新热带山地鸟类中一个神秘的辐射——塔库洛斯角爪龙的系统学、生物地理学和多样性

The Auk Pub Date : 2020-03-21 DOI:10.1093/auk/ukz077
C. Cadena, Andrés M. Cuervo, Laura N. Céspedes, Gustavo A. Bravo, N. Krabbe, T. Schulenberg, G. Derryberry, L. F. Silveira, E. Derryberry, R. T. Brumfield, J. Fjeldså
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引用次数: 19

摘要

摘要/ ABSTRACT摘要:本文研究了新热带鸟类中分布广泛、种类丰富、分类学具有挑战性的类群——长尾鸟属(Rhinocryptidae)亚种雀形目雀形目的系统发育、生物地理和多样性。我们分析了从哥斯达黎加到巴塔哥尼亚和巴西收集的标本的分类和地理综合样本的核(外显子,超保守元件两侧的区域)和线粒体(ND2) DNA序列数据。研究发现,Scytalopus是与Eugralla同属的单系类群,由3个主要分支组成,大致分布于(1)南安第斯山脉,(2)巴西东部,(3)热带安第斯山脉和中美洲。来自南安第斯山脉和巴西东部的分支是姐妹。尽管它们在羽毛颜色、身体形状和整体外观上的一致性令人困惑,但与其他鸟类相比,自晚中新世进化支起源以来,随着时间的推移,Scytalopus的物种积累率异常高,这表明该群体存在快速的非适应性多样化。我们将其归因于它们有限的传播能力,使它们易于形成物种,并且它们出现在一个复杂的景观中,有许多促进异域分化的障碍。物种间的分化时间和近期物种积累率的下降表明,长爪龙的大多数物种形成事件早于更新世的气候振荡。我们的分析发现了多种物种内部强遗传结构和分类群单一性缺乏的情况,标记了可能值得进一步研究以澄清其分类地位的群体。特别地,详细的物种限制分析将在S. parvirostris, S. latrans, S. speluncae, S. atratus复合体和南安第斯进化支中进行。
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Systematics, biogeography, and diversification of Scytalopus tapaculos (Rhinocryptidae), an enigmatic radiation of Neotropical montane birds
ABSTRACT We studied the phylogeny, biogeography, and diversification of suboscine passerines in the genus Scytalopus (Rhinocryptidae), a widespread, species-rich, and taxonomically challenging group of Neotropical birds. We analyzed nuclear (exons, regions flanking ultraconserved elements) and mitochondrial (ND2) DNA sequence data for a taxonomically and geographically comprehensive sample of specimens collected from Costa Rica to Patagonia and Brazil. We found that Scytalopus is a monophyletic group sister to Eugralla and consists of 3 main clades roughly distributed in (1) the Southern Andes, (2) eastern Brazil, and (3) the Tropical Andes and Central America. The clades from the Southern Andes and eastern Brazil are sister to each other. Despite their confusing uniformity in plumage coloration, body shape, and overall appearance, rates of species accumulation through time in Scytalopus since the origin of the clade in the Late Miocene are unusually high compared with those of other birds, suggesting rapid non-adaptive diversification in the group. We attribute this to their limited dispersal abilities making them speciation-prone and their occurrence in a complex landscape with numerous barriers promoting allopatric differentiation. Divergence times among species and downturns in species accumulation rates in recent times suggest that most speciation events in Scytalopus predate climatic oscillations of the Pleistocene. Our analyses identified various cases of strong genetic structure within species and lack of monophyly of taxa, flagging populations which likely merit additional study to clarify their taxonomic status. In particular, detailed analyses of species limits are due in S. parvirostris, S. latrans, S. speluncae, the S. atratus complex, and the Southern Andes clade.
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