Free Access
Ann. For. Sci.
Volume 64, Number 4, June-July 2007
Page(s) 467 - 475
Published online 24 May 2007
References of  Ann. For. Sci. 64 (2007) 467-475
  1. Addis Tsehaye, Buchanan A.H., Walker J.C.F., A comparison of density and stiffness for predicting wood quality or density: The lazy man's guide to wood quality, J. Inst. Wood Sci. 13 (1995) 539-543.
  2. Addis Tsehaye, Buchanan A.H., Walker J.C.F., Selecting trees for structural timber, Holz Roh Werkst. 58 (2000) 162-167 [CrossRef].
  3. Barbour R.J., Fayle D.C.F., Chauret G., Cook J., Karsh M.B., Ran S.K., Breast-height relative density and radial growth in mature Jack pine (Pinus banksiana Lamb.) for 38 years after thinning, Can. J. For. Res. 24 (1994) 2439-2447.
  4. Barrett J.D., Kellogg R.M., Lumber quality from second growth managed forests, juvenile wood what does it mean to forest management and forest products? Proceedings of a cooperative technical workshop, Forest Products Research Society/Society of American Foresters, by the Forest Products Research Society, 1984, ISBN: 0-935018-29-8.
  5. Bektas I., Alma M.H., As N., Gundogan R., Relationship between site index and several mechanical properties of Turkish calabrian pine (Pinus brutia Ten.), For. Prod. J. 53 (2003) 27-31.
  6. Bendtsen B.A., Properties of wood from improved and intensively managed trees, For. Prod. J. 28 (1978) 69-72.
  7. Berlyn G.P., Miksche J.P., Botanical microtechnique and cytochemistry. Iowa State University Press, Ames, Iowa, USA, 1976.
  8. Bozkurt Y., Erdin N., Agaç Teknolojisi (Tree technology), Ý.Ü. Yayin No (Pub. No.): 3998, Istanbul, 1997 (in Turkish), ISBN: 975-404-449-X.
  9. Brazier J.D., Howell R.S., The use of a breast height core for estimating selected whole tree properties of Sitka spruce, Forestry 52 (1979) 177-185 [CrossRef].
  10. Brix H., Mitchell A.K., Effects of thinning and nitrogen fertilization on xylem development in Douglas-fir Can. J. For. Res. (1983) 121-128.
  11. Cave I.D., Walker J.C.F., Stiffness of wood in fast-grown plantation softwoods: the influence of microfibril angle, For. Prod. J. 44(5) (1994) 43-48.
  12. Ceylan B., Mugla yoresindeki genc kizilcam mescerelerinde ilk aralama mudahaleleri uzerine silvikulturel arastirmalar (The silvicultural research of the first thinning interventions on the young Pinus brutia Ten stands in Mugla region), OAE Teknik Bulten No: 196, Ankara, Turkey, 1988, (in Turkish with English summary).
  13. Cown D.J.,Young G.D., Burdon R.D., Variations in wood characteristics of 20-year-old half-sib families of Pinus radiata, N. Z. J. For. Sci. 22, (1992) 63-76.
  14. Cown D.J., Effects of severe thinning and pruning treatments on the intrinsic wood properties of radiata pine, N. Z. J. For. Sci. 3, (1973) 379-389.
  15. Dinwoodie J.M.,The relationship between fiber morphology and paper properties: A rewiev of literature, TAPPI J. 48 (1965) 440-447.
  16. Eler U., Antalya bolgesi dogal kizilcam mescerelerinde aralama ve hazirlama kesimlerinin artim ve buyume yonunden etkileri, OAE Teknik Rapor No: 21, Ankara, 1984 (in Turkish).
  17. Eler U., Effect of thinning and preparatory cutting on increment and growth for natural Pinus brutia stands in Antalya forest region, OAE. Technical Bulletin: 203, Ankara, Turkey, 1988 (in Turkish with English summary).
  18. 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. Tech. 8 (1974) 207-226 [CrossRef].
  19. Guller B., The effects of different silvicultural treatments on technological properties of Pinus brutia Ten wood, Doctoral Thesis, Istanbul University of Forestry Faculty, 2004 (in Turkish with English summary).
  20. Hapla F., How to bring into accord the silvicultural management and the end-users' interests in case of the Douglas fir., Timber management toward wood quality and end product value, Proceedings of the CTIA/IUFRO International Wood Quality Workshop, August 18-22, 1997 Quebec City, Canada.
