Timber Improvement: II. The Effect of Vigour on Young-Growth Sitka Spruce

A study of the effect of vigour on the within-ring componentsof young, plantation-grown Sitka spruce (Picea sitchensis (Bong.)Carr.) has been made as a contribution to a more effective selectionof timber having superior timber yields and to appraise thelikely effect of forest management practices which, by influencingvigour of growth, affect wood quality. It was found that as ring width in Sitka spruce increases:

1. Thereis an increase in early wood width without a correspondingincreasein late wood and so a greater proportion of early wood.
2. Thereis a reduction in the average density of the early woodcomponentof the rings.
3. Because of the combined effects of 1 and 2,there is a reductionin wood density as vigour of growth increases.
4. There is a lower minimum early wood density.

The significance of these observations on the growth and technicalperformance of Sitka spruce timber is considered. The possibility of appraising adult wood characteristics onthe basis of juvenile wood performance is examined and the scopefor assessing fibre length and density of adult wood from anexamination of wood laid down at about six years from the pithis demonstrated.     

Genetic Correlations Among Wood,Growth Capacity and Stem Traits in Pinus sylvestris

Wood density and tracheid length are two traits that significantly affect wood products. Genetic correlations were estimated to evaluate the effect on these traits from a selection for traits included in the Swedish Pinus sylvestris L. breeding programme. Measurements from a non-contiguous single-tree plot progeny trial with controlled matings between 30 parent trees was used. Heritabilities were high for the wood traits, intermediate for the growth capacity traits and low for the stem traits, with the exception of branch angle. Wood density showed no or non-significant negative genetic correlations with the growth capacity traits and a positive correlation with relative branch diameter. Tracheid length showed positive genetic correlations with height and a positive correlation with relative branch diameter. A selection that increased height growth at the age of 13 yrs by 10% was expected to decrease mean wood density at 33 yrs by 1%. The expected correlated response to tracheid length from the same selection was a 3% increase in the juvenile and mature wood.     

湿地松15个家系木材材性遗传变异及优良家系评估

对浙江产湿地松15个家系的基本材性进行了测定与分析。结果表明：家系间管胞长度、管胞宽度、气干密度、抗弯强度、抗弯弹性模量、顺纹抗压强度差异极显著,管胞壁厚差异显著,胞壁率、冲击韧性差异未达显著水平。家系内管胞长度、管胞宽度、管胞壁厚差异均显著且高于家系间的差异,但气干密度、顺纹抗压强度、胞壁率和冲击韧差异不显著,表明在家系水平上进行木材气干密度、力学强度和管胞形态的家系选择可取得良好的效果。15个家系木材管胞长度、管胞宽度、管胞壁厚和胞壁率的广义遗传力分别为0．5466、0．3910、0．7173、0．1598,说明湿地松家系木材管胞性状(胞壁率除外)受中度或中下度遗传控制,通过一定强度的选择能获得较高的遗传增益。综合评定结果表明,04-28、06-17、06-20、08-7和08-9,5个家系为适用于培育纸浆材的优良家系,04-25、04-28、06-17、06-20和08-16,5个家系为适用于培育建筑材的优良家系。     

广西融水特色红心杉木优树材质性状变异规律研究

[目的]通过测定和分析广西融水种源红心杉木优树材质性状指标,以了解该地区红心杉木材性状变异规律。[方法]以广西融水种源60株20年生的红心杉木优树为研究材料,测定单株材积、红心率、基本密度、组织比量、管胞性状、微纤丝角等10个材质性状指标,分析各材性性状指标分布和变异规律及性状间的相关关系。[结果]表明:红心率、基本密度、木射线比量、管胞比量、管胞长、管胞宽、管胞长宽比等性状数据分布服从正态分布。融水两个地区红心杉优树轴向薄壁细胞比量的变异系数分别为35.08%和44.97%,变异较大。管胞比量变异系数分别为3.28%和3.56%,变异较小。红心率、木射线比量、管胞长、管胞宽、微纤丝角等性状差异极显著(P0.01),轴向薄壁细胞比量差异显著(P0.05)。10个材质性状间存在12对表型显著相关。[结论]测定的10个性状均是连续性数量性状。早、晚材的管胞长度、管胞宽度和管胞长宽比等性状数据呈从心材至边材逐渐增加的规律。作为重要经济性状的红心率与木射线比量呈极显著正相关(P0.01),单株材积与轴向薄壁细胞比量呈显著正相关(P0.05),而单株材积与基本密度的相关性不显著,这使红心杉木生长量与材性相结合的遗传改良成为可能。     

