多模型海景基因组学确定了在同域海洋物种中选择的不同环境驱动因素。

IF 3.4 Q1 Agricultural and Biological Sciences
Erica S Nielsen, Romina Henriques, Maria Beger, Robert J Toonen, Sophie von der Heyden
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引用次数: 11

摘要

背景:随着全球变化和人为压力的持续增加,保护和管理越来越需要考虑物种适应新环境条件的潜力。因此,有必要描述作用于生态系统的主要选择力量,以及这些力量如何影响种群和物种的进化潜力。使用多模型的海洋基因组学方法,我们比较了三种具有不同生态和生活史的南部非洲同域海洋无脊椎动物的假设环境驱动因素:海胆(Parechinus angulosus),普通岸蟹(Cyclograpsus punctatus)和颗粒帽贝(Scutellastra granularis)。结果:利用Pool-seq、限制性限制位点相关DNA测序(RAD-seq)和7种异常值检测方法,我们沿着强大的生物地理梯度描述了人群之间的基因组差异。在3个物种中,只有S. granularis表现出明显的距离隔离和环境隔离效应。相比之下,海表盐度(SSS)和气温变化幅度与马尾鱼和鳗鲡基因组变异的相关性更强。3个物种之间的基因组结构也存在差异,在东海岸和西海岸的两个集群中,有离群位点对S. granularis和P. angulosus有贡献,而对C. punctatus没有贡献。结论:不同物种的进化潜力不同,表明物种特有的栖息地需求和对环境胁迫的响应可能比区域内的强环境梯度更能预测物种的进化模式。我们还发现了异常值检测方法之间的巨大差异,从而提供了一种新的多模型方法来识别作用于物种的主要环境选择力。总的来说,这项工作强调了如何将比较方法添加到海景基因组学(包括多个模型和物种)中来阐明生态系统对全球变化的复杂进化反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multi-model seascape genomics identifies distinct environmental drivers of selection among sympatric marine species.

Multi-model seascape genomics identifies distinct environmental drivers of selection among sympatric marine species.

Multi-model seascape genomics identifies distinct environmental drivers of selection among sympatric marine species.

Multi-model seascape genomics identifies distinct environmental drivers of selection among sympatric marine species.

Background: As global change and anthropogenic pressures continue to increase, conservation and management increasingly needs to consider species' potential to adapt to novel environmental conditions. Therefore, it is imperative to characterise the main selective forces acting on ecosystems, and how these may influence the evolutionary potential of populations and species. Using a multi-model seascape genomics approach, we compare putative environmental drivers of selection in three sympatric southern African marine invertebrates with contrasting ecology and life histories: Cape urchin (Parechinus angulosus), Common shore crab (Cyclograpsus punctatus), and Granular limpet (Scutellastra granularis).

Results: Using pooled (Pool-seq), restriction-site associated DNA sequencing (RAD-seq), and seven outlier detection methods, we characterise genomic variation between populations along a strong biogeographical gradient. Of the three species, only S. granularis showed significant isolation-by-distance, and isolation-by-environment driven by sea surface temperatures (SST). In contrast, sea surface salinity (SSS) and range in air temperature correlated more strongly with genomic variation in C. punctatus and P. angulosus. Differences were also found in genomic structuring between the three species, with outlier loci contributing to two clusters in the East and West Coasts for S. granularis and P. angulosus, but not for C. punctatus.

Conclusion: The findings illustrate distinct evolutionary potential across species, suggesting that species-specific habitat requirements and responses to environmental stresses may be better predictors of evolutionary patterns than the strong environmental gradients within the region. We also found large discrepancies between outlier detection methodologies, and thus offer a novel multi-model approach to identifying the principal environmental selection forces acting on species. Overall, this work highlights how adding a comparative approach to seascape genomics (both with multiple models and species) can elucidate the intricate evolutionary responses of ecosystems to global change.

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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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