Opening the species box: What parsimonious microscopic models of speciation have to say about macroevolution.

IF 2.1 3区 生物学 Q3 ECOLOGY Journal of Evolutionary Biology Pub Date : 2024-10-28 DOI:10.1093/jeb/voae134
Élisa Couvert, François Bienvenu, Jean-Jil Duchamps, Adélie Erard, Verónica Miró Pina, Emmanuel Schertzer, Amaury Lambert
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Abstract

In the last two decades, lineage-based models of diversification, where species are viewed as particles that can divide (speciate) or die (become extinct) at rates depending on some evolving trait, have been very popular tools to study macroevolutionary processes. Here, we argue that this approach cannot be used to break down the inner workings of species diversification and that "opening the species box" is necessary to understand the causes of macroevolution, but that too detailed speciation models also fail to make robust macroevolutionary predictions. We set up a general framework for parsimonious models of speciation that rely on a minimal number of mechanistic principles: (i) reproductive isolation is caused by excessive dissimilarity between genotypes; (ii) dissimilarity results from a balance between differentiation processes and homogenizing processes; and (iii) dissimilarity can feed back on these processes by decelerating homogenization. We classify such models according to the main homogenizing process : (1) clonal evolution models (ecological drift), (2) models of genetic isolation (gene flow) and (3) models of isolation by distance (spatial drift). We review these models and their specific predictions on macroscopic variables such as species abundances, speciation rates, interfertility relationships or phylogenetic tree structure. We propose new avenues of research by displaying conceptual questions remaining to be solved and new models to address them: the failure of speciation at secondary contact, the feedback of dissimilarity on homogenization, the emergence in space of breeding barriers.

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打开物种箱:物种演化的准微观模型对宏观进化的启示。
在过去的二十年中,基于世系的物种多样化模型一直是研究宏观进化过程的流行工具,在这种模型中,物种被视为可以根据某种进化特征以一定的速率分裂(物种分化)或死亡(灭绝)的微粒。在这里,我们认为这种方法不能用来分解物种多样化的内部运作,"打开物种的盒子 "对于理解宏观进化的原因是必要的,但过于详细的物种演化模型也无法做出强有力的宏观进化预测。我们为物种分化的简约模型建立了一个总体框架,这些模型依赖于最低数量的机理原则:(i) 生殖隔离是由基因型之间的过度差异造成的;(ii) 差异性是分化过程和同质化过程之间平衡的结果;(iii) 差异性可以通过减缓同质化反作用于这些过程。我们根据主要的同质化过程对这些模型进行分类:(1) 克隆进化模型(生态漂移),(2) 基因隔离模型(基因流)和 (3) 距离隔离模型(空间漂移)。我们回顾了这些模型及其对物种丰度、物种分化率、种间关系或系统树结构等宏观变量的具体预测。我们通过展示尚待解决的概念性问题和解决这些问题的新模型,提出了新的研究途径:物种在二次接触中的失败、异质性对同质化的反馈、繁殖障碍在空间中的出现。
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来源期刊
Journal of Evolutionary Biology
Journal of Evolutionary Biology 生物-进化生物学
CiteScore
4.20
自引率
4.80%
发文量
152
审稿时长
3-6 weeks
期刊介绍: It covers both micro- and macro-evolution of all types of organisms. The aim of the Journal is to integrate perspectives across molecular and microbial evolution, behaviour, genetics, ecology, life histories, development, palaeontology, systematics and morphology.
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