[BEAULIEU, J. (2003): Genetic variation in tracheid length and relationships with growth and wood traits in eastern white spruce (Picea glauca). Wood Fiber Sci 35: 609-616.]Search in Google Scholar
[CHANG, C. I. and R. W. KENNEDY (1967): Influence of specific gravity and growth rate on dry wood production in plantation-grown white spruce. For Chron 43: 165-173.10.5558/tfc43165-2]Search in Google Scholar
[CHAPIN, F. S. I., P. M. VITOUSEK and C. K. VAN (1986): The nature of nutrient limitation in plant communities. Am Nat 127: 48-58.10.1086/284466]Search in Google Scholar
[CORNELISSEN, J. H. C., S. LAVOREL and E. GARNIER et al. (2003): A handbook of protocols for standardised and easy measurement of plant functional traits worldwide. Aust J Bot 51: 335.10.1071/BT02124]Search in Google Scholar
[CORRIVEAU, A., J. BEAULIEU and G. DAOUST (1991): Heritability and genetic correlations of wood characters of Upper Ottawa Valley white spruce populations grown in Quebec. For Chron 67: 698-705.10.5558/tfc67698-6]Search in Google Scholar
[CORRIVEAU, A., J. BEAULIEU and F. MOTHE (1987): Wood density of natural white spruce populations in Quebec. Can J For Res 17: 675-682.10.1139/x87-110]Search in Google Scholar
[DUCHESNE I. and S. Y. S. ZHANG (2004): Variation in tree growth, wood density, and pulp fiber properties of 35 white spruce (Picea glauca (Moench) Voss) families grown in Quebec. Wood Fiber Sci 36: 467-475.]Search in Google Scholar
[EK, A. R. (1985): A formula for the total cubic foot stem volume of small trees in the Lake States. North J Appl For 2: 3.]Search in Google Scholar
[GASPAR, M. J., J. L. LOUSADA and J. C. RODRIGUES et al. (2009): Does selecting for improved growth affect wood quality of Pinus pinaster in Portugal? For Ecol Manage 258: 115-121.10.1016/j.foreco.2009.03.046]Search in Google Scholar
[HAWKINS, B. J. (2007): Family variation in nutritional and growth traits in Douglas-fir seedlings.n Tree Physiol 27: 911-919.10.1093/treephys/27.6.91117331909]Search in Google Scholar
[HOLST, M. J. and A. H. TEICH (1969): Heritability estimates in Ontario white spruce. Silvae Genet 18: 23-27.]Search in Google Scholar
[KANG, H., H. ZHUANG and L. WU et al. (2011): Variation in leaf nitrogen and phosphorus stoichiometry in Picea abies across Europe: An analysis based on local observations. For Ecol Manage 261: 195-202.10.1016/j.foreco.2010.10.004]Search in Google Scholar
[KENWARD, M. G. and J. H. ROGER (1997): Small sample inference for fixed effects from restricted maximum likelihood. Biometrics 53: 983-997.10.2307/2533558]Search in Google Scholar
[KLEVORN, R. E. (1995): Genotype-environment interaction for height growth in white spruce. University of Minnesota, Masters of Science Thesis, St Paul USA.]Search in Google Scholar
[KOCH, G. W., S. C. SILLETT, G. M. JENNINGS and S. D. DAVIS (2004): The limits to tree height. Nature 428: 851-854.10.1038/nature0241715103376]Search in Google Scholar
[LAMBERS, H., F. S. CHAPIN and T. L. PONS (2008): Plant Physiological Ecology, Second Edition.: Springer Science + Business media. New York, NY.10.1007/978-0-387-78341-3]Search in Google Scholar
[LEGNER, N., S. FLECK and C. LEUSCHNER (2014): Within-canopy variation in photosynthetic capacity, SLA and foliar N in temperate broad-leaved trees with contrasting shade tolerance. Trees 28: 263-280.10.1007/s00468-013-0947-0]Search in Google Scholar
[LI, B., H. L. ALLEN and S. MCKEAND (1991): Nitrogen and family effects on biomass allocation of loblolly pine seedlings. Forest Science 37: 271-283.]Search in Google Scholar
[LYNCH, M. and B. WALSH (1998): Genetics and Analysis of Quantitative Traits (1st ed). Sinauer Associates, Inc.: Sunderland, MA]Search in Google Scholar
[MARSHALL, J. D. and R. A. MONSERUD (2003): Foliage height influences specific leaf area of three conifer species. Can J For Res 33: 164-170.10.1139/x02-158]Search in Google Scholar
[MARSHALL, J. D., G. E. REHFELDT and R. A. MONSERUD (2001): Family differences in height growth and photosynthetic traits in three conifers. Tree Physiol 21: 727.10.1093/treephys/21.11.72711470658]Search in Google Scholar
[MERRILL, R. E. and C. A. MOHN (1985): Heritability and genetic correlations for stem diameter and branch characteristics in white spruce. Can J For Res 15: 494-497.10.1139/x85-081]Search in Google Scholar
[MILLER, B. D. and B. J. HAWKINS (2007): Ammonium and nitrate uptake, nitrogen productivity and biomass allocation in interior spruce families with contrasting growth rates and mineral nutrient preconditioning. Tree Physiol 27: 901-9.10.1093/treephys/27.6.90117331908]Search in Google Scholar
