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Scandinavian Journal of Forest Research Volume 24, 2009 - Issue 1
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ORIGINAL ARTICLE

Genetic variation of wood quality traits and relationships with growth in Picea abies

Arne Steffenrem Norwegian Forest and Landscape Institute, Ås, Norway; Department of Ecology and Natural Resource Management, Norwegian University of Life Sciences, Ås, NorwayCorrespondence[email protected]
,
Harald Kvaalen Norwegian Forest and Landscape Institute, Ås, Norway
,
Olav Albert H⊘ib⊘ Department of Ecology and Natural Resource Management, Norwegian University of Life Sciences, Ås, Norway
,
Øyvind M. Edvardsen Norwegian Forest Seed Center, Hamar, Norway
&
Tore Skr⊘ppa Norwegian Forest and Landscape Institute, Ås, Norway
Pages 15-27 | Received 08 Jul 2008, Published online: 04 Mar 2009

References

  • Andersson , B. , Elfving , B. , Persson , T. , Ericsson , T. and Kroon , J. 2007 . Characteristics and development of improved Pinus sylvestris in northern Sweden . Canadian Journal of Forest Research , 37 : 84 – 92 .
  • Baltunis , B. S. , Wu , H. X. and Powell , M. B. 2007 . Inheritance of density, microfibril angle, and modulus of elasticity in juvenile wood of Pinus radiata at two locations in Australia . Canadian Journal of Forest Research , 37 : 2164 – 2174 .
  • Bridgwater , F. E. 1992 . “ Mating designs ” . In Handbook of quantitative forest genetics , Edited by: Fins , L. , Friedman , S. T. and Brotschol , J. V. Vol. 39 , 69 – 95 . Dordrecht : Kluwer Academic Publishers .
  • Burdon , R. D. 1977 . Genetic correlation as a concept for studying genotype–environment interaction in forest tree breeding . Silvae Genetica , 26 : 168 – 175 .
  • Cave , I. D. and Walker , J. C. F. 1994 . Stiffness of wood in fast-grown plantation softwoods—The influence of microfibril angle . Forest Products Journal , 44 : 43 – 48 .
  • Costa e Silva , J. , Borralho , N. M. G. and Wellendorf , H. 2000 . Genetic parameter estimates for diameter growth, pilodyn penetration and spiral grain in Picea abies (L.) Karst . Silvae Genetica , 49 : 29 – 36 .
  • Costa e Silva , J. , Dutkowski , G. W. and Gilmour , A. R. 2001 . Analysis of early tree height in forest genetic trials is enhanced by including a spatially correlated residual . Canadian Journal Of Forest Research , 31 : 1887 – 1893 .
  • Danborg , F. 1994 . Spiral grain in plantation trees of Picea abies . Canadian Journal of Forest Research , 24 : 1662 – 1671 .
  • Dickerson , G. E. 1969 . Techniques for research in quantitative animal genetics . In Techniques and procedures in animal science research (pp. 36 – 79 ). Albany, NY : American Society of Animal Science .
  • Dietrichson , J. and Haug , G. 1976 . Resultater fra et avkomfors⊘k med gran (Picea abies (L.) Karst.) fra Opsahl i Ringebu . Meddelelser fra Norsk institutt for skogforskning , 32 : 458 – 482 .
  • Downes , G. M. , Nyakuengama , J. G. , Evans , R. , Northway , R. , Blakemore , P. Dickson , R. L. 2002 . Relationship between wood density, microfibril angle and stiffness in thinned and fertilized Pinus radiata . Iawa Journal , 23 : 253 – 265 .
  • Dungey , H. S. , Matheson , A. C. , Kain , D. and Evans , R. 2006 . Genetics of wood stiffness and its component traits in Pinus radiata . Canadian Journal of Forest Research , 36 : 1165 – 1178 .
  • Dutkowski , G. W. , Silva , J. C. E. , Gilmour , A. R. and Lopez , G. A. 2002 . Spatial analysis methods for forest genetic trials . Canadian Journal of Forest Research , 32 : 2201 – 2214 .
  • Ericsson , T. 1997 . Enhanced heritabilities and best linear unbiased predictors through appropriate blocking of progeny trials . Canadian Journal of Forest Research , 27 : 2097 – 2101 .
  • Evans , R. 1999 . A variance approach to the X-ray diffractometric estimation of microfibril angle in wood . Appita Journal , 52 : 283 – 289, 294 .
