The costs and benefits of primary prevention of zoonotic pandemics-Reference-Cited by-同舟云学术

The costs and benefits of primary prevention of zoonotic pandemics

Published:2022-02-04 Issue:5 Volume:8 Page:
ISSN:2375-2548
Container-title:Science Advances
language:en
Short-container-title:Sci. Adv.

Author:

Bernstein Aaron S.¹^ORCID,Ando Amy W.²³^ORCID,Loch-Temzelides Ted⁴^ORCID,Vale Mariana M.⁵⁶^ORCID,Li Binbin V.⁷⁸^ORCID,Li Hongying⁹^ORCID,Busch Jonah¹⁰^ORCID,Chapman Colin A.¹¹¹²¹³¹⁴^ORCID,Kinnaird Margaret¹⁵^ORCID,Nowak Katarzyna¹⁶^ORCID,Castro Marcia C.¹⁷^ORCID,Zambrana-Torrelio Carlos⁹^ORCID,Ahumada Jorge A.¹⁰^ORCID,Xiao Lingyun¹⁸^ORCID,Roehrdanz Patrick¹⁰^ORCID,Kaufman Les¹⁹^ORCID,Hannah Lee¹⁰^ORCID,Daszak Peter⁹^ORCID,Pimm Stuart L.⁸^ORCID,Dobson Andrew P.²⁰²¹^ORCID

Affiliation:

1. Boston Children’s Hospital and the Center for Climate, Health and the Global Environment, Boston, MA 02115, USA.

2. Department of Agricultural and Consumer Economics, University of Illinois Urbana-Champaign, Champaign, IL 61801, USA.

3. Resources for the Future, 1616 P Street NW, Washington, DC 20036, USA.

4. Department of Economics and Baker Institute for Public Policy, Rice University, Houston, TX 77005, USA.

5. Ecology Department, Federal University of Rio de Janeiro, Rio de Janeiro, Brazil.

6. National Institute of Science and Technology in Ecology, Evolution and Biodiversity Conservation, Goiania, Brazil.

7. Environment Research Center, Duke Kunshan University, Kunshan, Jiangsu Province 215317, China.

8. Nicholas School of the Environment, Duke University, Durham, NC 27708, USA.

9. EcoHealth Alliance, 520 Eighth Avenue, New York, NY 10018, USA.

10. Moore Center for Science, Conservation International, Arlington, VA 22202, USA.

11. Wilson Center, 1300 Pennsylvania Avenue NW, Washington, DC 20004, USA.

12. Center for the Advanced Study of Human Paleobiology, George Washington University, Washington, DC 20004, USA.

13. School of Life Sciences, University of KwaZulu-Natal, Pietermaritzburg, South Africa.

14. Shaanxi Key Laboratory for Animal Conservation, Northwest University, Xi’an, China.

15. Practice Leader, Wildlife, WWF International, The Mvuli, Mvuli Road, Westlands, Kenya.

16. The Safina Center, 80 North Country Road, Setauket, NY 11733, USA.

17. Harvard T.H. Chan School of Public Health, Boston, MA 02215, USA.

18. Department of Health and Environmental Sciences, Xi’an Jiaotong-Liverpool University, Suzhou, Jiangsu Province 215123, China.

19. Department of Biology and Pardee Center for the Study of the Longer-Range Future, Boston University, Boston, MA 02215, USA.

20. Department of Ecology and Evolutionary Biology, Princeton University, Princeton, NJ 08544, USA.

21. Santa Fe Institute, Hyde Park Road, Santa Fe, NM 87501, USA.

Abstract

The lives lost and economic costs of viral zoonotic pandemics have steadily increased over the past century. Prominent policymakers have promoted plans that argue the best ways to address future pandemic catastrophes should entail, “detecting and containing emerging zoonotic threats.” In other words, we should take actions only after humans get sick. We sharply disagree. Humans have extensive contact with wildlife known to harbor vast numbers of viruses, many of which have not yet spilled into humans. We compute the annualized damages from emerging viral zoonoses. We explore three practical actions to minimize the impact of future pandemics: better surveillance of pathogen spillover and development of global databases of virus genomics and serology, better management of wildlife trade, and substantial reduction of deforestation. We find that these primary pandemic prevention actions cost less than 1/20th the value of lives lost each year to emerging viral zoonoses and have substantial cobenefits.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

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