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Journal article
Genomic consequences of isolation and inbreeding in an island dingo population
Genome Biology and Evolution, Vol.16(7), pp.1-14
2024
Abstract
Dingoes come from an ancient canid lineage that originated in East Asia around 8000-11,000 years BP. As Australia's largest terrestrial predator, dingoes play an important ecological role. A small, protected population exists on a world heritage listed offshore island, K'gari (formerly Fraser Island). Concern regarding the persistence of dingoes on K'gari has risen due to their low genetic diversity and elevated inbreeding levels. However, whole-genome sequence data is lacking from this population. Here, we include five new whole-genome sequences of K'gari dingoes. We analyze a total of 18 whole genome sequences of dingoes sampled from mainland Australia and K'gari to assess the genomic consequences of their demographic histories. Long (>1 Mb) runs of homozygosity (ROH)-indicators of inbreeding-are elevated in all sampled dingoes. However, K'gari dingoes showed significantly higher levels of very long ROH (>5 Mb), providing genomic evidence for small population size, isolation, inbreeding, and a strong founder effect. Our results suggest that, despite current levels of inbreeding, the K'gari population is purging strongly deleterious mutations, which, in the absence of further reductions in population size, may facilitate the persistence of small populations despite low genetic diversity and isolation. However, there may be little to no purging of mildly deleterious alleles, which may have important long-term consequences, and should be considered by conservation and management programs.Dingoes come from an ancient canid lineage that originated in East Asia around 8000-11,000 years BP. As Australia's largest terrestrial predator, dingoes play an important ecological role. A small, protected population exists on a world heritage listed offshore island, K'gari (formerly Fraser Island). Concern regarding the persistence of dingoes on K'gari has risen due to their low genetic diversity and elevated inbreeding levels. However, whole-genome sequence data is lacking from this population. Here, we include five new whole-genome sequences of K'gari dingoes. We analyze a total of 18 whole genome sequences of dingoes sampled from mainland Australia and K'gari to assess the genomic consequences of their demographic histories. Long (>1 Mb) runs of homozygosity (ROH)-indicators of inbreeding-are elevated in all sampled dingoes. However, K'gari dingoes showed significantly higher levels of very long ROH (>5 Mb), providing genomic evidence for small population size, isolation, inbreeding, and a strong founder effect. Our results suggest that, despite current levels of inbreeding, the K'gari population is purging strongly deleterious mutations, which, in the absence of further reductions in population size, may facilitate the persistence of small populations despite low genetic diversity and isolation. However, there may be little to no purging of mildly deleterious alleles, which may have important long-term consequences, and should be considered by conservation and management programs.
Details
- Title
- Genomic consequences of isolation and inbreeding in an island dingo population
- Authors
- Ana V Leon-Apodaca - Pennsylvania State UniversityManoharan Kumar - University of the Sunshine Coast, Queensland, School of Science, Technology and EngineeringAndres Del Castillo - Pennsylvania State UniversityGabriel C Conroy - University of the Sunshine Coast, Queensland, School of Science, Technology and EngineeringRobert W Lamont - University of the Sunshine Coast, Queensland, School of Science, Technology and EngineeringSteven Ogbourne - University of the Sunshine Coast, Queensland, Centre for BioinnovationKylie M Cairns - UNSW SydneyLiz Borburgh (Author) - University of the Sunshine Coast, Queensland, School of Science, Technology and EngineeringLinda Behrendorff - Queensland Parks and Wildlife ServiceSankar Subramanian (Corresponding Author) - University of the Sunshine Coast, Queensland, School of Science, Technology and EngineeringZachary A Szpiech (Corresponding Author) - Pennsylvania State University
- Publication details
- Genome Biology and Evolution, Vol.16(7), pp.1-14
- Publisher
- Oxford University Press
- Date published
- 2024
- DOI
- 10.1093/gbe/evae130
- ISSN
- 1759-6653
- Copyright note
- © The Author(s) 2024. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution. This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (https://creativecommons.org/licenses/by-nc/4.0/), which permits non-commercial re-use, distribution, and reproduction in any medium, provided the original work is properly cited. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.
- Data Availability
- Raw sequence data of each of the K’gari dingo genomes generated in this study are available on SRA under project PRJNA1021344.
- Grant note
- This work was supported by the National Institute of General Medical Sciences under award number R35GM146926 (A.V.L.-A. and Z.A.S.), by startup funds from the Pennsylvania State University Department of Biology (A.V.L.-A. and Z.A.S.), and by a grant from the Australian Dingo Foundation (KMC).
- Organisation Unit
- GeneCology Research Centre - Legacy; School of Science, Technology and Engineering; School of Law and Society; Centre for Bioinnovation
- Language
- English
- Record Identifier
- 991043428502621
- Output Type
- Journal article
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