圆翅树蛉的个体发育轨迹及早期形态分化(半翅目:膜蛉科)

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-04-10 DOI:10.1111/ede.12431
Anna M. Kudla, Ximena Miranda, H. Frederik Nijhout
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引用次数: 1

摘要

膜蜂(科:膜蜂科),通常被称为树跳虫,通过它们扩大和经常精心制作的前喙来识别。许多调查这一结构的发展和演变的研究都集中在第5个阶段到成人阶段的过渡上,在这个阶段,前前额经历了最大的转变,因为它承担了成人的身份。然而,人们对早期的若虫阶段知之甚少,在这些时间点上前角发育的程度,以及相对于祖先状态的发育是如何变化的。本文研究了5种形态不同的膜类昆虫和作为祖先状态代理的外群——网状Aetalion reticulatum(科:Aetalionidae)的若虫期和成虫期。我们发现,早在二星阶段,膜前部的形状分化就开始了。大多数形状分化发生在若虫阶段,而不是在胚胎阶段,因为除了我们调查的一个物种外,所有物种的一龄前角形状与外群物种没有差异。我们发现,在膜类物种中,前后轴的相对伸长速度要快于网纹刺槐,这导致了前额大小的扩大。最后,我们发现了不同物种之间形状形态发生的差异。我们认为,这是由于前背表面的不同生长模式的发育和进化差异,不仅在物种之间,而且在同一物种的不同阶段。这种不稳定性可能有助于膜前角的进化和多样化。
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Ontogenetic trajectories and early shape differentiation of treehopper pronota (Hemiptera: Membracidae)

Membracids (family: Membracidae), commonly known as treehoppers, are recognizable by their enlarged and often elaborated pronota. Much of the research investigating the development and evolution of this structure has focused on the fifth instar to adult transition, in which the pronotum undergoes the largest transformation as it takes on adult identity. However, little is known about the earlier nymphal stages, the degree to which the pronotum develops at these timepoints, and how development has changed relative to the ancestral state. Here, we studied the nymphal stages and adults of five morphologically distinct membracid species and of Aetalion reticulatum (family: Aetalionidae), the outgroup which was used as an ancestral state proxy. We found that shape differentiation in the pronotum of membracids can start as early as the second instar stage. Most shape differentiation occurs within the nymphal stages and not in the embryo since the shape of the first-instar pronotum did not differ from the outgroup species in all but one species we investigated. We found the anterior–posterior axis of the pronotum elongated at a faster relative rate in membracid species than in A. reticulatum, which contributed to the development of exaggerated pronotal size. Finally, we found differences in the morphogenesis of shape across species. We suggest this is due to the developmental and evolutionary divergence of differential growth patterning of the dorsal surface of the pronotum, not only across species, but also between stages within the same species. This lability may contribute to the evolvability and diversification of the membracid pronotum.

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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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