin G., A study on growth stresses, tension wood distribution and other related wood defects in poplar (Populus euramaericana cv I214): end splits, specific gravity and pulp yield, Ann. Sci. For. 51 (1994) 301-313.
  9. Champagnat R., Ozenda P., Baillaud L., Biologie végétale. Vol. 3, Croissance, morphogenèse et reproduction, Masson, Paris, 1969.
  10. Chansson B., Déformation de maturation: hétérogénéités angulaires en fonction du plan d'organisation des arbres, Acta bot. Gallica. 140 (1993).
  11. Côté W.A. JR, Cellular ultrastructure of woody plants, Syracuse Univ. Press, Syracuse, 1965.
  12. Côté W.A., Day A.C., Timell T.E., A contribution to the ultrastructure of tension wood fibers, Wood Sci. Technol. 3 (1969) 257-271.
  13. Dadswell H.E., Wardrop A.B., The structure and properties of tension wood, Holzforschung 9 (1955) 98-104.
  14. Delavault O., Chanson B., Loup C., Dynamique de la forme et formation de bois de réaction chez des axes de jeunes Eperua falcata Aubl, proc. IUFRO All division 5 conference, Nancy, Vol. 1, 1992.
  15. Esnault R., Heller R., Lance C., Physiologie végétale, Vol. 2, Développement. 5$^{\rm e}$ éd., Masson, 1995.
  16. Fisher J.B., Induction of reaction wood in terminalia (Combretaceae): roles of gravity and stress, Ann. Bot. 55 (1985) 237-248.
  17. Fisher J.B., Mueller R.J., Reaction anatomy and reorientation in leaning stems of balsa (Ochroma) and papaya (Carica), Can. J. Bot. 61 (1983) 880-887.
  18. Fisher J.B., Wasssmer Stevenson J., Occurence of reaction wood in branches of dicotyledons and its role in tree architecture, Bot. Gaz. 142 (1981) 82-95.
  19. Fournier M., Bailleres H., Chanson B., Tree biomechanics: growth cumulative prestresses. Biomimetics 2 (1994) 229-251, special issue: Plant Biomechanics Congress, Montpellier, France.
  20. Haupt W., Feinleib ME., Physiology of movements. Enzyclopedia of plant physiology, Springer, Berlin Heidelberg, New York, 1979. [In: Timell, 1986].
  21. Hughes F.E., Tension Wood a review of literature part II, Forest. Abs. 26 (1965) 179-186.
  22. Isebrands J.G., Bensend D.W., Incidence and structure of gelatinous fibers within rapid-growing eastern cottonwood, Wood Sci. Technol. 4 (1972) 61-71.
  23. Ilvessalo-Pfäffli M.S., 1995 Fiber atlas - Identification of papermaking fibers, Springer-Verlag, Berlin, 1995.
  24. Jourez B., Riboux A., Leclercq A., Anatomical characteristics of tension wood and opposite wood in young inclined stems of poplar (Populus euramericana Cv `Ghoy'), I.A.W.A. J. 22 (2001) 133-157.
  25. Kaeiser M., Frequency and distrinution of gelatinous fibers in eastern cottonwood, Am. J. Bot. 42 (1955) 331-334.
  26. Kaeiser M., Boyce S.G., The relation of gelatinous fibers to wood structure in eastern cottonwood (Populus deltoides Marsh.), Am. J. Bot. 52 (1965) 711-715.
  27. Kennedy R.W., Farrar J.L., Tracheid development in tilted seedlings, (1965) 419-453. [In: Côté, 1965].
  28. Lüttge U., Kluge M., Bauer G., Traité fondamental de botanique, Lavoisier, Tec & Doc, 2$^{\rm e}$ éd. 1996.
  29. Necesany V., Effect of $\beta$-indoleaccetic acid on the formation of reaction wood, $\Phi$YTON 11 (1958) 117-127.
  30. Norberg H., Meier H., Physical and chimical properties of the gelatinous layer in tension wood fibers of Aspen (Populus tremula L.), Holzforshung 20 (1966) 174-178.
  31. Panshin A.J., de Zeeuw C.H., Textbook of wood technology. Vol.1: Structure, identification, uses and properties of the commercial woods of the United States, Fourth ed., Mc Graw-Hill, New York, 1981.
  32. Robards A.W., Tension wood and eccentric growth in Crack Willow (Salix fragilis L.), Ann. Bot. N.S 29 (1965) 419-431.
  33. Robards A.W., The application of the modified sine rule to tension wood production and eccentric growth in the stem of Crack Willow (Salix fragilis L.), Ann. Bot. N.S. 30 (1966) 513-523.
  34. Robards A.W., The effect of gravity on the formation of wood, Sci. Prog. Oxf. 57 (1969) 513-532.
  35. Sacré E., Le bois de tension des peupliers, Bull. Inst. Agron. et Stat. Rech. Gembloux 27 (1953) 435-444.
  36. Scurfield G., Reaction wood. Its structure and function, Science 179 (1973) 647-655.
  37. Scurfield G., Wardrop A.B., The nature of reaction wood. VI. The reaction anatomy of seedlings of woody perennials, Aust. J. Bot. 10 (1962) 93-105.
  38. Sinnott E.W., Reaction wood and the regulation of tree form, Am. J. Bot. 39 (1952) 69-78.
  39. Timell T.E., Fundamental factors causing formation of compression wood, in: Timell T.E. (Ed.), Compression wood in Gymnosperms, Spring-Verlag, Berlin, Vol. 2, 1986, pp. 983-1103.
  40. Timell T.E., Opposite wood, in: Timell T.E. (Ed.), Compression wood in Gymnosperms, Spring-Verlag, Berlin, Vol. 3, 1986 pp. 1969-1998.
  41. Wardrop A.B., The nature of reaction wood. V. The distribution and formation of tension wood in some species of Eucalyptus, Aust. J. Bot. 4 (1956) 152-166.
  42. Wardrop A.B., The reaction anatomy of arborescent angiosperms, in: Zimmermann M.H. (Ed.), The formation of wood in forest trees, Academic Press, New York, 1964, pp. 405-456.
  43. Westing A.H., Formation and function of compression wood in gymnosperms, Bot. Rev. 31 (1965) 381-480. [In: Timell, 1986].
  44. White J., The formation of red wood in conifers, Proc. R. Soc. Victoria NS 20 (1907) 107-124. [In: Timell, 1986].
  45. Wicker M., Le bois de tension : acquisitions récentes, Ann. Biol. 18 (1979) 222-254.
  46. Wilkins M.B., Gravitropism, in: Wilkins M.B. (Ed.), Advanced plant physiology, Pitman, 1984, pp. 163-185.
  47. Wilson B.F., Archer R.R., Reaction wood: induction and mechanical action, Ann. Rev. Plant Physiol. 28 (1977) 23-43.
  48. Wilson B.F., Gartner B.L., Lean in red alder (Alnus rubra): growth stress, tension wood, and righting response, Can. J. For. Res. 26 (1996) 1951-1956.
  49. Yumoto M., Ishida S., Fukazawa K., Studies on the formation and strusture of the compression wood cells induced by artificial inclination in young trees of Picea glauca. II Transition from normal to compression wood revealed by a SEM-UVM combination method, J. Fac. Agr. Hokkaido Univ. 60 (1982) 312-335. [In: Timell, 1986].
  50. Zimmermann M.H., The formation of wood in forest trees, Academic Press, New York, 1964.

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