火炬松半同胞家系遗传测定与早期性状评定

对15年生火炬松半同胞家系的生长和材性性状测定表明:火炬松家系树高、胸径、材积、木材基本密度、纤维素含量、管胞长度与宽度等具有显著的差异;在家系水平上,木材基本密度、纤维素含量、管胞长度与宽度和材积生长相关不明显．遗传力测定表明:家系生长性状与材性性状平均遗传力均较高,达到中等程度以上．对树高生长、胸径生长、木材基本密度、纤维素含量、管胞长度与宽度等性状进行年度相关、早晚期选择研究表明:火炬松家系的生长相关主要由遗传决定;树高从第5年开始,胸径从第4年开始与以后各年的相关系效均在0．7以上,表明以此为最低年龄进行早期选择有较大的可靠性;木材基本密度10年生与其后各年龄级的相关系数值趋于稳定,术材密度最低选择年龄为10年;木材纤维素含量11年生与其后各年龄级的相关系效值趋于稳定,木材纤维素含量的最低选择年龄为11年．     

Variation in density of Picea sitchensis in relation to within-tree trends in tracheid diameter and wall thickness

The influences of cambial age and ring width on density of Sitkaspruce (Picea sitchensis (Bong.) Carr) were analysed in relationto within-tree trends in tracheid diameter and cell wall thickness.Discs were sampled at breast height from a total of 24 trees,from seven stands at three contrasting sites in Wales, and atbreast height, 30 per cent and 60 per cent total tree heightfrom one of the stands. Across the juvenile wood, ring density decreased with ring numberfrom the pith while radial tracheid diameter increased. Theseoverall trends were considered to be inherent to tree growth,presumably associated with cambial ageing, since they occurredin all trees on all sites. In juvenile wood, density also variedwith site growth rate (as indicated by ring width) at similarcambial age, wider rings being associated with more rapidrateof change in tracheid diameter with ring number and with decreasein tracheid wall thickness. Consequently, on a site having treeswith high growth rate density decreased more rapidly acrossthe juvenile wood, down to a lower minimum value, than on siteswith a slower growth rate. In mature wood, the decrease in densitywith increase in ring width was associated with differencesin both tracheid diameter and wall thickness. Density was slightly(though not significantly) higher at breast height than in comparablerings at 30 per cent total height, associated with significantlythicker tracheid walls at breast height. Changes in radial tracheid diameter (with ring number, or withring width) were associated with greater differences in theearlywood than towards the latewood end of each growth ring,while variations in wall thickness with ring width were associatedwith rate of increase in wall thickness towards the latewoodend. This may account for some previously conflicting reportson influence of silvicultural management on density, for densityis likely to vary with influence of environment on the seasonalcycle of cambial activity. The extent of the juvenile wood as delimited by the inner coreof wide growth rings does not necessarily correspond to theregion of varying tracheid dimensions in Sitka spruce.     

Relationships among selected wood properties of 20-year-old Taiwania (<Emphasis Type="Italic">Taiwania cryptomerioides</Emphasis>) trees

The relationships between bending properties, compressive strength, tracheid length, microfibril angle, and ring characteristics of 20-year-old Taiwania (Taiwania cryptomerioides Hay.) trees were examined. The trees came from different thinning and pruning treatments, but the practices showed no significant effect on the investigated properties. The results showed that based on comparison with the literature, plantation-grown immature Taiwania have noticeably lower average strength properties than mature trees of the same species. Wood density and bending and compressive strengths were not related to either tracheid length or microfibril angle in young Taiwania. There were positive relationships between bending strength and compressive strength. The wood density, ring width, earlywood width, earlywood density, and latewood percentage were the most important predictors of strength by simple linear regressions. The wood density and ring width/earlywood width may be considered as indicators for assessing the bending strength, while wood density and latewood percentage were the best predictors of compressive strength by multiple linear regressions.     

