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Emerging human infectious diseases and the links to global food production

Author

Listed:
  • Jason R. Rohr

    (University of Notre Dame
    University of South Florida)

  • Christopher B. Barrett

    (Cornell University)

  • David J. Civitello

    (Emory University)

  • Meggan E. Craft

    (University of Minnesota)

  • Bryan Delius

    (University of South Florida)

  • Giulio A. DeLeo

    (Hopkins Marine Station, Stanford University)

  • Peter J. Hudson

    (Pennsylvania State University)

  • Nicolas Jouanard

    (Laboratoire de Recherches Biomédicales, Espoir pour la Santé)

  • Karena H. Nguyen

    (University of South Florida)

  • Richard S. Ostfeld

    (Cary Institute of Ecosystem Studies)

  • Justin V. Remais

    (University of California, Berkeley)

  • Gilles Riveau

    (Laboratoire de Recherches Biomédicales, Espoir pour la Santé)

  • Susanne H. Sokolow

    (Hopkins Marine Station, Stanford University
    University of California, Santa Barbara)

  • David Tilman

    (University of Minnesota)

Abstract

Infectious diseases are emerging globally at an unprecedented rate while global food demand is projected to increase sharply by 2100. Here, we synthesize the pathways by which projected agricultural expansion and intensification will influence human infectious diseases and how human infectious diseases might likewise affect food production and distribution. Feeding 11 billion people will require substantial increases in crop and animal production that will expand agricultural use of antibiotics, water, pesticides and fertilizer, and contact rates between humans and both wild and domestic animals, all with consequences for the emergence and spread of infectious agents. Indeed, our synthesis of the literature suggests that, since 1940, agricultural drivers were associated with >25% of all — and >50% of zoonotic — infectious diseases that emerged in humans, proportions that will likely increase as agriculture expands and intensifies. We identify agricultural and disease management and policy actions, and additional research, needed to address the public health challenge posed by feeding 11 billion people.

Suggested Citation

  • Jason R. Rohr & Christopher B. Barrett & David J. Civitello & Meggan E. Craft & Bryan Delius & Giulio A. DeLeo & Peter J. Hudson & Nicolas Jouanard & Karena H. Nguyen & Richard S. Ostfeld & Justin V. , 2019. "Emerging human infectious diseases and the links to global food production," Nature Sustainability, Nature, vol. 2(6), pages 445-456, June.
  • Handle: RePEc:nat:natsus:v:2:y:2019:i:6:d:10.1038_s41893-019-0293-3
    DOI: 10.1038/s41893-019-0293-3
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    Cited by:

    1. Jie Li & Kun Jia & Yanxu Liu & Bo Yuan & Mu Xia & Wenwu Zhao, 2021. "Spatiotemporal Distribution of Zika Virus and Its Spatially Heterogeneous Relationship with the Environment," IJERPH, MDPI, vol. 18(1), pages 1-14, January.
    2. Emmanuelle Lavaine & Philippe Majerus & Nicolas Treich, 2020. "Health, air pollution, and animal agriculture," Review of Agricultural, Food and Environmental Studies, Springer, vol. 101(4), pages 517-528, December.
    3. Shyamsundar, Priya & Sauls, Laura Aileen & Cheek, Jennifer Zavaleta & Sullivan-Wiley, Kira & Erbaugh, J.T. & Krishnapriya, P.P., 2021. "Global forces of change: Implications for forest-poverty dynamics," Forest Policy and Economics, Elsevier, vol. 133(C).
    4. Jianhua Wang & Guan-Zhu Han, 2023. "Genome mining shows that retroviruses are pervasively invading vertebrate genomes," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    5. Yi-Fei Wang & Yan-Jie Liu & Yan-Mei Fu & Jia-Yang Xu & Tian-Lun Zhang & Hui-Ling Cui & Min Qiao & Matthias C. Rillig & Yong-Guan Zhu & Dong Zhu, 2024. "Microplastic diversity increases the abundance of antibiotic resistance genes in soil," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    6. Ivan Montiel & Junghoon Park & Bryan W. Husted & Andres Velez-Calle, 2022. "Tracing the connections between international business and communicable diseases," Journal of International Business Studies, Palgrave Macmillan;Academy of International Business, vol. 53(8), pages 1785-1804, October.
    7. Rivera-Ferre, Marta G. & López-i-Gelats, Feliu & Ravera, Federica & Oteros-Rozas, Elisa & di Masso, Marina & Binimelis, Rosa & El Bilali, Hamid, 2021. "The two-way relationship between food systems and the COVID19 pandemic: causes and consequences," Agricultural Systems, Elsevier, vol. 191(C).
    8. Haozhe Zhang & Jinyi Li, 2024. "Mapping the urban and rural planning response paths to pandemics of infectious diseases," Palgrave Communications, Palgrave Macmillan, vol. 11(1), pages 1-12, December.
    9. repec:ags:aaea22:335555 is not listed on IDEAS
    10. Molly J Doruska & Christopher B Barrett & Jason R Rohr, 2024. "Modeling how and why aquatic vegetation removal can free rural households from poverty-disease traps," Papers 2401.17384, arXiv.org.
    11. Serge Savary & Sonia Akter & Conny Almekinders & Jody Harris & Lise Korsten & Reimund Rötter & Stephen Waddington & Derrill Watson, 2020. "Mapping disruption and resilience mechanisms in food systems," Food Security: The Science, Sociology and Economics of Food Production and Access to Food, Springer;The International Society for Plant Pathology, vol. 12(4), pages 695-717, August.
    12. Pueyo, Salvador, 2020. "Jevons' paradox and a tax on aviation to prevent the next pandemic," SocArXiv vb5q3, Center for Open Science.
    13. Sabrina C. Agarwal, 2022. "What does pandemic response and recovery look like through the lens of anthropogenic violence and inequality?," Economic Anthropology, Wiley Blackwell, vol. 9(1), pages 158-162, January.
    14. Panpan Ji & Jianhui Chen & Ruijin Chen & Jianbao Liu & Chaoqing Yu & Fahu Chen, 2024. "Nitrogen and phosphorus trends in lake sediments of China may diverge," Nature Communications, Nature, vol. 15(1), pages 1-9, December.

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