[Stable morphologies and mosaicism in the macroevolution of birds (Neornithes)].

Pub Date : 2015-07-01
N V Zelenkov
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引用次数: 0

Abstract

Modern orders of Neornithine birds are separated by distinct morphological gaps, hampering the development of particular models. of macroevolutionary transformations. However, recent decades have witnessed the discovery and extensive study of many fossil groups of birds, which shed light on the origin of modern higher taxa. These fossils further allow analyzing the whole process of the macroevolutionary change in this group of vertebrates during the Cenozoic. Here, a brief review is presented of the "transitional" taxa with special attention to representative of the clade Galloanseres. Almost all transitional groups of fossil birds do display mosaic morphology. It is noted that many stable morphologies (characters and character complexes) persist in different groups, occurring either as primitive states, or as advanced ones. The stable recurrence of these characters is caused by the persistence of stable ontogenetic pathways. On the other hand, independent evolution of various morphologies can be explained by the modular organization of the development. The modularity in the structure of the foot is used here as an example to show a possible way of the origin of the foot in extant perching birds (Passeriformes). The mosaic morphology of the transitional taxa is seen as the only possible way to overcome the evolutionary constraint of the parallel optimization of numerous organismal systems. It is noted that in course of macroevolutionary change, no complete filling of morphological gaps occur. Transitional forms are separated by additional gaps from their ancestors and descendants. Hence, stem groups are seen as the most probable ancestors of crown taxa. It is further noted that the evolutionary formation of some higher taxa of the living birds was initiated by the evolution of advanced morphology of the feeding apparatus and skull, while change in their. postcranial morphology was delayed.

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[鸟类宏观进化中的稳定形态和镶嵌现象[neorniths]。
新鸟目鸟类的现代目被明显的形态差距分开,阻碍了特定模式的发展。宏观进化的转变。然而,近几十年来,许多鸟类化石群的发现和广泛研究,为现代高等分类群的起源提供了线索。这些化石进一步分析了这群脊椎动物在新生代宏观进化变化的整个过程。本文对“过渡性”分类群进行了简要的回顾,并特别注意了加兰属分支的代表。几乎所有鸟类化石的过渡类群都显示出镶嵌形态。值得注意的是,许多稳定的形态(字符和字符复合体)在不同的群体中持续存在,要么是原始状态,要么是高级状态。这些特征的稳定复发是由稳定的个体发生途径的持续存在引起的。另一方面,各种形态的独立演化可以用开发的模块化组织来解释。这里以足部结构的模块化为例,展示了现存栖息鸟类(雀形目)足部起源的一种可能方式。过渡类群的镶嵌形态被视为克服众多生物系统并行优化的进化约束的唯一可能途径。值得注意的是,在宏观进化变化过程中,形态间隙没有完全填补。过渡形式与他们的祖先和后代之间有额外的差距。因此,茎群被认为是冠类最可能的祖先。进一步指出,一些现存鸟类高级分类群的进化形成是由捕食器和颅骨的高级形态进化开始的。颅后形态学延迟。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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