不同湿地松种源木材材性遗传变异的研究

本文对浙江省长乐林场的湿地松 (Pinuselliottii) 18个种源的木材性质进行测定与分析。结果表明 ,种源间木材气干密度、抗弯强度、抗弯弹性模量和顺纹抗压强度差异极显著 ;管胞长度与宽度、冲击韧性差异显著 ,而管胞壁厚及胞壁率差异不显著 ;种源内木材气干密度、力学强度及胞壁率差异不显著 ,管胞长、宽和壁厚的差异均显著且高于种源间的差异。实验结果表明在种源水平上 ,进行木材气干密度、力学强度和管胞形态的种源选择 ,可取得良好的效果 ;种源内个体管胞形态 (管胞长、宽和壁厚 )变异大于种源间的差异 ,表明湿地松种源材质改良如在种源选择基础上进行个体改良会取得更好的增益。 18个种源木材管胞长度及宽度、管胞壁厚、胞壁率的广义遗传力分别为 :0 36 15、0 5 993、0 74 73、0 16 98;木材气干密度、抗弯强度、抗弯弹性模量、顺纹抗压强度与冲击韧性的广义遗传力分别为 :0 4 14 2、0 2 6 4 6、0 10 82、0 2 977和 0 12 4 6 ;种源树高及胸径的广义遗传力为 :0 4 0 5 7和 0 4 74 7;说明湿地松种源木材管胞性状、木材气干密度及树木生长性状 (胞壁率除外 )受中度或弱度遗传控制 ,通过一定强度的选择 ,能获得较高的遗传增益。本研究还从树木生长性状与管胞形态、力学强度方面对 18个种源进     

火炬松种源主要经济性状的遗传变异及其综合选择*

对设立在江西省分宜县的９年生火炬松种源试验林的研究表明：多数生长、形质和木材性状具有显著的种源效应，树高、材积、干形、轮枝数、年轮宽和晚材率存在着纬向的地理模式，与原产地的温度密切相关，管胞长度受经度控制，木材基本密度无一定地理变异规律，在种源水平上，木材密度和材积生长呈显著的负相关，管胞长度和材积生长几乎不相关。生长较快的种源，其树干通直且侧枝细小。利用约束和无约束选择指数，根据不同的材种要求，     

火炬松不同种源纸浆材材性的变异

1983年火炬松31个种源引种栽培在浙江富阳中国林业科学研究院亚热带林业研究所实验林场,研究表明该批种源间10年生树木生长量和纸浆材材性因子如晚材率、管胞形态特征值(管胞长度、宽度、腔径、壁厚、长宽比、腔径比、壁腔比)、管胞S2层微纤丝角和木材基本密度存在着显著差异,木材主要化学成分中纤维素和木素含量种源间存在着显著差异,而戊聚糖和苯醇浸提物含量种源间差异不显著.这些材性特征除了木材化学性状因子外,均受中等以上程度遗传控制.木材纤维素、木素、戊聚糖和苯醇浸提物含量的广义遗传力分别为0.088、0.003、0.340和0.307,其余性状广义遗传力均大于0.50.引种地栽培环境对木材性状有显著影响.种源原产地纬度与树木生长量、管胞宽度、管胞直径和管胞微纤丝角呈负相关,与晚材率、木材密度呈正相关.31个种源树木胸高直径与管胞长宽比、管胞壁腔比、木材密度呈显著负相关,与管胞宽度、管胞直径、管胞腔径比呈正相关.     

杂种落叶松F1代生长性状、木材性状的变异及相关分析

通过对44株日×兴杂种落叶松F1代个体的生长性状、木材性状调查结果进行变异分析发现,杂种群体中的生长指标、材性均存在较大变异,其中材积变异系数达25.69%,管胞长度、宽度变异系数为11.67%、17.5%,管胞长/宽变异系数为19.45%。相关分析结果表明,日×兴F1代群体树高与胸径显著相关,树高、胸径均与材积极显著相关,冠幅与材积显著相关。     

A Comparison of Wood Properties of Coastal and Interior Provenances of Lodgepole Pine Pinus contorta Dougl. ex Loud

