基于横截面周向和径向变异模式的四棱棘棘解剖特征

IF 1.4 3区 农林科学 Q2 FORESTRY IAWA Journal Pub Date : 2021-10-20 DOI:10.1163/22941932-bja10071
Qianqian Jiang, Zhang-Chao Ding, Changqing Lu, Jun-Lan Gao, Yan Yan, Shengquan Liu
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引用次数: 0

摘要

竹茎的解剖结构以维管束为特征,维管束包括木质部、韧皮部和厚壁组织纤维鞘,以及维管束嵌入其中的实质性地面组织。茎的组成是影响环竹解剖特征的主要因素,环竹在径向上表现出相当大的变化。然而,大多数种类的Chimonobambusa都有方形的茎。在这里,我们检验了这个物种的横截面解剖结构中存在周向变异的假设。我们分析了四角竹维管束的纤维形态和横截面结构特征,以及它们在横截面中的相关周向和径向变化。显微镜观察用于识别、测量和比较纤维形态和血管束的结构特征,包括周向和径向解剖变化。维管束在径向上表现为未分化、半分化和开放型,在周向上没有变化。角部区域的平均长度、宽度和纤维长宽比分别为1463.6μm、12.3μm和119.3,侧面区域为1452.7μm、12.8μm和111.3,长度、宽度以及纤维长宽比均存在显著的周向和径向差异()。血管束密度、纤维长宽比、血管束径向与切向直径比以及厚壁组织比例的周向变化在角部区域大于侧部区域。纤维宽度和薄壁组织比例的变化在角部区域大于在侧部区域。与内茎相比,外茎的维管束密度和厚壁组织比例更大,而与内外区相比,中心的维管束长度、宽度和纤维长宽比最大。维管束密度、纤维长度和纤维宽度的周向变化发生在茎的中央和外部区域。这些发现证实了在周向和径向上都存在显著的解剖学差异,并为合理使用四角竹提供了科学依据。
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Anatomical characterization of Chimonobambusa quadrangularis based on circumferential and radial variation patterns in cross-sections
The anatomical structure of the bamboo stem is characterized by vascular bundles comprising the xylem, phloem, and sclerenchyma fibrous sheaths as well as parenchymatous ground tissue in which the vascular bundles are embedded. The composition of the stem is the main factor influencing the anatomical characteristics of circular bamboo, which shows considerable variation in the radial direction. However, most species of Chimonobambusa have square stems. Here, we tested the hypothesis that circumferential variation exists in the cross-sectional anatomy of this species. We analysed fibre morphology and the cross-sectional structural characteristics of vascular bundles of Chimonobambusa quadrangularis (Fenzi) Makino and their associated circumferential and radial variation in cross-sections. Microscopic observations were conducted to identify, measure, and compare fibre morphology and the structural characteristics of vascular bundles, including both circumferential and radial anatomical variation. Vascular bundles occurred as undifferentiated, semi-differentiated, and open types in the radial direction with no changes in the circumferential direction. The average length, width, and ratio of fibre length to width were 1463.6 μm, 12.3 μm and 119.3 in the corner region, and 1452.7 μm, 12.8 μm, and 111.3 in the side region, and there were significant circumferential and radial differences in length, width, and the ratio of fibre length to width (). The circumferential variation in density of vascular bundles, the ratio of fibre length to width, radial to tangential diameter ratio of vascular bundles, and the proportion of sclerenchyma were greater in the corner regions than the side regions. The variation in fibre width and the proportion of parenchyma were greater in the corner regions than in the side regions. The density of vascular bundles and proportions of sclerenchyma were greater in the outer stem compared to the inner stem, whereas the length, width, and ratio of fibre length to width were greatest in the centre compared to the inner and outer zones. Circumferential variation of the density of vascular bundles, fibre length and fibre width occurred in the central and outer stem zones. These findings confirm that there are significant anatomical variations in both the circumferential and radial directions and provide a scientific basis for the rational use of Chimonobambusa quadrangularis.
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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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