Mitochondrial genomes and thousands of ultraconserved elements resolve the taxonomy and historical biogeography of the Euphonia and Chlorophonia finches (Passeriformes: Fringillidae)

The Auk Pub Date : 2020-04-16 DOI:10.1093/auk/ukaa016
Tyler S Imfeld, F. Barker, R. T. Brumfield
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引用次数: 8

Abstract

ABSTRACT Relationships of the Neotropical finches in the genera Euphonia and Chlorophonia (Fringillidae: Euphoniinae) have been clarified by recent molecular studies, but species-level relationships within this group have not been thoroughly addressed. In this study, we sampled specimens representing every recognized species of these genera, in addition to 2 outgroup taxa, and used target enrichment to sequence thousands of ultraconserved element (UCE) loci, as well as mitochondrial DNA reconstructed from off-target reads, from each specimen to infer these relationships. We constructed both concatenation and coalescent-based estimates of phylogeny from this dataset using matrices of varying levels of completeness, and we generated a time-scaled ultrametric tree using a recently published fossil-based external calibration. We found uniformly strong support for a monophyletic subfamily Euphoniinae and genus Chlorophonia, but a paraphyletic Euphonia across UCEs and mitochondrial genomes. Otherwise, our inferred relationships were largely concordant with previous studies. Our time-tree indicated a stem divergence time of 13.8 million years ago for this lineage, followed by a relatively young crown age of only 7.1 myr. Reconstructions of biogeographic history based on this tree suggest a South American origin for crown Euphoniinae, possibly resulting from a transoceanic dispersal event from the Eastern Hemisphere, followed by 2 dispersal events into the Caribbean and as many as 6 invasions of North America coinciding with recent estimates of the age at which the Isthmus of Panama had completely formed. We recommend splitting Euphonia and resurrecting the genus Cyanophonia for the 3 blue-hooded species more closely related to Chlorophonia. Based on our results, we suspect that there is undescribed species-level diversity in at least one, possibly many, widespread and phenotypically diverse species.
线粒体基因组和数千个超保守元件解析了大鸣雀和绿鸣雀的分类和历史生物地理学(雀形目:翅雀科)
最近的分子研究已经澄清了新热带雀鸟属大鸣鸟和绿鸣鸟的关系,但这一类群内的物种水平关系尚未得到彻底解决。在这项研究中,我们采样了这些属的每个已知物种的标本,以及2个外群分类群,并使用目标富集对每个标本的数千个超保守元件(UCE)位点进行测序,以及从脱靶reads重建的线粒体DNA,以推断这些关系。我们使用不同完整性水平的矩阵从该数据集构建了基于串联和聚结的系统发育估计,并使用最近发表的基于化石的外部校准生成了一个时间尺度的超测量树。我们在UCEs和线粒体基因组中发现了统一的强支持单系的Euphonia亚科和Chlorophonia属,但一个副系的Euphonia。除此之外,我们推断的关系与以前的研究基本一致。我们的时间树显示,这个谱系的茎分化时间为1380万年前,随后是一个相对年轻的树冠年龄,只有7.1亿古。基于这棵树的生物地理历史重建表明,冠Euphoniinae起源于南美洲,可能是由于东半球的越洋扩散事件,随后两次扩散到加勒比海,以及多达6次入侵北美,这与最近对巴拿马地峡完全形成的年龄的估计相吻合。我们建议将Euphonia拆分,并将与Chlorophonia关系更密切的3个蓝冠物种重新命名为Cyanophonia属。根据我们的研究结果,我们怀疑在至少一种,可能是许多种,广泛分布和表型多样化的物种中存在未描述的物种水平多样性。
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