Phylogenetic relationships and divergence dating of Mantodea using mitochondrial phylogenomics

IF 4.7 1区 农林科学 Q1 ENTOMOLOGY
Yue Ma, Le-Ping Zhang, Yi-Jie Lin, Dan-Na Yu, Kenneth B. Storey, Jia-Yong Zhang
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引用次数: 2

Abstract

Mantodea is a predatory insect group, its members occupying a diverse array of widely distributed habitats. Praying mantis species utilize hunting strategies including remarkable mimicry and unique camouflage for hiding from natural enemies while catching their prey. The emergence of a “cyclopean ear” in mantises is thought to be a morphological innovation of the group, and an “arms race” with echolocating bats is one of the hypotheses put forward to account for the emergence of the mantis ear from a coevolutionary perspective. However, this hypothesis has not been rigorously tested because of a lack of robust higher-level phylogeny and a detailed chronogram of Mantodea. Previous phylogenetic studies found an incongruence between traditional classification and molecular phylogenetics due to the convergent evolution of various ecomorphic strategies of the lineage. Here, we performed a comprehensive phylogenetic analysis of Mantodea based on data from 61 mitogenomes. Our analyses showed that the monophyly of Acanthopidae, Haaniidae, Nanomantidae, Miomantidae and Mantidea was supported. The newly updated Gonypetidae were paraphyletic, whereas Eremiaphilidae, Deroplatyidae and Toxoderidae were polyphyletic. Our molecular dating analyses inferred that Spinomantodea originated at ca. 149 Ma (Late Jurassic), whereas the origin of hearing mantises (Cernomantodea) was inferred as Early Cretaceous (119 Ma, 95% CI: 110–129 Ma). The molecular dating results indicated that the hearing organ in mantises did not arise in response to bat predation. Our study provides a robust framework for further evolutionary comparative studies of mantises.

Abstract Image

用线粒体系统基因组学研究Mantodea的系统发育关系和分化年代
蝠鲼是一种捕食性昆虫,其成员占据着广泛分布的各种栖息地。螳螂利用狩猎策略,包括非凡的模仿和独特的伪装,在捕捉猎物时躲避天敌。螳螂“独耳”的出现被认为是该群体的形态学创新,而与回声定位蝙蝠的“军备竞赛”是从共同进化的角度提出的解释螳螂耳朵出现的假设之一。然而,由于缺乏强有力的更高水平的系统发育学和曼托达目的详细时间图,这一假设尚未得到严格检验。先前的系统发育研究发现,由于谱系的各种生态形态策略的趋同进化,传统分类与分子系统发育学之间存在不一致。在这里,我们根据61个有丝分裂基因组的数据对Mantoda进行了全面的系统发育分析。我们的分析表明,棘蛛科、哈蛛科、纳蛛科、中蛛科和蝠鲼科的单系性得到了支持。新更新的Gonypetidae是副系的,而Eremiaphilidae、Deroplatyidae和Toxoderidae是多系的。我们的分子定年分析推断Spinomatodea起源于约149年 Ma(晚侏罗纪),而听螳螂(Cernomantodea)的起源被推断为早白垩纪(119 马,95%置信区间:110–129 马)。分子测年结果表明,螳螂的听觉器官并不是对蝙蝠捕食的反应。我们的研究为进一步的螳螂进化比较研究提供了一个强有力的框架。
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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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