Abstract
On March 11, 2020, the World Health Organization officially declared the COVID-19 pandemic. This major healthcare disaster transformed our daily lives and the operations of governments, businesses, educational institutions, and, of course, healthcare. It elevated and expanded the roles of essential workers in healthcare as well as in the food industry. The food industry underwent significant disruptions in the pandemic for reasons that included compromised labor resources. Labor is needed in all food supply chain network activities from production through distribution. With climate change and increasing geopolitical risks, one can expect additional disruptions to our food supply chains and an increase in food insecurity. The major invasion of Russia in Ukraine on February 24, 2022 is further exacerbating food shortages and also pushing food prices higher. In this chapter, a supply chain generalized network optimization framework focused on perishable food is constructed that includes the critical resource of labor. The model captures labor availability and labor productivity in order to quantify the impacts of disruptions due to illnesses, social distancing requirements, decreases in labor productivity, and even reductions in worker availability during times of conflicts and war. Theoretical results and numerical examples for a fresh produce product are detailed with quantification of a spectrum of disruptions on product flows, demands, prices, and the profits of the food firm.
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References
Aday, S., Aday, M.S., 2020. Impact of COVID-19 on the food supply chain. Food Quality and Safety, 4(4), 167–180.
Ahumada, O., Villalobos, J., 2009. Application of planning models in the agri-food supply chain: A review. European Journal of Operational Research, 196(1), 1–20.
Albornoz, V.M., Gonzalez-Araya, M., Gripe, M.C., Rodriguez, S.V., 2015. A mixed integer linear program for operational planning in a meat packing plant. In: Proceedings of the International Conference on Operations Research and Enterprise Systems (ICORES-2015), pp. 254–261.
Anderson, J.D., Mitchell, J.L., Maples, J.G., 2021. Invited review: Lessons from the COVID-19 pandemic for food supply chains. Applied Animal Science, 37(6), 738–747.
Associated Press, 2020. Coronavirus pandemic leads to Idaho potato market woes. From CNN.com, April 27.
Baourakis, G., Migdalas, A., Pardalos, P.M., Editors, 2004. Supply Chain and Finance. World Scientific Publishing Co., Singapore.
Barman, A., Das, R., De, P.K., 2021. Impact of COVID-19 in food supply chain: Disruptions and recovery strategy. Current Research in Behavioral Sciences. November 2, 100017.
Barrett, E., 2022. China’s COVID-19 lockdown is inflaming the world’s supply chain backlog, with 1 in 5 container ships stuck outside congested ports. Fortune, April 21.
Besik, D., Nagurney, A., 2017. Quality in competitive fresh produce supply chains with application to farmers’ markets. Socio-Economic Planning Sciences, 60, 62–76.
Bjattarai, A., Reiley, L., 2020. The companies that feed America brace for labor shortages and worry about restocking stores as coronavirus pandemic intensifies. The Washington Post, March 13.
Bjorndal, T., Herrero, I., Newman, A., Romero, C., Weintraub, A., 2012. Operations research in the natural resource industry. International Transactions in Operational Research, 19, 39–62.
CBSSacramento, 2020. Trucking through coronavirus pandemic: Drivers describe new changes on the road. April 7.
Corkery, M., Yaffe-Bellany, D., 2020. The food chain’s weakest link: Slaughterhouses. The New York Times, April 18.
Cullen, M.T., 2020. COVID-19 and the risk to food supply chains: How to respond? Food and Agricultural Organization of the United Nations. March 29, Rome, Italy.
D’Agostino, S., 2022. Global hunger crisis looms as war in Ukraine sends food prices soaring. Bulletin of Atomic Scientists, April 12.
Food and Agricultural Organization of the United Nations, 2022. Assessing investment needs in Ukraine’s agricultural reconstruction and recovery. April 7.
Gall, C., 2022. A farmer holds on, a fraying lifeline for a besieged corner of Ukraine. The New York Times, June 4.
Geunes, J., Pardalos, P.M., 2003. Network optimization in supply chain management and financial engineering: An annotated bibliography. Networks, 42(2), 66–84.
