Mitochondrial phylogenomics of the Australian scribbly gum moth Ogmograptis (Lepidoptera: Bucculatricidae) and an examination of deep-level relationships within Lepidoptera

IF 1.1 3区农林科学 Q3 ENTOMOLOGY

Austral Entomology Pub Date : 2023-10-19 DOI:10.1111/aen.12672

Stephen L. Cameron

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Abstract

Larval feeding by the moth genus Ogmograptis (Bucculatricidae: Lepidoptera) creates one of the most iconic features of the Australian bush—the ‘scribbles’ found on smooth-barked Eucalyptus. The taxonomic history of Ogmograptis has been challenging, with members of the genus being initially described in four different genera representing three different superfamilies. While prior phylogenetic analysis has placed Ogmograptis within the Bucculatricidae, these findings were not strongly supported and there was poor resolution of the early diverging, non-Apoditrysia superfamilies that Ogmograptis has been assigned to by different authors. As a consequence, the unique larval biology of scribbly moths cannot yet be interpreted in an evolutionary context. Phylogenomic analysis of whole mitochondrial (mt) genome data for Ogmograptis, related non-Apoditrysia and taxa representing the superfamily-level diversity of the order strongly supports its placement within the Bucculatricidae, a monophyletic Gracillarioidea and a clade of Gracillarioidea + Yponomeutoidea that was sister to the Apoditrysia. The hypermetamorphic larval development in Ogmograptis can thus be interpreted as an elaboration of the ancestral pattern of the clade Gracillarioidea + Yponomeutoidea that has specialised for phellogen/callus feeding within the bark. The utility of mt genomes for deep-level phylogenetic study of the Lepidoptera is reviewed against prior multi-locus and nuclear phylogenomic datasets. Mt phylogenomic analyses are sensitive to analytical methods and the inclusion versus exclusion of high-variability data partitions for deep-level relationships, already shown to be uncertain by multi-locus or nuclear phylogenomic analyses, in particular relationships between apoditrysian and obtectomeran superfamilies. While mt genomes are ideal for examining the relationships of rare, physically small or difficult to collect taxa such as Ogmograptis, due to the low technical hurdles to collecting whole genomes, continued attention to the analytical sensitivities of phylogenies that use this data source is needed to reliably advance our understanding of deep lepidopteran evolution.

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澳大利亚鳞片胶蛾 Ogmograptis（鳞翅目：Bucculatricidae）的线粒体系统发生组学及鳞翅目内部深层关系研究

蛾属 Ogmograptis（鳞翅目：鳞翅目）的幼虫取食创造了澳大利亚灌木丛最具标志性的特征之一--在光滑树皮的桉树上发现的 "涂鸦"。Ogmograptis 的分类历史充满挑战，该属的成员最初被描述为四个不同的属，代表三个不同的超科。虽然之前的系统发育分析将 Ogmograptis 归入了 Bucculatricidae，但这些结果并没有得到有力的支持，而且不同作者对 Ogmograptis 所归属的早期分化的非 Apoditrysia 超科的解析度也很低。因此，鳞翅目蛾类独特的幼虫生物学特性还不能在进化背景下进行解释。对 Ogmograptis、相关的非 Apoditrysia 和代表该目超家系多样性的类群的全线粒体（mt）基因组数据进行的系统发生组学分析，有力地支持将其归入 Bucculatricidae、单系的 Gracillarioidea 和 Gracillarioidea + Yponomeutoidea 支系，后者是 Apoditrysia 的姐妹支系。因此，Ogmograptis 幼虫的超变态发育可被解释为 Gracillarioidea + Yponomeutoidea 支系祖先模式的细化，该支系专门在树皮内取食黄柏原/胼胝体。根据先前的多焦点和核系统发生组数据集，对 mt 基因组在鳞翅目深层次系统发生研究中的实用性进行了回顾。鳞翅目系统发生组分析对分析方法以及深层关系的高变异性数据分区（多焦点或核系统发生组分析已表明其不确定）的纳入或排除很敏感，特别是apoditrysian和obtectomeran超科之间的关系。由于收集全基因组的技术障碍较低，mt 基因组是研究鳞翅目稀有、体型小或难以收集的类群（如 Ogmograptis）关系的理想选择，但要可靠地推进我们对鳞翅目深层进化的理解，还需要继续关注使用该数据源的系统发生分析的敏感性。

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来源期刊

Austral Entomology ENTOMOLOGY-

CiteScore

3.20

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0.00%

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期刊介绍： Austral Entomology is a scientific journal of entomology for the Southern Hemisphere. It publishes Original Articles that are peer-reviewed research papers from the study of the behaviour, biology, biosystematics, conservation biology, ecology, evolution, forensic and medical entomology, molecular biology, public health, urban entomology, physiology and the use and control of insects, arachnids and myriapods. The journal also publishes Reviews on research and theory or commentaries on current areas of research, innovation or rapid development likely to be of broad interest – these may be submitted or invited. Book Reviews will also be considered provided the works are of global significance. Manuscripts from authors in the Northern Hemisphere are encouraged provided that the research has relevance to or broad readership within the Southern Hemisphere. All submissions are peer-reviewed by at least two referees expert in the field of the submitted paper. Special issues are encouraged; please contact the Chief Editor for further information.