Login / Signup

Insights for the Captive Management of South China Tigers Based on a Large-Scale Genetic Survey.

Wenping ZhangKaixiong LinWenyuan FuJunjin XieXueyang FanMingchun ZhangHongxing LuoYuzhong YinQiang GuoHe HuangTengteng ChenXipan LinYaohua YuanCheng HuangShizhang Du
Published in: Genes (2024)
There is an urgent need to find a way to improve the genetic diversity of captive South China tiger (SCT, Panthera tigris amoyensis ), the most critically endangered taxon of living tigers, facing inbreeding depression. The genomes showed that 13 hybrid SCTs from Meihuashan were divided into two groups; one group included three individuals who had a closer relationship with pureblood SCTs than another group. The three individuals shared more that 40% of their genome with pureblood SCTs and might be potential individuals for genetic rescuing in SCTs. A large-scale genetic survey based on 319 pureblood SCTs showed that the mean microsatellite inbreeding coefficient of pureblood SCTs decreased significantly from 0.1789 to 0.0600 ( p = 0.000009) and the ratio of heterozygous loci increased significantly from 38.5% to 43.2% ( p = 0.02) after one individual of the Chongqing line joined the Suzhou line and began to breed in the mid-1980s, which is a reason why the current SCTs keep a moderate level of microsatellite heterozygosity and nucleotide diversity. However, it is important to establish a back-up population based on the three individuals through introducing one pureblood SCT into the back-up population every year. The back-up population should be an important reserve in case the pureblood SCTs are in danger in the future.
Keyphrases
  • genetic diversity
  • genome wide
  • cross sectional
  • early onset
  • magnetic resonance imaging
  • physical activity
  • diffusion weighted imaging