Genetic Diversity, Population Structure, and Environmental Adaptation Signatures of Chinese Coastal Hard-Shell Mussel <i>Mytilus coruscus</i> Revealed by Whole-Genome Sequencing

The hard-shell mussel (<i>Mytilus coruscus</i>) is widespread in the temperate coastal areas of the northwest Pacific and holds a significant position in the shellfish aquaculture market in China. However, the natural resources of this species have been declining, and population genetic studies of <i>M. coruscus</i> are also lacking. In this study, we conducted whole-genome resequencing (WGR) of <i>M. coruscus</i> from eight different latitudes along the Chinese coast and identified a total of 25,859,986 single nucleotide polymorphism (SNP) markers. Our findings indicated that the genetic diversity of <i>M. coruscus</i> from the Zhoushan region was lower compared with populations from other regions. Furthermore, we observed that the evolutionary tree clustered into two primary branches, and the Zhangzhou (ZZ) population was in a separate branch. The ZZ population was partly isolated from populations in other regions, but the distribution of branches was not geographically homogeneous, and a nested pattern emerged, consistent with the population differentiation index (<i>F</i>_ST) results. To investigate the selection characteristics, we utilized the northern <i>M. coruscus</i> populations (Dalian and Qingdao) and the central populations (Zhoushan and Xiangshan) as reference populations and the southern ZZ population as the target population. Our selection scan analysis identified several genes associated with thermal responses, including <i>Hsp70</i> and <i>CYP450</i>. These genes may play important roles in the adaptation of <i>M. coruscus</i> to different living environments. Overall, our study provides a comprehensive understanding of the genomic diversity of coastal <i>M. coruscus</i> in China and is a valuable resource for future studies on genetic breeding and the evolutionary adaptation of this species.