COVID-19 Reveals Vulnerabilities of the Food-Energy-Water Nexus to Viral Pandemics

Ryan S.D. Calder; Caitlin Grady; Marc Jeuland; Christine J. Kirchhoff; Rebecca L. Hale; Rebecca L. Muenich

doi:10.1021/acs.estlett.1c00291

COVID-19 Reveals Vulnerabilities of the Food-Energy-Water Nexus to Viral Pandemics

Ryan S.D. Calder, Caitlin Grady, Marc Jeuland, Christine J. Kirchhoff, Rebecca L. Hale, Rebecca L. Muenich

Research output: Contribution to journal › Review article › peer-review

12 Scopus citations

Abstract

Food, energy, and water (FEW) sectors are inextricably linked, making one sector vulnerable to disruptions in another. Interactions between FEW systems, viral pandemics, and human health have not been widely studied. We mined scientific and news/media articles for causal relations among FEW and COVID-19 variables and qualitatively characterized system dynamics. Food systems promoted the emergence and spread of COVID-19, leading to illness and death. Major supply-side breakdowns were avoided (likely due to low morbidity/mortality among working-age people). However, COVID-19 and physical distancing disrupted labor and capital inputs and stressed supply chains, while creating economic insecurity among the already vulnerable poor. This led to demand-side FEW insecurities, in turn increasing susceptibility to COVID-19 among people with many comorbidities. COVID-19 revealed trade-offs such as allocation of water to hygiene versus to food production and disease burden avoided by physical distancing versus disease burden from increased FEW insecurities. News/media articles suggest great public interest in FEW insecurities triggered by COVID-19 interventions among individuals with low COVID-19 case-fatality rates. There is virtually no quantitative analysis of any of these trade-offs or feedbacks. Enhanced quantitative FEW and health models are urgently needed as future pandemics are likely and may have greater morbidity and mortality than COVID-19.

Original language	English (US)
Pages (from-to)	606-615
Number of pages	10
Journal	Environmental Science and Technology Letters
Volume	8
Issue number	8
DOIs	https://doi.org/10.1021/acs.estlett.1c00291
State	Published - Aug 10 2021

ASJC Scopus subject areas

Environmental Chemistry
Ecology
Water Science and Technology
Waste Management and Disposal
Pollution
Health, Toxicology and Mutagenesis

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10.1021/acs.estlett.1c00291

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title = "COVID-19 Reveals Vulnerabilities of the Food-Energy-Water Nexus to Viral Pandemics",

abstract = "Food, energy, and water (FEW) sectors are inextricably linked, making one sector vulnerable to disruptions in another. Interactions between FEW systems, viral pandemics, and human health have not been widely studied. We mined scientific and news/media articles for causal relations among FEW and COVID-19 variables and qualitatively characterized system dynamics. Food systems promoted the emergence and spread of COVID-19, leading to illness and death. Major supply-side breakdowns were avoided (likely due to low morbidity/mortality among working-age people). However, COVID-19 and physical distancing disrupted labor and capital inputs and stressed supply chains, while creating economic insecurity among the already vulnerable poor. This led to demand-side FEW insecurities, in turn increasing susceptibility to COVID-19 among people with many comorbidities. COVID-19 revealed trade-offs such as allocation of water to hygiene versus to food production and disease burden avoided by physical distancing versus disease burden from increased FEW insecurities. News/media articles suggest great public interest in FEW insecurities triggered by COVID-19 interventions among individuals with low COVID-19 case-fatality rates. There is virtually no quantitative analysis of any of these trade-offs or feedbacks. Enhanced quantitative FEW and health models are urgently needed as future pandemics are likely and may have greater morbidity and mortality than COVID-19.",

author = "Calder, {Ryan S.D.} and Caitlin Grady and Marc Jeuland and Kirchhoff, {Christine J.} and Hale, {Rebecca L.} and Muenich, {Rebecca L.}",

note = "Funding Information: This work was inFEWsed with support from the National Socio-Environmental Synthesis Center (SESYNC) under funding received from the National Science Foundation DBI-1639145. The authors acknowledge the support of SESYNC collaborators Jeffrey Bielicki and Douglas Jackson Smith (Ohio State U.), Morey Burnham (Idaho State U.), Bryce Hannibal (Utah State U.), Shamitha Keerthi (The Nature Conservancy), Carsten Prasse (Johns Hopkins U.), Ashlynn Stillwell (U. Illinois), and Brian Thiede (Penn State U.). We thank research assistants Guillaume Bouchard (Harvard U.), Chloe Gaylor (Virginia Tech), and Michelle Moffa (Duke U.) for their help with the literature review. Publisher Copyright: {\textcopyright} ",

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AU - Calder, Ryan S.D.

