Free access
Issue
Ann. For. Sci.
Volume 63, Number 7, October-November 2006
Page(s) 673 - 685
DOI http://dx.doi.org/10.1051/forest:2006048
Published online 18 October 2006
References of  Ann. For. Sci. 63 (2006) 673-685
  1. Becker W.A., Manual of quantitative genetics, Academic Enterprises, Pullman, Washington DC, 1984.
  2. Bendtsen B.A., Senft J., Mechanical and anatomical properties in individual growth rings of plantation-grown eastern cottonwood and loblolly pine, Wood Fiber Sci. 18 (1986) 23-38.
  3. Bendtsen B.A., Maeglin R.R., Deneke F., Comparison of mechanical and anatomical properties of eastern cottonwood and Populus hybrid NE-237, Wood Sci. 14 (1981) 1-14.
  4. Beaudoin M., Hernandez R.E., Koubaa A., Poliquin J., Interclonal, intraclonal and within-tree variation in wood density of poplar hybrid clones, Wood Fiber Sci. 24 (1992) 147-153.
  5. Cornelius J., Heritabilities and additive genetic coefficients of variation in forest trees, Can. J. For. Res. 24 (1994) 372-379.
  6. Dadswell H.E., Fielding J.M., Nicholls J.W., Brown A.G., Tree to tree variations and the gross heritability of wood characteristics of Pinus radiata, TAPPI 44 (1961) 174-179.
  7. Danusevicius D., Lindgren D., Efficiency of selection based on phenotype, clone and progeny testing in long-term breeding, Silvae Genet. 51 (2002) 19-26.
  8. DeBell D.S., Singleton R., Harrington C.A., Gartner B.L., Wood density and fiber length in young Populus stems: relation to clone, age, growth rate, and pruning, Wood Fiber Sci. 34 (2002) 529-539.
  9. Falconer D.S., Introduction to quantitative genetics, 3rd ed., Longman, London and New York, 1989.
  10. Farmer R.E. Jr., Variation and inheritance of eastern cotton wood growth and properties under two soil moisture regimes, Silvae Genet. 19 (1970) 5-8.
  11. Farmer R.E. Jr., Genetic variation among open-pollinated progeny of eastern cottonwood, Silvae Genet. 19 (1970) 149-151.
  12. Farmer R.E. Jr., Wilcox J.R., Specific gravity variation in a lower Mississippi valley cottonwood population, TAPPI 49 (1966) 210-211.
  13. Farmer R.E. Jr., Wilcox J.R., Preliminary testing of eastern cottonwood clones, Theor. Appl. Genet. 38 (1968) 197-201 [CrossRef].
  14. Gonzalez J.S., Richards J., Early selection for wood density in young coastal Douglas-fir trees, Can. J. For. Res. 18 (1988) 1182-1158.
  15. Hanrup B., Ekberg I., Age-age correlations for tracheid length and wood density in Pinus sylvestris, Can. J. For. Res. 28 (1998) 1373-1379 [CrossRef].
  16. Hernandez R.E., Koubaa A, Beaudoin M., Fortin Y., Selected mechanical properties of fast-growing poplar hybrid clones, Wood Fiber Sci. 30 (1998) 138-147.
  17. Hodge G.R., White T., Powell G., Genetics of wood density characteristics in slash pine, in: Coop. For. Gen. Res. Prog. 34th Prog. Ep. Univ. Florida Gainesville, FL, 1992, pp. 12-20.
  18. Holt D.H., Murphey W.K., Properties of hybrid poplar juvenile wood affected by silvicultural treatments, Wood Sci. 10 (1978) 198-203.
  19. Houle D., Comparing evolvability and variability of quantitative traits, Genetics 130 (1992) 195-204 [PubMed].
  20. Hylen G., Age trends in genetic parameters of wood density in young Norway spruce, Can. J. For. Res. 29 (1999) 135-143 [CrossRef].
  21. Ilstedt B., Gullberg U., Genetic variation in a 26-year old hybrid aspen trial in southern Sweden, Scand. J. For. Res. 8 (1993) 185-192.
  22. Ivkovich M., Genetic variation of wood properties in balsam poplar (Populus balsamifera L.), Silvae Genet. 45 (1996) 119-124.
  23. Ivkovich M., Namkong G., Koshy M., Genetic variation in wood properties of interior spruce. I. Growth, latewood percentage, and wood density, Can. J. For. Res. (2002) 2116-2117.
  24. Johnson L.P., Studies on the relation of growth rate to wood quality in Populus hybrids. Can. J. Res. 20 (1942) 28-40.
  25. 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.
  26. Koubaa A., Hernandez R.E., Beaudoin M., Shrinkage of fast-growing hybrid poplar clones, For. Prod. J. 48 (1998) 82-87.
  27. Larson P.R., Silvicultural control of the characteristics of wood used for furnish, in: Proc. 4th TAPPI For. Biol. Conf., New York, 1967, pp. 143-150.
  28. Louzada J.L.P.C., Fonseca F.M.A., The heritability of wood density components in Pinus pinaster Ait., and the implications for tree breeding, Ann. For. Sci. 59 (2002) 867-873 [EDP Sciences] [CrossRef].
  29. Matyas C., Peszlen I., Effect of age on selected wood quality traits on poplar clones, Silvae Genet. 46 (1997) 64-72.
