杨树新无性系木材性质的变异研究   总被引：4，自引：0，他引：4  

方升佐  杨文忠 《林业研究》2003,14(4):263-268

The wood basic density, cellulose content and fiber form were investigated for all sample trees at breast height (1.3m) in seven poplar clones, and at 0 (butt), 5.6, 9.6, 13.6, 17.6, 19.6 and 21.6 m for clone Nanlin-95 and Nanlin-895, respectively,for providing information on variation patterns of wood density, fiber characteristics and holocellulose content within trees and among clones. The results showed that significant variations about wood density, cellulose content, fiber diameter and the ratio of fiber length to diameter existed among poplar clones examined. Variance analysis indicated that there were significant differences in wood basic density, fiber length, fiber diameter and cellulose content among the growth rings, which had an increasing tendency along the direction from pith to bark. The significant differences also existed in wood basic density, fiber length and fiber diameter at different tree height. The mean wood basic density had a general increase trend with increasing height of trees and the lowest was found at the base, while fiber length and fiber diameter had a general decline pattern with increasing height of trees and the biggest value was observed at the height of 5.6 m. Regression analysis indicated that the relationship between examined wood properties and growth ring number (cambial age), and the relationship between examined wood properties and tree height can be described by polynomial functions.  相似文献   

人工林场杨木材性质与生长培育关系的研究   总被引：21，自引：0，他引：21  

刘盛全  江泽慧  鲍甫成 《林业科学》2001,37(2):90-96

本文以生长在 3种长江滩地类型 (江滩、洲滩、湖滩 )、3种栽植密度 ( 3m×4m ,4m× 5m ,5m× 6m)下的3个品系速生人工林杨树木材 [欧美杨无性系 72杨 (Populus×euramericacv.I -72 58) ,美洲黑杨无性系 63杨(P .deltiodescv.I-63 51 )和 69杨 (P .deltoidescv.I-69 55) ,以下简称 72杨 ,63杨 ,69杨 ]为对象 ,深入地分析了人工林杨树木材材性与生长培育之间的关系。结果表明 :( 1 )品系对滩地杨树木材材性有较大的影响。安徽新洲洲滩和湖北黄洲江滩上生长的 63杨 ,湖南沅江湖滩上生长的 72杨纤维长度最长 ,微纤丝角最小 ,导管比量最大 ,方差分析表明 :72、63、69杨微纤丝角和主要物理力学性质差异均达显著和极显著。 ( 2 )滩地类型对72、63、69杨木材材性都有或大或小的差异。方差分析表明 :63杨、69杨微纤丝角、基本密度、抗弯强度和干缩率差异显著 ,说明 63杨和 69杨受滩地类型影响较大。 ( 3)栽植密度对 72、63、69杨木材材性的影响因材性指标的不同而不同。对 72、63、69杨来讲 ,栽植密度越大 ,微纤丝角、导管比量增大 ,纤维长度、木纤维比量、木射线比量都减小 ,基本密度、抗弯弹性模量和抗弯强度也越小。方差分析表明 ,72杨和 69杨受栽植密度影响较大 ,63杨受栽植密度影响较小  相似文献   

36个美洲黑杨无性系基本材性遗传变异的研究^*   总被引：26，自引：4，他引：26       下载免费PDF全文

姜笑梅  张立非  张绮纹  陈一山  于中奎  谢荷峰 《林业科学研究》1994,7(3):253-258

山东省长清县３６个８年生美洲黑杨无性的木材基本密度、纤维长度，树高和胸径在无性系间的变异达极显著水平，用选优法选出５个密度较高，纤维较生，生长较快的优良无性系，它们的引种号分别是１３号，３号，３４号，２２号和８号，除２２号起源于加拿大外，其余均起源于美国，木材基本密度，纤维长度，树高和胸径的广义遗传力分别为０．３２、０．４０、０．４３和０．７１，材性和生长性受中等或较强遗传控制。树木生长速度分别与  相似文献   

