Bayesian tip-dated timeline for diversification and major biogeographic events in Muroidea (Rodentia), the largest mammalian radiation.

IF 4.4 1区 生物学 Q1 BIOLOGY BMC Biology Pub Date : 2024-11-25 DOI:10.1186/s12915-024-02053-2
Raquel López-Antoñanzas, Tiago R Simões, Fabien L Condamine, Moritz Dirnberger, Pablo Peláez-Campomanes
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Abstract

Background: Extinct organisms provide vital information about the time of origination and biogeography of extant groups. The development of phylogenetic methods to study evolutionary processes through time has revolutionized the field of evolutionary biology and led to an unprecedented expansion of our knowledge of the tree of life. Recent developments applying Bayesian approaches, using fossil taxa as tips to be included alongside their living relatives, have revitalized the use of morphological data in evolutionary tree inferences. Eumuroida rodents represent the largest group of mammals including more than a quarter of all extant mammals and have a rich fossil record spanning the last ~ 45 million years. Despite this wealth of data, our current understanding of the classification, major biogeographic patterns, and divergence times for this group comes from molecular phylogenies that use fossils only as a source of node calibrations. However, node calibrations impose several constraints on tree topology and must necessarily make a priori assumptions about the placement of fossil taxa without testing their placement in the tree.

Results: We present the first morphological dataset with extensive fossil sampling for Muroidea. By applying Bayesian morphological clocks with tip dating and process-based biogeographic models, we provide a novel hypothesis for muroid relationships and revised divergence times for the clade that incorporates uncertainty in the placement of all fossil species. Even under strong violation of the clock model, we found strong congruence between results for divergence times, providing a robust timeline for muroid diversification. This new timeline was used for biogeographic analyses, which revealed a dynamic scenario mostly explained by dispersal events between and within the Palearctic and North African regions.

Conclusions: Our results provide important insights into the evolution of Muroidea rodents and clarify the evolutionary pathways of their main lineages. We exploited the advantage of tip dating Bayesian approaches in morphology-based datasets and provided a classification of the largest superfamily of mammals resulting from robust phylogenetic inference, inferring the biogeographical history, diversification, and divergence times of its major lineages.

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用贝叶斯方法确定哺乳动物最大辐射群啮齿目(Muroidea)的多样化和主要生物地理事件的时间轴。
背景:已灭绝的生物提供了关于现生类群起源时间和生物地理学的重要信息。通过系统发生学方法研究进化过程的发展彻底改变了进化生物学领域,使我们对生命树的了解得到了前所未有的扩展。最近,应用贝叶斯方法的发展,将化石类群作为提示,与其活体亲缘类群并列,使形态学数据在进化树推断中的应用焕发出新的活力。啮齿动物是哺乳动物中最大的类群,占现存哺乳动物总数的四分之一以上,其化石记录丰富,跨越了过去约 4500 万年。尽管有如此丰富的数据,我们目前对该类群的分类、主要生物地理学模式和分化时间的理解仍来自分子系统进化,而分子系统进化仅使用化石作为节点校准的来源。然而,节点校准对树的拓扑结构施加了一些限制,而且必须先验地假设化石类群的位置,而不测试它们在树中的位置:我们首次提出了具有广泛化石取样的室女目形态学数据集。通过应用贝叶斯形态学时钟与尖端测年和基于过程的生物地理学模型,我们为uroid的关系提供了一个新的假说,并修订了该支系的分化时间,其中包含了所有化石物种位置的不确定性。即使在强烈违反时钟模型的情况下,我们也发现了分化时间结果之间的高度一致性,为栗鼠类的分化提供了一个可靠的时间表。这一新的时间轴被用于生物地理学分析,分析结果表明,在古北界和北非地区之间和内部发生的扩散事件可以解释这种动态情况:我们的研究结果为研究啮齿类动物的进化提供了重要依据,并阐明了其主要类群的进化路径。我们利用基于形态学数据集的尖端年代贝叶斯方法的优势,通过稳健的系统发育推断对哺乳动物中最大的超科进行了分类,推断了其主要品系的生物地理历史、多样化和分化时间。
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来源期刊
BMC Biology
BMC Biology 生物-生物学
CiteScore
7.80
自引率
1.90%
发文量
260
审稿时长
3 months
期刊介绍: BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.
期刊最新文献
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