[MILLER, B. D. and B. J. HAWKINS (2003): Nitrogen uptake and utilization by slow-and fast-growing families of interior spruce under contrasting fertility regimes. Can J For Res 33: 959-966.10.1139/x03-017]Search in Google Scholar
[NIENSTAEDT, H. and D. RIEMENSCHNEIDER (1985): Changes in heritability estimates with age and site in white spruce, Picea glauca (Moench) Voss. Silvae Genet 34: 34-41.]Search in Google Scholar
[NIINEMETS, U. and O. KULL (1995): Effects of light availability and tree size on the architecture of assimilative surface in the canopy of Picea abies: variation in needle morphology. Tree Physiol 15: 307-15.10.1093/treephys/15.5.30714965954]Search in Google Scholar
[OLEKSYN, J., J. MODRZÝNSKI and M. G. TJOELKER et al. (1998): Growth and physiology of Picea abies populations from elevational transects: common garden evidence for altitudinal ecotypes and cold adaptation. Funct Ecol 12: 573-590.10.1046/j.1365-2435.1998.00236.x]Search in Google Scholar
[PIKE, C., J. WARREN and A. DAVID (2006): Annual Report of the Minnesota Tree Improvement Cooperative. University of Minnesota, St Paul USA.]Search in Google Scholar
[POLGE, P. H. and G. ILLY (1968): Héritabilité de la densité du bois et corrélations avec la croissance étudiées à l’aide de tests non destructifs sur plants de Pins maritimes de quatre ans. Silvae Genet 17: 173-181.]Search in Google Scholar
[POWER, H., R. SCHNEIDER and F. BERNINGER (2014): Understanding changes in black (Picea mariana) and white spruce (Picea glauca) foliage biomass and leaf area characteristics. Trees 28: 345-357.10.1007/s00468-013-0953-2]Search in Google Scholar
[REICH, P. B. and J. OLEKSYN (2004): Global patterns of plant leaf N and P in relation to temperature and latitude. Proc Natl Acad Sci USA 101: 11001-11006.10.1073/pnas.040358810150373315213326]Search in Google Scholar
[REICH, P. B., M. G. TJOELKER and M. B. WALTERS et al. (1998): Close association of RGR, leaf and root morphology, seed mass and shade tolerance in seedlings of nine boreal tree species grown in high and low light. Funct Ecol 12: 327-338.10.1046/j.1365-2435.1998.00208.x]Search in Google Scholar
[REICH, P. B., I. J. WRIGHT and J. CAVENDER-BARES et al. (2003): The evolution of plant functional variation: traits, spectra, and strategies. Int J Plant Sci 164: S143-S164.10.1086/374368]Search in Google Scholar
[SIMPSON, W. T. (1993): Specific gravity, moisture content, and density relationship for wood. Gen. Tech. Rep. FPL-GTR 76, Madison WI: U.S. Department of Agriculture, Forest Service, Forest Products Laboratory. 13 p.10.2737/FPL-GTR-76]Search in Google Scholar
[SMITH, D. M. (1954): Maximum moisture content method for determining specific gravity of small wood samples. Report No. 2014, Madison WI: U.S. Department of Agriculture, Forest Service, Forest Products Laboratory.]Search in Google Scholar
[STEELE, M. J., M. P. COUTTS and M. M. YEOMAN (1989): Developmental changes in Sitka spruce as indices of physiological age I. Changes in needle morphology. New Phytol. 113: 367-375.10.1111/j.1469-8137.1989.tb02415.x33874188]Search in Google Scholar
[STELLRECHT, J. W., C. A. MOHN and W. CROMELL (1974): Productivity of white spruce seed sources in a Minnesota tree planting. Minnesota For Res Notes No. 251.]Search in Google Scholar
[WENG, Y., K. TOSH and M. FULLARTON (2010): Determining and projecting realised genetic gains: results from early-stage spruce improvement programmes in New Brunswick, Canada. New Zeal J For Sci 40: 5-17.]Search in Google Scholar
[WHITE, T. L. and G. R. HODGE (1989): Predicting breeding values with applications in tree improvement. Kluwer Academic Publishers, Dordrecht. The Netherlands.10.1007/978-94-015-7833-2]Search in Google Scholar
[WILKINSON, R. C. (1977): Inheritance of budbreak and correlation with early height growth in white spruce (Picea glauca) from New England. NE Exp Stn Res Pap-391, U.S. Department of Agriculture, Forest Service, Upper Darby, PA.]Search in Google Scholar
[ZHANG, S. Y. (1995): Effect of growth rate on wood specific gravity and selected mechanical properties in individual species from distinct wood categories. Wood Sci Technol 29: 451-465.10.1007/BF00194204]Search in Google Scholar
[ZHANG, S. Y., Q. YU and J. BEAULIEU (2004): Genetic variation in veneer quality and its correlation to growth in white spruce. Can J For Res 34: 1311-1318.10.1139/x04-015]Search in Google Scholar