  • Evans , R. 2003 . Wood stiffness by X-ray diffractiometry . Paper presented at Characterization of the Cellulosic Cell Wall. Proceedings of a Workshop Cosponsored by the USDA Forest Service—Southern Research Station, the Society of Wood Science and Technology, and Iowa State University, Grand Lake, CO, USA, 25–27 August 2003 .
  • Evans , R. , Kibblewhite , R. P. and Stringer , S. 1997 . Kraft pulp fibre property prediction from wood properties in eleven radiata pine clones . Appita Journal , 50 : 25 – 33 .
  • Falconer , D. S. and Mackay , T. F. C. 1996 . Introduction to quantitative genetics , 4th ed , Essex : Longman .
  • Fujimoto , T. , Akutsu , H. , Nei , M. , Kita , K. , Kuromaru , M. and Oda , K. 2006 . Genetic variation in wood stiffness and strength properties of hybrid larch (Larix gmelinii var. japonica×L kaempferi) . Journal of Forest Research , 11 : 343 – 349 .
  • Gaspar , M. J. , Louzada , J. L. , Aguiar , A. and Almeida , M. H. 2008 . Genetic correlations between wood quality traits of Pinus pinaster Ait . Annals of Forest Science , 65 : 703 – 709 .
  • Gjerdrum , P. , Säll , H. and Storo , H. M. 2002 . Spiral grain in Norway spruce: Constant change rate in grain angle in Scandinavian sawlogs . Forestry , 75 : 163 – 170 .
  • Hallingbäck , H. R. , Jansson , G. and Hannrup , B. 2008 . Genetic parameters for grain angle in 28-year-old Norway spruce progeny trials and their parent seed orchard . Annals of Forest Science , 65 : 301 – 308 .
  • Hamann , A. , Namkoong , G. and Koshy , M. P. 2002 . Improving precision of breeding values by removing spatially autocorrelated variation in forestry field experiments . Silvae Genetica , 51 : 210 – 215 .
  • Hannrup , B. , Grabner , M. , Karlsson , B. , Müller , U. , Rosner , S. Wilhelmsson , L. 2002 . Genetic parameters for spiral-grain angle in two 19-year-old clonal Norway spruce trials . Annals of Forest Science , 59 : 551 – 556 .
  • Hannrup , B. , Säll , H. and Jansson , G. 2003 . Genetic parameters for spiral grain in Scots pine and Norway spruce . Silvae Genetica , 52 : 215 – 220 .
  • Hannrup , B. , Cahalan , C. , Chantre , G. , Grabner , M. , Karlsson , B. Le Bayon , I. 2004 . Genetic parameters of growth and wood quality traits in Picea abies . Scandinavian Journal of Forest Research , 19 : 14 – 29 .
  • Hansen , J. K. and Roulund , H. 1997 . Genetic parameters for spiral grain, stem form, pilodyn and growth in 13 years old clones of Sitka spruce (Picea sitchensis (Bong.) Carr.) . Silvae Genetica , 46 : 107 – 113 .
  • Henderson , C. R. 1963 . Selection index and expected genetic advance . In W. D. Hanson & H. F. Robinson Statistical genetics and plant breeding (pp. 141 – 163 ). Publication No. 982 . Washington, DC : National Academy of Sciences and National Research Council .
  • Hylen , G. 1997 . Genetic variation of wood density and its relationship with growth traits in young Norway spruce . Silvae Genetica , 46 : 55 – 60 .
  • Ilic , J. 2001 . Relationship among the dynamic and static elastic properties of air-dry Eucalyptus delegatensis R. Baker . Holz als Roh- und Werkstoff , 59 : 169 – 175 .
  • Ivkovich , M. , Namkoong , G. and Koshy , M. 2002 . Genetic variation in wood properties of interior spruce. II. Tracheid characteristics . Canadian Journal of Forest Research , 32 : 2128 – 2139 .
  • Karlsson , B. and Högberg , K. A. 1998 . Genotypic parameters and clone x site interaction in clone tests of Norway spruce (Picea abies (L.) Karst.) . Forest Genetics , 5 : 21 – 30 .
  • Kollmann , F. F. P. and Côtè , W. A. Jr . 1968 . Principles of wood science and technology. I. Solid wood , Berlin : Springer .
  • Kucera , B. 1992 . Skandinaviske normer for testing av små feilfrie pr⊘ver av heltre , Å : Skogforsk, Norwegian Forest Research Institute .
  • Larson , P. R. , Kretschmann , D. E. , Clark , A. and Isebrants , J. G. 2001 . Formation and properties of juvenile wood in southern pines: A synopsis , Madison, WI : US Department of Agriculture, Forest Service, Forest Products Laboratory .
  • Lindgren , O. , Davis , J. , Wells , P. and Shadbolt , P. 1992 . Non-destructive wood density distribution measurements using computed-tomography . Holz Als Roh-Und Werkstoff , 50 : 295 – 299 .
