Ecotype formation in the European anchovy fuelled by structural variants of different origins and genetic interactions with a southern lineage

Laura Meyer, Pierre Barry, Christine Arbiol, Rita Castilho, Carl David Van der Lingen, Malika Chlaïda, Niall J McKeown, Bruno Ernande, Alan Le Moan, François Bonhomme, Pierre-Alexandre Gagnaire, Bruno Guinand
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Abstract

The speciation of ecotypes can unfold in diverse ways and likely depends on multiple processes. The variants involved in ecotype divergence can include new mutations as well as older allelic variation that evolved in different contexts. Among the different types of variants that can contribute to reproductive isolation between ecotypes, structural variants (SVs) represent likely candidates due to their ability to protect divergent haplotypes from recombination and gene flow. The European anchovy (Engraulis encrasicolus) is known to be subdivided into marine and coastal ecotypes, and their divergence shows patterns that are consistent with SVs. Here, we present the first genome-scale study investigating genetic structure in the E. encrasicolus species complex. We generated a reference genome and produced whole-genome resequencing data for anchovies from the North-East Atlantic and Mediterranean Sea, as well as from South Africa. We complemented this approach with the analysis of RAD-seq data in order to study ecotypic structure across the entire distribution range. We found that genetic diversity is not only characterised by the presence of two genetic clusters, namely the marine and coastal ecotypes, but also by a third ancestry which corresponds to a southern Atlantic lineage. This lineage occurs off South Africa but also in southern Morocco and the Canary Islands, and shows a gradient of admixture with northern populations nearing the Atlantic-Mediterranean transition zone. Genomic landscapes of differentiation showed evidence for large regions of high linkage disequilibrium, likely representing SVs that differentiate the three anchovy lineages. We found evidence that three of the SVs contributing to the gene flow barrier between ecotypes originated in the southern lineage, suggesting that the coastal and southern lineages have a partly shared evolutionary history. In addition to these barriers, three other SVs contributing to ecotype differentiation appear to have evolved in situ. Anchovies thus present an interesting case for the study of ecotype speciation, since the barriers involved in reproductive isolation have different origins and have partly diverged in geographic isolation.
欧洲鳀鱼生态型的形成是由不同起源的结构变异和与南方血统的遗传相互作用促成的
生态型的物种分化可能以不同的方式展开,并可能取决于多个过程。参与生态型分化的变异可能包括新的突变以及在不同环境下进化的老的等位基因变异。在可能导致生态型之间生殖隔离的不同变异类型中,结构变异(SV)很可能是候选变异,因为它们能够保护不同的单倍型免受重组和基因流的影响。已知欧洲鳀鱼(Engraulis encrasicolus)可细分为海洋生态型和沿海生态型,它们的分化模式与 SVs 一致。在此,我们首次在基因组范围内研究了E. encrasicolus物种群的遗传结构。我们生成了一个参考基因组,并为来自东北大西洋、地中海以及南非的凤尾鱼生成了全基因组重测序数据。我们通过分析 RAD-seq 数据对这一方法进行了补充,以研究整个分布范围内的生态型结构。我们发现,遗传多样性不仅表现为两个遗传集群的存在,即海洋生态型和沿海生态型,还表现为第三个祖先,即大西洋南部的一个系。这一血统出现在南非近海,但也出现在摩洛哥南部和加那利群岛,并与大西洋-地中海过渡带附近的北方种群呈现梯度混血。基因组分化景观显示了大面积高连锁不平衡的证据,很可能代表了区分三个鳀鱼品系的 SV。我们发现有证据表明,造成生态型之间基因流动障碍的 SVs 中,有三个起源于南部品系,这表明沿海品系和南部品系有部分共同的进化历史。除了这些障碍外,另外三个导致生态型分化的 SV 似乎是在原地进化的。因此,鳀鱼是研究生态型物种分化的一个有趣案例,因为生殖隔离所涉及的障碍具有不同的起源,并在地理隔离中发生了部分分化。
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