Genetic diversity and differentiation of nine populations of the hard clam (Meretrix petechialis) assessed by EST-derived microsatellites

BACKGROUND: Meretrix petechialis is one of the commercially important marine bivalves. In this study, we selected six highly polymorphic EST-derived microsatellite markers to assess the genetic diversity and population differentiation on nine wild populations of Meretrix petechialis. RESULTS: The number of alleles detected per-locus ranged from 4 to 30 (mean NA = 27.5) with a total of 165 alleles. The mean value of observed and expected heterozygosities varied from 0.717 to 0.861 and from 0.797 to 0.856, respectively. Meanwhile, the result of Neighbor-joining and overall FST = 0.214 (P < 0.01) reveled that M. petechialis populations from GX are the farthest populations, a certain degree of genetic variation among individuals in each population and the genetic differentiation is significant. CONCLUSIONS: GX population has high genetic diversity among individual, and there are certain differences in genetic characteristics among different populations. This study will provide a basis for the domestication and cultivation of genetic diversity of M. petechialis population and the protection of clam germplasm resources.

Genetic variation and population structure of different geographical populations of Meretrix petechialis based on mitochondrial gene COI

The hard clam (Meretrix petechialis) is a commercially important shellfish in China. To provide valuable insights into management and conservation of M. petechialis, we investigated the genetic variation and population structure of M. petechialis by analysing samples from nine geographical populations. In this study, the genetic diversity and differentiation of nine populations of M. petechialis were assessed using the mitochondrial cytochrome oxidase subunit I (mtCOI) gene. A total of 90 COI sequences were obtained and each COI sequence was 699 bp in length. Fifty-one haplotypes were identified with 10 haplotypes sharedamong populations. The haplotype diversity was highest in Fujian, Panjin and Jiangsu (0.9778 ± 0.0540) and lowest in Dalian (0.7778 ± 0.1374). The nucleotide diversity was highest in Panjin (0.453401 ± 0.240463) and lowest in Jiangsu (0.006213 ± 0.004141). Neutral test (Fu’s Fs) and mismatch distribution analysis revealed that the hard clam experienced a population expansion event. Analysis of molecular variance (AMOVA) indicated that 91.7% of the genetic variance was within populations and 0.52% of the variance was among populations, demonstrating significant genetic differentiation among populations (P < 0.05). The neighbour-joining tree showed that the haplotypes were not clustered according to the geographical location, but some haplotypes from the same or neighbouring locations grouped together. The results obtained in this study provide useful information on the genetic diversity and population structure of M. petechialis and shed light on the management and protection of resources of M. petechialis in the northwestern Pacific.