Discipline of Biological Sciences, University of Tasmania, Hobart, Tas, 7005, Australia.
Department of Biology, Lund University, Sölvegatan 37, 223 62, Lund, Sweden.
Heredity (Edinb). 2022 Apr;128(4):271-278. doi: 10.1038/s41437-022-00518-0. Epub 2022 Mar 11.
Species distributed across climatic gradients will typically experience spatial variation in selection, but gene flow can prevent such selection from causing population genetic differentiation and local adaptation. Here, we studied genomic variation of 415 individuals across 34 populations of the common wall lizard (Podarcis muralis) in central Italy. This species is highly abundant throughout this region and populations belong to a single genetic lineage, yet there is extensive phenotypic variation across climatic regimes. We used redundancy analysis to, first, quantify the effect of climate and geography on population genomic variation in this region and, second, to test if climate consistently sorts specific alleles across the landscape. Climate explained 5% of the population genomic variation across the landscape, about half of which was collinear with geography. Linear models and redundancy analyses identified loci that were significantly differentiated across climatic regimes. These loci were distributed across the genome and physically associated with genes putatively involved in thermal tolerance, regulation of temperature-dependent metabolism and reproductive activity, and body colouration. Together, these findings suggest that climate can exercise sufficient selection in lizards to promote genetic differentiation across the landscape in spite of high gene flow.
分布在气候梯度上的物种通常会经历选择的空间变化,但基因流可以防止这种选择导致种群遗传分化和适应局部环境。在这里,我们研究了意大利中部 34 个种群的 415 只普通壁蜥(Podarcis muralis)的基因组变异。这种物种在整个地区非常丰富,种群属于单一的遗传谱系,但在气候条件下存在广泛的表型变异。我们使用冗余分析来,首先,量化气候和地理对该地区种群基因组变异的影响,其次,测试气候是否能在整个景观中一致地选择特定的等位基因。气候解释了景观中 5%的种群基因组变异,其中约一半与地理因素相关。线性模型和冗余分析确定了在不同气候条件下存在显著差异的基因座。这些基因座分布在整个基因组中,并与假定参与热耐受性、温度相关代谢和生殖活动调节以及体色形成的基因物理相关。总的来说,这些发现表明,尽管基因流很高,但气候可以对蜥蜴施加足够的选择压力,从而促进景观中的遗传分化。
