Phylogeny and evolution of the cicada tribe Polyneurini (Hemiptera, Cicadidae)

IF 4.7 1区农林科学 Q1 ENTOMOLOGY

Systematic Entomology Pub Date : 2024-08-08 DOI:10.1111/syen.12649

Jiali Wang, Wenzhe Zhang, Jingyuan Yang, Masami Hayashi, Cong Wei

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Abstract

Repeated and convergent evolution of wing venation may have contributed to the diversification and evolution of the cicada tribe Polyneurini, which are well known for colourful wings and complex wing venation. We investigated the phylogeny and diversification of Polyneurini based on morphological characters and molecular data, as well as molecular data of their obligate endosymbiont ‘Candidatus Sulcia muelleri’ (hereafter referred to as Sulcia). Phylogenetic analyses do not support the monophyly of the formerly defined subtribes Polyneurina and Formotosenina. Accordingly, Parapolyneura Wang, Hayashi & Wei gen. n. is erected for Pa. guoliangi (Wang & Liu) comb. n.; Formotosena pervalida Wang, Hayashi & Wei sp. n. and F. maculata Wang, Hayashi & Wei sp. n. are established; Proretinata Chou & Yao stat. rev. is resurrected from junior synonymy with Angamiana Distant; five junior synonyms are recognized for Pr. floridula (Distant) comb. n., and four junior synonyms are proposed for Po. cheni Chou & Yao. The subtribes of Polyneurini are redefined, in which Polyneura Westwood, Parapolyneura gen. n., Angamiana and Proretinata stat. rev. are included in Polyneurina, and Formotosena kato and Graptopsaltria Stål trans. n. in Formotosenina. The phylogeny of the very conservative Sulcia mirrors the host phylogeny, which supports the redefinition of the two subtribes in Polyneurini. Polyneurini likely originated and initially diversified during the Mid‐Miocene. Dramatic Pleistocene climatic oscillations together with the sea‐level fluctuations had profound effects on the diversification and vicariance of Polyneurini. The reticulate wing venation most likely evolved three times in Polyneurini. This study improves our understanding of diversification and evolution of this unique cicada tribe and serves as an example for future studies on the diversification of Cicadidae.

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蝉科 Polyneurini（半翅目，蝉科）的系统发育和进化

翅脉的重复和趋同进化可能有助于蝉科多角蝉属的多样化和进化，它们以色彩斑斓的翅膀和复杂的翅脉而闻名。我们基于形态特征和分子数据，以及其强制性内共生菌 "Candidatus Sulcia muelleri"（以下简称 "Sulcia"）的分子数据，研究了多刺蝉属的系统发育和多样化。系统发生学分析不支持以前定义的亚族 Polyneurina 和 Formotosenina 的单系性。因此，将 Parapolyneura Wang, Hayashi & Wei gen.和 F. maculata Wang, Hayashi & Wei sp、cheni Chou & Yao.重新定义了 Polyneurini 的亚属，其中 Polyneura Westwood、Parapolyneura gen.n.、Angamiana 和 Proretinata stat.rev.归入 Polyneurina，而 Formotosena kato 和 Graptopsaltria Stål trans.非常保守的 Sulcia 的系统发育反映了宿主的系统发育，这支持了对 Polyneurini 中两个亚族的重新定义。多鼻目很可能起源于中新世中期，并在中新世中期开始分化。更新世剧烈的气候振荡和海平面的波动对多脊蜥的多样化和沧海桑田产生了深远的影响。网状翅脉很可能在多鼻目中进化了三次。本研究加深了我们对这一独特蝉类的多样性和进化的认识，为今后蝉科的多样性研究提供了范例。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Systematic Entomology 生物-进化生物学

CiteScore

10.50

自引率

8.30%

发文量

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.