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The influence of lignin chemistry and ultrastructure on the pulping efficiency of clonal aspen (Populus tremuloides Michx.)

  • Jaclyn J. Stewart , John F. Kadla and Shawn D. Mansfield
Published/Copyright: March 7, 2006
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Holzforschung
From the journal Volume 60 Issue 2

Abstract

The variation in wood chemistry among aspen clones of similar age, harvested from a common site in northern British Columbia, Canada, was evaluated. The aspen clones were evaluated for ease of chemical pulping and differed by as much as 4.5% in pulp yield at a common H-factor. The results demonstrate both the need for understanding the resource and the substantial opportunities that exists in natural population of trees for selecting superior clones for reforestation and afforestation. The syringyl/guaiacyl ratio, as determined by nitrobenzene oxidation, was directly correlated with the ease of pulping, whereas thioacidolysis results were not as predictive. These results were supported by quantitative NMR analysis, which demonstrated differences in the amount of β-O-4/Ar groups and the degree of condensation. Furthermore, it was shown that, in addition to total lignin content, which differed by as much as 5%, structural differences in the lignin may influence pulping efficacy. Among the other parameters evaluated, the distribution of molecular mass and methoxyl content is relevant for pulping. More specifically, among the fractions isolated in this study [milled wood lignin (MWL), MWELsol, and MWELinsol], the insoluble fraction was the most indicative of the pulping efficiency.

Keywords: aspen; delignification; guaiacyl lignin; kraft pulping; lignin; molecular mass; MWL; MWELsol; MWELinsol; NMR; nitrobenzene oxidation; quantitative NMR; syringyl lignin; thioacidolysis
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Corresponding author. Shawn D. Mansfield, Department of Wood Science, Faculty of Forestry, University of British Columbia, Vancouver, BC, Canada V6T 1Z4 Tel.: +1-604-822-0196 Fax: +1-604-822-9104

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Published Online: 2006-03-07
Published in Print: 2006-03-01

©2006 by Walter de Gruyter Berlin New York

Articles in the same Issue

  1. The influence of lignin chemistry and ultrastructure on the pulping efficiency of clonal aspen (Populus tremuloides Michx.)
  2. Elucidating carboxylic acid profiles for extended oxygen delignification of high-kappa softwood kraft pulps
  3. A selectivity study of reaction of the carbonate radical anion with methyl β-d-cellobioside and methyl β-d-glucoside in oxygenated aqueous solutions
  4. Evidence for the formation of lignin-hexenuronic acid-xylan complexes during modified kraft pulping processes
  5. The effect of molecular composition of xylan extracted from birch on its assembly onto bleached softwood kraft pulp
  6. Critical comparison of methods for surface coverage by extractives and lignin in pulps by X-ray photoelectron spectroscopy (XPS)
  7. Characterisation of lignin-carbohydrate complexes (LCCs) of spruce wood (Picea abies L.) isolated with two methods
  8. Characterization of lignin-carbohydrate complexes from spruce sulfite pulp
  9. Lignin antioxidants for preventing oxidation damage of DNA and for stabilizing polymeric composites
  10. Glycerol-ω-hydroxyacid-ferulic acid oligomers in cork suberin structure
  11. Improvement of formaldehyde-scavenging ability of condensed tannins by ammonia treatment
  12. Yield and composition of lipophylic extracts of yellow birch (Betula alleghaniensis Britton) as a function of wood age and aging under industrial conditions
  13. Transverse anisotropy of compressive failure in European oak – a digital speckle photography study
  14. Temperature-drop sensor for determination of drying curves in conventional lumber drying
  15. Preparation of acetoacetylated wood meal and its properties. Part 1. Preparation of parameter and preliminary evaluation of the antifungal activity
  16. Preparation of acetoacetylated wood meal and its properties. Part 2. Copper ion fixation by acetoacetylation
  17. Treatment of wood with aminofunctional silanes for protection against wood destroying fungi
  18. Detection of fungal decay by high-energy multiple impact (HEMI) testing
https://doi.org/10.1515/HF.2006.019
Keywords for this article
aspen; delignification; guaiacyl lignin; kraft pulping; lignin; molecular mass; MWL; MWELsol; MWELinsol; NMR; nitrobenzene oxidation; quantitative NMR; syringyl lignin; thioacidolysis

Articles in the same Issue

  1. The influence of lignin chemistry and ultrastructure on the pulping efficiency of clonal aspen (Populus tremuloides Michx.)
  2. Elucidating carboxylic acid profiles for extended oxygen delignification of high-kappa softwood kraft pulps
  3. A selectivity study of reaction of the carbonate radical anion with methyl β-d-cellobioside and methyl β-d-glucoside in oxygenated aqueous solutions
  4. Evidence for the formation of lignin-hexenuronic acid-xylan complexes during modified kraft pulping processes
  5. The effect of molecular composition of xylan extracted from birch on its assembly onto bleached softwood kraft pulp
  6. Critical comparison of methods for surface coverage by extractives and lignin in pulps by X-ray photoelectron spectroscopy (XPS)
  7. Characterisation of lignin-carbohydrate complexes (LCCs) of spruce wood (Picea abies L.) isolated with two methods
  8. Characterization of lignin-carbohydrate complexes from spruce sulfite pulp
  9. Lignin antioxidants for preventing oxidation damage of DNA and for stabilizing polymeric composites
  10. Glycerol-ω-hydroxyacid-ferulic acid oligomers in cork suberin structure
  11. Improvement of formaldehyde-scavenging ability of condensed tannins by ammonia treatment
  12. Yield and composition of lipophylic extracts of yellow birch (Betula alleghaniensis Britton) as a function of wood age and aging under industrial conditions
  13. Transverse anisotropy of compressive failure in European oak – a digital speckle photography study
  14. Temperature-drop sensor for determination of drying curves in conventional lumber drying
  15. Preparation of acetoacetylated wood meal and its properties. Part 1. Preparation of parameter and preliminary evaluation of the antifungal activity
  16. Preparation of acetoacetylated wood meal and its properties. Part 2. Copper ion fixation by acetoacetylation
  17. Treatment of wood with aminofunctional silanes for protection against wood destroying fungi
  18. Detection of fungal decay by high-energy multiple impact (HEMI) testing
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