  30. Megraw R.A., Wood quality factors in loblolly pine, TAPPI Press Atlanta, Georgia, 1985, 89 p.
  31. Mutibaric J., Comparative qualitative relationships of wood properties of Euramerican poplars, Silvae Genet. 20 (1971) 199-204.
  32. Nepveu G., Barneoud C., Polge H., Aubert M., Variabilité clonale des contraintes de croissance et de quelques autres propriétés du bois danc le genre Populus, in: Fiabilité de l'appréciation de la qualité du bois à l'aide de carottes de sondage, Annales de Recherchers Sylvicoles, AFOCEL, France, 1986, pp. 337-357.
  33. Nepveu G., Keller R., Tessier du Cross E., Sélection juvénile pour la qualité du bois chez certains peupliers noirs, Ann. Sci. For. 35 (1978) 69-92.
  34. Okkonen E.A., Wahlgren H.E., Maeglin R.R., Relationships of specific gravity to tree height in commercially important species, For. Prod. J. 22 (1972) 37-41.
  35. Olson J.R., Jourdain C.R., Rousseau R.J., Selection for cellulose content, specific gravity and volume in young Populus deltoides clones, Can. J. For. Res. 15 (1985) 393-396.
  36. Phelps J.E., Isebrands J.G., Jowett D., Raw material quality of short-term, intensively cultured Populus clones. I. A comparison of stem and branch properties at three spacing, IAWA Bull. n.s. 3 (1982) 193-200.
  37. Pliura A., Yu Q., Zhang S.Y., MacKay J., Périnet P., Bousquet J., Variation in wood density and shrinkage and their relationship to growth of selected young poplar hybrid crosses, For. Sci. 51 (2005) 472-482.
  38. Posey C.E., Bridgewater F.E., Buxton J.A., Natural variation in specific gravity, fiber length, and growth rate of eastern cottonwood in the southern Great Plains, TAPPI 52 (1969) 1508-1511.
  39. Randall W.K., Cooper D.T., Predicted genotypic gains from cottonwood clonal tests, Silvae Genet. 22 (1973) 165-167.
  40. Richardson C.J, Koerper G.J., The influence of edaphic characteristics and clonal variation on quantity and quality of wood production in Populus grandidentata in the Great Lakes region of the USA, Mitteil Forstl. Bundes-Versuchsanstalt Wien 142 (1981) 271-292.
  41. Riemenschneider D.E., Berguson W.E., Dickmann D.I., Hall R.B., Isebrands J.G., Mohn C.A., Stanosz G.C., Tuskan G.A., Poplar breeding and testing strategies in the north-central USA: Demonstration of potential yield and consideration of future research needs, For. Chron. 77 (2001) 245-253.
  42. SAS Institute Inc., SAS/STAT $^\circledR$ User's guide, Vers. 8, SAS Institute Inc., Cary, NC, USA, 1999.
  43. Shelbourne C.J.A., Genotype-environment interaction: its study and its implications in forest tree improvement, in: Proc. of Joint Symposia for the Advancement of Forest Tree Breeding of the Genetics Subject Group, IUFRO, and Section 5, Forest Trees, SABRO, Gov. Forest Exp. Station of Japan, Tokyo, 1972, pp. B-1 I1-I28.
  44. Stener L.-G., Analys av fiberegeneskaper för kloner av hybridasp, Arbetsrapport nr 387. SkogForsk, Uppsala, 1998 (in Swedish).
  45. Swiger L.A., Harvey W.R., Everson D.O., Gregory K.E., The variance of intra-class correlation involving groups with one observation, Biometrics 20 (1964) 818-826.
  46. Vargas-Hernandez J., Adams W.T., Genetic variation of wood density components in young coastal Douglas-fir: implications for tree breeding, Can. J. For. Res. 21 (1991) 1801-1807.
  47. Yu Q., Pulkkinen P., Rautio M., Haapanen M., Alen R., Stener L.G., Beuker E., Tigerstedt P.M.A., Genetic control of wood physiochemical properties, growth and phenology in hybrid aspen clones, Can. J. For. Res. 31 (2001) 1348-1356 [CrossRef].
  48. Zhang S.Y., Morgenstern E.K., Genetic variation and inheritance of wood density in black spruce (Picea mariana) families and its relationship with growth: implications for tree breeding, Wood Sci. Technol. 30 (1995) 63-75 [CrossRef].
  49. Zhang S.Y., Zhong Y., Effect of growth rate on specific gravity of East-Liaoning oak (Quercues liaotungensis) wood, Can. J. For. Res. 21 (1991) 255-260.
  50. Zhang S.Y., Nepveu G., Eyono Owoundi R., Intratree and intertree variation in selected wood quality characteristics of European oak (Quercus petraea and Quercus robur), Can. J. For. Res. 24 (1994) 1818-1823.
  51. Zhang S.Y., Yu Q., Chauret G., Koubaa A., Selection for both growth and wood properties in hybrid poplar clones, For. Sci. 49 (2003) 901-908.
  52. Zobel B.J., van Buijtenen J.P., Wood variation, Springer-Verlag Berlin Heidelberg, Germany, 1989.
  53. Zobel B.J., Jett J.B., Genetics of wood production, Springer-Verlag, Berlin Heidelberg, Germany, 1995.