Instituto de Investigación Interdisciplinario (I3), Universidad de Talca, Campus Lircay, Talca, 3460000, Chile.
Am J Bot. 2022 Feb;109(2):250-258. doi: 10.1002/ajb2.1805. Epub 2022 Feb 9.
Wood density is a crucial plant functional trait related to plant life history strategies. Its ecological importance in small-stature growth forms (e.g., shrubs) has not been extensively examined. Given that hydraulic conduit dimensions vary positively with plant height and that there is a negative relationship between conduits' diameter and wood density, I hypothesized an also negative relationship between wood density and plant height. Knowing that bark and pith proportions are significant in small-diameter stems, I additionally disentangled the contribution of wood, bark, and pith to stem density.
I determined density in small-diameter stems across 153 species spanning all major angiosperm and gymnosperm orders by considering a diversity of growth forms (trees, treelets, shrubs, vines, and hemiparasites). Stem cross sections were dissected to consider the densities of wood with bark and pith; wood with pith and without bark; wood with bark and no pith; and wood without bark and pith. Secondary growth was also measured.
Trees showed similar wood densities as non-self-supporting vines, and both showed significantly less dense wood than treelets, shrubs, and hemiparasites. General comparisons showed that wood was significantly denser than all other tissues, and these differences did not depend on growth form. Wood density was significantly and negatively related to growth rate and pith area proportions but not to bark thickness proportion.
An implicit negative relationship between maximum plant height and stem density emerges as a property of plants likely linked to hydraulic conductive size.
木材密度是与植物生活史策略相关的关键植物功能特征。其在小体型生长形式(例如灌木)中的生态重要性尚未得到广泛研究。鉴于水力导管的尺寸与植物高度呈正相关,而导管的直径与木材密度呈负相关,我假设木材密度与植物高度之间也存在负相关关系。鉴于树皮和髓的比例在小直径茎中很重要,我还进一步分解了木材、树皮和髓对茎密度的贡献。
我通过考虑各种生长形式(树木、小树、灌木、藤本植物和半寄生植物),在跨越所有主要的被子植物和裸子植物目 153 个物种的小直径茎中确定了密度。对茎的横截面进行解剖,以考虑带皮和髓的木材、带髓不带皮的木材、带皮不带髓的木材和不带皮不带髓的木材的密度;同时还测量了次生生长。
树木的木材密度与非自支撑藤本植物相似,而树木的木材密度明显低于小树、灌木和半寄生植物。一般比较表明,木材的密度明显高于所有其他组织,而且这些差异与生长形式无关。木材密度与生长速率和髓面积比例呈显著负相关,但与树皮厚度比例无关。
作为与水力传导尺寸相关的植物特性,最大植物高度与茎密度之间隐含的负相关关系显现出来。
