细叶蛾的系统发育:从系统发育学和桑格数据推断的幼虫行为进化

IF 3.9 2区 生物学 Q1 EVOLUTIONARY BIOLOGY Cladistics Pub Date : 2021-10-28 DOI:10.1111/cla.12490
Xuankun Li, Ryan St Laurent, Chandra Earl, Camiel Doorenweerd, Erik J. van Nieukerken, Donald R. Davis, Chris A. Johns, Atsushi Kawakita, Shigeki Kobayashi, Andreas Zwick, Carlos Lopez-Vaamonde, Issei Ohshima, Akito Y. Kawahara
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引用次数: 10

摘要

细叶蛾科(Gracillariidae)是分布最广的世界性采叶蛾科,现有8个亚科105属近2000种。大部分的草蛉幼虫是植物内食虫,在植物组织中产生地雷和虫瘿。尽管它们具有多样性和生态适应性,但它们的系统发育关系,特别是亚科之间的系统发育关系仍然不确定。将基因组数据(83个分类群,589个基因座)与Sanger数据(130个分类群,22个基因座)相结合,重建了细叶蒿科的系统发育。通过对两个数据集的综合分析和单独分析,强有力地支持了Gracillariidae及其所有亚科、LAMPO支系(Lithocolletinae、Acrocercopinae、Marmarinae、Phyllocnistinae和Oecophyllembiinae亚科)及其AMO支系(Acrocercopinae、Marmarinae和Oecophyllembiinae)的单系性。最有可能的树支持Ornixolinae与该家族其余成员的姐妹群关系,以及单系叶滚子谱系(Callicercops Vári + Parornichinae) + Gracillariinae作为“LAMPO”分支的姐妹。年代分析表明,该科起源于白垩纪中期(105.3 Ma),随后在白垩纪-古近纪灭绝之前迅速分化为9个亚科。我们推测,先进的幼虫行为,如制造龙骨状或网状斑点矿,滚动叶子和刺痛,使细毛虫能够更好地避开幼虫寄生蜂,从而使它们进一步多样化。最后,我们通过正式重建Marmarinae stat.rev的亚科等级来稳定分类。[j];和甲壳鸟科。并建立了一个新的亚科,Callicercopinae Li, Ohshima和Kawahara,以容纳神秘的Callicercops属。
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Phylogeny of gracillariid leaf-mining moths: evolution of larval behaviour inferred from phylogenomic and Sanger data

Gracillariidae is the most taxonomically diverse cosmopolitan leaf-mining moth family, consisting of nearly 2000 named species in 105 described genera, classified into eight extant subfamilies. The majority of gracillariid species are internal plant feeders as larvae, creating mines and galls in plant tissue. Despite their diversity and ecological adaptations, their phylogenetic relationships, especially among subfamilies, remain uncertain. Genomic data (83 taxa, 589 loci) were integrated with Sanger data (130 taxa, 22 loci), to reconstruct a phylogeny of Gracillariidae. Based on analyses of both datasets combined and analyzed separately, monophyly of Gracillariidae and all its subfamilies, monophyly of the clade “LAMPO” (subfamilies: Lithocolletinae, Acrocercopinae, Marmarinae, Phyllocnistinae, and Oecophyllembiinae) and relationships of its subclade “AMO” (subfamilies: Acrocercopinae, Marmarinae, and Oecophyllembiinae) were strongly supported. A sister-group relationship of Ornixolinae to the remainder of the family, and a monophyletic leaf roller lineage (Callicercops Vári + Parornichinae) + Gracillariinae, as sister to the “LAMPO” clade were supported by the most likely tree. Dating analyses indicate a mid-Cretaceous (105.3 Ma) origin of the family, followed by a rapid diversification into the nine subfamilies predating the Cretaceous–Palaeogene extinction. We hypothesize that advanced larval behaviours, such as making keeled or tentiform blotch mines, rolling leaves and galling, allowed gracillariids to better avoid larval parasitoids allowing them to further diversify. Finally, we stabilize the classification by formally re-establishing the subfamily ranks of Marmarinae stat.rev., Oecophyllembiinae stat.rev. and Parornichinae stat.rev., and erect a new subfamily, Callicercopinae Li, Ohshima and Kawahara to accommodate the enigmatic genus Callicercops.

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来源期刊
Cladistics
Cladistics 生物-进化生物学
CiteScore
8.60
自引率
5.60%
发文量
34
期刊介绍: Cladistics publishes high quality research papers on systematics, encouraging debate on all aspects of the field, from philosophy, theory and methodology to empirical studies and applications in biogeography, coevolution, conservation biology, ontogeny, genomics and paleontology. Cladistics is read by scientists working in the research fields of evolution, systematics and integrative biology and enjoys a consistently high position in the ISI® rankings for evolutionary biology.
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