Diversification and dispersal in the Americas revealed by new phylogenies of the wrens and allies (Passeriformes: Certhioidea)

Tyler S Imfeld, F Keith Barker, Hernán Vázquez-Miranda, Jaime A Chaves, Patricia Escalante, Garth M Spellman, John Klicka
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Abstract

The passerine superfamily Certhioidea lacks a complete phylogeny despite decades of recognition as a clade and extensive systematic work within all its constituent families. Here, we inferred a near-complete species-level phylogeny of Certhioidea from a molecular supermatrix, including the first comprehensive sampling of the wrens (Troglodytidae), and used this phylogeny to infer its biogeographic and diversification histories. We also inferred an expanded phylogeny including nearly 100 putative phylospecies previously documented in the literature, and we found that including this diversity had notable impacts on the inferred evolutionary history of Certhioidea. This phylospecies-level tree documented a few instances of species paraphyly, some previously described in the literature and some novel. We found that Certhioidea originated largely in Eurasia and dispersed into North America five times in the last 20 million years, including at the origin of the “New World certhioids”, wrens and gnatcatchers, a clade herein named Orthourae. After this initial dispersal event, both wrens and gnatcatchers diversified extensively across the hemisphere, with both lineages repeatedly crossing between continents. However, we detected no notable impact of the formation of the Isthmus of Panama on the frequency of dispersal events between North and South America. The inclusion of phylospecies altered this biogeographic inference in some portions of the tree but overall was largely consistent. With species-level sampling, we found that diversification rates within Certhioidea were largely constant through time with a detectable deceleration toward the present. By contrast, phylospecies-level sampling recovered a different diversification history with a significant rate increase at the crown node of Orthourae after dispersing into the Americas and increased speciation rates particularly within the genera Polioptila and Henicorhina. This largely resolved phylogeny for Certhioidea has yielded important insights into the evolutionary history of this group and provides a framework for future comparative work on this fascinating clade.
鹪鹩及其同类(百灵纲:蝶形目)的新系统发育揭示了美洲的多样性和扩散情况
尽管数十年来Certhioidea超科一直被认为是一个支系,并在其所有组成科内开展了广泛的系统工作,但该超科仍缺乏完整的系统发生。在这里,我们从分子超级矩阵中推断出了一个近乎完整的Certhioidea物种水平的系统发生,包括对鹪鹩科(Troglodytidae)的首次全面取样,并利用该系统发生推断其生物地理学和多样化历史。我们还推断了一个扩展的系统发生,其中包括近 100 个以前在文献中记载的假定系统物种,我们发现包括这些多样性对推断 Certhioidea 的进化历史有显著影响。这棵系统物种水平的树记录了一些物种旁系的情况,有些是以前在文献中描述过的,有些则是新发现的。我们发现,瓣鳃纲主要起源于欧亚大陆,在过去的 2000 万年中曾五次扩散到北美洲,包括 "新世界瓣鳃纲"、鹪鹩和杓鹬的起源地,该支系在此被命名为 Orthourae。在这一最初的扩散事件之后,鹪鹩和食蚁兽在半球范围内广泛地进行了多样化,两个种系都多次在各大洲之间交叉。然而,我们没有发现巴拿马地峡的形成对南美和北美之间的扩散事件的频率有明显的影响。纳入系统物种后,生物地理推断树的某些部分发生了变化,但总体上基本一致。通过物种水平的取样,我们发现 Certhioidea 的多样化率在很大程度上随着时间的推移而保持稳定,但到了现在却出现了明显的减速。与此相反,系统种级取样则发现了不同的分化历史,Orthourae 在扩散到美洲后,其冠节点的分化率显著上升,而 Polioptila 属和 Henicorhina 属的分化率也有所上升。这一已基本解决的角龙类系统发生对该类群的进化历史产生了重要的影响,并为这一迷人支系未来的比较工作提供了一个框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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