在亲缘关系较远的敲甲中,个体发生的改变产生了相似的表型(鞘翅目:敲甲科)。

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY
Dominik Kusy, Michal Motyka, Ladislav Bocak
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引用次数: 0

摘要

摘要分析了叩头甲虫(叩头科)Paulusiella Löbl, 2007和Analestesa Leach, 1824 (=Cebriognathus Chobaut, 1899)的亲缘关系。两者都不能跳跃,具有蜕变过程中角质层不完全硬化造成的软体习性和未知的雌性。它们的系统发育位置一直是一个不确定的问题。我们使用线粒体基因组和核基因分别测试了它们在Cebrionini (=Cebriognathini)和Elaterinae intertae sedis中的当前位置。我们恢复了Paulusiella作为Hemiops Laporte的姐妹,1838 (Hemiopinae)和Analestesa作为Cardiophorinae中连续分裂的分支之一,两者都有强有力的支持。Paulusiellini trib。由于形态上的高度差异,Paulusiella在Hemiopinae中被认为是11 .。Analestesa被转移到Cardiophorinae,而Cebriognathini Paulus, 1981年,是Elaterinae的早期同义词:Cebrionini,是Cardiophorinae candante, 1859年的同义词。受个体发生变化影响的咔哒甲虫收敛到相似的形式。因此,它们的系统发育位置不能通过形态学分析来可靠地推断,需要通过分子数据来验证。Paulusiella和Analestesa代表了另外两个向不完全硬化转变的病例,使总数增加到6个。现存分类群在亚科之间的转移需要对其他软体类群的形态进行谨慎的解释,包括琥珀沉积物中描述的分类群。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Ontogenetic modifications produce similar phenotypes in distantly related click beetles (Coleoptera: Elateridae)
Abstract We analyze the relationships of the click beetles (Elateridae) Paulusiella Löbl, 2007, and Analestesa Leach, 1824 (=Cebriognathus Chobaut, 1899). Both are incapable of jumping, with soft-bodied habitus caused by the incomplete sclerotization of the cuticle during the metamorphosis and unknown females. Their phylogenetic positions have been an uncertain issue. We use mitochondrial genomes and nuclear genes to test their current placement in Cebrionini (=Cebriognathini) and Elaterinae incertae sedis, respectively. We recover Paulusiella as a sister to Hemiops Laporte, 1838 (Hemiopinae) and Analestesa as one of the serially splitting branches in Cardiophorinae, both with robust support. Paulusiellini trib. nov. is proposed for Paulusiella in Hemiopinae due to high morphological disparity. Analestesa is transferred to Cardiophorinae, and Cebriognathini Paulus, 1981, an earlier synonym of Elaterinae: Cebrionini, is a synonym of Cardiophorinae Candèze, 1859. The click beetles affected by ontogenetic modifications converge to similar forms. As a result, their phylogenetic position cannot be reliably inferred by morphological analyses and needs to be validated by molecular data. Paulusiella and Analestesa represent two additional cases of the shift to incomplete sclerotization in elaterids raising the total number to 6. The present transfers of extant taxa between subfamilies call for a cautious interpretation of morphology in other soft-bodied groups, including the taxa described from amber deposits.
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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
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