Breeding objectives for pulp production of <i>Eucalyptus</i><i>globulus</i> under different industrial cost structures

Borralho, N. M. G.; Cotterill, P. P.; Kanowski, Peter

doi:10.1139/x93-085

Cited by 90 publications

(72 citation statements)

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“…Examples for wood density should demonstrate the large differences obtained in open-pollinated progeny trial studies. For E. globulus Borralho et al (1993) reported a genetic gain of 47% for E. regnans, while Raymond et al (1998) reported 3.5%wood density. The latter study also reports a genetic gain for fibre length as high as 6.8%.…”

Section: Discussionmentioning

confidence: 97%

“…From extracted and air-dried samples wood density and microfibril angles (MFAs) were determined and weighted by the cross-sectional area at each measured tree height (Downes et al, 1997;Evans, 1994;Evans et al, 1995). Dry wood consumption (WC in m 3 /t), which is the volume of wood required to produce a tonne (dry) of pulp, was calculated according to Borralho et al (1993). WC can be estimated as the inverse of the product of wood density (kg dry wood / m 3 ) and pulp yield (kg dry pulp/kg dry wood):…”

Section: Methodsmentioning

confidence: 99%

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Effects of site on fibre, kraft pulp and handsheet properties of Eucalyptus globulus

Wimmer¹,

Downes²,

Evans³

et al. 2008

Ann. For. Sci.

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-• Eight-year old trees from two Eucalyptus globulus Labill. clones planted across three different sites in Tasmania, Australia, were sampled for wood and kraft pulp/handsheet properties.• Site had a significant effect on all measured properties. Compared with the poor site (Parkham) the wood from the good site (West Ridgley) had on average 11% lower wood density. The poor site had also greater microfibril angles, shorter fibres at lower pulp yields.• The handsheets produced with pulp from the poor site resulted in comparatively higher bulkiness, lower burst, lower tear and tensile indices, lower zero span tensile strength, but higher opacity, higher light scattering and higher surface roughness. Significant height effects were found with all wood properties, and also with tear index, zero span tensile strength and opacity.• Discriminant analysis showed that for 76 out of 100 handsheets the raw material source, i.e. growth site, could be predicted correctly using a set of handsheet properties with tear index and bulk index being most prominent.• This is unique evidence that site conditions are strongly reflected in handsheet properties produced from Eucalyptus pulp.eucalypt / wood quality / fibre length / pulp / paper Résumé -Effet du site sur les propriétés des fibres, de la pâte et des feuilles d'essai d'Eucalyptus globulus.• Nous avons échantillonné des arbres de huit ans de deux clones d'Eucalyptus globulus Labill., sur trois sites différents de Tasmanie en Australie, pour analyser les propriétés du bois et les propriétés papetières.• Le site a un effet significatif sur toutes les propriétés. Sur le meilleur site (West Ridgley), le bois a une densité inférieure de 11 % à celle obtenue sur le site le plus pauvre. Ce dernier (Parkham) présente un angle des microfibrilles plus important, des fibres plus courtes et un rendement en pâte plus faible.• Les feuilles fabriquées avec de la pâte du site pauvre conduisent à une main plus importante, un éclatement, une déchirure et des indices de traction moindres, une résistance à la traction à la mâchoire jointive plus faible, mais une opacité plus forte, une diffusion à la lumière et une rugosité de surface plus importantes.• Des effets significatifs de la hauteur ont été mis en évidence pour toutes les propriétés du bois mais aussi pour l'index de déchirement, pour la résistance à la traction à la mâchoire jointive et pour l'opacité. L'analyse discriminante a montré que pour 76 feuilles sur 100, l'origine de la matière première, c'est-à-dire le site de production, pouvait être prédite correctement en utilisant un jeu de propriétés des feuilles, l'indice de déchirement et la main étant les plus évidents.• Cela montre de manière originale que les conditions stationnelles sont reflétées dans les propriétés de feuilles de papiers produites avec de la pâte mécanique.Eucalyptus / qualité du bois / longueur des fibres / angle des microfibrilles / pâte kraft / papier

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Section: Discussionmentioning

confidence: 97%

Section: Methodsmentioning

confidence: 99%

Effects of site on fibre, kraft pulp and handsheet properties of Eucalyptus globulus

Wimmer¹,

Downes²,

Evans³

et al. 2008

Ann. For. Sci.

