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Puma genomes from North and South America provide insights into the genomic consequences of inbreeding

Author

Listed:
  • Nedda F. Saremi

    (University of California, Santa Cruz)

  • Megan A. Supple

    (University of California, Santa Cruz)

  • Ashley Byrne

    (University of California, Santa Cruz)

  • James A. Cahill

    (University of California, Santa Cruz
    Rockefeller University)

  • Luiz Lehmann Coutinho

    (Universidade de São Paulo)

  • Love Dalén

    (Swedish Museum of Natural History)

  • Henrique V. Figueiró

    (Pontifical Catholic University of Rio Grande do Sul)

  • Warren E. Johnson

    (Smithsonian Conservation Biology Institute, Smithsonian Institution
    Smithsonian Institution)

  • Heather J. Milne

    (University of California, Santa Cruz)

  • Stephen J. O’Brien

    (Saint Petersburg State University)

  • Brendan O’Connell

    (University of California, Santa Cruz
    Oregon Health and Science University)

  • David P. Onorato

    (Florida Fish and Wildlife Conservation Commission)

  • Seth P. D. Riley

    (Santa Monica Mountains National Recreation Area
    University of California, Los Angeles)

  • Jeff A. Sikich

    (Santa Monica Mountains National Recreation Area)

  • Daniel R. Stahler

    (Yellowstone Center for Resources)

  • Priscilla Marqui Schmidt Villela

    (EcoMol Consultoria e Projetos, Avenida Limeira)

  • Christopher Vollmers

    (University of California, Santa Cruz)

  • Robert K. Wayne

    (University of California, Los Angeles)

  • Eduardo Eizirik

    (Pontifical Catholic University of Rio Grande do Sul)

  • Russell B. Corbett-Detig

    (University of California, Santa Cruz)

  • Richard E. Green

    (University of California, Santa Cruz)

  • Christopher C. Wilmers

    (University of California, Santa Cruz)

  • Beth Shapiro

    (University of California, Santa Cruz
    Howard Hughes Medical Institute)

Abstract

Pumas are the most widely distributed felid in the Western Hemisphere. Increasingly, however, human persecution and habitat loss are isolating puma populations. To explore the genomic consequences of this isolation, we assemble a draft puma genome and a geographically broad panel of resequenced individuals. We estimate that the lineage leading to present-day North American pumas diverged from South American lineages 300–100 thousand years ago. We find signatures of close inbreeding in geographically isolated North American populations, but also that tracts of homozygosity are rarely shared among these populations, suggesting that assisted gene flow would restore local genetic diversity. The genome of a Florida panther descended from translocated Central American individuals has long tracts of homozygosity despite recent outbreeding. This suggests that while translocations may introduce diversity, sustaining diversity in small and isolated populations will require either repeated translocations or restoration of landscape connectivity. Our approach provides a framework for genome-wide analyses that can be applied to the management of similarly small and isolated populations.

Suggested Citation

  • Nedda F. Saremi & Megan A. Supple & Ashley Byrne & James A. Cahill & Luiz Lehmann Coutinho & Love Dalén & Henrique V. Figueiró & Warren E. Johnson & Heather J. Milne & Stephen J. O’Brien & Brendan O’C, 2019. "Puma genomes from North and South America provide insights into the genomic consequences of inbreeding," Nature Communications, Nature, vol. 10(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-12741-1
    DOI: 10.1038/s41467-019-12741-1
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