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Climate change increases cross-species viral transmission risk

Author

Listed:
  • Colin J. Carlson

    (Georgetown University
    Georgetown University)

  • Gregory F. Albery

    (Georgetown University
    EcoHealth Alliance)

  • Cory Merow

    (University of Connecticut)

  • Christopher H. Trisos

    (University of Cape Town)

  • Casey M. Zipfel

    (Georgetown University)

  • Evan A. Eskew

    (EcoHealth Alliance
    Pacific Lutheran University)

  • Kevin J. Olival

    (EcoHealth Alliance)

  • Noam Ross

    (EcoHealth Alliance)

  • Shweta Bansal

    (Georgetown University)

Abstract

At least 10,000 virus species have the ability to infect humans but, at present, the vast majority are circulating silently in wild mammals1,2. However, changes in climate and land use will lead to opportunities for viral sharing among previously geographically isolated species of wildlife3,4. In some cases, this will facilitate zoonotic spillover—a mechanistic link between global environmental change and disease emergence. Here we simulate potential hotspots of future viral sharing, using a phylogeographical model of the mammal–virus network, and projections of geographical range shifts for 3,139 mammal species under climate-change and land-use scenarios for the year 2070. We predict that species will aggregate in new combinations at high elevations, in biodiversity hotspots, and in areas of high human population density in Asia and Africa, causing the cross-species transmission of their associated viruses an estimated 4,000 times. Owing to their unique dispersal ability, bats account for the majority of novel viral sharing and are likely to share viruses along evolutionary pathways that will facilitate future emergence in humans. Notably, we find that this ecological transition may already be underway, and holding warming under 2 °C within the twenty-first century will not reduce future viral sharing. Our findings highlight an urgent need to pair viral surveillance and discovery efforts with biodiversity surveys tracking the range shifts of species, especially in tropical regions that contain the most zoonoses and are experiencing rapid warming.

Suggested Citation

  • Colin J. Carlson & Gregory F. Albery & Cory Merow & Christopher H. Trisos & Casey M. Zipfel & Evan A. Eskew & Kevin J. Olival & Noam Ross & Shweta Bansal, 2022. "Climate change increases cross-species viral transmission risk," Nature, Nature, vol. 607(7919), pages 555-562, July.
    • Handle: RePEc:nat:nature:v:607:y:2022:i:7919:d:10.1038_s41586-022-04788-w
    DOI: 10.1038/s41586-022-04788-w
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    Citations

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    Cited by:

    1. Raina K. Plowright & Aliyu N. Ahmed & Tim Coulson & Thomas W. Crowther & Imran Ejotre & Christina L. Faust & Winifred F. Frick & Peter J. Hudson & Tigga Kingston & P. O. Nameer & M. Teague O’Mara & Al, 2024. "Ecological countermeasures to prevent pathogen spillover and subsequent pandemics," Nature Communications, Nature, vol. 15(1), pages 1-13, December.
    2. Eugenio Valdano & Davide Colombi & Chiara Poletto & Vittoria Colizza, 2023. "Epidemic graph diagrams as analytics for epidemic control in the data-rich era," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    3. Chunrong Mi & Liang Ma & Mengyuan Yang & Xinhai Li & Shai Meiri & Uri Roll & Oleksandra Oskyrko & Daniel Pincheira-Donoso & Lilly P. Harvey & Daniel Jablonski & Barbod Safaei-Mahroo & Hanyeh Ghaffari , 2023. "Global Protected Areas as refuges for amphibians and reptiles under climate change," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    4. Md. Aminul Islam & Sarawut Sangkham & Ananda Tiwari & Meysam Vadiati & Mohammad Nayeem Hasan & Syed Toukir Ahmed Noor & Jubayer Mumin & Prosun Bhattacharya & Samendra P. Sherchan, 2022. "Association between Global Monkeypox Cases and Meteorological Factors," IJERPH, MDPI, vol. 19(23), pages 1-13, November.
    5. Qiang Wang & Yuanfan Li & Rongrong Li, 2024. "Rethinking the environmental Kuznets curve hypothesis across 214 countries: the impacts of 12 economic, institutional, technological, resource, and social factors," Palgrave Communications, Palgrave Macmillan, vol. 11(1), pages 1-19, December.
    6. Magdalena Meyer & Dominik W. Melville & Heather J. Baldwin & Kerstin Wilhelm & Evans Ewald Nkrumah & Ebenezer K. Badu & Samuel Kingsley Oppong & Nina Schwensow & Adam Stow & Peter Vallo & Victor M. Co, 2024. "Bat species assemblage predicts coronavirus prevalence," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    7. Thierry Lefrançois & Bruno Lina & Brigitte Autran, 2023. "One Health approach at the heart of the French Committee for monitoring and anticipating health risks," Nature Communications, Nature, vol. 14(1), pages 1-4, December.
    8. Renata L. Muylaert & David A. Wilkinson & Tigga Kingston & Paolo D’Odorico & Maria Cristina Rulli & Nikolas Galli & Reju Sam John & Phillip Alviola & David T. S. Hayman, 2023. "Using drivers and transmission pathways to identify SARS-like coronavirus spillover risk hotspots," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    9. Timothy M. Lenton & Chi Xu & Jesse F. Abrams & Ashish Ghadiali & Sina Loriani & Boris Sakschewski & Caroline Zimm & Kristie L. Ebi & Robert R. Dunn & Jens-Christian Svenning & Marten Scheffer, 2023. "Quantifying the human cost of global warming," Nature Sustainability, Nature, vol. 6(10), pages 1237-1247, October.
    10. Christian Huggel & Laurens M. Bouwer & Sirkku Juhola & Reinhard Mechler & Veruska Muccione & Ben Orlove & Ivo Wallimann-Helmer, 2022. "The existential risk space of climate change," Climatic Change, Springer, vol. 174(1), pages 1-20, September.

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