Axial and radial wood maturation in three mistletoe ‘giants’ (Loranthaceae)

IF 1.4 3区 农林科学 Q2 FORESTRY IAWA Journal Pub Date : 2022-01-17 DOI:10.1163/22941932-bja10081
Victor Sibinelli, G. Ceccantini
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引用次数: 1

Abstract

The formation of juvenile wood featuring greater cell variation relative to mature wood is a well-known phenomenon. Once wood attains maturity, it has both more consistent cell sizes and organization. This is especially well understood for large trees used for paper and timber production, but less so for shrubs and bushes. Despite its importance, there is very little information on the wood anatomy and wood maturation available for some lineages such as the Loranthaceae (Santalales), which are mostly composed of shrubby mistletoes. Here, we studied three of the largest known mistletoe species to analyse the variation of xylem structure within both the radial and the axial axis of the stem. Using classical anatomical techniques, we determined at which point, both in thickness and in distance from the apex, these parasitic plants start producing mature wood. We measured vessel element length, fibre length, vessel diameter, and vessel density on multiple points of either very thick or very long branches of three different mistletoe species: Struthanthus rhynchophyllus, Tripodanthus acutifolius and Psittacanthus robustus. Our findings suggest that Loranthaceae mistletoes reach wood maturity rather early, with very minor differences between juvenile and mature woods. These results open new avenues for further research on the wood anatomy of mistletoe’s stems, enabling the use of smaller samples, such as those commonly present in herbarium vouchers.
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三种“巨”槲寄生的轴向和径向木材成熟
相对于成熟木材,幼木的形成具有更大的细胞变异是一个众所周知的现象。一旦木材达到成熟,它有更一致的细胞大小和组织。对于用于造纸和木材生产的大树来说,这一点尤其清楚,但对于灌木和灌木来说,这一点就不那么清楚了。尽管它很重要,但很少有关于木材解剖和木材成熟的信息可用于一些谱系,如Loranthaceae (Santalales),它们主要由灌木状槲寄生组成。在这里,我们研究了已知的三种最大的槲寄生物种,分析了茎径向和轴向木质部结构的变化。利用经典的解剖学技术,我们确定了这些寄生植物在厚度和距离顶端的距离上开始产生成熟木材的时间点。我们测量了三种不同槲寄生物种(strutthanthus rhynchophyllus, Tripodanthus acutifolius和Psittacanthus robustus)非常粗或非常长的树枝上的导管元件长度,纤维长度,导管直径和导管密度。我们的研究结果表明,寄生科槲寄生达到木材成熟的时间较早,幼木和成熟木之间的差异很小。这些结果为进一步研究槲寄生茎的木材解剖开辟了新的途径,使使用更小的样本成为可能,例如植物标本馆凭证中常见的样本。
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来源期刊
IAWA Journal
IAWA Journal 农林科学-林学
CiteScore
3.40
自引率
15.80%
发文量
26
审稿时长
>36 weeks
期刊介绍: The IAWA Journal is the only international periodical fully devoted to structure, function, identification and utilisation of wood and bark in trees, shrubs, lianas, palms, bamboo and herbs. Many papers are of a multidisciplinary nature, linking
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