狭窄木材密度范围内的广泛解剖变异——对69种澳大利亚被子植物小枝木材的研究

Broad Anatomical Variation within a Narrow Wood Density Range--A Study of Twig Wood across 69 Australian Angiosperms.

作者信息

Ziemińska Kasia, Westoby Mark, Wright Ian J

机构信息

Department of Biological Sciences, Macquarie University, Sydney, NSW 2109, Australia.

出版信息

PLoS One. 2015 Apr 23;10(4):e0124892. doi: 10.1371/journal.pone.0124892. eCollection 2015.

DOI:10.1371/journal.pone.0124892

PMID:25906320

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4408027/

Abstract

OBJECTIVES

Just as people with the same weight can have different body builds, woods with the same wood density can have different anatomies. Here, our aim was to assess the magnitude of anatomical variation within a restricted range of wood density and explore its potential ecological implications.

METHODS

Twig wood of 69 angiosperm tree and shrub species was analyzed. Species were selected so that wood density varied within a relatively narrow range (0.38-0.62 g cm-3). Anatomical traits quantified included wood tissue fractions (fibres, axial parenchyma, ray parenchyma, vessels, and conduits with maximum lumen diameter below 15 μm), vessel properties, and pith area. To search for potential ecological correlates of anatomical variation the species were sampled across rainfall and temperature contrasts, and several other ecologically-relevant traits were measured (plant height, leaf area to sapwood area ratio, and modulus of elasticity).

RESULTS

Despite the limited range in wood density, substantial anatomical variation was observed. Total parenchyma fraction varied from 0.12 to 0.66 and fibre fraction from 0.20 to 0.74, and these two traits were strongly inversely correlated (r = -0.86, P < 0.001). Parenchyma was weakly (0.24 ≤|r|≤ 0.35, P < 0.05) or not associated with vessel properties nor with height, leaf area to sapwood area ratio, and modulus of elasticity (0.24 ≤|r|≤ 0.41, P < 0.05). However, vessel traits were fairly well correlated with height and leaf area to sapwood area ratio (0.47 ≤|r|≤ 0.65, all P < 0.001). Modulus of elasticity was mainly driven by fibre wall plus vessel wall fraction rather than by the parenchyma component.

CONCLUSIONS

Overall, there seem to be at least three axes of variation in xylem, substantially independent of each other: a wood density spectrum, a fibre-parenchyma spectrum, and a vessel area spectrum. The fibre-parenchyma spectrum does not yet have any clear or convincing ecological interpretation.

摘要

目的

正如体重相同的人可能有不同的体型一样，木材密度相同的树木可能有不同的解剖结构。在此，我们的目的是评估在有限的木材密度范围内解剖结构变异的程度，并探讨其潜在的生态意义。

方法

对69种被子植物乔木和灌木的小枝木材进行了分析。选择物种时使木材密度在相对较窄的范围内变化（0.38 - 0.62克/立方厘米）。量化的解剖特征包括木材组织成分（纤维、轴向薄壁组织、射线薄壁组织、导管以及最大管腔直径小于15微米的导管）、导管特性和髓面积。为了寻找解剖结构变异的潜在生态关联因素，在不同降雨和温度条件下对这些物种进行了采样，并测量了其他一些与生态相关的特征（株高、叶面积与边材面积比以及弹性模量）。

结果

尽管木材密度范围有限，但仍观察到显著的解剖结构变异。薄壁组织总占比从0.12到0.66不等，纤维占比从0.20到0.74不等，并且这两个特征呈强烈负相关（r = -0.86，P < 0.001）。薄壁组织与导管特性以及与株高、叶面积与边材面积比和弹性模量的相关性较弱（0.24≤|r|≤0.35，P < 0.05）或无相关性（0.24≤|r|≤0.41，P < 0.05）。然而，导管特征与株高和叶面积与边材面积比有较好的相关性（0.47≤|r|≤0.65，所有P < 0.001）。弹性模量主要由纤维壁加导管壁占比驱动，而非薄壁组织成分。

结论

总体而言，木质部似乎至少存在三个基本相互独立的变异轴：木材密度谱、纤维 - 薄壁组织谱和导管面积谱。纤维 - 薄壁组织谱目前尚无明确或令人信服的生态学解释。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d814/4408027/94450d307b09/pone.0124892.g001.jpg

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狭窄木材密度范围内的广泛解剖变异——对69种澳大利亚被子植物小枝木材的研究

Broad Anatomical Variation within a Narrow Wood Density Range--A Study of Twig Wood across 69 Australian Angiosperms.

作者信息

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