Captive populations play a vital role in conservation, supporting both in situ and ex situ conservation projects. A healthy, self-sustaining captive population serves as valuable insurance against extinctions and a source of individuals for reintroduction into the wild. Genetic and genomic data can advance conservation and management across a range of scenarios. Although expanding, genomic data do not exist for most captive populations and there remain few examples of how these data can be integrated directly into conservation efforts. In this issue of Molecular Ecology Resources, Humble et al. (2020) present a chromosomal-level genome assembly for the extinct-in-the-wild scimitar-horned oryx (Oryx dammah), and resequencing data to survey genetic variation across captive populations. These data are exciting for reintroduction planning by offering guidance for selecting source populations to maximize global genetic variation and valuable resources for effective post-release monitoring. The genomic resources generated also are valuable tools with the power to yield novel and important insights into the evolution of scimitar-horned oryx and other antelope species.
Keywords: bioinfomatics/phyloinfomatics; captive populations; conservation genetics; genomics/proteomics; wildlife management.
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