The role of tree crown on the performance of trees at individual and community levels: whole-phenotypic context matters

IF 1.9 4区 环境科学与生态学 Q3 ECOLOGY
Joice Klipel, Davi da Cunha Morales, Kauane Maiara Bordin, Rayana Caroline Picolotto, Rodrigo Scarton Bergamin, Sandra Cristina Müller
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Abstract

Functional traits offer insights into plant performance. However, linking traits to individual tree performance requires considering the overall phenotypic context and utilizing traits measured at the individual level. Tree growth rates are informative metrics about performance, however how it is measured provides different information on tree or community growth dynamics and structure and can alter the relationships or their strength with functional traits and individual phenotypes. Moreover, at the community level, trees can adjust their crown shapes and sizes to optimize canopy space utilization, and a high level of canopy packing can enhance the individual to community-level growth rate. In this study, we assessed the crown area of 1144 individual trees, a simple trait measured at the individual level, and the leaf mass per area (LMA), a common functional trait, to test trait-growth relationships, considering absolute and relative growth rate. The observed total photosynthetic mass (integrating crown area and LMA) positively explained absolute tree growth rates, interacting with tree height. As higher the trees, more intense was the effect. Importantly, this effect was not solely based on LMA or crown size. This implies that LMA’s predictive power could improve by integrating leaf-level traits with whole-plant allocation to leaf area. These variables, however, failed to predict the tree’s relative growth rates. Additionally, our study found that increased canopy packing levels raised the community-level growth rate within our plots. This overall community growth seems be facilitated by denser tree arrangements and efficient light interception in the forest due to the higher canopy packing level. We highlight the importance of considering crown area as a critical variable to be measured during floristic inventories and in studies focused on tree performance.

Abstract Image

树冠在个体和群落层面对树木表现的作用:整体表型背景很重要
功能性状有助于深入了解植物的性能。然而,将性状与树木个体表现联系起来需要考虑整体表型背景,并利用在个体水平上测量的性状。树木生长率是衡量树木性能的信息指标,但如何测量生长率却能提供有关树木或群落生长动态和结构的不同信息,并能改变与功能性状和个体表型之间的关系或其强度。此外,在群落水平上,树木可以调整树冠形状和大小以优化冠层空间利用,高水平的冠层包装可以提高个体到群落水平的生长率。在本研究中,我们评估了 1144 棵个体树木的树冠面积(这是在个体水平上测量的简单性状)和单位面积叶质量(LMA)(这是一种常见的功能性状),以检验性状与生长的关系,同时考虑绝对和相对生长率。观察到的总光合作用质量(综合树冠面积和 LMA)与树高相互作用,对树木的绝对生长率有积极的解释作用。树越高,效应越强。重要的是,这种效应并不完全基于 LMA 或树冠大小。这意味着,通过整合叶片级性状和整个植株的叶面积分配,可以提高 LMA 的预测能力。然而,这些变量都无法预测树木的相对生长率。此外,我们的研究还发现,树冠包装水平的提高提高了地块内群落水平的生长率。由于树冠郁闭度较高,森林中的树木排列更密集,截光效率更高,这似乎有利于群落的整体生长。我们强调了将树冠面积视为花卉调查和树木性能研究中需要测量的关键变量的重要性。
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来源期刊
Plant Ecology
Plant Ecology 环境科学-林学
CiteScore
3.40
自引率
0.00%
发文量
58
审稿时长
8.6 months
期刊介绍: Plant Ecology publishes original scientific papers that report and interpret the findings of pure and applied research into the ecology of vascular plants in terrestrial and wetland ecosystems. Empirical, experimental, theoretical and review papers reporting on ecophysiology, population, community, ecosystem, landscape, molecular and historical ecology are within the scope of the journal.
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