UCE Phylogenomics Resolves Major Relationships Among Ectaheteromorph Ants (Hymenoptera: Formicidae: Ectatomminae, Heteroponerinae): A New Classification For the Subfamilies and the Description of a New Genus

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY
G. P. Camacho, W. Franco, M. Branstetter, M. Pie, J. Longino, T. R. Schultz, R. M. Feitosa
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引用次数: 6

Abstract

Abstract Uncovering the evolutionary history of the subfamilies Ectatomminae and Heteroponerinae, or ectaheteromorphs, is key to understanding a major branch of the ant tree of life. Despite their diversity and ecological importance, phylogenetic relationships in the group have not been well explored. One particularly suitable tool for resolving phylogeny is the use of ultraconserved elements (UCEs), which have been shown to be ideal markers at a variety of evolutionary time scales. In the present study, we enriched and sequenced 2,127 UCEs from 135 specimens of ectaheteromorph ants and investigated phylogeny using a variety of model-based phylogenomic methods.Trees recovered from partitioned maximum-likelihood and species-tree analyses were well resolved and largely congruent.The results are consistent with an expanded concept of Ectatomminae that now includes the subfamily Heteroponerinae new synonym and its single tribe Heteroponerini new combination. Eleven monophyletic groups are recognized as genera: Acanthoponera, Alfaria status revived, Boltonia Camacho and Feitosa new genus, Ectatomma, Gnamptogenys, Heteroponera, Holcoponera status revived, Poneracantha status revived, Rhytidoponera, Stictoponera status revived, and Typhlomyrmex.The new phylogenetic framework and classification proposed here will shed light on the study of Ectatomminae taxonomy and systematics, as well as on the morphological evolution of the groups that it comprises.
UCE系统基因组学解决了异形蚁(膜翅目:蚁科:异形蚁科,异形蚁科)之间的主要关系:亚科的新分类和新属的描述
摘要揭示Ectatcomminae亚科和Heteroponerinae亚科的进化史,或大异形,是理解蚂蚁生命树一个主要分支的关键。尽管它们具有多样性和生态重要性,但该类群的系统发育关系尚未得到很好的探索。解决系统发育的一个特别合适的工具是使用超保守元件(UCE),它已被证明是各种进化时间尺度上的理想标记。在本研究中,我们从135个异变型蚂蚁标本中富集并测序了2127个UCE,并使用各种基于模型的系统发育学方法研究了系统发育。从划分的最大似然和种树分析中恢复的树得到了很好的解决,并且在很大程度上是一致的。这一结果与Ectatomminae的扩展概念一致,该概念现在包括异足虫亚科的新同义词及其单族异足虫属的新组合。11个单系群被确认为属:棘粉属、Alfaria状态恢复属、Boltonia Camacho和Feitosa新属、Ectatomma属、Gnamptogenys属、异粉属、Holcoponera状态恢复属,Poneracantha状态恢复属,本文提出的新的系统发育框架和分类将有助于Ectatcomminae分类学和系统学的研究,以及其所属类群的形态进化。
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
CiteScore
5.30
自引率
8.80%
发文量
34
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