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Responses of radial growth, wood density and fiber traits to planting space in poplar plantations at a lowland site

Yanhua Zhang, Shengzuo Fang, Ye Tian, Linlin Wang, Yi Lv

2021Journal of Forestry Research20 citationsDOIOpen Access PDF

Abstract

Abstract Poplar is raw material for various panel, paper and fiber products. The 12 sample trees of clone Nanlin-895 from four spacings were destructively harvested after thirteen growing seasons to assess the influence of spacing on radial growth and wood properties. Spacing significantly affected tree-ring width and wood basic density ( p < 0.05) but not fiber traits. The highest diameter and wood basic density at breast height (1.3 m) was in 6 m × 6 m and 3 m × 8 m spacings, respectively. However, no significant differences in tree-ring width, wood basic density and fiber traits were observed among the four sampling directions in discs taken at 1.3 m for each spacing. Growth rings from the pith and tree heights had significant effects on wood basic density and fiber anatomical characteristics, highlighting obvious temporal-spatial variations. Pearson correlation analysis showed a significantly negative relationship of tree-ring width to wood basic density, fiber length and fiber width, but a significantly positive relationship to hemicellulose. There was no relationship with cellulose and lignin contents. Based on a comprehensive assessment by the TOPSIS method, the 6 m × 6 m spacing is recommended for producing wood fiber at similar sites in the future.

Topics & Concepts

PithFiberHemicelluloseMathematicsSowingPulpwoodBotanyHorticultureLigninBiologyMaterials scienceComposite materialEcologyForest ecology and managementWood Treatment and PropertiesTree Root and Stability Studies
Responses of radial growth, wood density and fiber traits to planting space in poplar plantations at a lowland site | Litcius