群体遗传分析揭示了中华绒螯蟹和日本绒螯蟹在韩国存在二次接触。

Population genetic analysis reveals secondary contact between Eriocheir sinensis and E. japonica in South Korea.

作者信息

Jung Jibom, Wu Xugan, Park Taeseo, Lee Seok-Hyun, Hwang Hee-Seung, Jung Juwon, Jung Jongwoo

机构信息

Division of EcoScience, Ewha Womans University, Seoul, South Korea.

Key Laboratory of Exploration and Utilization of Aquatic Genetic Resources, Shanghai Fisheries University, Shanghai, China.

出版信息

Genes Genomics. 2022 May;44(5):593-602. doi: 10.1007/s13258-021-01198-6. Epub 2022 Mar 30.

DOI:10.1007/s13258-021-01198-6

PMID:35353343

Abstract

BACKGROUND

The Chinese mitten crab (Eriocheir sinensis) and the Japanese mitten crab (E. japonica) of the family Varunidae, which are also critical fishery species in their native habitats, including China, Japan, and South Korea, exhibit a rare migration life history for the decapod life cycle. Eriocheir sinensis and E. japonica in South Korea may have originated from speciation or secondary contact in South Korea after speciation of these two species; however, the genetic relationship between these South Korean populations remains unclear, and need to be clarified.

OBJECTIVE

This study examined the population genetic properties of E. sinensis and E. japonica in South Korea to reveal the origin of their co-existence.

METHODS

Mitochondrial DNA cytochrome c oxidase I sequences of 120 E. sinensis and E. japonica from 6 sampling sites in South Korea were sequenced. Their genetic diversity and haplotype data were compared to previously reported data from the Chinese mainland, Taiwan, Japan, and Russia.

RESULTS

The haplotype network, analysis of molecular variance, F values, Mantel test, and Bayesian skyline plot results of South Korean E. sinensis and E. japonica demonstrated that E. sinensis and E. japonica were isolated from their central populations, Chinese and Japanese populations, by the distance due to the temperature, salinity, ocean current flow, or a geohistorical event. In addition, genetic analysis indicated that the South Korean populations of the two species were marginal populations, exhibiting low genetic diversity, significant negative neutrality values, and radial haplotype networks. The current results also suggest that the Geum River is an overlapping habitat for the natural populations of E. sinensis and E. japonica in South Korea. Further research is required to examine the geohistorical and evolutionary event between E. sinensis and E. japonica in South Korea.

CONCLUSIONS

The co-existence of E. sinensis and E. japonica in South Korea may have originated from secondary contact after their speciation.

摘要

背景

方蟹科的中华绒螯蟹（Eriocheir sinensis）和日本绒螯蟹（E. japonica），在中国、日本和韩国等原生栖息地也是重要的渔业物种，它们在十足目生命周期中呈现出罕见的洄游生活史。韩国的中华绒螯蟹和日本绒螯蟹可能起源于这两个物种形成后在韩国的物种形成或二次接触；然而，这些韩国种群之间的遗传关系仍不清楚，需要加以阐明。

目的

本研究调查了韩国中华绒螯蟹和日本绒螯蟹的种群遗传特性，以揭示它们共存的起源。

方法

对来自韩国6个采样点的120只中华绒螯蟹和日本绒螯蟹的线粒体DNA细胞色素c氧化酶I序列进行测序。将它们的遗传多样性和单倍型数据与之前报道的中国大陆、台湾、日本和俄罗斯的数据进行比较。

结果

韩国中华绒螯蟹和日本绒螯蟹的单倍型网络、分子方差分析、F值、Mantel检验和贝叶斯天际线图结果表明，中华绒螯蟹和日本绒螯蟹由于温度、盐度、海流或地质历史事件导致的距离，与它们的中心种群，即中国和日本种群隔离。此外，遗传分析表明，这两个物种的韩国种群是边缘种群，遗传多样性低，显著的负中性值，以及放射状单倍型网络。目前的结果还表明，锦江是韩国中华绒螯蟹和日本绒螯蟹自然种群的重叠栖息地。需要进一步研究来考察韩国中华绒螯蟹和日本绒螯蟹之间的地质历史和进化事件。