  21. Hapla F., Villanueva J.V., Gonzalez-Molina J.M., Effect of silvicultural management on wood quality and timber utilisation of Cedrus atlantica in the European Mediterranean area, Holz Roh Werkst. 58 (2000) 1-8 [CrossRef].
  22. Harnnrup B., Ekberg I., Age-age correlations for tracheid length and wood density in Pinus sylvestris, Can. J. For. Res. 28 (1998) 1373-1379 [CrossRef].
  23. Haygreen J.G., Bowyer J.L., Forest products and wood science, 3rd edition, Iowa State University Press, USA, 1996.
  24. Jozsa L.A., Brix H., The Effects of Fertilization and Thinning on Wood Quality of a 24 Year Old Douglas Fir. Stand, Can. J. For. Res. 19 (1989) 1137-1145.
  25. Kijidani Y., Kitahara R., Effects of basic wood properties on strength and stiffness in bending of Cryptomeria japonica timbers, J. Soc. Mat. Sci. Japan 54 (2005) 377-380 [CrossRef].
  26. Koga S., Tsutsumi J., Oda K., Fujimoto T., Effects of thinning on basic density and tracheid length of Karamatsu (Larix leptolepis Gord.), Makuzai Gakkaishi, 42 (1996) 605-611.
  27. Koga S., Tsutsumi J., Oda K., Fujimoto T., Effects of thinning on the wood structure in annual growth rings of Japanese larch (Larix leptolepis), IAWA J. 18 (1997) 281-290.
  28. Koga S., Zhang S.Y., Relationships between wood density and annual growth rate components in Balsam fir (Abies balsamea), Wood Fiber Sci. 34 (2002) 146-157.
  29. Kollmann F.F.P., Côte W.A., Principles of wood science and technology, I Solid wood, Springer-Verlag, Berlin - Heidelberg, Germany, 1968.
  30. Kozlowski T.T., Growth and development of trees, Vol. II, 1971, Academic Press, New York and London, pp. 110-111.
  31. Kucera B., A hypothesis relating current annual height increment to juvenile wood formation in Norway spruce, Wood Fiber Sci. 26 (1994) 152-167.
  32. Larson P.R., Stem forms of young Larix as influenced by wind and pruning, For. Sci. 11 (1965) 412-424.
  33. Larson P.R., Wood formation and the concept of wood quality, School of Forestry, Yale University, Bull. No. 74, 1969.
  34. Macdonald E., Hubert J., A review of the effects of silviculture on timber quality of Sitka spruce, Forestry 75 (2002) 107-138 [CrossRef].
  35. Macpeak M.D., Burkart L.F., Weldon D., Comparison of grade, yield, and mechanical properties of lumber produced from young fast-grown and older slow-grown planted Slash pine, For. Prod. J. 40 (1990) 11-14.
  36. Markstrom D.C., Troxell H.E., Boldt C.E., Wood properties of immature ponderosa pine after thinning, For. Prod. J. 33 (1983) 33-36.
  37. McKimmey M.D., The genetic potential for improving wood, Proceedings of Symposium on Douglas-fir: Stand Management for the Future, University of Washington, Seattle, WA, June 18-20, 1985.
  38. McKimmey M.D., The effect of forest management practices on wood properties, juvenile wood what does it mean to forest management and forest products? Proceedings of a Cooperative Technical Workshop, Forest Products Research Society/Society of American Foresters, Published by the For. Prod. Res. Society, USA, 1986.
  39. Morling T., Effects of nitrogen fertilization and thinning on growth and clear wood properties in Scots pine (P. sylvestris), Doctoral Thesis, Swedish University of Agricultural Sciences, Umea, Sweden, 1999.
  40. Moschler W.W., Dougal E.F., McRae D.D., Density and growth ring characteristics of Pinus taeda L. fallowing thinning, Wood Fiber Sci. 21 (1989) 313-319.
  41. Nyland R.D., Silviculture concepts and applications, 2nd edition, McGraw-Hill Series in Forest Resources, 2002.
  42. Odabasi T., Korudagi kizilçam plantasyonlarinda mecere bakimi uzerine arastirmalar (Investigation on tending of P. brutia plantations in Korudagi), J. For. Faculty Istanbul A (1981), 75-104.
