比克奈尔画眉/灰颊画眉物种复合体的遗传结构和生物地理历史

The Auk Pub Date : 2019-11-30 DOI:10.1093/auk/ukz066
A. FitzGerald, J. Weir, Joel Ralston, I. Warkentin, Darroch Whitaker, J. Kirchman
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引用次数: 8

摘要

摘要:本文通过对灰颊画眉(Catharus bicknelli) -灰颊画眉(C. minimus)物种群的物种限制、种群混合和遗传结构的研究,建立了该类群物种形成的地理和时间背景,该类群是生态学中的一个模式系统,具有高度的保护优先性。我们获得了186只毕氏画眉、77只灰颊画眉以及55只其近亲——灰颊画眉的线粒体ND2序列,并在5633个匿名单核苷酸多态性(SNP)位点上对72只个体进行了基因分型。物种间序列差异大于物种内部差异,基于贝叶斯聚结估计的物种间序列差异可追溯到晚更新世(420 kbp),基于ND2的聚结模型(IMa)显示物种间几乎没有基因流动。SNP数据与线粒体结果一致,显示物种间的混合水平较低(37只毕氏画眉中有3只、无灰颊画眉和无灰颊画眉的混合率>2%)。预测到末次盛冰期的物种分布模型表明,比克内尔画眉和灰颊画眉在晚更新世主要居住在异域避难所,这与支持生殖隔离的遗传数据在很长一段时间内一致。我们的遗传数据表明,这两个物种都经历了人口扩张,可能是当它们从更新世的避难所扩展到现在的范围时。我们认为,尽管灰颊画眉在灰颊画眉中渗透程度较低,但灰颊画眉和灰颊画眉是两个不同的种级谱系,在细微不同的生境中,长期的异种历史维持了它们的分化。它们在北方森林鸟类中独特的系统地理学表明,要么是北美东部的隐种断裂尚未被发现,要么是其他因素,如不同的自然选择、高度的迁徙连通性或种间竞争,在它们的分化中起了作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic structure and biogeographic history of the Bicknell's Thrush/Gray-cheeked Thrush species complex
ABSTRACT We examined species limits, admixture, and genetic structure among populations in the Bicknell's Thrush (Catharus bicknelli)–Gray-cheeked Thrush (C. minimus) species complex to establish the geographic and temporal context of speciation in this group, which is a model system in ecology and a high conservation priority. We obtained mitochondrial ND2 sequences from 186 Bicknell's Thrushes, 77 Gray-cheeked Thrushes, and 55 individuals of their closest relative, the Veery (C. fuscescens), and genotyped a subset of individuals (n = 72) at 5,633 anonymous single nucleotide polymorphic (SNP) loci. Between-species sequence divergence was an order of magnitude greater than divergence within each species, divergence was dated to the late Pleistocene (420 kbp) based on Bayesian coalescence estimation, and a coalescent model (IMa) revealed almost no gene flow between species based on ND2. SNP data were consistent with mitochondrial results and revealed low levels of admixture among species (3 of 37 Bicknell's Thrushes, no Gray-cheeked Thrushes, and no Veeries were >2% admixed). Species distribution models projected to the Last Glacial Maximum suggest that Bicknell's Thrush and Gray-cheeked Thrush resided in primarily allopatric refugia in the late Pleistocene, consistent with the genetic data that support reproductive isolation over an extended period of time. Our genetic data suggest that both species underwent demographic expansions, possibly as they expanded out of Pleistocene refugia into their current ranges. We conclude that Bicknell's Thrush and Gray-cheeked Thrush are 2 distinct species-level lineages despite low levels of Gray-cheeked Thrush introgression in Bicknell's Thrushes, and divergence has been maintained by a long history of allopatry in subtly different habitats. Their unique phylogeography among boreal forest birds indicates that either cryptic species breaks in eastern North America are still undiscovered, or another factor, such as divergent natural selection, high migratory connectivity, or interspecific competition, played a role in their divergence.
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