At the Millbuie Lodgepole pine intensive provenance plots incrementborings were extracted at similar fractional heights in treesof a central Interior and a southern Coastal provenance andthe properties of the same five growth-rings were compared.Scanning microphotometry was used to measure ring width, percent earlywood, and earlywood density. Tracheid length and width,nominal density, and latewood density were also determined.For each of these wood properties significant differences werefound between the average values for the two provenances. Inthe Coastal provenance nominal density was about 20 per centhigher than in the Interior provenance, the incidence of compressionwood was much higher, but tracheid length was about 20 per centshorter. The probable effects of these results on the propertiesof sawn timber and pulp are discussed. Average tree heightsand diameters were similar, and the earlier growth of the treeswas analysed. The relation between nominal density and ringwidth (vigour) was investigated, and a low correlation (r² of0·054 and 0·17) was found between the two quantities.Furthermore the regression lines show density decreasing slowlywith increased ring width. Both these results are in contrastwith published results for Sitka spruce.     

Douglas-fir wood quality studies part I: Effects of age and stimulated growth on wood density and anatomy

Douglas-fir trees about 21 years old and growing on a poor site were thinned and fertilized causing accelerated growth. The characteristics of the wood across the 30-year age span were studied for 7 trees from the treated plot. Four trees of nearly uniform ring growth were also studied for some characteristics. Radial and tangential tracheid diameters, tracheid length and percent latewood were correlated quite well with log of age, coefficients ranged from 0.76 to 0.88 on pooled data. All tracheid dimensions when correlated with log of age gave high coefficients on a within-tree basis. The strongest relationship in all age-related factors was between 0 and 12 to 14 years. Specific gravity increased with age in all trees to about 16 to 18 years, then leveled off.Fertilization and thinning caused immediate production of lower density wood with somewhat lower percent latewood, a slight decrease in tracheid diameter tangentially but slightly greater radially, and a small decrease in tracheid length. The effects were mainly in the first 3 to 4 years after treatment, then there was recovery to normal wood density and cell dimensions. Wood from the trees of uniform growth showed no significant change over the same time period in percent latewood, specific gravity, and tracheid length.The research was financed by funds from State of Washington Initiative 171, Institute of Forest Products and the College of Forest Resources, University of Washington, Seattle.     

VARIATION OF DENSITY IN THE WOOD OF PINUS PATULA GROWN IN KENYA

1. The specific gravity was determined for the individual ringsof twenty-three 13-year-old stems of Pinus patula grown in Kenyaand also separately on the early and late wood of six rings.
2. Significant correlations were found between specific gravityand both ring width and age ofthe ring from the pith. The effectof ring width was slight with more than six rings to the inch.
3. A comparison with Turnbull's data from South African treesofthe same species confirmed his results only in the firstninerings from the pith.
4. The mean specific gravity of theearly wood in five rings was0.368 compared with 0.469 forthelate wood. This high valuefor the early wood and the smalldifference between early andlate wood was due to the thicknessof the walls in the early-woodtracheids. Similar thickwalledearly-wood tracheids were observedin Kenya species of Juniperusand Podocarpus.

     

Effects of radial growth rate on selected indices for juvenile and mature wood of the Japanese larch

To examine the differences between juvenile and mature wood, 12 aged sample trees from two areas of Nagano Prefecture were harvested; and the radial development of tracheid length, the ring density, and the relation of the radial growth rate (observed by ring width) with some selected indices of ring structure were investigated. The results proved that the radial variation of tracheid length with ring number can be described by a logarithmic formula, and both plantations reached the demarcation of juvenile and mature wood at age 18. With the segmented regression method, we also analyzed radial variation of mean density and found that the demarcation of juvenile and mature wood was at age 15 for sample trees from Saku and at age 21 for those from Yabuhara. By using the results of estimates from juvenile and mature wood based on ring density, we found that high growth rates resulted when producing lower-density wood during the juvenile period, but these rates did not occur during the mature period. The basic reason for this phenomenon is the variation in patterns of earlywood and latewood in juvenile and mature wood, respectively. This result advised us that when managing plantations of Japanese larch it is necessary to take different measurements at different growth periods.     

