Evaluation of xylem maturation manner for solid wood production from <i>Eucalyptus camaldulensis</i> planted in Thailand

IF 1 Q4 ECOLOGY
Tropics Pub Date : 2023-01-01 DOI:10.3759/tropics.ms23-03
Ikumi Nezu, Futoshi Ishiguri, Haruna Aiso, Sapit Diloksumpun, Jyunichi Ohshima, Shinso Yokota
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Abstract

The knowledge of xylem maturation manner is importance to foresters and wood processors as it has major implications for end-product quality. This study aims to evaluate the maturation manner of secondary xylem in Eucalyptus camaldulensis for solid wood production. The samples were 45 twelve-year-old trees from 15 families with different radial growth in a progeny test site for the E. camaldulensis second generation in Thailand. Two mixed-effect models (cambial-age dependency and diameter-growth dependency models) were developed for radial variation of wood properties, resulting in that the cambial-age dependency model was a good fitting for all wood properties rather than growth-diameter models, with a few exceptions. Therefore, the secondary xylem of this species matures depending on cambial age rather than diameter growth. Changing ratios of multiple wood properties at 1-year intervals estimated by the cambial-age dependency model became stable after a cambial age of 11.8 years. The wood formed after starting xylem maturation showed 1) longer wood fiber length, 2) smaller number and larger diameter of vessels, 3) larger diameter and thicker wall thickness of wood fiber, and 4) higher density and compressive strength, rather than those formed in the early growth stage. Based on the results, desirable wood properties for solid wood products can be obtained by prolonging the rotation period from the present short rotation periods.
桉木质部成熟方式对生产实木的影响种植于泰国
木质部成熟方式的知识对林业工作者和木材加工者很重要,因为它对最终产品的质量有重大影响。本研究旨在探讨山梨树次生木质部的成熟方式对生产实木的影响。样本来自泰国一处二代茶树子代试验点的15个科,45株12年树龄,径向生长不同。针对木材性能的径向变化,建立了两种混合效应模型(形成层-年龄依赖模型和直径-生长依赖模型),结果表明形成层-年龄依赖模型比生长-直径模型更适合所有木材性能,只有少数例外。因此,这个物种的次生木质部的成熟取决于形成层年龄而不是直径生长。由形成层年龄依赖模型估算的木材多种性质在1年之间的变化率在11.8年形成层年龄后趋于稳定。木质部开始成熟后形成的木材表现为:1)木材纤维长度较长,2)导管数量较少,直径较大,3)木材纤维直径较大,壁厚较厚,4)密度和抗压强度高于生长早期形成的木材。在此基础上,从目前较短的循环周期延长循环周期可以获得理想的实木制品木材性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Tropics
Tropics ECOLOGY-
CiteScore
1.40
自引率
0.00%
发文量
7
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