Free Access
Issue
Ann. For. Sci.
Volume 64, Number 8, December 2007
Page(s) 807 - 814
DOI https://doi.org/10.1051/forest:2007063
Published online 22 November 2007
References of  Ann. For. Sci. 64 (2007) 807-814
  1. Amarasekara H., Denne M.P., Effects of crown size on wood characteristics of Corsican pine in relation to definitions of juvenile wood, crown formed wood and core wood, Forestry 75 (2002) 51-61 [CrossRef].
  2. Bao F.C., Jiang Z.H., Wood properties of main tree species from plantation in China, China Forestry Publishing House, Beijing, China, 1998.
  3. Castéra P., Faye C., Ouadrani A.E., Prevision of the bending strength of timber with a multivariate statistical approach, Ann. For. Sci. 53 (1996) 885-898 [CrossRef] [EDP Sciences].
  4. Chuang S.T., Wang S.Y., Evaluation of standing tree quality of Japanese cedar grown with different spacing using stress-wave and ultrasonic-wave methods, J. Wood Sci. 47 (2001) 245-253.
  5. Fang S.Z., Yang W.Z., Within tree variation in wood basic density and cellulose content of poplar clones, J. Plant Res. Environ. 13 (2004) 19-23.
  6. Faust T.D., McAlister R.H., Zarnoch S.J., Strength and stiffness properties of sweetgum and yellow-poplar structural lumber, For. Prod. J. 40 (1991) 58-64.
  7. Gindl W., Teischinger A., Axial compression strength of Norway spruce related to structural variability and lignin content, Compos. Part A. Appl. Sci. Manuf. 33 (2002) 1623-1628 [CrossRef].
  8. Green S.R., Grace J., Hutchings N.J., Observation of turbulent air flow in three stands of widely spaced Sitka spruce, Agric. For. Meteorol. 74 (1995) 205-225 [CrossRef].
  9. Jiang X.M., Zhang L.F., Zhang Q.W., Genetic variation in basic wood properties of 36 clones of Populus deltoides, For. Res. 7 (1994) 253-258.
  10. Jiang Z.H., Peng Z.H., Wood properties of the global important tree species, Science Press, China, 2001.
  11. Kang K.Y., Zhang S.Y., Mansfield S.D., The effects of initial spacing on wood density, fiber and pulp properties in jack pine (Pinus banksiana Lamb.), Holzforschung 58 (2004) 455-463.
  12. Krause C., Gagnon R., Wet heartwood distribution in the stem, stump, and root wood of black spruce in the Quebec boreal forest, Canada, North. J. Appl. For. 22 (2005) 12-18.
  13. Krause C., Gagnon R., The relationship between site and tree characteristics and the presence of wet heartwood in black spruce in the boreal forest of Quebec, Canada, Can. J. For. Res. 36 (2006) 1519-1526 [CrossRef].
  14. Lasserre J.P., Mason E.G., Watt M.S., The effects of genotype and spacing on Pinus radiata (D. Don) corewood stiffness in an 11-year old experiment, For. Ecol. Manage. 205 (2005) 375-383 [CrossRef].
  15. Lei Y.C., Zhang S.Y., Jiang Z.H., Models for predicting lumber bending MOR and MOE based on tree and stand characteristics in black spruce, Wood Sci. Technol. 39 (2005) 37-47 [CrossRef].
  16. Li S.W., Zhang Z.Y., He C.Z., An X.M., Progress on hybridization breeding of poplar in China, World For. Res. 17 (2004) 37-41.
  17. Liu S.Q., Effect of different spaces on wood quality in poplar, J. Anhui Agric. Univ. 27 (2000) 374-379.
  18. Lu J.X., Bao F.C., Plantation in the future in China: forest silviculture, wood quality and utilization, Forest. Stud. China, 2 (1999) 16-23.
  19. Macdonald E., Hubert J., A review of the effects of silviculture on timber quality of Sitka spruce, Forestry 75 (2002) 107-138 [CrossRef].
