侧方生长对8年生大叶桃花心木木质部成熟特性的影响

IF 0.6 4区农林科学 Q4 FORESTRY

Journal of Tropical Forest Science Pub Date : 2022-01-26 DOI:10.26525/jtfs2022.34.1.1

DM Gilbero, WP Abasolo, M. Matsuo, H. Yamamoto

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引用次数: 0

摘要

8年生人工大叶红木幼木带面积均匀，与直径无关。因此，假设木质部的成熟与直径有关。以髓为参考的径向分布表现为纤维和导管长度短，导管宽度窄，木质部密度低，向外逐渐增加，在树皮附近趋于稳定。然而，无论树径大小，纤维宽度和弹性模量的径向分布都是分散的。幼木带的纤维长度、导管长度、导管宽度和木质部密度与过渡木带和成熟木带相比差异显著。除了纤维长度外，过渡木区与成熟木区之间无显著差异。纤维长度、导管长度、导管宽度和木质部密度与胸高直径、纤维径向分布(即b值)和三个木区直径边界的关系呈负相关。在直径分别为18.08、17.36、16.23和17.87 cm处，利用纤维长度、导管长度、导管宽度和木质部密度可以识别木质部成熟边界。

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LATERAL GROWTH AFFECTS XYLEM MATURATION PROPERTIES OF 8-YEAR-OLD BIG-LEAF MAHOGANY (SWIETENIA MACROPHYLLA)

The area of juvenile wood zone of an 8-year-old planted big-leaf mahogany (Swietenia macrophylla) was uniform regardless of diameter. Hence, it was assumed that xylem maturation is dependent on diameter. Radial distribution patterns with reference from the pith exhibited short fibre and vessel lengths, narrow vessel width and low xylem density, and exhibited gradual increase outward and became more or less stable near the bark. However, the radial distribution patterns of fibre width and modulus of elasticity were scattered regardless of tree diameter sizes. Fibre length, vessel length, vessel width and xylem density of the juvenile wood zones showed significant differences compared with the transition and mature wood zones. However, no significant difference was observed between transition wood zone and mature wood zone except for fibre length. A negative correlation was observed in fibre length, vessel length, vessel width and xylem density in terms of their relationship with diameter at breast height and the radial distribution of fibre (i.e. b-value), and the diameter boundaries of the three wood zones. At diameters 18.08, 17.36, 16.23 and 17.87 cm respectively, fibre length, vessel length, vessel width and xylem density can be used to identify xylem maturation boundary.

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来源期刊

Journal of Tropical Forest Science 农林科学-林学

CiteScore

1.70

自引率

22.20%

发文量

审稿时长

3 months

期刊介绍： The Journal of Tropical Forest Science (JTFS) is an international reviewed journal concerning the science, technology and development of tropical forests and forest products. The journal welcomes articles reporting original fundamental or applied research on tropical forest biology, ecology, chemistry, management, silviculture, conservation, utilization and product development. English is the official language of the journal. Only manuscripts with substantial scientific merit will be reviewed for originality, significance, relevance and quality.