哺乳动物脊柱进化中的适应与约束。

Adaptation and constraint in the evolution of the mammalian backbone.

机构信息

Museum of Comparative Zoology and Department of Organismic and Evolutionary Biology, Harvard University, 26 Oxford Street, Cambridge, MA, 02138, USA.

Integrative Research Center, Field Museum of Natural History, 1400 South Lake Shore Drive, Chicago, IL, 60605-2496, USA.

出版信息

BMC Evol Biol. 2018 Nov 16;18(1):172. doi: 10.1186/s12862-018-1282-2.

DOI:10.1186/s12862-018-1282-2

PMID:30445907

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6240174/

Abstract

BACKGROUND

The axial skeleton consists of repeating units (vertebrae) that are integrated through their development and evolution. Unlike most tetrapods, vertebrae in the mammalian trunk are subdivided into distinct thoracic and lumbar modules, resulting in a system that is constrained in terms of count but highly variable in morphology. This study asks how thoracolumbar regionalization has impacted adaptation and evolvability across mammals. Using geometric morphometrics, we examine evolutionary patterns in five vertebral positions from diverse mammal species encompassing a broad range of locomotor ecologies. We quantitatively compare the effects of phylogenetic and allometric constraints, and ecological adaptation between regions, and examine their impact on evolvability (disparity and evolutionary rate) of serially-homologous vertebrae.

RESULTS

Although phylogenetic signal and allometry are evident throughout the trunk, the effect of locomotor ecology is partitioned between vertebral positions. Lumbar vertebral shape correlates most strongly with ecology, differentiating taxa based on their use of asymmetric gaits. Similarly, disparity and evolutionary rates are also elevated posteriorly, indicating a link between the lumbar region, locomotor adaptation, and evolvability.

CONCLUSION

Vertebral regionalization in mammals has facilitated rapid evolution of the posterior trunk in response to selection for locomotion and static body support.

摘要

背景

轴骨骼由重复的单元（脊椎）组成，这些单元通过它们的发育和进化而整合在一起。与大多数四足动物不同，哺乳动物躯干中的脊椎被细分为明显的胸腰椎模块，从而形成一个在数量上受限但在形态上高度可变的系统。本研究探讨了胸腰椎分区如何影响哺乳动物的适应和可进化性。使用几何形态计量学，我们从广泛的运动生态环境中检查了来自不同哺乳动物物种的五个椎体位置的进化模式。我们定量比较了种系发生和体型约束以及区域间生态适应的影响，并检查了它们对连续同源椎体的可进化性（变异性和进化速度）的影响。

结果

尽管在整个躯干中都存在明显的种系发生信号和体型限制，但运动生态学的影响在椎体位置之间是分开的。腰椎的形状与生态学最密切相关，根据它们使用不对称步态来区分分类群。同样，差异和进化速度也在后部升高，表明腰椎区域、运动适应和可进化性之间存在联系。

结论

哺乳动物的脊椎分区促进了后部躯干的快速进化，以适应运动和静态身体支撑的选择。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d301/6240174/2681265a1a77/12862_2018_1282_Fig1_HTML.jpg

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哺乳动物脊柱进化中的适应与约束。

Adaptation and constraint in the evolution of the mammalian backbone.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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