Molecular, morphometric, and spatial data analyses provide new insights into the evolutionary history of the Peromyscus boylii species complex (Rodentia: Cricetidae) in the mountains of Mexico

IF 1.8 3区环境科学与生态学 Q2 BIODIVERSITY CONSERVATION

Systematics and Biodiversity Pub Date : 2022-10-20 DOI:10.1080/14772000.2022.2127966

M. Á. León-Tapia, Yessica Rico, Jesús A. Fernández, A. Espinosa de los Monteros

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引用次数: 0

Abstract

Peromyscus is the most speciose genus in America, which occupies almost every terrestrial habitat type. However, its taxonomy and evolutionary relationships remain unsolved in several species, one species group with these issues is the P. boylii complex. This complex consists of 11 species (P. beatae, P. boylii, P. carletoni, P. ensinki, P. greenbaumi, P. kilpatricki, P. levipes, P. madrensis, P. schmidlyi, P. simulus, and P. stephani) largely distributed in Mexico and has been taxonomically studied during the last 40 years, resulting in the description of new species, several of them from the mountains of central Mexico. In this study, we aimed to integrate molecular, morphometric, and spatial data analysis approaches to inquire into the phylogenetic relationships. To clarify the taxonomic status of the P. boylii complex, particularly for the species distributed in the central Mexican highlands where the taxonomic uncertainty is high. We performed phylogenetic and divergence time analyses based on four molecular markers for all species within the complex, we explored cranium shape and size variation in 146 individuals of continental species (P. madrensis and P. stephani excluded) using geometric morphometrics. Also, we evaluated environmental differentiation and ecological niche modeling analyses of three species endemic to the central Mexican highlands to retrieve evidence on their evolutionary history. Our results recovered one well-supported clade including all mountainous species, in which P. schmidlyi was sister to the clade composed of P. greenbaumi and P. ensinki, which diverged during the late Pleistocene. The novel morphological data allowed a better differentiation of all continental species. The discovery of new specimens for P. greenbaumi and P. ensinki improved their taxonomic knowledge, as well as delimiting their habitat and distribution, showing substantial environmental divergence with low overlapped geographical distributions; P. schmidlyi restricted to the Sierra Madre Occidental, P. ensinki to the central-west Trans-Mexican Volcanic Belt, and P. greenbaumi to the center of the Sierra Madre del Sur. We discuss the biogeographic history of these three lineages and the role of the late Pleistocene climatic oscillations on their diversification.

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分子，形态计量学和空间数据分析为墨西哥山区Peromyscus boylii物种复合体(啮齿目:蟋蟀科)的进化史提供了新的见解

Peromyscus是美洲物种最多的属，几乎占据了所有陆生生境类型。然而，在一些物种中，其分类和进化关系仍未得到解决，其中一个物种群是P. boylii复合体。该群落由11种(P. beatae、P. boylii、P. carletoni、P. ensinki、P. greenbaumi、P. kilpatricki、P. levipes、P. madrensis、P. schmidlyi、P. simulus和P. stephani)组成，主要分布于墨西哥，近40年来对其进行了分类研究，并发现了一些新物种，其中一些来自墨西哥中部山区。在这项研究中，我们旨在整合分子，形态计量学和空间数据分析方法来探讨系统发育关系。目的:明确波依利木复合体的分类地位，特别是分布在墨西哥中部高地的波依利木复合体的分类不确定性较高。基于四种分子标记对该复合区内所有物种进行了系统发育和分化时间分析，并利用几何形态计量学对146个大陆物种(不包括马德伦猿人和stephani猿人)的颅骨形状和大小进行了研究。此外，我们评估了墨西哥中部高地特有的三种物种的环境分化和生态位建模分析，以检索其进化史的证据。我们的结果恢复了一个支持良好的分支，包括所有山地物种，其中P. schmidlyi是P. greenbaumi和P. ensinki组成的分支的姐妹，后者在晚更新世分化。这些新的形态学数据使我们能够更好地区分所有大陆物种。新标本的发现提高了两种植物的分类学知识，明确了两种植物的生境和分布，环境差异明显，地理分布重叠程度低;P. schmidlyi局限于西马德雷山脉，P. ensinki局限于跨墨西哥火山带的中西部，P. greenbaumi局限于南马德雷山脉的中心。我们讨论了这三个谱系的生物地理历史以及晚更新世气候振荡对其多样化的作用。

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来源期刊

Systematics and Biodiversity 环境科学-生物多样性保护

CiteScore

4.10

自引率

0.00%

发文量

审稿时长

>24 weeks

期刊介绍： Systematics and Biodiversity is devoted to whole-organism biology. It is a quarterly, international, peer-reviewed, life science journal, without page charges, which is published by Taylor & Francis for The Natural History Museum, London. The criterion for publication is scientific merit. Systematics and Biodiversity documents the diversity of organisms in all natural phyla, through taxonomic papers that have a broad context (not single species descriptions), while also addressing topical issues relating to biological collections, and the principles of systematics. It particularly emphasises the importance and multi-disciplinary significance of systematics, with contributions which address the implications of other fields for systematics, or which advance our understanding of other fields through taxonomic knowledge, especially in relation to the nature, origins, and conservation of biodiversity, at all taxonomic levels. The journal does not publish single species descriptions, monographs or applied research nor alpha species descriptions. Taxonomic manuscripts must include modern methods such as cladistics or phylogenetic analysis.