Phylogeographic breaks and how to find them: An empirical attempt at separating vicariance from isolation by distance in a lizard with restricted dispersal

Loïs Rancilhac, Aurélien Miralles, Philippe Geniez, Daniel Mendez-Aranda, Menad Beddek, José Carlos Brito, Raphaël Leblois, Pierre-André Crochet
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Abstract

Aim: Discontinuity in the distribution of genetic diversity (often based on mtDNA) is usually interpreted as evidence for phylogeographic breaks, underlying vicariant units. However, a misleading signal of phylogeographic break can arise in the absence of barrier to gene flow, under mechanisms of isolation by distance (IBD). How and under which conditions phylogeographic breaks can be reliably differentiated from populations evolving under IBD remain unclear. Here, we use multi-locus sequence data from a widely distributed lizard species to address these questions in an empirical setting. Location: Morocco. Taxon: Spiny-footed lizard (Acanthodactylus erythrurus), Squamata: Lacertidae. Methods: Using 325 samples from 40 localities, we identified genetic discontinuities within A. erythrurus based on a mitochondrial fragment and nine nuclear markers independently. Using the nuclear markers, we then applied linear regression models to investigate whether genetic divergence could be explained by geographical distances alone, or barriers to gene flow (real phylogeographic breaks). Results: A. erythrurus is characterized by an important mitochondrial diversity, with 11 strongly supported phylogeographic lineages with a crown age of 6 Mya. Nuclear markers, however, yielded weak phylogenetic support for these lineages. Using clustering methods based on genotypes at nine nuclear loci, we identified phylogeographic clusters that were partly discordant with the mtDNA lineages. Tests of IBD delimited at least four groups of populations separated by barriers to gene flow, but unambiguous separation of vicariance from IBD remained challenging in several cases. Main conclusions: The genetic diversity of A. erythrurus originates from a mix of IBD and vicariance, which were difficult to distinguish, and resulted in similar levels of mitochondrial differentiation. These results highlight that phylogeographic breaks inferred from mitochondrial data should be further investigated using multi-locus data and explicit testing to rule out alternative processes generating discontinuities in mitochondrial diversity, including IBD. We identified four groups of populations within A. erythrurus, separated by barriers to gene flow, but even using nine independent nuclear makers the power of our approach was limited, and further investigation using genome-wide data will be required to resolve the phylogeographic history of this species.
系统地理上的断裂以及如何发现它们:在一种分布受限的蜥蜴中,通过距离来区分变异和隔离的经验尝试
目的:遗传多样性分布的不连续性(通常基于mtDNA)通常被解释为系统地理断裂的证据,是替代单位的基础。然而,在距离隔离机制(IBD)下,在缺乏基因流动屏障的情况下,可能会出现误导性的系统地理断裂信号。系统地理断裂如何以及在何种条件下可以可靠地从IBD下进化的种群中区分出来仍不清楚。在这里,我们使用来自广泛分布的蜥蜴物种的多位点序列数据来解决这些问题的经验设置。地点:摩洛哥。分类群:棘足蜥蜴(棘足蜥),鳞蜥科。方法:利用来自40个地区的325份样本,分别根据线粒体片段和9个核标记鉴定出赤藓属植物的遗传不连续性。利用核标记,我们随后应用线性回归模型来研究遗传差异是否可以单独用地理距离来解释,还是用基因流动的障碍(真正的系统地理断裂)来解释。结果:赤藓具有重要的线粒体多样性,有11个有力支持的系统地理谱系,树冠年龄为6 Mya。然而,核标记为这些谱系提供了微弱的系统发育支持。利用基于9个核位点基因型的聚类方法,我们确定了与mtDNA谱系部分不一致的系统地理聚类。对IBD的检测至少划分了四组被基因流动障碍隔离的人群,但在一些病例中,从IBD中明确分离突变仍然具有挑战性。主要结论:a . erythrurus的遗传多样性来源于IBD和vicariance的混合,难以区分,导致线粒体分化水平相似。这些结果强调,从线粒体数据推断出的系统地理断裂应该进一步研究,使用多位点数据和明确的测试,以排除导致线粒体多样性不连续性的其他过程,包括IBD。我们在赤藓属中确定了四个种群,它们被基因流动的屏障隔开,但即使使用了9个独立的核制造者,我们的方法的力量也是有限的,需要使用全基因组数据进行进一步的研究,以解决该物种的系统地理历史。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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