Whole-genome resequencing of Japanese whiting ( Sillago japonica) provide insights into local adaptations

Zool Res. 2021 Sep 18;42(5):548-561. doi: 10.24272/j.issn.2095-8137.2021.116.

Abstract

The genetic adaptations of various organisms to heterogeneous environments in the northwestern Pacific remain poorly understood. Heterogeneous genomic divergence among populations may reflect environmental selection. Advancing our understanding of the mechanisms by which organisms adapt to different temperatures in response to climate change and predicting the adaptive potential and ecological consequences of anthropogenic global warming are critical. We sequenced the whole genomes of Japanese whiting ( Sillago japonica) specimens collected from different latitudinal locations along the coastal waters of China and Japan to detect possible thermal adaptations. Using population genomics, a total of 5.48 million single nucleotide polymorphisms (SNPs) from five populations revealed a complete genetic break between the Chinese and Japanese groups, which was attributed to both geographic distance and local adaptation. The shared natural selection genes between two isolated populations (i.e., Zhoushan and Ise Bay/Tokyo Bay) indicated possible parallel evolution at the genetic level induced by temperature. These genes also indicated that the process of temperature selection on isolated populations is repeatable. Moreover, we observed natural candidate genes related to membrane fluidity, possibly underlying adaptation to cold environmental stress. These findings advance our understanding of the genetic mechanisms underlying the rapid adaptations of fish species. Species distribution projection models suggested that the Chinese and Japanese groups may have different responses to future climate change, with the former expanding and the latter contracting. The findings of this study enhance our understanding of genetic differentiation and adaptation to changing environments.

西北太平洋地区海洋生物对不同环境的适应进化研究尚未系统开展。种群之间的基因组差异能够反映环境选择作用。开展海洋生物群体对温度适应进化研究对于理解生物对气候变化的适应机制以及预测生物对全球变暖的未来适应潜力非常重要。我们采集了少鳞鱚( Sillago japonica)中国和日本近海不同纬度的地理群体样品,利用全基因组重测序检测研究温度适应机制。我们对5个群体基因组重测序,获得548万个单核苷酸多态位点(SNPs),可以将中国和日本群体完全区分开。这种遗传结局形成主要是归因于地理隔离和本地适应性。两个隔离的种群(舟山和伊势湾/东京湾)之间共享大量受选择基因,这表明两种群间存在温度驱动的平行进化现象。这也表明温度对不同种群的选择过程可能是可重复的。此外,我们观察到冷适应的受选择基因在功能上主要跟细胞膜的流动性相关。物种分布预测模型表明,少鳞鱚中国和日本群体可能对未来的气候变化有不同的响应,在未来前者分布区将扩大,后者分布区将收缩。该研究的结果促进了对鱼类群体本地温度适应的遗传机制的理解,扩大了我们对群体遗传分化和群体如何适应温度变化的新认知。.

Keywords: Climate change; Local adaptation; Sillago japonica; Temperature stress; Whole-genome resequencing.

MeSH terms

  • Adaptation, Physiological / genetics*
  • Animal Distribution
  • Animals
  • Biological Evolution
  • China
  • Climate Change
  • Ecosystem
  • Fishes / genetics*
  • Fishes / physiology*
  • Japan
  • Pacific Ocean
  • Polymorphism, Single Nucleotide
  • Temperature
  • Whole Genome Sequencing

Associated data

  • GENBANK/sra PRJNA743415

Grants and funding

The study was supported by the National Natural Science Foundation of China (41976083, 41776171 and 32072980)