黄少伟, 谢维辉. 2001. 实用SAS编程与林业试验数据分析. 广州: 华南农业大学出版社.
栾启福, 卢 萍,井振华,等. 2011. Pilodyn评估杂交松活立木的基本密度及其性状相关分析. 江西农业大学学报, 33(3): 548-552.
(Luan Q F, Lu P, Jing Z H, et al. 2011. Assessment of wood basic density for standing trees of hybrid pines by Pilodyn and the correlation analysis of several traits. Acta Agriculturae Universitatis Jiangxiensis, 33(3): 548-552. [in Chinese] )
马常耕. 1992. 落叶松种和种源选择. 北京: 北京农业大学出版社.
潘 彪, 徐朝阳, 王章荣. 2005.杂交鹅掌楸木材解剖性质及其径向变异规律. 南京林业大学学报, 29(1): 79-82.
(Pan B, Xu C Y, Wang Z R. 2005. Wood anatomical properties and its radial variation of Liriodendron chinense×L.tulipifera. Journal of Nanjing Forestry University, 29(1): 79-82. [in Chinese] )
孙晓梅, 张守攻, 齐力旺, 等. 2003. 日本落叶松自由授粉家系纸浆材材性遗传变异的研究. 林业科学研究, 16(5): 515-522.
(Sun X M, Zhang S G, Qi L W, et al. 2003. Genetic variations in pulpwood qualities of open-pollinated japanese larch families. Forest Research, 16(5): 515-522. [in Chinese] )
王军辉, 张守攻, 张建国, 等. 2008. Pilodyn在日本落叶松材性育种中应用的初步研究. 林业科学研究, 21(6): 808-812.
(Wang J H, Zhang S G, Zhang J G, et al. 2008. Research on applying the Pilodyn in wood property breeding of Larix kaempferi. Forest Research, 21(6): 808-812. [in Chinese] )
张瑛春, 王军辉, 张守攻, 等. 2010. Pilodyn和日本落叶松材性指标的关系. 林业科学, 46(7): 114-119.
(Zhang Y C, Wang J H, Zhang S G, et al. 2010. Relationship between the Pilodyn penetration and wood property of Larix kaempferi. Scientia Silvae Sinicae, 46(7): 114-119. [in Chinese] )
朱景乐, 王军辉, 张守攻, 等. 2009a. Pilodyn在日本落叶松活立木材性指标预测中的应用. 林业科学研究, 22(1): 75-79.
(Zhu J L, Wang J H, Zhang S G, et al. 2009a. Using the Pilodyn to assess wood traits of standing trees Larix kaempfri. Forest Research, 22(1): 75-79. [in Chinese] )
朱景乐, 赵 宁, 刘增喜, 等. 2009b. Pilodyn在毛白杨材性指标的预测及选择中的应用. 河南农业大学学报, 43(4): 376-381.
(Zhu J L, Zhao N, Liu Z X, et al. 2009b. Research on the application Pilodyn in assessing wood traits and selection of Populus tomentosa. Journal of Henan Agricultural University, 43(4): 376-381. [in Chinese] )
Cave I D, Walker J C W. 1994. Stiffness of wood in fast-grown plantation softwoods: the influence of microfibril angle. For Prod, 44: 43-48.
Chauhan S S, Walker J C F. 2006. Variation in acoustic and density with age, and their interrelationships in radiation pine. Forest Ecology and Management, 229: 388-394.
Cown D J. 1978. Comparison of the Pilodyn and torsiometer methods for the rapid assessment of wood density in living trees. Newzealand J For Sci, 8: 384-391.
Desmond J, Stackpole R, Vaillancourt M, et al. 2010. Age trends in genetic parameters for growth and wood density in Eucalyptus globulus. Tree Genetics & Genomes, 6: 179-193.
Dickson R L, Raymond C A, Joe W, et al. 2003. Segregation of Eucalyptus dunnii logs using acoustics. Forest Ecology and Management, 179: 243-251
Evans R, Ilic J. 2001. Rapid prediction of wood stiffness from microfibril angle and density. For Prod, 51: 53-57.
Greaves B L, Borralho N M G, Raymond C A, et al. 1996. Use of a Pilodyn for the indirect selection of basic density in Eucalyptus nitens. Canadian Journal of Forest Research, 26(9): 1643-1650.
