EDP Sciences logo
Search
Menu
All issues Volume 66 / No 6 (September 2009) Ann. For. Sci., 66 6 (2009) 611 References
Free Access
Issue
Ann. For. Sci.
Volume 66, Number 6, September 2009
Article Number 611
Number of page(s) 9
DOI https://doi.org/10.1051/forest/2009048
Published online 31 July 2009
References of  Ann. For. Sci. 66 (2009) 611
  1. Aggarwal P.K., Chauhan S.S., and Karmarkar A., 2002. Variation in growth strain, volumetric shrinkage and modulus of elasticity and their inter-relationship in Acacia auriculiformis. J. Trop. For. Sci. 8: 135–142.
  2. Baillères H., Davrieux F., and Ham-Pichavant F., 2002. Near infrared analysis as a tool for rapid screening of some major wood characteristics in a Eucalyptus breeding program. Ann. For. Sci. 59: 479–490 [EDP Sciences] [CrossRef].
  3. Bandara K.M.A., 2006. Genetic improvement of solid wood product value of subtropical eucalypts: a case study of Eucalyptus grandis and E. dunnii, Ph.D. thesis at the Australian national university, 215 p.
  4. Bao F.C., Jiang Z.H., Lu X.X., Luo X.Q., and Zhang S.Y., 2001. Differences in wood properties between juvenile and mature wood in 10 species grown in China. Wood Sci. Technol. 35: 362–375.
  5. Bowyer J.L., Shmulsky R., and Haygreen J.G., 2003. Forest products and wood science: an introduction, Iowa state university press, Ames, Iowa, 558 p.
  6. Brunetti M., De Capua E.L., Macchioni N., and Monachello S., 2001. Natural durability, physical and mechanical properties of Atlas cedar (Ceddrus atlantica Manetti) wood from Southern Italy. Ann. For. Sci. 58: 607–613 [EDP Sciences] [CrossRef].
  7. Cave I.D., 1972. A Theory of the Shrinkage of Wood. Wood Sci. Technol. 6: 284–292 [CrossRef].
  8. Chafe S.C., 1994. Relationship between shrinkage and specific gravity in the wood of Eucalyptus. Australia forestry 57: 59–61.
  9. Chauhan S.S. and Aggarwal P., 2004. Effect of moisture sorption state on transverse dimensional changes in wood. Holz Roh-Werkst. 62: 50–55 [CrossRef].
  10. Chomchran A., Visuthidepakul S., and Hortrakul P., 1986. Wood properties and potential uses of 14 fast-growing tree species, Division of forest product research, Royal forest department, Thailand, 22 p.
  11. Dinwoodie J.M., 2000. Timber: Its nature and behaviour, Taylor and Francis, London, 272 p.
  12. Gilmour A.R., Gogel B.J., Cullis B.R., Welham S.J., and Thompson R., 2006. ASREML user guide, Release 2.0. VSN international Ltd, Hemel Hempstead, UK, 342 p.
  13. Hai P.H., Harwood C., Kha L.D., Pinyopusarerk K., and Thinh H.H., 2008a. Genetic gain from breeding Acacia auriculiformis in Vietnam. J. Trop. For. Sci. 20: 313–327.
  14. Hai P.H., Jansson G., Harwood C., Hannrup B., and Thinh H.H., 2008b. Genetic variation in growth, stem straightness and branch thickness in clonal trials of Acacia auriculiformis at three contrasting sites in Vietnam. For. Ecol. Manage. 255: 156–167 [CrossRef].
  15. Hai P.H., Jansson G., Harwood C., Hannrup B., Thinh H.H., and Pinyopusarerk K., 2008c. Genetic variation in wood basic density and knot index and their relationship with growth traits for Acacia auriculiformis A. Cunn ex Benth in Northern Vietnam. N. Z. J. For. Sci. 38: 176–192.
  16. Henson M., Boyton S., Davies M., Joe B., Kangane B., Murphy T., Palmer G., and Vanclay J., 2004. Genetic parameters of wood properties in a 9 years old Eucalyptus dunnii progeny trial in NSW, Australia. In: Borralho N.M.G., Pereira J.S., Marques J., Coutinho J., Madeira M., and Tome R.M. (Eds.), Eucalyptus in a changing world, IUFRO, Portugal, 83 p.
  17. Hock R. and Mariaux A., 1984. Vitesse de croissance et retrait du bois : relation entre la largeur des cernes d'accroissement et le retrait au séchage dans quelques arres tropicaux. Rev. Bois. For. Trop. 203: 79–90.
  18. Ivkovic M., Wu H., McRae T., and Powell M., 2006. Developing breeding objectives for radiata pine structural wood production. I. Bioeconomic model and economic weights. Can. J. For. Res. 36: 2920–2931.
  19. Johansson M., 2002. Moisture-induced distortion in Norway spruce timbe – experiments and models, Ph.D. thesis at Chalmens university of Technology, Gothenburg, Sweden.