Goodman, P.J., 2021. ‘It’s not sustainable’: What America’s port crisis looks like up close. The New York Times, October 21.
Gustavsson, J., Cederberg, C., Sonesson, U., van Otterdijk, R., Meybeck, A., 2011. Global food losses and food waste. The Food and Agriculture Organization of the United Nations, Rome, Italy.
Higgins, A., Miller, C., Archer, A., Ton, T., Fletcher, C., McAllister, R., 2010. Challenges of operations research practice in agricultural value chains. Journal of the Operational Research Society, 61(6), 964–973.
Hirtzer, M., Skerrit, J., 2020. Americans on cusp of meat shortage with food chain breaking down. Bloomberg, April 27.
Huffstutter, P.J., 2020. U.S. dairy farmers dump milk as pandemic upends food markets. Reuters, April 7.
Hussein, F., Wiseman, P., 2022. Finance heads urged to boost fight against food insecurity. Associated Press, April 19.
Kinderlehrer, D., Stampacchia, G., 1980. An Introduction to Variational Inequalities and Their Applications. Academic Press, New York.
Korpelevich, G.M., 1977. The extragradient method for finding saddle points and other problems. Matekon, 13, 35–49.
LeBoeuf, J., 2002. Crop time line for cantaloupes, honeydews, and watermelons in California. AgriDataSensing, Inc., October 1.
Little, A., 2020. A pork panic won’t save our bacon. Bloomberg Opinion, April 30.
MacDonald, A., 2022. After Russian retreat, Ukraine’s farmers discover fields full of mines. The Wall Street Journal, April 28.
Masoumi, A.H., Yu, M., Nagurney, A., 2012. A supply chain generalized network oligopoly model for pharmaceuticals under brand differentiation and perishability. Transportation Research E, 48, 762–780.
Meister, H.S., 2004a. Sample cost to establish and produce cantaloupes (slant-bed, spring planted). U.C. Cooperative Extension – Imperial County Vegetable Crops Guidelines, August.
Meister, H.S., 2004b. Sample cost to establish and produce cantaloupes (mid-bed trenched). U.C. Cooperative Extension – Imperial County Vegetable Crops Guidelines, August.
Mishra, S.K., 2007. A brief history of production functions. MPRA Paper No. 5254.
Morath, E., 2020. How may U.S. workers have lost jobs during coronavirus pandemic? There are several ways to count. The Wall Street Journal, June 3.
Nagurney, A., 1999. Network Economics: A Variational Inequality Approach, second and revised edition. Kluwer Academic Publishers, Dordrecht, The Netherlands.
Nagurney, A. 2006. Supply Chain Network Economics: Dynamics of Prices, Flows and Profits. Edward Elgar Publishing, Cheltenham, England.
Nagurney, A., 2021. Perishable food supply chain networks with labor in the Covid-19 pandemic. In: Dynamics of Disasters - Impact, Risk, Resilience, and Solutions. I.S. Kotsireas, A. Nagurney, P.M. Pardalos, and A. Tsokas, Editors, Springer Nature Switzerland AG, pp. 173–193.
Nagurney, A., Besik, D., 2022. Spatial price equilibrium networks with flow-dependent arc multipliers. Optimization Letters, 26, 2483–2500.
Nagurney, A., Besik, D., Yu, M., 2018. Dynamics of quality as a strategic variable in complex food supply chain network competition: The case of fresh produce. Chaos, 28, 043124.
Nagurney, A. Dutta, P., 2019. Supply chain network competition among blood service organizations: A Generalized Nash Equilibrium framework. Annals of Operations Research, 275(2), 551–586.
Nagurney, A., Li, D., 2016. Competing on Supply Chain Quality: A Network Economics Perspective. Springer International Publishing Switzerland.
Nagurney, A., Masoumi, A.H., Yu, M., 2012. Supply chain network operations management of a blood banking system with cost and risk minimization. Computational Management Science, 9(2), 205–231.
Nagurney, A., Yu, M., Masoumi, A.H., Nagurney, L.S., 2013. Networks Against Time: Supply Chain Analytics for Perishable Products. Springer Science+Business Media, New York, New York.