长白落叶松纸浆材优良家系多性状联合选择研究   总被引：2，自引：1，他引：2       下载免费PDF全文

李艳霞  张含国  张磊  朱航勇  周显昌 《林业科学研究》2012,25(6):712-718

采用胸径木芯与伐倒木取样方法,对24年生长白落叶松优树子代测定林14个处理的生长性状、木芯材质性状、解析木材质性状及其制浆造纸特性进行了研究,结果表明:生长性状、木芯基本密度、木芯管胞性状均存在丰富的变异;家系间生长性状差异极显著;木芯基本密度、木芯管胞性状差异显著,家系遗传力在0.56 0.80之间;解析木基本密度、早材微纤丝角、管胞长度、早材壁腔比、木质素、阿拉伯糖含量、抗张强度、撕裂度等差异极显著,家系遗传力在0.64 0.86之间;晚材率、管胞长宽比、综纤维素含量等差异显著,家系遗传力在0.51 0.61,家系水平的材性改良潜力较大。生长性状与木芯管胞长度呈极显著正相关,与木芯基本密度、管胞长宽比相关不显著;木芯基本密度、管胞长度、管胞宽度以及管胞长宽比与解析木相应性状呈极显著正相关关系,且回归模型较为理想,可以利用胸径木芯各性状值预测其单株值,间接选择和评价纸浆材优良家系。通过生长性状、木芯基本密度和木芯管胞长宽比综合分析选出166、169为优良家系,根据解析木生长、材质以及纸张物理性状选出的优良家系与其结果一致。优良家系材积、木芯基本密度和木芯管胞长宽比的遗传增益(超过对照)分别为48.34%(38.80%)、14.01%(3.63%)和19.89%(6.42%)。  相似文献   

大青杨等天然群体幼苗基本材性变异研究   总被引：4，自引：3，他引：4       下载免费PDF全文

张立非  姜笑梅  苏晓华  张绮纹  于春娟  姜海燕 《林业科学研究》1996,9(5):517-520

本文对８个产地大青杨天然群体，１个产地大青杨群体内不同个体，２个产地香杨群体幼苗基本材性进行了研究，测定了纤维长度、纤维宽度和基本密度。结果表明：８个大青杨群体间，１个大青杨群体内１０个个体幼苗３个材性主要指标，纤维长度、宽度和基本密度差异显著；纤维长度和基本密度的广义遗传力，大青杨天然群体间为０．２２５和０．２１７，群体内为０．４７５和０．３４５。本研究同时对大青杨群体内、群体内的个体进行了优选  相似文献   

杨树微纤丝角的变异及其与木材性质的相关关系   总被引：6，自引：0，他引：6  

方升佐  杨文忠  洑香香 《林业研究》2004,15(4):261-267

微纤丝角为细胞次生壁S2层微纤丝排列方向与细胞主轴所形成的夹角,与木材的物理性质、力学性质和化学性质都有着直接的关系。应用x射线衍射法测定了7个杨树无性系(14株样木)胸径处各年轮的微纤丝角,并对应分析和测定了各年轮的木材基本密度、纤维长度、纤维宽度和纤维素含量。研究结果表明,杨树微纤丝角在年轮间存在显著差异,其径向变异规律为从髓心向外以微纤丝角逐渐降低,年轮间的平均微纤丝角在7.8旱?8褐洌荒静幕久芏取⑾宋ざ取⑾宋矶群拖宋睾吭谀曷旨湟泊嬖谙灾钜臁O喙胤治霰砻鳎⑾怂拷怯肽静幕久芏取⑾宋ざ取⑾宋矶群拖宋睾看嬖谙灾母合喙毓叵??0.01),相关系数分别为-0.450、-0.586、-0.516和-0.660。回归分析结果表明,多项式方程可较好地描述杨树微纤丝角与所测定的木材性质的关系,相关系数均在-0.45以上(n=125)。本文的研究结果认为,在今后针对杨树材性改良的育种计划中,微纤丝角是一个重要的选育和改良指标。图3表3参34。  相似文献   

