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Effects of Physical Distancing to Control COVID-19 on Public Health, the Economy, and the Environment

Author

Listed:
  • Stephen C. Newbold

    (University of Wyoming)

  • David Finnoff

    (University of Wyoming)

  • Linda Thunström

    (University of Wyoming)

  • Madison Ashworth

    (University of Wyoming)

  • Jason F. Shogren

    (University of Wyoming)

Abstract

Physical distancing measures are important tools to control disease spread, especially in the absence of treatments and vaccines. While distancing measures can safeguard public health, they also can profoundly impact the economy and may have important indirect effects on the environment. The extent to which physical distancing measures should be applied therefore depends on the trade-offs between their health benefits and their economic costs. We develop an epidemiological-economic model to examine the optimal duration and intensity of physical distancing measures aimed to control the spread of COVID-19. In an application to the United States, our model considers the trade-off between the lives saved by physical distancing—both directly from stemming the spread of the virus and indirectly from reductions in air pollution during the period of physical distancing—and the short- and long-run economic costs that ensue from such measures. We examine the effect of air pollution co-benefits on the optimal physical distancing policy and conduct sensitivity analyses to gauge the influence of several key parameters and uncertain model assumptions. Using recent estimates of the association between airborne particulate matter and the virulence of COVID-19, we find that accounting for air pollution co-benefits can significantly increase the intensity and duration of the optimal physical distancing policy. To conclude, we broaden our discussion to consider the possibility of durable changes in peoples’ behavior that could alter local markets, the global economy, and our relationship to nature for years to come.

Suggested Citation

  • Stephen C. Newbold & David Finnoff & Linda Thunström & Madison Ashworth & Jason F. Shogren, 2020. "Effects of Physical Distancing to Control COVID-19 on Public Health, the Economy, and the Environment," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 76(4), pages 705-729, August.
    • Handle: RePEc:kap:enreec:v:76:y:2020:i:4:d:10.1007_s10640-020-00440-1
    DOI: 10.1007/s10640-020-00440-1
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    Cited by:

    1. Robert J. R. Elliott & Ingmar Schumacher & Cees Withagen, 2020. "Suggestions for a Covid-19 Post-Pandemic Research Agenda in Environmental Economics," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 76(4), pages 1187-1213, August.
    2. Fabio Vanni & David Lambert, 2021. "On the regularity of human mobility patterns at times of a pandemic," Working Papers hal-04103882, HAL.
    3. Andreas Löschel & Madeline Werthschulte, 2021. "Energienachfrage und CO2-Emissionen nach COVID-19 [Energy demand and CO2 emissions according to COVID-19]," Wirtschaftsdienst, Springer;ZBW - Leibniz Information Centre for Economics, vol. 101(1), pages 64-66, January.
    4. Nana Liu & Zeshui Xu & Marinko Skare, 2021. "The research on COVID-19 and economy from 2019 to 2020: analysis from the perspective of bibliometrics," Oeconomia Copernicana, Institute of Economic Research, vol. 12(2), pages 217-268, June.
    5. Fabio Vanni & David Lambert, 2021. "On the regularity of human mobility patterns at times of a pandemic," SciencePo Working papers Main hal-04103882, HAL.
    6. Reza Yaesoubi & Joshua Havumaki & Melanie H. Chitwood & Nicolas A. Menzies & Gregg Gonsalves & Joshua A. Salomon & A. David Paltiel & Ted Cohen, 2021. "Adaptive Policies to Balance Health Benefits and Economic Costs of Physical Distancing Interventions during the COVID-19 Pandemic," Medical Decision Making, , vol. 41(4), pages 386-392, May.
    7. Liqing Li & Dede Long & Mani Rouhi Rad & Matthew R Sloggy, 2021. "Stay-at-home orders and the willingness to stay home during the COVID-19 pandemic: A stated-preference discrete choice experiment," PLOS ONE, Public Library of Science, vol. 16(7), pages 1-20, July.
    8. Fabio Vanni & David Lambert, 2021. "On the regularity of human mobility patterns at times of a pandemic," Papers 2104.08975, arXiv.org.
    9. Siedschlag, Iulia & Yan, Weijie, 2020. "Containing the COVID-19 Pandemic: What Determined the Speed of Government Interventions?," Papers WP680, Economic and Social Research Institute (ESRI).
    10. Sharbayta, Sileshi Sintayehu & Buonomo, Bruno & d'Onofrio, Alberto & Abdi, Tadesse, 2022. "‘Period doubling’ induced by optimal control in a behavioral SIR epidemic model," Chaos, Solitons & Fractals, Elsevier, vol. 161(C).

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