Polyploidy as a strategy to improve the industrial quality of eucalypt wood

There are many studies describing the physical and anatomical properties of eucalypt wood, but studies comparing the performance of diploid and polyploid clones in terms of wood anatomy and wood quality are scarce. In this context, this study aimed to compare the performances of Eucalyptus diploid a...

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Bibliographic Details
Published inWood science and technology Vol. 55; no. 1; pp. 181 - 193
Main Authors da Silva Souza, Thaise, Daolio, Marcela Faralhi, Mori, Fábio Akira, Ramalho, Magno Antonio Patto, Mingossi, Fabiana Bombonato, Missiaggia, Alexandre Alves, Techio, Vânia Helena
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 2021
Springer Nature B.V
Subjects
Biomedical and Life Sciences
Ceramics
Cloning
Composites
Density
Diploids
Eucalyptus
Glass
Hardwoods
Hybrids
Life Sciences
Machines
Manufacturing
Moisture content
Natural Materials
Original
Performance indices
Polyploidy
Processes
Pulp
Pulp & paper industry
Variance analysis
Wall thickness
Water content
Wood
Wood Science & Technology
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Summary:There are many studies describing the physical and anatomical properties of eucalypt wood, but studies comparing the performance of diploid and polyploid clones in terms of wood anatomy and wood quality are scarce. In this context, this study aimed to compare the performances of Eucalyptus diploid and polyploid clones with the same genetic origin by analyzing the physical and anatomical properties of the wood to extend the information on wood quality for pulp and paper production. Woods samples from eucalypt hybrids ( E. grandis x E. urophylla ) from experimental plantations of Suzano S.A. were used. Moisture content, basic density and fiber size were determined. The data related to these variables were tested by analysis of variance. Moisture content in polyploids was 4% higher than in diploids. The mean basic density in diploid clones was 13% higher than in polyploid clones, although there was no significant difference between one of the evaluated clones. The mean fiber length in polyploid clones was 18% higher than in diploid clones. No significant differences were found in the wood quality indexes for cellulosic pulp production. Synthetic polyploid clones of eucalypt presented lower basic density and fibers with higher length and wall thickness when compared to diploids, indicating the potential use of polyploids in eucalypt pulp and paper production.
ISSN:0043-7719
1432-5225
DOI:10.1007/s00226-020-01236-8