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“…Selection of individuals for establishment in a clonal seed orchard using an index 254 that combines growth and wood quality traits requires index weightings for each trait; 255 these weights can be deduced using a variety of methods (Borralho et al 1993, 256 Greaves et al 1997. In this study, the approach used to compare selection index 257 weights relies on the ability to use relative weightings since standing-tree pulp 258 productivity is calculated as the product of the three selection traits: volume, density 259 and Kraft pulp yield.…”

Section: Selection Index Weights 253mentioning

confidence: 99%

Selection ofCorymbia citriodorafor pulp productivity

Brawner

Meder

Dieters

et al. 2012

Southern Forests: a Journal of Forest Science

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10Evaluation of a series of spotted gum (Corymbia citirodora) progeny trials, 11 established in the subtropical region of Queensland, Australia, was undertaken to 12 provide information for the development of advanced generation breeding 13 populations suitable for pulp production. Measurements of growth at two ages were 14 combined with assessments of wood density and pulp yield from a selected sample 15 of provenances to provide comparisons between provenances, to generate genetic 16 parameter estimates and to predict genetic gain potential. While growth at this age 17 was moderate relative to other eucalypts the near infrared predictions of average 18 wood density of 756 kg/m 3 and pulp yield of 55% indicate the species has 19 considerable potential as a pulpwood crop. A pulp productivity breeding objective 20 was used to identify production populations using a range of selection trait 21 weightings to determine potential genetic gain for pulp productivity. Genetic 22 parameters indicated: 1) levels of genetic control were moderate for all traits and 23 higher for wood property traits, 2) genetic improvements could be achieved by 24 selection among and within provenances with greater levels of improvement 25 available from selection within populations, 3) genotype by environment interactions 26 were negligible, 4) genetic correlations between traits were favourable, and 5) 27 selection of volume production alone would maximise improvements in pulp 28 productivity. 29

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“…High basic density is desired for kraft pulp [8,14] and most solidwood products [5,29,42], the presence of decay or kino can result in degrade in solidwood products [2][3][4] and timber exhibiting high shrinkage angle is likely to be more prone to drying degrade. Suboptimal expression of these traits in the lower stem disproportionately affects whole-tree economic value because the lower stem represents a high proportion of total stem volume and produces logs of the largest diameter.…”

Section: Longitudinal Variationmentioning

confidence: 99%

Les variations longitudinales intra-arbre des propriétés papetières et du bois varient entre les génotypes d’Eucalyptus globulus

et al. 2007

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-Wood discs were sampled from 6 heights up the stem of 248 trees representing 10 subraces and 116 families grown in an E. globulus base-population progeny trial. The lower stem had the least favourable wood properties for kraft pulpwood and most solidwood applications: bark was thickest, basic density was lowest and kino, decay and shrinkage traits were greatest at or below 12% of tree height. Significant genetic differences at the subrace level were revealed in diameter, bark thickness, basic density, decay and gross shrinkage and at the family within subrace level in diameter, basic density and decay. However, subrace-by-height-category interactions in bark thickness, basic density, decay and gross shrinkage indicated that differences among subraces were dependent on height in these traits. Examination of longitudinal trends revealed some evidence that the zone of thick basal bark extended further up the stem in thicker-barked subraces and that the Southern Tasmania subrace might be less effective than other subraces in restricting the longitudinal spread of decay after infection.wood properties / Eucalyptus globulus / longitudinal variation / within-tree variation / genetic variation Résumé -Les variations longitudinales intra-arbre des propriétés papetières et du bois varient entre les génotypes d'Eucalyptus globulus. Des disques de bois ont été prélevés à 6 hauteurs différentes dans 248 arbres représentant 10 provenances et 116 familles d'un dispositif de provenancedescendance d'E. globulus. La partie inférieure des troncs présente les propriétés du bois les moins bonnes pour la pâte Kraft et la plupart des utilisations du bois massif : l'écorce est plus épaisse, l'infradensité plus faible tandis que le lino, la dégradation biologique et les retraits sont plus importants jusqu'à 12 % de la hauteur des tiges. Des différences génétiques significatives ont été établies au niveau provenance pour le diamètre, l'épaisseur d'écorce, l'infradensité et la dégradation biologique et au niveau famille dans une provenance pour l'infradensité et la dégradation biologique. Cependant, pour ces propriétés, les interactions provenance par catégorie de hauteur, pour l'épaisseur d'écorce, l'infradensité, la dégradation biologique et le retrait total, indiquent que les différences entre provenances dépendent de la hauteur. L'analyse des variations longitudinales fait apparaître que la longueur de la bille de pied ayant une écorce plus épaisse est plus importante pour les provenances présentant des écorces épaisses et que les provenances de sud de la Tasmanie pourraient être moins efficaces que les autres pour limiter la diffusion des pourritures après infection.propriétés du bois / variation longitudinale / variation intra arbre / variation génétique / Eucalyptus globulus

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Breeding objectives for pulp production of Eucalyptusglobulus under different industrial cost structures

Cited by 90 publications

References 0 publications

Effects of site on fibre, kraft pulp and handsheet properties of Eucalyptus globulus

Effects of site on fibre, kraft pulp and handsheet properties of Eucalyptus globulus

Selection ofCorymbia citriodorafor pulp productivity

Les variations longitudinales intra-arbre des propriétés papetières et du bois varient entre les génotypes d’Eucalyptus globulus

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