Effect of Growth Rate on Fibre Characteristics in Norway Spruce (Picea abies (L.) Karst.)

Mäkinen, Harri; Saranpää, Pekka; Linder, Sune

doi:10.1515/hf.2002.070

Cited by 73 publications

(77 citation statements)

References 17 publications

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“…Fibre morphology and cell wall structure directly influences fibre flexibility, plasticity and resistance to processing [43]. Coarseness is important to paper strength, which decreases with increasing coarseness [44].…”

Section: Fibre Traitsmentioning

confidence: 99%

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Variation in Trembling Aspen and White Spruce Wood Quality Grown in Mixed and Single Species Stands in the Boreal Mixedwood Forest

Araujo

Hart

Mansfield

2015

Forests

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Abstract:The Canadian boreal forest is largely represented by mixed wood forests of white spruce (Picea glauca (Moench) Voss) and trembling aspen (Populus tremuloides Michx). In this study, a total of 300 trees originating from three sites composed of trembling aspen and white spruce with varying compositions were investigated for wood quality traits: one site was composed mainly of aspen, one mainly of spruce and a third was a mixed site. Four wood quality traits were examined: wood density, microfibril angle (MFA), fibre characteristics, and cell wall chemistry. Social classes were also determined for each site in an attempt to provide a more in-depth comparison. Wood density showed little variation among sites for both species, with only significant differences occurring between social classes. The aspen site showed statistically lower MFAs than the aspen from the mixed site, however, no differences were observed when comparing spruce. Fibre characteristics were higher in the pure species sites for both species. There were no differences in carbohydrate contents across sites, while lignin content varied. Overall, the use of social classes did not refine the characterization of sites.

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Section: Fibre Traitsmentioning

confidence: 99%

“…For example, in an extreme case, the effect of increasing growth rate due to fertilizer application on fibre properties was measured in Picea abies (L.) Karst. [43]. Measurements were taken on trees involved in a long-term nutrient optimization experiment in northern Sweden.…”

Section: Fibre Traitsmentioning

confidence: 99%

Variation in Trembling Aspen and White Spruce Wood Quality Grown in Mixed and Single Species Stands in the Boreal Mixedwood Forest

Araujo

Hart

Mansfield

2015

Forests

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“…This has been reported to be mainly the consequence of a difference in the earlywood/latewood proportion between slow and fast growing trees. Fast growing trees typically produce a higher percentage of earlywood, and in some cases lower density latewood, compared with slow growing trees (Zhang [14] (Picea mariana); Wang et al [15] (Picea mariana); Makinen et al [16] (Picea abies)). Stem form is also an issue worth considering in plantations.…”

Section: Introductionmentioning

confidence: 99%

Effect of Tree Spacing on Tree Level Volume Growth, Morphology, and Wood Properties in a 25-Year-Old Pinus banksiana Plantation in the Boreal Forest of Quebec

Hébert

Krause

Plourde

et al. 2016

Forests

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Abstract:The number of planted trees per hectare influences individual volume growth, which in turn can affect wood properties. The objective of this study was to assess the effect of six different plantation spacings of jack pine (Pinus banksiana Lamb.) 25 years following planting on tree growth, morphology, and wood properties. Stem analyses were performed to calculate annual and cumulative diameter, height, and volume growth. For morphological and wood property measurements several parameters were analyzed: diameter of the largest branch, live crown ratio, wood density, and the moduli of elasticity and rupture on small clear samples. The highest volume growth for individual trees was obtained in the 1111 trees/ha plantation, while the lowest was in the 4444 trees/ha plantation. Wood density and the moduli of elasticity and rupture did not change significantly between the six plantation spacings, but the largest branch diameter was significantly higher in the 1111 trees/ha (3.26 cm mean diameter) compared with the 4444 trees/ha spacing (2.03 cm mean diameter). Based on this study, a wide range of spacing induced little negative effect on the measured wood properties, except for the size of knots. Increasing the initial spacing of jack pine plantations appears to be a good choice if producing large, fast-growing stems is the primary goal, but lumber mechanical and visual properties could be decreased due to the larger branch diameter.

