When a key innovation becomes redundant: Patterns, drivers and consequences of elytral reduction in Coleoptera

IF 4.7 1区 农林科学 Q1 ENTOMOLOGY Systematic Entomology Pub Date : 2023-12-11 DOI:10.1111/syen.12617
Jakub Goczał, Rolf G. Beutel, Matthew L. Gimmel, Robin Kundrata
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Abstract

The transformation of the fore wings into strongly sclerotized protective covers (elytra) is considered a fundamental evolutionary innovation of the megadiverse order Coleoptera. Surprisingly, these multifunctional structures have been reduced in many distantly related groups of beetles. Patterns, drivers and the evolutionary implications of this modification have never been comprehensively discussed. In the present study, we surveyed the entire order Coleoptera to analyse the patterns of elytral shortening and loss, with a special focus on prevalence, forms, degree of reduction and the functional background of this significant deviation from the coleopteran ground plan. Our analysis revealed that about 20% of all extant species (roughly 88,000 out of 442,275 spp.), distributed across all four suborders, have shortened or even absent elytra. The elytral loss was more frequent within the polyphagan series Elateriformia and Staphyliniformia. Moreover, we found that elytral reduction has independently occurred multiple times in the evolutionary history of Coleoptera and that it has been driven by a wide array of selective drivers. One of the main drivers is the improved flexibility of the uncovered abdomen and the correlated increased manoeuvrability in narrow spaces, as well as the option of using the flexible abdomen as a steering organ or to facilitate mating. Another common driver is mimicry, where exposed metathoracic wings potentially improve the overall similarity to hymenopteran models. Exposure of the abdomen can facilitate the targeted release of defensive abdominal gland secretions and was most likely a crucial step towards establishing relations with social insects enhanced by chemical communication. In the Elateriformia, and rarely in other lineages, elytral loss is a consequence of paedomorphosis, related to a specific resource-allocation strategy. In many groups of beetles with reduced elytra, alternative defensive strategies can be found. This includes, for instance, aposematic coloration, chemical defence, mimicry or bioluminescence. Direct drivers of elytral loss in many groups remain unclear, and more studies are needed to understand the evolutionary background and implications of this significant morphological modification in Coleoptera.

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当关键创新变得多余时鞘翅目昆虫蜕皮的模式、驱动因素和后果
将前翅转化为硬质化的保护罩(后翅)被认为是鞘翅目这一巨型物种的基本进化创新。令人惊讶的是,这些多功能结构在许多远缘的甲虫类群中都有所减少。这种变化的模式、驱动因素和对进化的影响从未被全面讨论过。在本研究中,我们对整个鞘翅目进行了调查,分析了鞘翅缩短和缺失的模式,特别关注了这一显著偏离鞘翅目地表的现象的发生率、形式、减少程度和功能背景。我们的分析表明,在所有现存物种中,约有 20% 的物种(442,275 种物种中约有 88,000 种)具有缩短甚至消失的叶柄,这些物种分布在所有四个亚目中。在多形目蝶形目(Elateriformia)和蝶形目(Staphyliniformia)中,蜕皮消失的现象更为常见。此外,我们发现在鞘翅目的进化史上,蜕片的减少曾多次独立发生,而且是由一系列选择性驱动因素造成的。其中一个主要驱动因素是无盖腹部的灵活性提高,在狭窄空间中的可操作性也相应提高,还可以选择将灵活的腹部用作转向器官或促进交配。另一个常见的驱动因素是拟态,暴露的胸侧翅有可能提高与膜翅目昆虫模型的整体相似性。暴露腹部有助于有针对性地释放防御性腹腺分泌物,这很可能是与社会性昆虫建立关系的关键步骤,通过化学交流可增强这种关系。在蝶形目中,鳞片脱落是蝶蛹变态的结果,与特定的资源分配策略有关,在其他类群中很少见。在许多蜕皮甲虫类群中,可以找到替代性防御策略。例如,这包括歉色、化学防御、拟态或生物发光。许多类群蜕皮的直接原因尚不清楚,需要更多的研究来了解鞘翅目昆虫这一重要形态变化的进化背景和影响。
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来源期刊
Systematic Entomology
Systematic Entomology 生物-进化生物学
CiteScore
10.50
自引率
8.30%
发文量
49
审稿时长
>12 weeks
期刊介绍: Systematic Entomology publishes original papers on insect systematics, phylogenetics and integrative taxonomy, with a preference for general interest papers of broad biological, evolutionary or zoogeographical relevance.
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