Genetic and Phylogenetic Structure of Hynobius Quelpaertensis, an Endangered Endemic Salamander Species on the Korean Peninsula

Overview

Journal Genes Genomics

Specialty Genetics

Date 2019 Dec 5

PMID 31797315

Citations 3

Authors

Ho Young Suk

Han-Gyu Bae

Dong-Young Kim

Hari Won

Hae Jun Baek

Chang Hoon Lee

Dong Youn Kim

Young Min Go

Jae-Young Song

Hang Lee

Mi-Sook Min

Affiliations

Soon will be listed here.

Abstract

Background: The Korean Peninsula is a small but unique area showing great endemic Hynobius diversity with H. quelpaertensis, H. yangi, H. unisacculus and three species candidates (HC1, HC3 and HC4). H. quelpaertensis is distributed in the southern part and in Jeju Island, while the remaining species have extremely narrow distributions.

Objectives: To examine the genetic structure of H. quelpaertensis and the phylogenetic placement in Hynobius.

Methods: Three mitochondrial and six microsatellite loci were genotyped for 204 Hynobius quelpaertensis, three H. leechii, three H. yangi, three HC1, two H. unisacculus, three HC3, three HC4 and ten Japanses H. lichenatus.

Results: A high level of mitochondrial diversity was found in H. quelpaertensis. Our mitochondrial data showed evidence of a historical link between inland and Jeju Island despite the signature of founder effect likely experienced by the early island populations. However, our microsatellite analysis showed the fairly clear signature of isolation history between in- and island populations. Upon phylogenetic analysis, H. quelpaertensis, H. unisacculus and HC1 formed a cluster, whereas H. yangi belonged to a separate cluster. HC3 and HC4 were clustered with either H. quelpaertensis or H. yangi depending on the locus used.

Conclusion: Our results show at least partially the historical imprints engraved by dispersal of Korean endemic Hynobius during Pleistocene, potentially providing a fundamental basis in determining the conservation units and finding management strategies for these species.

Citing Articles

Genetic Diversity and Population Structure of the Endangered Salamander Inferred from Mitochondrial DNA Sequences.

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Differentiated historical demography and ecological niche forming present distribution and genetic structure in coexisting two salamanders (Amphibia, Urodela, Hynobiidae) in a small island, Japan.

Niwa K, Van Tran D, Nishikawa K PeerJ. 2022; 10:e13202.

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Borzee A, Min M Animals (Basel). 2021; 11(1).

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