Introgression Underlies Phylogenetic Uncertainty But Not Parallel Plumage Evolution in a Recent Songbird Radiation.

IF 6.1 1区 生物学 Q1 EVOLUTIONARY BIOLOGY Systematic Biology Pub Date : 2024-05-27 DOI:10.1093/sysbio/syad062
Loïs Rancilhac, Erik D Enbody, Rebecca Harris, Takema Saitoh, Martin Irestedt, Yang Liu, Fumin Lei, Leif Andersson, Per Alström
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Abstract

Instances of parallel phenotypic evolution offer great opportunities to understand the evolutionary processes underlying phenotypic changes. However, confirming parallel phenotypic evolution and studying its causes requires a robust phylogenetic framework. One such example is the "black-and-white wagtails," a group of 5 species in the songbird genus Motacilla: 1 species, Motacilla alba, shows wide intra-specific plumage variation, while the 4r others form 2 pairs of very similar-looking species (M. aguimp + M. samveasnae and M. grandis + M. maderaspatensis, respectively). However, the 2 species in each of these pairs were not recovered as sisters in previous phylogenetic inferences. Their relationships varied depending on the markers used, suggesting that gene tree heterogeneity might have hampered accurate phylogenetic inference. Here, we use whole genome resequencing data to explore the phylogenetic relationships within this group, with a special emphasis on characterizing the extent of gene tree heterogeneity and its underlying causes. We first used multispecies coalescent methods to generate a "complete evidence" phylogenetic hypothesis based on genome-wide variants, while accounting for incomplete lineage sorting (ILS) and introgression. We then investigated the variation in phylogenetic signal across the genome to quantify the extent of discordance across genomic regions and test its underlying causes. We found that wagtail genomes are mosaics of regions supporting variable genealogies, because of ILS and inter-specific introgression. The most common topology across the genome, supporting M. alba and M. aguimp as sister species, appears to be influenced by ancient introgression. Additionally, we inferred another ancient introgression event, between M. alba and M. grandis. By combining results from multiple analyses, we propose a phylogenetic network for the black-and-white wagtails that confirms that similar phenotypes evolved in non-sister lineages, supporting parallel plumage evolution. Furthermore, the inferred reticulations do not connect species with similar plumage coloration, suggesting that introgression does not underlie parallel plumage evolution in this group. Our results demonstrate the importance of investing genome-wide patterns of gene tree heterogeneity to help understand the mechanisms underlying phenotypic evolution. [Gene tree heterogeneity; incomplete lineage sorting; introgression; parallel evolution; phylogenomics; plumage evolution; wagtails.].

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在最近的鸣禽辐射中,渗入是系统发育不确定性的基础,但不是平行的羽毛进化。
平行表型进化的实例为理解表型变化背后的进化过程提供了巨大的机会。然而,确认平行表型进化并研究其原因需要一个强大的系统发育框架。一个这样的例子是“黑白摇尾鸟”,这是鸣禽属中的五个物种:其中一个物种,白蛾,表现出广泛的特定内部羽毛变化,而其他四个物种则形成了两对长相非常相似的物种(分别是M.aguimp+M.samveasnae和M.grandis+M.maderaspatensis)。然而,在之前的系统发育推断中,每对中的两个物种都没有被恢复为姐妹。它们的关系因所用标记的不同而不同,这表明基因树的异质性可能阻碍了准确的系统发育推断。在这里,我们使用全基因组重新测序数据来探索这一群体内的系统发育关系,特别强调描述基因树异质性的程度及其潜在原因。我们首先使用多谱系联合方法,基于全基因组变异生成“完全证据”系统发育假说,同时考虑不完全谱系排序(ILS)和渐渗。然后,我们研究了整个基因组系统发育信号的变化,以量化整个基因组区域的不一致程度,并测试其潜在原因。我们发现,由于ILS和特异性间渗入,摇尾鱼基因组是支持可变谱系的区域的镶嵌。整个基因组中最常见的拓扑结构,支持M.alba和M.aguimp作为姐妹物种,似乎受到了古代渗入的影响。此外,我们推断了另一个古老的渗入事件,在M.alba和M.grandis之间。通过结合多项分析的结果,我们提出了一个黑白摇尾鱼的系统发育网络,该网络证实了类似的表型在非姐妹谱系中进化,支持平行的羽毛进化。此外,推断出的网状结构并没有将具有相似羽毛颜色的物种联系起来,这表明渐渗并不是这一群体平行羽毛进化的基础。我们的研究结果证明了研究基因树异质性的全基因组模式对理解表型进化机制的重要性。
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来源期刊
Systematic Biology
Systematic Biology 生物-进化生物学
CiteScore
13.00
自引率
7.70%
发文量
70
审稿时长
6-12 weeks
期刊介绍: Systematic Biology is the bimonthly journal of the Society of Systematic Biologists. Papers for the journal are original contributions to the theory, principles, and methods of systematics as well as phylogeny, evolution, morphology, biogeography, paleontology, genetics, and the classification of all living things. A Points of View section offers a forum for discussion, while book reviews and announcements of general interest are also featured.
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