Towards integrated modeling of the long-term impacts of oil spills

Helena M. Solo-Gabriele, Tom Fiddaman, Cecilie Mauritzen, Cameron Ainsworth, David M. Abramson, Igal Berenshtein, Eric P. Chassignet, Shuyi S. Chen, Robyn N. Conmy, Christa D. Court, William K. Dewar, John W. Farrington, Michael G. Feldman, Alesia C. Ferguson, Elizabeth Fetherston-Resch, Deborah French-McCay, Christine Hale, Ruoying He, Vassiliki H. Kourafalou, Kenneth LeeYonggang Liu, Michelle Masi, Emily S. Maung-Douglass, Steven L. Morey, Steven A. Murawski, Claire B. Paris, Natalie Perlin, Erin L. Pulster, Antonietta Quigg, Denise J. Reed, James J. Ruzicka, Paul A. Sandifer, John G. Shepherd, Burton H. Singer, Michael R. Stukel, Tracey T. Sutton, Robert H. Weisberg, Denis Wiesenburg, Charles A. Wilson, Monica Wilson, Kateryna M. Wowk, Callan Yanoff, David Yoskowitz

Research output: Contribution to journalArticlepeer-review

11 Scopus citations

Abstract

Although great progress has been made to advance the scientific understanding of oil spills, tools for integrated assessment modeling of the long-term impacts on ecosystems, socioeconomics and human health are lacking. The objective of this study was to develop a conceptual framework that could be used to answer stakeholder questions about oil spill impacts and to identify knowledge gaps and future integration priorities. The framework was initially separated into four knowledge domains (ocean environment, biological ecosystems, socioeconomics, and human health) whose interactions were explored by gathering stakeholder questions through public engagement, assimilating expert input about existing models, and consolidating information through a system dynamics approach. This synthesis resulted in a causal loop diagram from which the interconnectivity of the system could be visualized. Results of this analysis indicate that the system naturally separates into two tiers, ocean environment and biological ecosystems versus socioeconomics and human health. As a result, ocean environment and ecosystem models could be used to provide input to explore human health and socioeconomic variables in hypothetical scenarios. At decadal-plus time scales, the analysis emphasized that human domains influence the natural domains through changes in oil-spill related laws and regulations. Although data gaps were identified in all four model domains, the socioeconomics and human health domains are the least established. Considerable future work is needed to address research gaps and to create fully coupled quantitative integrative assessment models that can be used in strategic decision-making that will optimize recoveries from future large oil spills.

Original languageEnglish
Article number104554
JournalMarine Policy
Volume131
DOIs
StatePublished - 1 Sep 2021
Externally publishedYes

Keywords

  • Causal loop diagrams
  • Impact and damage assessment
  • Integrated assessment modeling
  • Oil spills
  • Systems dynamics

ASJC Scopus subject areas

  • Aquatic Science
  • General Environmental Science
  • Economics and Econometrics
  • Management, Monitoring, Policy and Law
  • Law

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