Nahmias, S., 1982. Perishable inventory theory: A review. Operations Research, 30(4), 680–708.
Nickel, R., Walljasper, C., 2020. Canada, U.S. farms face crop losses due to foreign worker delays. Reuters, April 6.
Polansek, T., Huffstutter, P.J., 2020. Piglets aborted, chickens gassed as pandemic slams meat sector. Reuters, April 27.
Quinn, A., Verbyany, V., 2022. Ukraine’s farmers fight on the front line of global food crisis. Bloomberg, April 24.
Reed, J., Terazono, E., Geal, A., Joiner, S., Clark, D., Learner, S., 2022. How Russia’s war in Ukraine upended the breadbasket of Europe. Fortune, April 27.
Reiley, L., 2020. Meat processing plants are closing due to Covid-19 outbreaks. Beef shortfalls may follow. The Washington Post, April 16.
Rodriguez, S., Pla, L., Faulin, J., 2014. New opportunities in operations research to improve pork supply chain efficiency. Annals of Operation Research, 219, 5–23.
Rong, A., Akkerman, R., Grunow, M., 2011. An optimization approach for managing fresh food quality throughout the supply chain. International Journal of Production Economics, 131(1), 421–429.
Rosane, O., 2020. Meat processing plants close as working conditions encourage spread of coronavirus. EcoWatch, April 14.
Samuelson, W.F., Marks, S.G., 2012. Managerial Economics, seventh edition. John Wiley & Sons, Inc., Hoboken, New Jersey.
Scheiber, N., Corkery, M., 2020. Missouri pork plant workers way they can’t cover mouths to cough. The New York Times, April 24.
Schreck, A., 2022. AP interview: UN chief says Mariupol is starving. Associated Press, April 14.
Schrotenboer, B., 2020. US agriculture: Can it handle coronavirus, labor shortages and panic buying? USA Today, April 4.
Shoichet, C.E., 2020. The farmworkers putting food on America’s tables are facing their own coronavirus crisis. CNN.com, April 11.
Sloof, M., Tijskens, L.M.M., Wilkinson, E.C., 1996. Concepts for modelling the quality of perishable products. Trends in Food Science & Technology, 7(5), 165–171.
Suslow, T.V., Cantwell, M., Mitchell, J., 1997. Cantaloupe: Recommendations for maintaining postharvest quality. Department of Vegetable Crops, University of California, Davis, California.
Thompson, J.F., 2002. Waste management and cull utilization. In: Postharvest Technology of Horticultural Crops, third edition. A.A. Kader, Editor, University of California Agriculture & Natural Resources, Publication 3311, Oakland, California, pp. 81–84.
Tijskens, L.M.M., Polderdijk, J.J., 1996. A generic model for keeping quality of vegetable produce during storage and distribution. Agricultural Systems, 51(4), 431–452.
Vlontzos, G., Pardalos, P.M., 2017. Data mining and optimisation issues in the food industry. International Journal of Sustainable Agricultural Management and Informatics, 3(1), 44–64.
Whitaker, D., Cammel, S., 1990. A partitioned cutting stock problem applied on the meat industry. Journal of the Operational Research Society, 41(9), 801–807.
Wootson, Jr., C.R., 2020. As produce rots in the field, one Florida farmer and an army of volunteers combat ‘a feeling of helplessness’ one cucumber at a time. The Washington Post, April 30.
Wu, T., Blackhurst, J., Editors, 2009. Managing Supply Chain Risk and Vulnerability: Tools and Methods for Supply Chain Decision Makers. Springer, London, England.
Yu, M., Nagurney, A., 2013. Competitive food supply chain networks with application to fresh produce. European Journal of Operational Research, 224(2), 273–282.
Zhang, G., Habenicht, W., Spiess, W.E.L., 2003. Improving the structure of deep frozen and chilled food chain with tabu search procedure. Journal of Food Engineering, 60, 67–79.
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Nagurney, A. (2022). Perishable Food Supply Chain Networks with Labor. In: Labor and Supply Chain Networks. Springer Optimization and Its Applications, vol 198. Springer, Cham. https://doi.org/10.1007/978-3-031-20855-3_2
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