Abstract

Continuous monitoring of the present genetic status is essential to preserve the genetic resource of wild populations. In this study, we sequenced regional Pacific abalone Haliotis discus samples from three different locations around the Korean peninsula to assess population structure, utilizing Genotyping-by-Sequencing (GBS) method. Using PstI enzyme for genome reduction, we demonstrated the resultant library represented the whole genome region with even spacing, and as a result 16,603 single nucleotide variants (SNVs) were produced. Genetic diversity and population structure were investigated using several methods, and a strong genetic heterogeneity was observed in the Korean abalone populations. Additionally, by comparison of the variant sets among population groups, we were able to discover 26 Korean abalone population-specific SNVs, potentially associated with phenotype differences. This is the first study demonstrating the feasibility of GBS for population genetic study on H. discus. Our results will provide valuable data for the genetic conservation and management of wild abalone populations in Korea and help future GBS studies on the marine mollusks.

Highlights

  • We evaluated the genetic diversity and the population structure of H. discus populations inhabiting around the Korean peninsula and elucidated the impacts of geographical features and ocean currents in the gene flow among marine mollusks

  • Because not every reads harbor single nucleotide variants (SNVs) sites, we examined the genome coverage by computing distances between neighboring regions covered by sequenced reads across the reference genome, rather than obtaining distances between SNVs

  • This study evaluated the genetic diversity and the population structure of H. discus populations around the Korean peninsula and elucidated the impacts of the geographical features and the ocean currents in the gene flow among marine mollusk populations

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Summary

Methods

Five abalone populations (102 samples) were used in this study (Table 1 and Fig 1). 24 Goseong samples were collected in Goseong, S. 30 Yeosu samples were collected in Geomundo, Yeosu, S. 33 Taean sample were collected in Anmyeondo, Taean, S. Five Japan samples from Mie, Japan were provided by Prof. Yamakawa of TUMST, and 11 Red samples collected in California coast, USA were provided by Prof. Yeosu, Taean, and Mie samples were used for characterization of Korean abalone population, and to identify Korean H. discus hannai-specific single nucleotide variants (SNVs), Goseong, Yeosu, Taean, and Red samples were used. No permissions were required for sample collection in this study because they were obtained during the season in which regional fishing communities allow harvesting

Results
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Topics from this Paper

  • Strong Genetic Heterogeneity
  • Patterns Of Gene Flow
  • Abalone Haliotis Discus
  • Genotyping-by-Sequencing
  • Abalone Populations
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