红蚁中体骨骼肌系统(膜翅目:蚁科)

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY Insect Systematics and Diversity Pub Date : 2022-03-01 DOI:10.1093/isd/ixac002
Lazzat Aibekova, B. Boudinot, R. Beutel, A. Richter, R. Keller, F. Hita-Garcia, E. Economo
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引用次数: 11

摘要

摘要中孔瘤是蚂蚁的动力核心,包含头部、腿部和交代体运动的关键结构和肌肉元素。据推测,对地面运动的适应和飞行的丧失导致了工蚁中孔体的实质性重排,并且随着蚂蚁多样化到不同的生态和行为生态位,蚂蚁中孔体很可能发生了功能性改变。尽管如此,对蚂蚁中孔瘤解剖结构的研究仍然很少,而且对蚂蚁系统发育中内部结构的重要变化了解有限。成像技术的最新进展使对小昆虫进行数字解剖、高效详细地记录解剖结构以及将这些数据可视化成为可能。在这里,我们记录了红蚁(Formica rufa Linnaeus,1761)工人的中体骨骼肌系统,并用它建立了中体解剖的3D图谱,作为进一步研究的参考工作。我们讨论并说明了骨骼肌成分的配置以及肌肉与骨骼元素相互作用的功能。这种对“广义”蚂蚁的解剖评估为未来研究蚁科辐射中的中孔瘤提供了模板,最终目标是综合结构、功能和转换信息,以了解蚂蚁关键身体区域的进化。
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The Skeletomuscular System of the Mesosoma of Formica rufa Workers (Hymenoptera: Formicidae)
Abstract The mesosoma is the power core of the ant, containing critical structural and muscular elements for the movement of the head, legs, and metasoma. It has been hypothesized that adaptation to ground locomotion and the loss of flight led to the substantial rearrangements in the mesosoma in worker ants and that it is likely the ant mesosoma has undergone functional modifications as ants diversified into different ecological and behavioral niches. Despite this importance, studies on the anatomy of the ant mesosoma are still scarce, and there is limited understanding of important variation of internal structures across the ant phylogeny. Recent advances in imaging techniques have made it possible to digitally dissect small insects, to document the anatomy efficiently and in detail, and to visualize these data in 3D. Here we document the mesosomal skeletomuscular system of workers of the red wood ant, Formica rufa Linnaeus, 1761, and use it to establish a 3D atlas of mesosomal anatomy that will serve as reference work for further studies. We discuss and illustrate the configuration of the skeletomuscular components and the function of the muscles in interaction with the skeletal elements. This anatomical evaluation of a ‘generalized’ ant provides a template for future studies of the mesosoma across the radiation of Formicidae, with the ultimate objective of synthesizing structural, functional, and transformational information to understand the evolution of a crucial body region of ants.
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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
期刊最新文献
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