Litcius/Paper detail

Unraveling the genomic diversity and admixture history of captive tigers in the United States

Ellie E. Armstrong, Jazlyn A. Mooney, Katherine A. Solari, Bernard Kim, Gregory S. Barsh, Victoria B. Grant, Gili Greenbaum, Christopher B. Kaelin, К.А. Панченко, Joseph K. Pickrell, Noah A. Rosenberg, Oliver A. Ryder, Tsuya Yokoyama, Uma Ramakrishnan, Dmitri A. Petrov, Elizabeth A. Hadly

2024Proceedings of the National Academy of Sciences15 citationsDOIOpen Access PDF

Abstract

Genomic studies of endangered species have primarily focused on describing diversity patterns and resolving phylogenetic relationships, with the overarching goal of informing conservation efforts. However, few studies have investigated genomic diversity housed in captive populations. For tigers ( Panthera tigris ), captive individuals vastly outnumber those in the wild, but their diversity remains largely unexplored. Privately owned captive tiger populations have remained an enigma in the conservation community, with some believing that these individuals are severely inbred, while others believe they may be a source of now-extinct diversity. Here, we present a large-scale genetic study of the private (non-zoo) captive tiger population in the United States, also known as “Generic” tigers. We find that the Generic tiger population has an admixture fingerprint comprising all six extant wild tiger subspecies. Of the 138 Generic individuals sequenced for the purpose of this study, no individual had ancestry from only one subspecies. We show that the Generic tiger population has a comparable amount of genetic diversity relative to most wild subspecies, few private variants, and fewer deleterious mutations. We observe inbreeding coefficients similar to wild populations, although there are some individuals within both the Generic and wild populations that are substantially inbred. Additionally, we develop a reference panel for tigers that can be used with imputation to accurately distinguish individuals and assign ancestry with ultralow coverage (0.25×) data. By providing a cost-effective alternative to whole-genome sequencing (WGS), the reference panel provides a resource to assist in tiger conservation efforts for both ex- and in situ populations.

Topics & Concepts

SubspeciesTigerBiologyInbreedingGenetic diversityPantheraPopulationConservation geneticsEndangered speciesEvolutionary biologyPopulation bottleneckCaptive breedingZoologyEcologyGeneticsDemographyAlleleHabitatMicrosatellitePredationComputer scienceComputer securitySociologyGeneGenetic and phenotypic traits in livestockGenetic diversity and population structureGenetic Mapping and Diversity in Plants and Animals