生物
进化生物学
生态学
局部适应
遗传多样性
物种复合体
遗传分化
生殖隔离
系统发育树
遗传变异
同感形态
异域物种形成
生态位
系统地理学
遗传算法
利基
适应(眼睛)
人口
基因流
动物
群体遗传学
作者
Ricardo A. Medina,Guinevere O. U. Wogan,Ke Bi,Flavia Termignoni-Garcia,Manuel Hernando Bernal,Juan P. Jaramillo-Correa,Ian J. Wang,Ella Vázquez-Domínguez
摘要
Understanding how geographic and environmental heterogeneity drive local patterns of genetic variation is a major goal of ecological genomics and a key question in evolutionary biology. The tropical Andes and inter-Andean valleys are shaped by markedly heterogeneous landscapes, where species experience strong selective processes. We examined genome-wide SNP data together with behavioural and ecological traits (mating calls and body size) known to contribute to genetic isolation in anurans in the banana tree-dwelling frog, Boana platanera, distributed across an environmental gradient in Central Colombia (northern South America). Here, we analysed the relationships between environmentally (temperature and precipitation) associated genetic and phenotypic differentiation and the potential drivers of isolation by environment along an elevation gradient. We identified candidate SNPs associated with temperature and body size, which follow a clinal pattern of genome-wide differentiation tightly coupled with phenotypic variation: as elevation increases, B. platanera exhibits larger body size and longer call duration with more pulses but lower pulse rate and frequency. Thus, the environmental landscape has rendered a scenario where isolation by environment and candidate loci show concordance with phenotypic divergence in this tropical frog along an elevation gradient in the Colombian Andes. Our study sets the basis for evaluating the role of temperature in the genetic structure and local adaptation in tropical treefrogs and its putative effect on life cycle (embryos, tadpoles, adults) along elevation gradients.
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