Validating the timing of New World monkey dispersal routes by lineage dispersal modeling and description of the Amazonian eastward route

IF 1.6 3区生物学 Q2 ZOOLOGY

Journal of Mammalian Evolution Pub Date : 2024-04-26 DOI:10.1007/s10914-024-09714-7

Peter Löwenberg-Neto

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Abstract

New World monkeys (NWM) comprise a group of extant and extinct taxa exclusive to the Neotropics. Lineage dispersal modeling was employed to test the validity of previously reported biogeographic patterns in NWM. Specifically, this research sought to confirm whether the dispersal timings of these patterns were supported by the modeling results. Species geographic distributions of extant platyrrhines were used to obtain a bioregionalization scheme. A lineage dispersal model was constructed based on multiple-area range, likelihood inference of rate, and stochastic mapping under likelihood. Based on published phylogenies, ten trees were randomly sampled and, for each tree, ten stochastic mappings were simulated. Results were presented as event counts and averages across the 100 stochastic mappings, and the timings of the inferred dispersal routes were compared to the timings of 12 biogeographic pattern hypotheses gathered from the literature. The modeling analysis provided directional and temporal support for eleven of the twelve patterns. Lineages most frequently dispersed from Western Amazonia towards other bioregions. For four dispersal routes, events initiated earlier than previously reported. The Western Amazonia bioregion served as both the ancestral area and primary source of platyrrhine lineages. Analyses revealed a novel biogeographic pattern, namely the “Amazonian eastward” dispersal route, which started in the Miocene epoch, during the establishment of the transcontinental Amazon River system, and lasted until recently in an increasing trend of dispersal rate. This route showed the greatest number of dispersal events during the macroevolution of NWM.

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通过世系扩散模型和亚马逊东进路线描述，验证新大陆猴类扩散路线的时间安排

新世界猴（NWM）由新热带地区独有的现存和已灭绝类群组成。该研究采用了世系扩散模型来检验之前报道的新世界猴生物地理模式的有效性。具体而言，该研究试图证实这些模式的扩散时间是否得到了建模结果的支持。利用现存板齿类的物种地理分布获得了一个生物区域化方案。基于多区域分布、似然法推断率和似然法下的随机映射，构建了一个世系扩散模型。根据已公布的系统发生，随机抽取了十棵树，并对每棵树模拟了十种随机映射。结果以事件计数和 100 个随机映射的平均值表示，并将推断的扩散路线的时间与从文献中收集的 12 种生物地理模式假说的时间进行比较。建模分析为 12 种模式中的 11 种提供了方向和时间上的支持。最常见的扩散路线是从西亚马孙向其他生物区扩散。在四条扩散路线中，扩散开始的时间早于之前的报道。西亚马孙生物区既是鸻鹬类的祖先区，也是鸻鹬类的主要来源地。分析揭示了一种新的生物地理模式，即 "亚马逊东向 "扩散路线，该路线始于中新世时期，在横跨大陆的亚马逊河系统建立期间开始，一直持续到最近，扩散速度呈上升趋势。在西北大西洋的宏观演化过程中，这条路线发生的扩散事件最多。

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来源期刊

Journal of Mammalian Evolution ZOOLOGY-

CiteScore

4.30

自引率

10.50%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Mammalian Evolution is a multidisciplinary forum devoted to studies on the comparative morphology, molecular biology, paleobiology, genetics, developmental and reproductive biology, biogeography, systematics, ethology and ecology, and population dynamics of mammals and the ways that these diverse data can be analyzed for the reconstruction of mammalian evolution. The journal publishes high-quality peer-reviewed original articles and reviews derived from both laboratory and field studies. The journal serves as an international forum to facilitate communication among researchers in the multiple fields that contribute to our understanding of mammalian evolutionary biology.