  • Megraw , R. A. 1985 . The influence of tree age, position on tree, and silvicultural practice on wood specific gravity, fiber length and fibril angle , Atlanta, GA : TAPPI .
  • Molteberg , D. and H⊘ib⊘ , O. 2006 . Development and variation of wood density, kraft pulp yield and fibre dimensions in young Norway spruce (Picea abies) . Wood Science and Technology , 40 : 173 – 189 .
  • Montgomery , D. C. , Peck , E. A. and Vining , G. G. 2001 . Introduction to linear regression analysis , 3rd ed , New York : John Wiley & Sons .
  • Mork , E. 1946 . Vedanatomi , 1st ed , Oslo : Johan Grundt Tanum .
  • Myszewski , J. H. , Bridgwater , F. E. , Lowe , W. J. , Byram , T. D. and Megraw , R. A. 2004 . Genetic variation in the microfibril angle of loblolly pine from two test sites . Southern Journal Of Applied Forestry , 28 : 196 – 204 .
  • Rasband , W. S. 1997–2006 . ImageJ ( Version 1.37 ). Bethesda, MD : US National Institutes of Health . http://rsb.info.nih.gov/ij/
  • Reineke , L. H. 1933 . Perfecting a stand-density index for even-aged forests . Journal of Agricultural Research , 46 : 627 – 638 .
  • Rozenberg , P. and VandeSype , H. 1996 . Genetic variation of the pilodyn–girth relationship in Norway spruce (Picea abies L. Karst.) . Annales Des Sciences Forestieres , 53 : 1153 – 1166 .
  • Säll , H. 2002 . Spiral grain in Norway spruce . Acta Wexionesia , 22/2002 : 1 – 171 .
  • Saranpää , P. 2003 . “ Wood density and growth ” . In Wood quality and its biological basis , Edited by: Barnett , J. R. and Jeronimidis , G. 87 – 117 . Oxford : Blackwell . Biological Sciences Series
  • Sarén , M. P. , Serimaa , R. , Andersson , S. , Saranpää , P. , Keckes , J. and Fratzl , P. 2004 . Effect of growth rate on mean microfibril angle and cross-sectional shape of tracheids of Norway spruce . Trees–-Structure and Function , 18 : 354 – 362 .
  • SAS Institute 2003 . SAS/STAT user's guide ( Version 9 ). Cary, NC : SAS Institute .
  • Siemens 2004 . Somatom Syngo V.B10B_FP3. DICOM Conformance Statement . Berlin : Siemens Medical Solutions, Computed Tomography .
  • Skr⊘ppa , T. 1984 . A critical evaluation of methods available to estimate the genotype×environment interaction . Studia Forestalia Suecica , 166 : 3 – 14 .
  • Steffenrem , A. , Saranpää , P. , Lundqvist , S. O. and Skr⊘ppa , T. 2007 . Variation in wood properties among five full-sib families of Norway spruce (Picea abies) . Annals of Forest Science , 64 : 799 – 806 .
  • Steffenrem , A. , Lindland , F. and Skr⊘ppa , T. 2008 . Genetic and environmental variation of internodal and whorl branch formation in a progeny trial of Picea abies . Scandinavian Journal of Forest Research , 23 : 290 – 298 .
  • Sutinen , R. , Kuoppamaa , M. , Hyvonen , E. , Hänninen , P. , Middleton , M. Pänttäjä , M. 2007 . Geological controls on conifer distributions and their implications for forest management in Finnish Lapland . Scandinavian Journal of Forest Research , 22 : 476 – 487 .
  • Tveite , B. 1977 . Site-index curves for Norway spruce (Picea abies (L.) Karst) . Meddelelser fra Norsk institutt for skogforskning , 33 : 1 – 84 .
  • Vargas-Hernandez , J. and Adams , W. T. 1991 . Genetic-variation of wood density components in young coastal Douglas-fir—Implications for tree breeding . Canadian Journal of Forest Research , 21 : 1801 – 1807 .
  • Wang , T. , Aitken , S. N. , Rozenberg , P. and Carlson , M. R. 1999 . Selection for height growth and Pilodyn pin penetration in lodgepole pine: Effects on growth traits, wood properties, and their relationships . Canadian Journal of Forest Research , 29 : 434 – 445 .
  • Wilhelmsson , L. , Arlinger , J. , Spangberg , K. , Lundqvist , S. O. , Grahn , T. Hedenberg , O. 2002 . Models for predicting wood properties in stems of Picea abies and Pinus sylvestris in Sweden . Scandinavian Journal of Forest Research , 17 : 330 – 350 .
  • Wilson , T. R. C. 1921 . The effect of spiral grain on the strength of wood . Journal of Forestry , XIX : 740 – 747 .

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