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Modeling loss-propagation in the global supply network: The dynamic agent-based model acclimate

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  • Otto, Christian
  • Willner, Sven Norman

    (Potsdam Institute for Climate Impact Research (PIK))

  • Wenz, Leonie
  • Frieler, Katja
  • Levermann, Anders

Abstract

World markets are highly interlinked and local economies extensively rely on global supply and value chains. Consequently, local production disruptions, for instance caused by extreme weather events, are likely to induce indirect losses along supply chains with potentially global repercussions. These complex loss dynamics represent a challenge for comprehensive disaster risk assessments. Here, we introduce the numerical agent-based model acclimate designed to analyze the cascading of economic losses in the global supply network. Using national sectors as agents, we apply the model to study the global propagation of losses induced by stylized disasters. We find that indirect losses can become comparable in size to direct ones, but can be efficiently mitigated by warehousing and idle capacities. Consequently, a comprehensive risk assessment cannot focus solely on first-tier suppliers, but has to take the whole supply chain into account. To render the supply network climate-proof, national adaptation policies have to be complemented by international adaptation efforts. In that regard, our model can be employed to assess reasonable leverage points and to identify dynamic bottlenecks inaccessible to static analyses.

Suggested Citation

  • Otto, Christian & Willner, Sven Norman & Wenz, Leonie & Frieler, Katja & Levermann, Anders, 2017. "Modeling loss-propagation in the global supply network: The dynamic agent-based model acclimate," OSF Preprints 7yyhd, Center for Open Science.
    • Handle: RePEc:osf:osfxxx:7yyhd
    DOI: 10.31219/osf.io/7yyhd
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    File URL: https://osf.io/download/586e21829ad5a101fc8b021d/
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    Cited by:

    1. Stefan Borsky & Martin Jury, 2020. "The role of global supply chains in the transmission of weather induced production shocks," Graz Economics Papers 2020-13, University of Graz, Department of Economics.
    2. Hiroyasu Inoue & Yasuyuki Todo, 2020. "The propagation of economic impacts through supply chains: The case of a mega-city lockdown to prevent the spread of COVID-19," PLOS ONE, Public Library of Science, vol. 15(9), pages 1-10, September.
    3. Laura M. Canevari‐Luzardo & Frans Berkhout & Mark Pelling, 2020. "A relational view of climate adaptation in the private sector: How do value chain interactions shape business perceptions of climate risk and adaptive behaviours?," Business Strategy and the Environment, Wiley Blackwell, vol. 29(2), pages 432-444, February.
    4. Inoue, Hiroyasu & Todo, Yasuyuki, 2017. "Firm-level simulation of supply chain disruption triggered by actual and predicted earthquakes," MPRA Paper 82920, University Library of Munich, Germany, revised 22 Feb 2017.
    5. Raffaele Giammetti & Alberto Russo & Mauro Gallegati, 2020. "Key sectors in input–output production networks: An application to Brexit," The World Economy, Wiley Blackwell, vol. 43(4), pages 840-870, April.
    6. Chris Shughrue & Karen C. Seto, 2018. "Systemic vulnerabilities of the global urban-industrial network to hazards," Climatic Change, Springer, vol. 151(2), pages 173-187, November.
    7. Antonio Zavala-Alcívar & María-José Verdecho & Juan-José Alfaro-Saiz, 2020. "A Conceptual Framework to Manage Resilience and Increase Sustainability in the Supply Chain," Sustainability, MDPI, Open Access Journal, vol. 12(16), pages 1-1, August.
    8. Hiroyasu Inoue & Yohsuke Murase & Yasuyuki Todo, 2020. "The impact of supply-chain networks on interactions between the anti-COVID-19 lockdowns in different regions," Papers 2009.06894, arXiv.org.
    9. Hiroyasu Inoue & Yasuyuki Todo, 2019. "Propagation of negative shocks across nation-wide firm networks," PLOS ONE, Public Library of Science, vol. 14(3), pages 1-17, March.

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