单株内叶片异速生长与叶片形态演化:温带豆荚科植物叶片异速生长的多层次分析

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-08-15 DOI:10.1111/ede.12414
Marina M. Strelin, Pamela K. Diggle
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引用次数: 1

摘要

进化生物学的一个关键问题是理解多样性的宏观进化模式与有机体水平上的变异起源之间的关系。个体间异速生长是指处于固定发育阶段的生物之间结构的大小和形状之间的关系,通常类似于进化异速生长,即种群或物种之间结构的大小和形状之间的关系,以及在这两个水平上的异速生长关系基础上的遗传和发育过程被认为影响进化多样化。异速生物表现出额外的异速:个体内部结构的大小和形状之间的关系。我们认为,个体内异速也与异长生物之间的进化多样化有关。我们在温带落叶Viburnum (Adoxaceae)物种中探索了这一想法,这些物种具有两种类型的叶片,即预成型叶片和新生叶片,具有不同的发育模式。对两种叶型叶片形状异速变化的个体内、个体间、种群间和种间分析表明,各异速变化关系的斜率均与等距变化有显著差异,且其符号在各异速变化等级间一致。在不同的异速生长水平上,预成型叶片的异速生长斜率是恒定的,而新生叶片的异速生长斜率则越来越陡。我们认为,异速变异可能在个体之间以及它们的重复结构中表现出来。此外,在异长生物中,具有不同发育模式的结构可以经历不同程度的发育限制,这反过来会影响形态多样化。
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Within-individual leaf allometry and the evolution of leaf morphology: A multilevel analysis of leaf allometry in temperate Viburnum (Adoxaceae) species

A critical issue in evolutionary biology is understanding the relationship between macroevolutionary patterns of diversity and the origin of variation at the organismal level. Among-individual allometry, the relationship between the size and shape of a structure among organisms at a fixed developmental stage, is often similar to evolutionary allometry, the relationship between the size and shape of a structure among populations or species, and the genetic and developmental process that underlie allometric relationships at both levels are thought to influence evolutionary diversification. Metameric organisms present an additional level of allometry: the relationship between the size and shape of structures within individuals. We propose that within-individual allometry is also related to evolutionary diversification among metameric organisms. We explore this idea in temperate deciduous Viburnum (Adoxaceae) species that bear two types of leaves, that is, preformed and neoformed leaves, with contrasting patterns of development. Examination of within-individual, among-individual, among-population, and among-species allometry of leaf shape in both leaf types showed that the slopes of all allometric relationships were significantly different from isometry, and their sign was consistent across allometric hierarchies. Although the allometric slope of preformed leaves was constant across allometry levels, the allometric slope of neoformed leaves became increasingly steeper. We suggest that allometric variation underlying evolutionary diversification in metameric organisms may manifest among individuals and also among their repeated structures. Moreover, structures with contrasting patterns of development within metameric organisms can experience different degrees of developmental constraint, and this can in turn affect morphological diversification.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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