Genomic vulnerability of a freshwater salmonid under climate change

IF 3.5 2区 生物学 Q1 EVOLUTIONARY BIOLOGY
Anna Tigano, Tyler Weir, Hillary G. M. Ward, Marika Kirstin Gale, Carmen M. Wong, Erika J. Eliason, Kristina M. Miller, Scott G. Hinch, Michael A. Russello
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Abstract

Understanding the adaptive potential of populations and species is pivotal for minimizing the loss of biodiversity in this era of rapid climate change. Adaptive potential has been estimated in various ways, including based on levels of standing genetic variation, presence of potentially beneficial alleles, and/or the severity of environmental change. Kokanee salmon, the non-migratory ecotype of sockeye salmon (Oncorhynchus nerka), is culturally and economically important and has already been impacted by the effects of climate change. To assess its climate vulnerability moving forward, we integrated analyses of standing genetic variation, genotype-environment associations, and climate modeling based on sequence and structural genomic variation from 224 whole genomes sampled from 22 lakes in British Columbia and Yukon (Canada). We found that variables for extreme temperatures, particularly warmer temperatures, had the most pervasive signature of selection in the genome and were the strongest predictors of levels of standing variation and of putatively adaptive genomic variation, both sequence and structural. Genomic offset estimates, a measure of climate vulnerability, were significantly correlated with higher increases in extreme warm temperatures, further highlighting the risk of summer heat waves that are predicted to increase in frequency in the future. Levels of standing genetic variation, an important metric for population viability and resilience, were not correlated with genomic offset. Nonetheless, our combined approach highlights the importance of integrating different sources of information and genomic data to formulate more comprehensive and accurate predictions on the vulnerability of populations and species to future climate change.

Abstract Image

气候变化下淡水鲑鱼基因组的脆弱性
在气候变化迅速的时代,了解种群和物种的适应潜力对于最大限度地减少生物多样性的损失至关重要。适应潜力有多种估算方法,包括基于常存遗传变异水平、潜在有益等位基因的存在和/或环境变化的严重程度。大马哈鱼是红鲑鱼(Oncorhynchus nerka)的非迁徙生态型,具有重要的文化和经济价值,已经受到气候变化的影响。为了评估其未来的气候脆弱性,我们根据从不列颠哥伦比亚省和育空地区(加拿大)22 个湖泊采样的 224 个全基因组的序列和结构变异,综合分析了长期遗传变异、基因型与环境的关联以及气候建模。我们发现,极端气温变量,尤其是较高气温变量,在基因组中具有最普遍的选择特征,并且是长期变异水平以及序列和结构基因组假定适应性变异的最强预测因子。基因组偏移估计值是衡量气候脆弱性的一个指标,它与极端高温的增加显著相关,这进一步凸显了夏季热浪的风险,据预测,这种热浪在未来会越来越频繁。常存遗传变异水平是衡量种群生存能力和恢复能力的重要指标,但与基因组偏移无关。尽管如此,我们的综合方法强调了整合不同来源的信息和基因组数据的重要性,以便更全面、更准确地预测种群和物种对未来气候变化的脆弱性。
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来源期刊
Evolutionary Applications
Evolutionary Applications 生物-进化生物学
CiteScore
8.50
自引率
7.30%
发文量
175
审稿时长
6 months
期刊介绍: Evolutionary Applications is a fully peer reviewed open access journal. It publishes papers that utilize concepts from evolutionary biology to address biological questions of health, social and economic relevance. Papers are expected to employ evolutionary concepts or methods to make contributions to areas such as (but not limited to): medicine, agriculture, forestry, exploitation and management (fisheries and wildlife), aquaculture, conservation biology, environmental sciences (including climate change and invasion biology), microbiology, and toxicology. All taxonomic groups are covered from microbes, fungi, plants and animals. In order to better serve the community, we also now strongly encourage submissions of papers making use of modern molecular and genetic methods (population and functional genomics, transcriptomics, proteomics, epigenetics, quantitative genetics, association and linkage mapping) to address important questions in any of these disciplines and in an applied evolutionary framework. Theoretical, empirical, synthesis or perspective papers are welcome.
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