  20. Mmolotsi R.M., Teklehaimanot Z., The effect of initial tree-planting density on timber and wood-fuel properties of red alder and sycamore, Can. J. For. Res. 36 (2006) 1475-1483 [CrossRef].
  21. National Technical Monitoring Bureau, National standard GB 1932$\sim
$1942-91: Standard methods for determining wood physical and mechanical properties, China Standard Press, Beijing, 1991.
  22. Persson B., Persson A., Stahl E.G., Karlmats U., Wood quality of Pinus sylevstris progenies at various spacing, For. Ecol. Manage. 76 (1995) 127-138 [CrossRef].
  23. Ren H.Q., Liu X.E., Jiang Z.H., Wang Y.H., Yu H.Q., Effects of planting density on wood anatomical properties of Populus xiaohei, For. Res. 19 (2006) 364-369.
  24. Roos K.D., Shottafer J.E., Shepard R.K., The relationship between selected mechanical properties and age in quaking aspen, For. Prod. J. 40 (1990) 54-56.
  25. Saucier J.R., Forest management and wood quality, in: Saucier J.R., Cubbage F.N. (Eds.), Proceedings, Southern Plantation Wood Quality Workshop, Athens, GA, 1990, pp.47-56.
  26. Watson P., Garner C., Robertson R., Reath S., Gee W., Hunt K., The effects of initial tree spacing on the fiber properties of plantation-grown coastal western hemlock, Can. J. For. Res. 33 (2003) 2460-2468 [CrossRef].
  27. Whitehead D., Edwards W.R.N., Jarvis P.G., Conducting sapwood area, foliage area, and permeability in mature trees of Picea sitchensis and Pinus contorta, Can. J. For. Res.14 (1984) 940-947.
  28. Yang K.C., Impact of spacing on width and basal area of juvenile and mature wood in Picea mariana and Pieca glauca, Wood Fiber Sci. 26 (1994) 479-488.
  29. Yang K.C., Hazenberg G., Impact of spacing on sapwood and heartwood thickness in Picea mariana (Mill.) B.S.P. and Pieca glauca (Moench.) VOSS, Wood Fiber Sci. 24 (1992) 330-336.
  30. Yang K.C., Hazenberg G., Impact of spacing on tracheid length, relative density, and growth rate of juvenile wood and mature wood in Picea mariana, Can. J. For. Res. 24 (1994) 996-1007 [CrossRef].
  31. Zhang D.M., Bao F.C., Zhang Z.Y., Huang R.F., Genetic analysis of wetwood proportion on clone test stand of Populus tomentosa, Sci. Sil. Sin. 41 (2005) 140-144.
  32. Zhang S.Y., Chauret G., Ren H.Q., Desjardins R., Impact of plantation black spruce initial spacing on lumber grade yield, bending properties and MSR yield, Wood Fiber Sci. 34 (2002) 460-475.
  33. Zhang S.Y., Lei Y.C., Bowling C., Quantifying stem quality characteristics in relation to initial spacing and modeling their relationship with tree characteristics in black spruce (Picea mariana), North. J. Appl. For. 22 (2005) 85-93.
  34. Zhang S.Y., Tong Q.J., Modeling lumber recovery in relation to selected tree characteristics in jack pine using sawing simulator Optitek, Ann. For. Sci. 62 (2005) 219-228 [CrossRef] [EDP Sciences].
  35. Zhu G.Q., Huang M.R., Pan H.X., Li H.G., Feng W.Z., Study on chemical characteristics and formation mechanism of poplar wet heartwood, Sci. Sil. Sin. 33 (1997) 260-266.
  36. Zobel B.J., Buijtenen J.P., Wood variation-its cause and control, Springer-verlag, Berlin, Heidelberg, New York, London, Paris, Tokyo, 1989.
  37. Zobel B.J., Webb C., Henson F., Core or juvenile wood of loblolly and slash pine trees, TAPPI 42 (1959) 345-356.
  38. Zu B.S., Foreign studies on wet heart wood of poplars, Sci. Sil. Sin. 36 (2000) 85-91.