AU - Grady, Caitlin

AU - Jeuland, Marc

AU - Kirchhoff, Christine J.

AU - Hale, Rebecca L.

AU - Muenich, Rebecca L.

N1 - Funding Information: This work was inFEWsed with support from the National Socio-Environmental Synthesis Center (SESYNC) under funding received from the National Science Foundation DBI-1639145. The authors acknowledge the support of SESYNC collaborators Jeffrey Bielicki and Douglas Jackson Smith (Ohio State U.), Morey Burnham (Idaho State U.), Bryce Hannibal (Utah State U.), Shamitha Keerthi (The Nature Conservancy), Carsten Prasse (Johns Hopkins U.), Ashlynn Stillwell (U. Illinois), and Brian Thiede (Penn State U.). We thank research assistants Guillaume Bouchard (Harvard U.), Chloe Gaylor (Virginia Tech), and Michelle Moffa (Duke U.) for their help with the literature review. Publisher Copyright: ©

PY - 2021/8/10

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N2 - Food, energy, and water (FEW) sectors are inextricably linked, making one sector vulnerable to disruptions in another. Interactions between FEW systems, viral pandemics, and human health have not been widely studied. We mined scientific and news/media articles for causal relations among FEW and COVID-19 variables and qualitatively characterized system dynamics. Food systems promoted the emergence and spread of COVID-19, leading to illness and death. Major supply-side breakdowns were avoided (likely due to low morbidity/mortality among working-age people). However, COVID-19 and physical distancing disrupted labor and capital inputs and stressed supply chains, while creating economic insecurity among the already vulnerable poor. This led to demand-side FEW insecurities, in turn increasing susceptibility to COVID-19 among people with many comorbidities. COVID-19 revealed trade-offs such as allocation of water to hygiene versus to food production and disease burden avoided by physical distancing versus disease burden from increased FEW insecurities. News/media articles suggest great public interest in FEW insecurities triggered by COVID-19 interventions among individuals with low COVID-19 case-fatality rates. There is virtually no quantitative analysis of any of these trade-offs or feedbacks. Enhanced quantitative FEW and health models are urgently needed as future pandemics are likely and may have greater morbidity and mortality than COVID-19.

AB - Food, energy, and water (FEW) sectors are inextricably linked, making one sector vulnerable to disruptions in another. Interactions between FEW systems, viral pandemics, and human health have not been widely studied. We mined scientific and news/media articles for causal relations among FEW and COVID-19 variables and qualitatively characterized system dynamics. Food systems promoted the emergence and spread of COVID-19, leading to illness and death. Major supply-side breakdowns were avoided (likely due to low morbidity/mortality among working-age people). However, COVID-19 and physical distancing disrupted labor and capital inputs and stressed supply chains, while creating economic insecurity among the already vulnerable poor. This led to demand-side FEW insecurities, in turn increasing susceptibility to COVID-19 among people with many comorbidities. COVID-19 revealed trade-offs such as allocation of water to hygiene versus to food production and disease burden avoided by physical distancing versus disease burden from increased FEW insecurities. News/media articles suggest great public interest in FEW insecurities triggered by COVID-19 interventions among individuals with low COVID-19 case-fatality rates. There is virtually no quantitative analysis of any of these trade-offs or feedbacks. Enhanced quantitative FEW and health models are urgently needed as future pandemics are likely and may have greater morbidity and mortality than COVID-19.

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JO - Environmental Science and Technology Letters

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IS - 8

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COVID-19 Reveals Vulnerabilities of the Food-Energy-Water Nexus to Viral Pandemics

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ASJC Scopus subject areas

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