Low genetic diversity in captive populations of the critically endangered Blue-crowned Laughingthrush ( Garrulax courtoisi ) revealed by a panel of novel microsatellites

• Published in: PeerJ (San Francisco, CA) Vol. 7; p. e6643
• Main Authors: Chen, Guoling, Zheng, Chenqing, Wan, Nelson, Liu, Daoqiang, Fu, Vivian Wing Kan, Yang, Xu, Yu, Yat-Tung, Liu, Yang
• Format: Journal Article
• Language: English
• Published: United States PeerJ. Ltd 20.03.2019; PeerJ, Inc; PeerJ Inc
• Subjects: Analysis; Aquariums; Conservation; Conservation Biology; Conservation genetics; Critically endangered; Data processing; Deoxyribonucleic acid; DNA; DNA sequencing; Ecology; Endangered & extinct species; Endangered species; Evolution; Evolutionary Studies; Garrulax; Genetic analysis; Genetic diversity; Genetic markers; Genetic polymorphisms; Genetic relatedness; Genetic research; Genetic testing; Genetics; Genomes; Genomics; Haplotypes; Microsatellites; Mitochondria; Mitochondrial DNA; Molecular biology; Novels; Parks; Population; Population genetics; Population structure; Protection and preservation; Wildlife conservation; Zoo; Zoology; Zoos; Hong Kong; China; Critically endangered; Genetic diversity; Genetic relatedness; Zoo; Garrulax; Conservation genetics
• ISSN: 2167-8359; 2167-8359
• DOI: 10.7717/peerj.6643

Captive populations permit research and conservation of endangered species in which these efforts are hardly implemented in wild populations. Thus, analysing genetic diversity and structure of captive populations offers unique opportunities. One example is the critically endangered Blue-crowned Laughingthrush, , which has only two known wild populations in Wuyuan, Jiangxi and Simao, Yunnan, China. We carried out the first conservation genetic study, in order to provide useful implications that allow for successful ex situ conservation and management of the Blue-crowned Laughingthrush. Using the novel microsatellite markers developed by whole-genome sequencing, we genotyped two captive populations, from the Ocean Park Hong Kong, which are of unknown origin, and the Nanchang Zoo, which were introduced from the Wuyuan wild population since the year 2010-2011, respectively. The genetic diversity of captive Blue-crowned Laughingthrush populations was estimated based on genetic polymorphisms revealed by a new microsatellite data set and mitochondrial sequences. Then, we characterised the population structure using STRUCTURE, principal coordinates analysis, population assignment test using the microsatellite data, and haplotype analysis of mitochondrial data. Additionally, we quantified genetic relatedness based on the microsatellite data with ML-Relate. Our results showed equally low levels of genetic diversity of the two captive Blue-crowned Laughingthrush populations. The population structure analysis, population assignment test using the microsatellite data, and haplotype analysis of the mitochondrial data showed weak population structuring between these two populations. The average pairwise relatedness coefficient was not significant, and their genetic relatedness was quantified. This study offers a genetic tool and consequently reveals a low level of genetic diversity within populations of a critically endangered bird species. Furthermore, our results indicate that we cannot exclude the probability that the origin of the Hong Kong captive population was the wild population from Wuyuan. These results provide valuable knowledge that can help improve conservation management and planning for both captive and wild Blue-crowned Laughingthrush populations.