Hierarchical genetic structure and implications for conservation of the world’s largest salmonid, Hucho taimen

Population genetic analyses can evaluate how evolutionary processes shape diversity and inform conservation and management of imperiled species. Taimen ( Hucho taimen ), the world’s largest freshwater salmonid, is threatened, endangered, or extirpated across much of its range due to anthropogenic ac...

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Bibliographic Details
Published in:Scientific reports 2021-10, Vol.11 (1), p.20508-20508, Article 20508
Main Authors: Galland, Lanie M., Simmons, James B., Jahner, Joshua P., Luzuriaga-Neira, Agusto R., Sloat, Matthew R., Chandra, Sudeep, Hogan, Zeb, Jensen, Olaf P., Parchman, Thomas L.
Format: Article
Language:English
Subjects:
631/208/212/2303
631/208/457
631/208/457/649
Animal Distribution
Animals
Anthropogenic factors
Basins
Biological Evolution
Conservation
Conservation of Natural Resources
Drainage
Endangered Species
Environmental degradation
Genetic analysis
Genetic diversity
Genetic structure
Genetic Variation
Genomes
Hucho taimen
Humanities and Social Sciences
Land degradation
Mitochondrial DNA
Mongolia
multidisciplinary
Next-generation sequencing
Overfishing
Phylogeography
Population
Population decline
Population genetics
Rivers
Russia
Salmonidae - genetics
Science
Science (multidisciplinary)
Tributaries
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Summary:Population genetic analyses can evaluate how evolutionary processes shape diversity and inform conservation and management of imperiled species. Taimen ( Hucho taimen ), the world’s largest freshwater salmonid, is threatened, endangered, or extirpated across much of its range due to anthropogenic activity including overfishing and habitat degradation. We generated genetic data using high throughput sequencing of reduced representation libraries for taimen from multiple drainages in Mongolia and Russia. Nucleotide diversity estimates were within the range documented in other salmonids, suggesting moderate diversity despite widespread population declines. Similar to other recent studies, our analyses revealed pronounced differentiation among the Arctic (Selenge) and Pacific (Amur and Tugur) drainages, suggesting historical isolation among these systems. However, we found evidence for finer-scale structure within the Pacific drainages, including unexpected differentiation between tributaries and the mainstem of the Tugur River. Differentiation across the Amur and Tugur basins together with coalescent-based demographic modeling suggests the ancestors of Tugur tributary taimen likely diverged in the eastern Amur basin, prior to eventual colonization of the Tugur basin. Our results suggest the potential for differentiation of taimen at different geographic scales, and suggest more thorough geographic and genomic sampling may be needed to inform conservation and management of this iconic salmonid.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-021-99530-3