Cerurinae的系统发育系统学、多样性和生物地理学(鳞翅目:Notodontidae)及一个新属的描述

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY
Ryan A. St Laurent, Paul Z. Goldstein, James S. Miller, A. Markee, Hermann S. Staude, A. Kawahara, Scott E. Miller, Robert K. Robbins
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引用次数: 3

摘要

基于锚定杂交富集产生的666个基因座的序列数据,我们首次提出了Cerurinae蛾(Notodontidae)的分子系统发育。Cerurinae的单科已得到证实,包括以下属:Pararethona Janse、Pseudorethona Janse、Oreocerura Kiriakoff,stat.rev.、Cerurella Kiriakof、Notocerura Kiriakov、Hampsonita Kiriako夫、Afrocerura Kiryakoff、Cerurina Kiriakov、Neoharpyia Daniel、Furcula Lamarck、Neocerura Matsumura、Americura St Laurent和Goldstein,gen.nov.、Cerura Schrank,以及Kamalia Koçak和Kemal。新热带Tecmessa Burmeister属的模式种,T.annouipes(Berg),被错误地分配到Cerurinae,在Heterocampinae中被发现;并且Americerura gen.nov.被提议接收从Tecmessa转移的17种明确的尾尿物种。分歧时间估计恢复了Notodontidae与K-Pg边界大致一致的冠龄,以及Cerurinae的渐新世晚期冠龄。Cerurinae的起源于非洲,随后在中新世期间在古北极、美洲、印度尼西亚和澳大拉西亚殖民。据推测,美洲至少有三次独立的殖民地,一次发生在中新世中期,与祖先亚美利塞拉的新世代有关,两次发生在弗库拉的上新世和更新世。我们假设Cerurinae的全球传播是由其主要的杨柳科食用植物引起的。依赖于国家的多样化分析表明,在温带气候中,尾蛇的多样化最快。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phylogenetic systematics, diversification, and biogeography of Cerurinae (Lepidoptera: Notodontidae) and a description of a new genus
We present the first dated molecular phylogeny of the Cerurinae moths (Notodontidae), based on sequence data for 666 loci generated by anchored hybrid enrichment. Monophyly of Cerurinae is corroborated, which includes the following genera: Pararethona Janse, Pseudorethona Janse, Oreocerura Kiriakoff, stat. rev., Cerurella Kiriakoff, Notocerura Kiriakoff, Hampsonita Kiriakoff, Afrocerura Kiriakoff, Cerurina Kiriakoff, Neoharpyia Daniel, Furcula Lamarck, Neocerura Matsumura, Americerura St Laurent and Goldstein, gen. nov., Cerura Schrank, and Kamalia Koçak & Kemal. The type species of the Neotropical genus Tecmessa Burmeister, T. annulipes (Berg), which had been incorrectly assigned to Cerurinae, is recovered in Heterocampinae; and Americerura gen. nov. is proposed to receive 17 unambiguously cerurine species transferred from Tecmessa. Divergence time estimates recover a crown age of Notodontidae roughly coincident with the K-Pg boundary, and a late-Oligocene crown age for Cerurinae. An African origin is inferred for Cerurinae, followed by colonization of the Palearctic, the Americas, Indomalaya, and Australasia during the Miocene. At least three independent colonizations of the Americas are inferred, one in the mid-Miocene associated with ancestral Americerura gen. nov. and two in the Pliocene and Pleistocene within Furcula. We hypothesize that the global spread of Cerurinae was enabled by that of its primary caterpillar foodplants in the Salicaceae. State-dependent diversification analyses suggest that cerurines diversified most rapidly in temperate climates.
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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
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