Phylogenomics resolves the backbone of Poales and identifies signals of hybridization and polyploidy

IF 3.6 1区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Molecular Phylogenetics and Evolution Pub Date : 2024-08-30 DOI:10.1016/j.ympev.2024.108184
Huijun Wang , Zhigang Wu , Tao Li , Jindong Zhao
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Abstract

Poales, as one of the largest orders of angiosperm, holds crucial economic and ecological importance. Nevertheless, achieving a consensus topology has been challenging in previous studies due to limited molecular data and sparse taxon sampling. The uneven distribution of species diversity among families and the factors leading to elevated species richness in certain lineages have also been subjects of ongoing discussion and investigation. In this study, we conducted a comprehensive sampling, including representatives from all 14 families and 85 taxa of Poales, along with five additional outgroups. To reconstruct the phylogeny of Poales, we employed a combination of coalescent and concatenation methods on three nuclear gene sets (1093, 491, 143) and one plastid gene set (53), which were inferenced from genomic data. We also conducted phylogenetic hypothesis analyses to evaluate two major conflicting nodes detected in phylogenetic analyses. As a result, we successfully resolved the backbone of Poales and provided a timeline for its evolutionary history. We recovered the sister relationship between Typhaceae and Bromeliaceae as the earliest diverging families within Poales. The clade consisting of Ecdeiocoleaceae and Joinvilleaceae was recovered as the sister group of Poaceae. Within the xyrid clade, Mayacaceae and Erioaculaceae + Xyridaceae successively diverged along the backbone of Poales. The topology of [Aristidoideae, ((Micrairoideae, Panicoideae), (Arundinoideae, (Chloridoideae, Danthonioideae)))] within the PACMAD clade has received strong support from multiple findings. We also delved into the underlying biological factors that contributed to the conflicting nodes observed in the phylogenetic analysis. Apart from the uncertainty regarding the sister group of Poaceae caused by cytonuclear discordance, frequent hybridization and polyploidy may have contributed to other conflicting nodes. We identified 26 putative whole-genome duplication (WGD) events within Poales. However, apart from the σ-WGD and the ρ-WGD, we did not observe any potential polyploid events that could be directly linked to the species diversification in specific lineages. Furthermore, there was a significant increase in the net diversification rate of Poales following the K-Pg boundary.

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系统发生组学解决了 Poales 的骨干问题,并确定了杂交和多倍体的信号。
被子植物是被子植物中最大的类群之一,具有重要的经济和生态意义。然而,由于分子数据有限和分类群取样稀少,在以往的研究中达成共识的拓扑学一直是个挑战。科间物种多样性的不均衡分布以及导致特定品系物种丰富度高的因素也一直是讨论和研究的主题。在本研究中,我们进行了全面取样,包括 Poales 全部 14 个科和 85 个类群的代表,以及另外 5 个外群。为了重建 Poales 的系统发育,我们在三个核基因集(1093、491、143)和一个质体基因集(53)上综合使用了凝聚法和连接法,这些基因集是从基因组数据中推断出来的。我们还进行了系统发育假设分析,以评估系统发育分析中发现的两个主要矛盾节点。结果,我们成功地解析了 Poales 的骨干,并提供了其进化历史的时间表。我们发现酪草科(Typhaceae)与凤仙花科(Bromeliaceae)之间存在姊妹关系,是 Poales 中最早分化的科。由酢浆草科(Ecdeiocoleaceae)和酢浆草科(Joinvilleaceae)组成的支系被复原为 Poaceae 的姊妹群。在绣线菊支系中,Mayacaceae 和 Erioaculaceae + Xyridaceae 沿着 Poales 的主干先后分化。在 PACMAD 支系中,[Aristidoideae, ((Micrairoideae, Panicoideae), (Arundinoideae, (Chloridoideae, Danthonioideae))] 的拓扑结构得到了多项研究结果的有力支持。我们还深入研究了导致系统发生分析中观察到的节点相互矛盾的潜在生物学因素。除了细胞核不一致导致的 Poaceae 植物姊妹群的不确定性外,频繁杂交和多倍体也可能是造成其他冲突节点的原因。我们在 Poales 中发现了 26 个推定的全基因组重复(WGD)事件。然而,除了σ-WGD和ρ-WGD外,我们没有观察到任何可能与特定品系的物种多样化直接相关的多倍体事件。此外,在K-Pg边界之后,Poales的净变异率明显增加。
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来源期刊
Molecular Phylogenetics and Evolution
Molecular Phylogenetics and Evolution 生物-进化生物学
CiteScore
7.50
自引率
7.30%
发文量
249
审稿时长
7.5 months
期刊介绍: Molecular Phylogenetics and Evolution is dedicated to bringing Darwin''s dream within grasp - to "have fairly true genealogical trees of each great kingdom of Nature." The journal provides a forum for molecular studies that advance our understanding of phylogeny and evolution, further the development of phylogenetically more accurate taxonomic classifications, and ultimately bring a unified classification for all the ramifying lines of life. Phylogeographic studies will be considered for publication if they offer EXCEPTIONAL theoretical or empirical advances.
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