Evolutionary systematics of the Staphylininae rove beetles (Coleoptera: Staphylinidae) resolved by integration of phylogenomics, comparative morphology and historical biogeography

IF 4.9 1区 农林科学 Q1 ENTOMOLOGY
José L. Reyes-Hernández, Adam Brunke, Aslak Kappel Hansen, Qinghao Zhao, Josh Jenkins Shaw, Alfred F. Newton, Alexey Solodovnikov
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Abstract

Based on a phylogenomic analysis, we here update the higher classification of the rove beetle subfamily Staphylininae, an insect mega-lineage comprising over 9000 described species. All established or newly proposed higher taxa are statistically robust and biogeographically plausible monophyla identified by morphological characters, many of which are putative synapomorphies. Novel molecular and morphological evidence corroborate the previously challenged broad concept of Staphylininae, and the newly proposed division of Staphylinini into the tribes Staphylinini stat. rev. and Tanygnathinini stat. rev. Our fossil-calibrated dating of the phylogeny revealed consistent temporal congruence between major cladogenetic events and plate tectonics throughout the Mesozoic and Cenozoic eras; for example, the divergence of Tanygnathinini stat. rev. from Staphylinini stat. rev. is contemporaneous with the break-up of Pangea, and the first divergence within Tanygnathinini stat. rev. coincides with the separation of South America and Africa. Similarly manifold evidence, including the evaluated performance of the alternative statistical phylogenetic models, supports all proposed new subtribes: Ctenandropina subtrib. nov. and Nitidocolpina subtrib. nov. within Tanygnathinini; Descarpentriesiellina subtrib. nov. and Valdiviodina subtrib. nov. within Staphylinini. Keys, diagnoses and descriptions are provided for all involved higher taxa in the extensive taxonomic part.

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用系统基因组学、比较形态学和历史生物地理学的方法研究了粉甲虫科(鞘翅目:粉甲虫科)的进化系统
基于系统基因组学分析,我们在此更新了甲虫亚科葡萄球菌的高级分类,这是一个由9000多种已描述物种组成的昆虫大谱系。所有已建立或新提出的高等分类群都是统计上稳健的、生物地理上似是而非的单门类,其中许多是假定的突触类。新的分子和形态学证据证实了先前受到挑战的葡萄球菌科的广泛概念,并新提出将葡萄球菌分类为Staphylinini stat. rev.和Tanygnathinini stat. rev.。我们的化石校准系统发育年代显示,在整个中生代和新生代,主要枝生事件与板块构造之间具有一致的时间一致性;例如,Tanygnathinini stat. rev.与Staphylinini stat. rev.的分化与盘古大陆的分裂是同时发生的,Tanygnathinini stat. rev.内部的第一次分化与南美洲和非洲的分离是同时发生的。同样,多种证据,包括评估的其他统计系统发育模型的性能,都支持所有提出的新亚部落:凤梨亚部落。11月和黑檀亚科。11月在Tanygnathinini内;Descarpentriesiellina subtrib。11月和Valdiviodina子。11月在葡萄球菌内。广泛分类部分提供了所有涉及的高等分类群的关键字、诊断和描述。
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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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