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“…Fibre cell length is influenced by changes in monthly precipitation with a time lag of up to four months [21] and when precipitation and hence growth rate are high, fibres are shorter. Fertilisation has also been found to reduce fibre length in temperate conifers [30], but soil chemical properties of the two plantations were not measured in our study.…”

Section: Discussionmentioning

confidence: 60%

Croissance en diamètre et caractérisation de la limite entre bois juvénile et bois adulte chez l’okoumé des plantations au Gabon

et al. 2007

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Stokes. Radial growth and characterization of juvenile and adult wood in plantation grown okoumé (Aucoumea klaineana Pierre) from Gabon. Annals of Forest Science, Springer Verlag/EDP Sciences, 2007, 64 (8), pp.815-824. Ann. For. Sci. 64 (2007) [815][816][817][818][819][820][821][822][823][824] Abstract -The fast-growing hardwood, okoumé (Aucoumea klaineana Pierre), is a major forest species in Gabon and is used principally for making plywood, but research into the growth and quality of this wood is scanty. Trees from natural forests are favoured for production, yet little information exists on wood characteristics from plantation trees. Therefore, we carried out a dendrochronological study along with measurements of wood longitudinal modulus of elasticity (E L ), density (D w ), dimensional stability parameters (longitudinal, radial and tangential shrinkage and fibre saturation point) and fibre cell morphology to determine if these properties were related to age in trees from two plantations. We then used segmented regression analysis to define the limit (breakpoint) between juvenile (JW) and adult wood (AW). Using monthly precipitation data, we were able to determine that one growth ring is formed per year, composed of a large light coloured ring formed during the long rainy season and a thick, dark band formed during the major dry season. However, thinner bands, analogous to false rings, may also form during the short dry and short rainy seasons. Ring width decreases from the pith to the bark, and the breakpoint between JW and AW was at 19 years old when trees from both plantations were pooled together. No differences in D w or radial and tangential shrinkage occurred with cambial age. E L increased significantly up to the cambial age of 12-14 years, after which the increase with age was only slight and no breakpoint between JW and AW was found. With regard to mean longitudinal shrinkage, AW was found to form after the age of 13 years but fibre cell length was significantly longer after the age of 14.5 and 20 years, depending on the plantation of origin. Therefore, the boundary between JW and AW in plantation grown okoumé occurs between the ages of 13 and 20 years, depending on the characteristic examined. dendrochronology / modulus of elasticity / wood density / shrinkage / fibre saturation point Résumé -Croissance en diamètre et caractérisation de la limite entre bois juvénile et bois adulte chez l'okoumé des plantations au Gabon. L'okoumé (Aucoumea klaineana Pierre) est une essence à croissance rapide que l'on rencontre majoritairement au Gabon. Son bois est principalement utilisé dans la fabrication de panneaux de contreplaqué. Cependant les recherches sur la croissance et la qualité de son bois ne sont pas suffisamment avancées. L'utilisation des arbres issus des forêts naturelles est favorisée pour la production par rapport à ceux issus des plantations dont les caractéristiques sont peu connues. De ce fait, nous avons entrepris d'étudier la dendrochronologie des okoumés dans les deux pla...

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Effect of Growth Rate on Fibre Characteristics in Norway Spruce (Picea abies (L.) Karst.)

Cited by 73 publications

References 17 publications

Variation in Trembling Aspen and White Spruce Wood Quality Grown in Mixed and Single Species Stands in the Boreal Mixedwood Forest

Variation in Trembling Aspen and White Spruce Wood Quality Grown in Mixed and Single Species Stands in the Boreal Mixedwood Forest

Effect of Tree Spacing on Tree Level Volume Growth, Morphology, and Wood Properties in a 25-Year-Old Pinus banksiana Plantation in the Boreal Forest of Quebec

Croissance en diamètre et caractérisation de la limite entre bois juvénile et bois adulte chez l’okoumé des plantations au Gabon

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