Caught in the Act: Incipient Speciation at the Southern Limit of Viburnum in the Central Andes.

IF 6.1 1区 生物学 Q1 EVOLUTIONARY BIOLOGY Systematic Biology Pub Date : 2024-10-25 DOI:10.1093/sysbio/syae023
Carlos A Maya-Lastra, Patrick W Sweeney, Deren A R Eaton, Vania Torrez, Carla Maldonado, Malu I Ore-Rengifo, Mónica Arakaki, Michael J Donoghue, Erika J Edwards
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Abstract

A fundamental objective of evolutionary biology is to understand the origin of independently evolving species. Phylogenetic studies of species radiations rarely are able to document ongoing speciation; instead, modes of speciation, entailing geographic separation and/or ecological differentiation, are posited retrospectively. The Oreinotinus clade of Viburnum has radiated recently from north to south through the cloud forests of Mexico and Central America to the Central Andes. Our analyses support a hypothesis of incipient speciation in Oreinotinus at the southern edge of its geographic range, from central Peru to northern Argentina. Although several species and infraspecific taxa have been recognized in this area, multiple lines of evidence and analytical approaches (including analyses of phylogenetic relationships, genetic structure, leaf morphology, and climatic envelopes) favor the recognition of just a single species, V. seemenii. We show that what has previously been recognized as V. seemenii f. minor has recently occupied the drier Tucuman-Bolivian forest region from Samaipata in Bolivia to Salta in northern Argentina. Plants in these populations form a well-supported clade with a distinctive genetic signature and they have evolved smaller, narrower leaves. We interpret this as the beginning of a within-species divergence process that has elsewhere in the neotropics resulted repeatedly in Viburnum species with a particular set of leaf ecomorphs. Specifically, the southern populations are in the process of evolving the small, glabrous, and entire leaf ecomorph that has evolved in four other montane areas of endemism. As predicted based on our studies of leaf ecomorphs in Chiapas, Mexico, these southern populations experience generally drier conditions, with large diurnal temperature fluctuations. In a central portion of the range of V. seemenii, characterized by wetter climatic conditions, we also document what may be the initial differentiation of the leaf ecomorph with larger, pubescent, and toothy leaves. The emergence of these ecomorphs thus appears to be driven by adaptation to subtly different climatic conditions in separate geographic regions, as opposed to parapatric differentiation along elevational gradients as suggested by Viburnum species distributions in other parts of the neotropics.

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被逮个正着:安第斯山脉中部紫云英南缘的物种萌芽。
进化生物学的一个基本目标是了解独立进化物种的起源。物种辐射的系统发育研究很少能够记录正在进行的物种分化;相反,物种分化的模式,包括地理分离和/或生态分化,都是回溯性的假设。最近,紫云英的 Oreinotinus 支系从北向南辐射,穿过墨西哥和中美洲的云雾林,到达中安第斯山脉。我们的分析支持一种假设,即在秘鲁中部到阿根廷北部的 Oreinotinus 地理分布范围的南部边缘,其物种刚刚开始分化。尽管在这一地区已经发现了多个物种和种下类群,但多种证据和分析方法(包括系统发育关系、遗传结构、叶片形态学和气候包络分析)都支持只承认一个物种,即 V. seemenii。我们的研究表明,以前被认为是 V. seemenii f. minor 的物种最近占据了从玻利维亚的萨马伊帕塔到阿根廷北部萨尔塔的图库曼-玻利维亚森林地区。这些种群中的植物形成了一个具有独特遗传特征的支持良好的支系,它们进化出了更小、更窄的叶片。我们将此解释为种内分化过程的开始,这种分化过程在新热带地区的其他地方曾多次导致紫云英物种具有一套特殊的叶片非形态。具体来说,南方种群正在进化出小的、无毛的、全缘叶的叶片异形,而这种叶片异形已经在其他四个山地特有地区进化出来了。根据我们对墨西哥恰帕斯州叶片异形的研究预测,这些南部种群通常较为干燥,昼夜温度波动较大。在V. seemenii分布区的中部,气候条件较为潮湿,我们还记录了叶片的最初分化,叶片较大、有短柔毛和齿状突起。因此,这些非形态的出现似乎是为了适应不同地理区域微妙不同的气候条件,而不是像新热带地区其他地方的紫云英物种分布所表明的那样,沿着海拔梯度进行同域分化。
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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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