能走的叶和能粘的卵:叶虫卵粘着系统的比较功能形态学和进化(叶虫科)。

Thies H Büscher, Sarah Bank, Royce T Cumming, Stanislav N Gorb, Sven Bradler
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引用次数: 3

摘要

叶蝉科是草食性昆虫,表现出令人印象深刻的隐蔽性,俗称“行走的叶子”。它们模仿被子植物的叶子,它们的卵通常在结构上和某些情况下在功能上类似于植物的种子。尽管成虫叶蝉科的整体形态相似,但其卵在整体形状和外绒毛膜表面特征上存在显著差异。先前的研究表明,大多数Phylliidae科的卵具有一种特殊的附着机制,具有分层的外绒毛膜扇形结构(羽),其表面覆盖着一层粘胶分泌物(胶水)。折叠的耳廓和胶水对水接触有反应,纤维耳廓膨胀,胶水能够可逆液化。一般来说,千鳃虫的卵似乎表现出不同的结构,这些结构被认为代表了对卵沉积的不同环境的特定适应。在此,我们研究了千分卵的多样性及其外绒毛膜结构的功能形态。基于对所有已知有卵的phylliid分类群的检查,我们能够表征出11种不同的形态类型。我们探索了这些不同形态的卵的粘附性,并通过实验比较了它们在不同表面粗糙度、表面化学性质的基质上的粘附性能,并测试了在多次循环分离后这种粘附是否可复制。此外,我们利用分子系统发育方法重建了该谱系中不同卵类型及其粘附系统的进化史,基于53个千分纲分类群。我们的研究结果表明,卵的形态与Phylliidae的系统发育关系是一致的。形态差异可能是由于对特定进化枝的特定环境要求的适应造成的,因为卵的形态对表面粗糙度的表现有影响。此外,我们还发现不同的耳廓和黏着胶在不同物种中是趋同进化的。虽然从大多数种类的成虫和若虫的高度相似性来看,Phylliidae科的进化总体上似乎是非适应性的,但卵代表了一个复杂且相当多样化的功能适应阶段,包括卵的固定和分散机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Leaves that walk and eggs that stick: comparative functional morphology and evolution of the adhesive system of leaf insect eggs (Phasmatodea: Phylliidae).

Leaves that walk and eggs that stick: comparative functional morphology and evolution of the adhesive system of leaf insect eggs (Phasmatodea: Phylliidae).

Leaves that walk and eggs that stick: comparative functional morphology and evolution of the adhesive system of leaf insect eggs (Phasmatodea: Phylliidae).

Leaves that walk and eggs that stick: comparative functional morphology and evolution of the adhesive system of leaf insect eggs (Phasmatodea: Phylliidae).

Phylliidae are herbivorous insects exhibiting impressive cryptic masquerade and are colloquially called "walking leaves". They imitate angiosperm leaves and their eggs often resemble plant seeds structurally and in some cases functionally. Despite overall morphological similarity of adult Phylliidae, their eggs reveal a significant diversity in overall shape and exochorionic surface features. Previous studies have shown that the eggs of most Phylliidae possess a specialised attachment mechanism with hierarchical exochorionic fan-like structures (pinnae), which are mantled by a film of an adhesive secretion (glue). The folded pinnae and glue respond to water contact, with the fibrous pinnae expanding and the glue being capable of reversible liquefaction. In general, the eggs of phylliids appear to exhibit varying structures that were suggested to represent specific adaptations to the different environments the eggs are deposited in. Here, we investigated the diversity of phylliid eggs and the functional morphology of their exochorionic structure. Based on the examination of all phylliid taxa for which the eggs are known, we were able to characterise eleven different morphological types. We explored the adhesiveness of these different egg morphotypes and experimentally compared the attachment performance on a broad range of substrates with different surface roughness, surface chemistry and tested whether the adhesion is replicable after detachment in multiple cycles. Furthermore, we used molecular phylogenetic methods to reconstruct the evolutionary history of different egg types and their adhesive systems within this lineage, based on 53 phylliid taxa. Our results suggest that the egg morphology is congruent with the phylogenetic relationships within Phylliidae. The morphological differences are likely caused by adaptations to the specific environmental requirements for the particular clades, as the egg morphology has an influence on the performance regarding the surface roughness. Furthermore, we show that different pinnae and the adhesive glue evolved convergently in different species. While the evolution of the Phylliidae in general appears to be non-adaptive judging on the strong similarity of the adults and nymphs of most species, the eggs represent a stage with complex and rather diverse functional adaptations including mechanisms for both fixation and dispersal of the eggs.

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