Hai P H, Jansson G, Harwood C, et al. 2008. Genetic variation in growth, stem straightness and branch thickness in clonal trials of Acacia auriculiformis at three contrasting sites in Vietnam. Forest Ecology and Management, 255: 156-167.
Hansen C P. 2000. Application of the Pilodyn in forest tree improvement. DFSC Series of Technical Notes. TN55. Danida Forest Seed Centre, Humlebaek, Denmark.
Hansen J K, Roulund H. 1996. Genetic parameters for spiral grain, stem form, Pilodyn and growth in 13 year old clones of Sitka Spruce (Picea sitchensis) (Bong.) Carr. Silvae Genetica, 46(2/3): 107-113.
Ishiguri F, Matsui R, Lizuka K, et al. 2008. Prediction of the mechanical properties of lumber by stress-wave velocity and Pilodyn penetration of 36-year-old Japanese larch trees. Original Arbelten. Originals, 66: 275-280.
Kien N D, Jansson G, Harwood C, et al. 2010. Clonal variation and genotype by environment interactions in growth and wood density in Eucalyptus camaldulensis at three contrasting sites in Vietnam. Silva Genetica, 59(1): 17-28.
Knowles L R, Hansen L W, Wendding A, et al. 2004. Evaluation of non-destructive methods for assessing stiffness of Douglas fir trees. New Zealand Journal of Forestry Science, 34(1): 87-101.
Matheson A C, Gapare W J, Ilic J, et al. 2008. Inheritance and genetic gain in wood stiffness in Radiata pine assessed acoustically in young standing trees. Silva Genetica, 57(2): 56-64.
Pliura A, Zhang S Y, Bqusquet J, et al. 2006. Age trends in genotypic variation of wood density and its intra-ring components in young poplar hybrid crosses. Ann For Sci, 63: 673-685.
Pliura A, Zhang S Y, Mackay J, et al. 2007. Genotypic variation in wood density and growth traits of poplar hybrids at four clonal trials. Forest Ecology and Management, 238: 92-106.
Schimleck L R, Michell A J, Raymond C A, et al. 1999. Estimation of basic density of Eucalyotus globulus using near-infrared spectroscopy. Canadian Journal of Forest Research, 29: 194-202.
Walker J C F, Butterfield B G. 1995. The importance of microfibril angle for the processing industries. N.Z. Forestry, 40: 34-40.
Walker J C F, Nakada R. 1999. Understanding corewood in some soft-woods: a selective review on stiffness and acoustics. Int For Rev, 1: 251-259.
Wang T L, Aitken S N, Rozenberg P, et al. 1999. Selection for height growth and Pilodyn pin penetration in lodgepole pine: effects on growth traits, wood properties, and their relationships. Can J For Res, 29: 434-445.
Wang X P, Ross R J, Mcclellan M, et al. 2001. Nondestructive evaluation of standing trees with a stress wave method. Wood and Fiber Science, 33(4): 522-533.
Wang X, Ross R J, McClellan M, et al. 2000. Strength and stiffness assessment of standing trees using a nondestructive stress wave technique. Res. Pap. FPL-RP-585. U.S. Department of Agriculture, Forest Service, Forest Products Laboratory, Madison, WI, 197-206.
Wei X, Borralho N M G. 1997. Genetic control of basic density and bark thickness and their relationships with growth traits of Eucalyptus urophylla in south east China. Silvae Genetica, 46(4): 245-250.
Wu S J, Xu J M, Li G Y, et al. 2010. Use of the Pilodyn for assessing wood properties in standing trees of Eucalyptus clones. J For Res, 21(1): 68-72.
Wu S J, Xu J M, Li G Y, et al. 2011a. Estimation of basic density and modulus of elasticity of eucalypts clones using nondestructive methods in southern China. Journal of Tropical Forestry Science, 23(1): 51-56.
Wu S J, Xu J M, Li G Y, et al. 2011b. Genotypic variation in wood properties and growth traits of Eucalyptus hybrid clones in southern China. New Forests, 42: 35-50.
Yin Y F, Nagao H, Liu X L, et al. 2010. Mechanical properties assessment of Cunninghamia lanceolata plantation wood with three acoustic-based nondestructive methods. J Wood Sci, 56: 33-40. |