Whole Genome Sequencing Reveals the Structure of Environment-Associated Divergence in a Broadly Distributed Montane Bumble Bee, Bombus vancouverensis

IF 3.2 1区 农林科学 Q1 ENTOMOLOGY
Sam D. Heraghty, Sarthok Rasique Rahman, J. Jackson, Jeffrey D. Lozier
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引用次数: 5

Abstract

Abstract Broadly distributed species experience divergent abiotic conditions across their ranges that may drive local adaptation. Montane systems where populations are distributed across both latitudinal and elevational gradients are especially likely to produce local adaptation due to spatial variation in multiple abiotic factors, including temperature, oxygen availability, and air density. We use whole-genome resequencing to evaluate the landscape genomics of Bombus vancouverensis Cresson (Hymenoptera: Apidae), a common montane bumble bee that is distributed throughout the western part of North America. Combined statistical approaches revealed several large windows of outlier SNPs with unusual levels of differentiation across the region and indicated that isothermality and elevation were the environmental features most strongly associated with these variants. Genes found within these regions had diverse biological functions, but included neuromuscular function, ion homeostasis, oxidative stress, and hypoxia that could be associated with tolerance of temperature, desiccation, or high elevation conditions.The whole-genome sequencing approach revealed outliers occurred in genome regions with elevated linkage disequilibrium, elevated mean FST, and low intrapopulation nucleotide diversity. Other kinds of structural variations were not widely associated with environmental predictors but did broadly match geographic separation. Results are consistent with other studies suggesting that regions of low recombination may harbor adaptive variation in bumble bees within as well as between species and refine our understanding of candidate genes that could be further investigated as possible targets of selection across the B. vancouverensis range.
全基因组测序揭示了广泛分布的山地大黄蜂(Bombus vancouverrensis)与环境相关的分化结构
广泛分布的物种在其分布范围内经历不同的非生物条件,这些条件可能驱动局部适应。由于温度、氧气有效性和空气密度等多种非生物因素的空间变化,种群分布在纬度和海拔梯度上的山地系统特别可能产生局部适应。本文利用全基因组重测序技术对分布于北美西部的山地大黄蜂——温哥华大黄蜂(Bombus vancouverensis Cresson,膜翅目:蜂科)进行了景观基因组学分析。综合统计方法揭示了几个大窗口的异常snp,在整个地区具有不同寻常的分化水平,并表明等温和海拔是与这些变异最密切相关的环境特征。在这些区域中发现的基因具有多种生物功能,但包括神经肌肉功能、离子稳态、氧化应激和缺氧,这些可能与温度、干燥或高海拔条件的耐受性有关。全基因组测序方法显示,异常值出现在连锁不平衡升高、平均FST升高和种群内核苷酸多样性低的基因组区域。其他类型的结构变化与环境预测因素没有广泛联系,但与地理分离大致相符。结果与其他研究一致,表明低重组区域可能在种内和种间孕育了大黄蜂的适应性变异,并完善了我们对候选基因的理解,这些候选基因可以进一步研究作为温哥华蜜蜂范围内选择的可能目标。
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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来源期刊
CiteScore
5.30
自引率
8.80%
发文量
34
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