九类植物-植物替代

IF 0.2 Q4 EVOLUTIONARY BIOLOGY
R. Myster
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引用次数: 4

摘要

目前的植物群落动态模型既不能很好地概念化植物群落,也不能给研究人员提供准确预测其动态的工具。在这里,我提出了一个关于如何构建概念模型的新想法。我首先观察到,空间是植物生命的一个重要组成部分,它的变化在很大程度上决定了单个植物的变化。然后,我将这个空间定义为由植物群(生物量加坏死体)占据的植物空间,以及植物群周围的邻近空间组成,在那里植物可以影响其他植物,也可以受其他植物的影响。我认为,植物群落是如何随着时间的推移,随着它们的植物空间和邻近空间的变化而自我替换的,这是植物群落动态的基本过程。这些植物与植物之间的替换物可以分为九个不同的类别,这些类别扩展了替换的概念,不仅包括由整个植物死亡造成的新空间,还包括由植物组织损失造成的新空间。最后,我认为由于大多数植物-植物替换涉及种子、幼苗和树苗,因此在决定任何植物群落的植物-植物替换及其产生的动态方面,捕食、病原体、发芽、食草和幼苗/树苗竞争的机制和耐受性将是最关键的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The nine classes of plant-plant replacement
Current models of plant community dynamics have fallen short both of conceptualizing plant communities well and of giving researchers a tool that accurately predicts their dynamics. Here I present a new idea of how that conceptual model should be constructed. I begin with the observation that space is a critical component of plant life and how it changes determines—to a large extent—how individual plants change. I then define that space as consisting of the phyto-space, which the phyto-mass (biomass plus necromass) occupies, and the neighborhood space around that phyto-space where a plant can influence, and be influenced by, other plants. I posit that it is how plants that make up a community replace themselves over time, as their phyto-spaces and neighborhood spaces change, that is the fundamental process of plant community dynamics. Those plant-plant replacements fall into nine distinct classes that extend the concept of replacement to include new space created not just by whole plant mortality, but also by plant tissue loss.  Finally, I suggest that because most plant-plant replacements involve seeds, seedlings and saplings, the mechanisms and tolerances of predation, pathogens, germination, herbivory and seedling/sapling competition will be most critical in determining the plant-plant replacements in any plant community and its resulting dynamics.
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来源期刊
Ideas in Ecology and Evolution
Ideas in Ecology and Evolution EVOLUTIONARY BIOLOGY-
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审稿时长
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