毛白杨优良无性系(新品种)材性测定研究   总被引：17，自引：4，他引：13       下载免费PDF全文

顾万春  归复  于志民  穆吕钦  孙翠玲  田奇凡 《林业科学研究》1998,11(2):186-191

按生长性状预选出毛白杨１３年生１０个无性系用于材质测定。试材取自北方大兴县测定林,每无性系在３个重复中各抽样１株,伐倒取样,分析表明,毛白杨无性系间纤维长度,宽度和长宽比差异极显著,重复率依次为０．７７７,０．５３７和０．６７６;木材全年密度,早材密度和晚材密度差异极显著,重复率依次为０．５３６,０．５１４和０．４２９。  相似文献   

Variability of some wood properties of eastern cottonwood (Populus deltoides Bartr.) clones     

Bojana Klasnja  Spiro Kopitovic  Sasa Orlovic 《Wood Science and Technology》2003,37(3-4):331-337

The objective of this article is to investigate the variability in chemical composition, fiber length, and basic wood density (specific gravity) amongst clones. Wood samples were taken from an experimental plantation in a dense 2.5 × 2.5 m wood, i.e., 1600 trees/ha. The plantation consisted of 127 clones which were selected in the nursery from 11 eastern cottonwood (P. deltoides Bartr., section Aigeiros) half-sib progenies. The physical, structural, and chemical characteristics of 40 poplar clones aged four years were investigated in three model trees from each clone. There are significant differences between the contents of the individual components of the wood chemical composition. The values of the heritability factor are high and they are similar for lignin (0.936), holocellulose (0.937) and for the extractives content (0.999). The mean value of the basic wood density is 380 kg/m³ (coefficient of heritability is 0.938), and the mean value of the fiber length is 863 m (coefficient of heritability 0.611).  相似文献   

18年生尾巨桉无性系木材纤维形态和基本密度变异研究     

李昌荣  项东云  陈健波  吴兵  杨中宁 《广西林业科学》2011,40(4):262-265

对18年生尾巨桉（Eucalyptus urophlla×E．grandis）无性系木材纤维特征与基本密度进行研究,通过测定木材的纤维长度、宽度、壁厚、腔径、木材基本密度,分析结果表明：木材基本密度、纤维长度、纤维长宽比、壁厚、壁腔比在树干径向方向由髓心向外有逐渐增大的规律。纤维长度与基本密度之间呈显著的负相关,纤维宽...  相似文献   

Genotypic variation in wood density and growth traits of poplar hybrids at four clonal trials     

《Forest Ecology and Management》2007,238(1-3):92-106

Wood density is considered as one of the most important wood properties which affects the properties and value of both fibrous and solid wood products. The present study was intended for evaluating the possibilities of improving wood quality and growth of poplar hybrids. Wood density components of individual growth rings (minimum and maximum wood density, average ring density) and growth traits (tree height, dbh, stem volume) were measured in four 10- and 12-year-old clonal trials of four poplar hybrids, Populus deltoides × P. nigra, P. trichocarpa × P. deltoides, P. maximowiczii × P. balsamifera, and P. balsamifera × P. nigra, as well as P. deltoides. Wood density components of individual growth rings were obtained from microdensitometeric profiles measured with a direct reading X-ray densitometer. Site had a moderately significant effect on wood density and a highly significant effect on tree growth. The hybrid effect was highly significant (P < 0.001) for most traits. Minimum, maximum and weighted wood densities were found to be under strong genetic control, with clonal repeatabilities varying between 0.45 and 0.81. The coefficient of genotypic variation (CV_G) for wood density at individual sites ranged from 4.0 to 6.8%, whereas CV_G for dry fiber weight (mass) reached 32.8% with repeatabilities of up to 0.67. A small but significant (P = 0.028) hybrid × environment interaction was found for dry fiber weight. The highest ecological sensitivity was found for P. deltoides × P. nigra, with ecovalence reaching 32.3%. Clonal × environment interaction was significant for weighted, average, and minimum wood density. Significant negative genotypic correlations between stem volume and wood density ranged from −0.39 to −0.74. One possible strategy in tree breeding would be to maximize wood fiber production through selection for dry fiber weight.  相似文献