  20. Kha L.D., 2001. Studies on natural hybrids of Acacia mangium and A. auriculiformis in Vietnam, Agriculture Publishing House, Ha Noi, 171 p.
  21. Khasa P.D., Li P., Vallee G., Magnussen S., and Bousquet J., 1995. Early evaluation of Racosperma auriculiforme and R. mangium provenance trials on four sites in Zaire. For. Ecol. Manage. 78: 99–113 [CrossRef].
  22. Koubaa A., Hernandez R.E., and Beaudoin M., 1998. Shrinkage of fast-growing hybrid poplar clones. For. Prod. J. 48: 82–87.
  23. Kumar P., Anathanarayana A.K., and Sharma S.N., 1987. Physical and mechanical properties of Acacia auriculiformis from Karnataka. Indian Forester 113: 567–573.
  24. Luangviriyasaeng V. and Pinyopusarerk K., 2002. Genetic variation in second-generation progeny trial of Acacia auriculiformis in Thailand. J. Trop. For. Sci. 14: 131–144.
  25. Nepveu G., 1984. Genetic control of wood density and shrinkage in three oak species (Quercus petraea, Quercus robur and Quercus rubra). Silv. Genet. 33: 110–115.
  26. Nor Aini A.S. et al., 1997. Selected wood properties of Acacia auriculiformis and A. crassicarpa provenances in Malaysia. In: Turnbull J.W., Crompton H.R., and Pinyopusarerk K. (Eds.), Recent developments in Acacia planting, Australian Centre for Internatinal Agricultural Research, Ha Noi, Vietnam, pp. 155–160.
  27. Olesen P.O., 1971. The water displacement method. For. Tree Improv. 3: 1–23.
  28. Ormarsson S., Dahlblom O., and Petersson H., 1998. A numerial study of the shape stability of sawn timber subjected to moisture variation. Wood Sci. Technol. 32: 325–334 [CrossRef].
  29. Perré P. and Huber F., 2007. Measurement of free shrinkage at the tissue level using an optical microscope with an immersion objective: results obtained for Douglas fir (Pseudotsuga menziesii) and spruce (Picea abies). Ann. For. Sci. 64: 255–265 [EDP Sciences] [CrossRef].
  30. Pliura A., Yu Q., Zhang S.Y., MacKay J., Périnet P., and Bousquet J., 2005. Variation in wood density and shrinkage and their relationship to growth of selected young poplar hybrid crosses. For. Sci. 51: 472–482.
  31. Raymond C.A., 2002. Genetics of Eucalyptus wood properties. Ann. For. Sci. 59: 525–531 [EDP Sciences] [CrossRef].
  32. Shams M.I., Chowdhury M.Q., and Alam M., 2005. Effects of age and height variation on physical properties of mangium (Acacia mangium Willd.) wood. Australian Forestry 68: 17–19.
  33. Shupe T.F., Choong E.T., and Gibson M.D., 1995. Differences in moisture content and shrinkage between outerwood, middlewood, and corewood of two yellow-poplar trees. For. Prod. J. 45: 85–90.
  34. Skaar C., 1988. Wood water relations, Springer-Verlag, New York, 283 p.
  35. Sotelo Montes C., Beaulieu J., and Hernandez R.E., 2007. Genetic variation in wood shrinkage and its correlations with tre growth and wood density of Calycophyllum spruceanum at an early age in the Peruvian Amazon. Can. J. For. Res. 37: 966–976 [CrossRef].
  36. Turnbull J.W., Midgley S.J., and Cossalter C., 1997. Tropical Acacias planted in Asia: an Overview Recent Developments in Acacias planting. In: Turnbull J.W., Crompton H.R., and Pinyopuserak K. (Eds.), Recent developments in Acacia planting, ACIAR Publishing, Ha Noi, Vietnam, pp. 14–18.
  37. Walker J.C.F., 2006. Primary wood processing: principles and practice, Springer, Dordrecht, The Netherlands, 603 p.
  38. Williams E.R., Matheson A.C., and Harwood C.E., 2002. Experimental design and analysis for tree improvement, CSIRO publishing, 220 p.
  39. Yang J.L., 2003. Interrelationships between shrinkage properties, microfibril angle, and cellulose crystallits width in 10-year-old Eucalyptus globules. For. Prod. J. 33: 47–61.
  40. Zhang S.Y., Nepveu G., and Eyono Owoundi R., 1994. Intratree and intertree variation in selected wood quality characteristics of European oak (Quercus petraea and Quercus robur). Can. J. For. Res. 24: 1818–1823 [CrossRef].
  41. Zobel B. and Van Buijtenen J.P., 1989. Wood variation: its causes and control, Springer, Berlin, Heidelberg, New York, 363 p.
  42. Zobel B.J. and Sprague J.R., 1998. Juvenile wood in forest trees, Springer-Verlag, Telos, Berlin, 300 p.