马尾松生长和材性的地理遗传变异及最优种源区的划定

对１０年生９０个产地的材积生长和木材性状研究表明，马尾松树干材积和木材基本密度具有显著的种源区和产地效应，树干材积由北向南逐渐增大，而基本密度的最高值在分布区的西北，由北向南逐渐减小，最低值在分布区的中带、由中带向南又略有增加，管胞长度的种源区和产地效应很小，无一定的地理变异趋势。鉴于树干材积和基本密度之间高度的负遗传相关以及两性状显著的种源效应，在进行种源或产地选择时应强调以生长量改良为主、材性     

长白落叶松纸浆材优良家系多性状联合选择研究

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%)。     

Variation analysis and fine family selection on half-sib progenies from clonal seed orchard of Pinus massoniana

Variation of traits that include height, diameter at breast height (DBH), stem volume, crown width, straightness, wood basic density, tracheid length and width of open-pollinated progenies from clonal seed orchard of Pinus massoniana was analyzed. Differences in traits such as growth, tree form and wood quality among families was significant, which indicated that the improvement potential was notable. Heritability of height and wood basic density reached 0.691 and 0.640, respectively. According to a correlation analysis between traits, stem straightness could be improved indirectly when growth traits are improved; growth traits were significantly correlated with wood basic density; and wood basic density was not significantly correlated with length and width of the tracheid. Under the selection ratio of 10%, genetic gains were 19.74% and 19.32% respectively, and selected families from the progeny test stands at the age of five years and eight years were the same. Genetic correlation of height, DBH and stem volume was also significant at the level of 0.01. These show that selection of the short rotation of P. massoniana for pulp and paper use would be efficient for five-year-old trees. According to the comparison of the heritability of all the traits and taking into account the result of canonical correlation analysis, height could be considered as the most important index for selection. Given wood quality of all the families, and flowering and fruit settings of the clones in a seed orchard, twelve fine families were selected at 10% selection ratio of height growth and stem volume. Translated from Scientia Silvae Sinicae, 2005, 41(6): 43–49 [译自: 林业科学]     

油松管胞形态特征的变异

本文研究分析了山西中条山产地油松管胞形态特征的变异。管胞长度自髓心向外,首先迅速增加,13年后管胞长度增加缓慢,20年后保持相对稳定。管胞长度沿树干主轴自基部向上逐渐增加,5.3m高处最长,然后向上变短,树冠区域管胞长度最短。形成层原始细胞长度随着原始细胞年增大,开始递增,达到最大值后又递减。管胞直径、胞壁厚度自髓心向外增加。管胞直径轴向变化由树干基部开始向上增大,然后又减小。管胞长宽比、壁腔比的径向变异与管胞长度的径向变异模式相似。生长轮内管胞长度从早材到晚材,开始减小,然后增加,最小值位于早晚材过渡处。     

Anatomical and FTIR analyses of phloem and xylem of <Emphasis Type="Italic">Tetracentron sinense</Emphasis>

The fast growth of Tetracentron sinense is a potential valuable timber resource, but whether its anatomy and chemical components are suitable for timber is unknown. We used light microscopy and SEM to examine the anatomical structure and FITR to measure the chemical components of the phloem and xylem of this tree. Radial variations in growth ring width and tracheid dimensions were also evaluated. The sieve tube, phloem parenchyma cell and sclereids clusters were the main cells in phloem, and the tracheid was the fundamental cell in xylem. An unusual tracheid type, fiber-tracheids or vessel-liked elements was visible. Wood rays nonstoried, uniseriate and multiseriate, including heterogeneous II, occasionally I, and usually 3–6 cells wide. The mean growth-ring width was 2.53 ± 0.46 mm, and the percentage of late wood was over 60%. For radial variation, growth-ring width increased at an early growth stage, and reached the largest increment during years 11–15, then decreased. The maximum growth-ring width was 5.313 mm. During late growth (60–85 years), trees also maintained a high radial growth increment. Radial variation in the percentage of late wood was uniform, about 50–70%, throughout the growth years. Growth patterns in the length and width of early and late wood were similar as the trees aged. From the FTIR results, the chemical components differed significantly between xylem and phloem, hemicellulose in particular was higher in the xylem than in the phloem, where it was apparently absent. All of these suggest that the composition of phloem in T. sinense is very similar to that of hardwood, and it has higher growth ratio and uniform wood properties.