  43. Panshin A.J., De Zeeuw C., Textbook of wood technology, McGraw-Hill Series in Forest Resources, USA, 1980.
  44. Pape R., Influence of thinning and tree diameter class on the development of basic density and annual ring width in Picea abies, Scand. J. For. Res. 14 (1999) 27-37 [CrossRef]
  45. Parker M.L., Hunt K., Warren W.G., Kennedy R.W., Effect of thinning and fertilization on intra-ring characteristics and kraft pulp yield of Douglas-fir, Applied Polymer Symposium No. 28, 1976, pp. 1075-1086.
  46. Pearson R.G., Ross B.E., Growth rate and bending properties of selected Loblolly pines, Wood Fiber Sci. 16 (1984) 37-47.
  47. Shepard R.K., Shottafer J.E., Effect of early release on specific gravity and wood yield of black spruce, For. Prod. J. 40 (1990) 18-20,
  48. Smith D., Wood quality of loblolly pine after thinning, U.S. For. Serv. Res. Paper 89, 1968.
  49. Smith D.M., Larson B.C., Keltym J., Ashton P.M.S., The practice of silviculture: applied forest ecology, Chapter 3: The response of individual trees to thinning and pruning, Wiley and Sons Inc., New York, 1996.
  50. Smith J.H.G., Influences of spacing on radial growth percentage latewood of Douglas -fir, western hemlock, and western red cedar, Can. J. For. Res. 10 (1980) 169-175.
  51. Stranger, T.K., Variation and genetic control of wood properties in the juvenile core of Pinus patula grown in South Africa, Doctoral Diss., North Caroline State University, Department of Forestry, 2003.
  52. Treacy M., Evertsen J., Dhubhain A.N., A comparison of mechanical and physical wood properties, COFORD, Finland, 2000.
  53. TS 642 (same ISO 554), Standard atmospheres for conditioning and/or testing; specifications, Turkish Standard Institute, 1997.
  54. TS 2474 (same ISO 3133), Wood- Determination of ultimate strength in static bending, Turkish Standard Institute, 1977.
  55. TS 2478 (same ISO 3349), Wood-Determination of modulus of elasticity in static bending, Turkish Standard Institute, 1978.
  56. TS 2595 (same ISO 3787), Wood-Determination of ultimate stress in compression parallel to grain, Turkish Standard Institute, 1977.
  57. Usta H.Z., A study on the yield of Pinus brutia Ten. plantations, Turkish Forestry Research Institute Technical Bull. 219, 1991 (in Turkish with English summary).
  58. Usta H.Z., Akdeniz bolgesindeki kizilçam kultur ormanlarinda ilk aralamalarin artim ve buyumeye etkisi (Non-commercial thinning effects on radial and height increment of Pinus brutia Ten. plantations in Mediterranean region of Turkey), Bati Akdeniz Ormancilik Arastirma Mudurlugu, Teknik Bulten No. 5, Antalya, 1996 (in Turkish with English summary).
  59. Valinger E., Effects of wind sway on stem form and crown development of Scots pine (Pinus sylvestris L.), Aust. For. 55 (1992) 15-21.
  60. Walker J.C.F., Butterfield B.G., The importance of the microfibril angle for the processing industries, N. Z. For. 40 (1996) 34-40.
  61. Wang S.Y., Wang H.L., Effects of moisture content and specific gravity on static bending properties and hardness of six wood species, J. Wood Sci. 45 (1999) 127-133 [CrossRef].
  62. Wang X., Ross R., Erickson J.R., Forsman J.W., McClellan M., Barbour R.J., Pellerin R.F., Nondestructive evaluation of standing trees with stress wave methods, 12th International Symposium on Nondestructive Testing of Wood, University of Western Hungary, Sopron, Proceedings, 2000, pp. 197-206,
  63. Wodzicki T.J., Natural factors affecting wood structure, Wood Sci. Technol. 3 (2001) 5-26 [CrossRef].
  64. Zhang S.Y., Effect of growth rate on wood specific gravity and selected mechanical properties in individual species from distinct wood categories. Woo Sci. Tech. 29 (1995) 451-465.
  65. Zobel B.J., Van Buijtenen J.P., Wood variation: Its causes and control, Springer-Verlag, Berlin, 1989.
  66. Zobel B.J., Silvicultural effects on wood properties, Instituto de Pesquisas Florestais 2 (1992) 31-38.