邻域结构和光照条件影响了不同演替阶段的两片云雾林中灌木植物设计的变化。
Neighbourhood structure and light availability influence the variations in plant design of shrubs in two cloud forests of different successional status.
作者信息
Guzmán Q J Antonio, Cordero Roberto A
机构信息
Programa de Posgrado en Biología, Sistema de Estudios de Posgrado, Universidad de Costa Rica, PO Box 2060 San Pedro, Costa Rica Laboratorio de Ecología Funcional y Ecosistemas Tropicales, Escuela de Ciencias Biológicas, Universidad Nacional de Costa Rica, PO Box 86-3000 Heredia, Costa Rica
Laboratorio de Ecología Funcional y Ecosistemas Tropicales, Escuela de Ciencias Biológicas, Universidad Nacional de Costa Rica, PO Box 86-3000 Heredia, Costa Rica.
出版信息
Ann Bot. 2016 Jul;118(1):23-34. doi: 10.1093/aob/mcw078. Epub 2016 May 30.
BACKGROUND AND AIMS
Plant design refers to the construction of the plant body or its constituent parts in terms of form and function. Although neighbourhood structure is recognized as a factor that limits plant survival and species coexistence, its relative importance in plant design is not well understood. We conducted field research to analyse how the surrounding environment of neighbourhood structure and related effects on light availability are associated with changes in plant design in two understorey plants (Palicourea padifolia and Psychotria elata) within two successional stages of a cloud forest in Costa Rica.
METHODS
Features of plant neighbourhood physical structure and light availability, estimated using hemispherical photographs, were used as variables that reflect the surrounding environment. Measures of plant biomechanics, allometry, branching and plant slenderness were used as functional plant attributes that reflect plant design. We propose a framework using a partial least squares path model and used it to test this association.
KEY RESULTS
The multidimensional response of plant design of these species suggests that decreases in the height-based factor of safety and increases in mechanical load and developmental stability are influenced by increases in maximum height of neighbours and a distance-dependence interference index more than neighbourhood plant density or neighbour aggregation. Changes in plant branching and slenderness are associated positively with light availability and negatively with canopy cover.
CONCLUSIONS
Although it has been proposed that plant design varies according to plant density and light availability, we found that neighbour size and distance-dependence interference are associated with changes in biomechanics, allometry and branching, and they must be considered as key factors that contribute to the adaptation and coexistence of these plants in this highly diverse forest community.
背景与目的
植物设计是指从形态和功能方面构建植物体或其组成部分。尽管邻域结构被认为是限制植物存活和物种共存的一个因素,但其在植物设计中的相对重要性尚未得到充分理解。我们进行了实地研究,以分析在哥斯达黎加云雾森林两个演替阶段的两种林下植物(帕利古雷亚垫叶木和艳山姜)中,邻域结构的周边环境以及对光照可利用性的相关影响如何与植物设计的变化相关联。
方法
利用半球形照片估计的植物邻域物理结构和光照可利用性特征,被用作反映周边环境的变量。植物生物力学、异速生长、分支和植物细长比的测量,被用作反映植物设计的功能性植物属性。我们提出了一个使用偏最小二乘路径模型的框架,并用以检验这种关联。
主要结果
这些物种植物设计的多维响应表明,基于高度的安全系数降低以及机械负荷和发育稳定性增加,更多地受到邻体最大高度增加和距离依赖性干扰指数的影响,而非邻域植物密度或邻体聚集度。植物分支和细长比的变化与光照可利用性呈正相关,与冠层覆盖呈负相关。
结论
尽管有人提出植物设计会根据植物密度和光照可利用性而变化,但我们发现邻体大小和距离依赖性干扰与生物力学、异速生长和分支的变化相关,并且它们必须被视为有助于这些植物在这个高度多样化的森林群落中适应和共存的关键因素。
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