Frontiers in Environmental Science (Feb 2023)

The C-FEWS framework: Supporting studies of climate-induced extremes on food, energy, and water systems at the regional scale

  • Charles J. Vörösmarty,
  • Charles J. Vörösmarty,
  • Charles J. Vörösmarty,
  • Jerry M. Melillo,
  • Donald J. Wuebbles,
  • Atul K. Jain,
  • Amy W. Ando,
  • Mengye Chen,
  • Seth Tuler,
  • Seth Tuler,
  • Richard Smith,
  • David Kicklighter,
  • Fabio Corsi,
  • Fabio Corsi,
  • Balazs Fekete,
  • Ariel Miara,
  • Hussain H. Bokhari,
  • Joseph Chang,
  • Tzu-Shun Lin,
  • Nico Maxfield,
  • Nico Maxfield,
  • Swarnali Sanyal,
  • Jiaqi Zhang,
  • Daniel Vignoles,
  • Daniel Vignoles

DOI
https://doi.org/10.3389/fenvs.2023.1069613
Journal volume & issue
Vol. 11

Abstract

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Climate change continues to challenge food, energy, and water systems (FEWS) across the globe and will figure prominently in shaping future decisions on how best to manage this nexus. In turn, traditionally engineered and natural infrastructures jointly support and hence determine FEWS performance, their vulnerabilities, and their resilience in light of extreme climate events. We present here a research framework to advance the modeling, data integration, and assessment capabilities that support hypothesis-driven research on FEWS dynamics cast at the macro-regional scale. The framework was developed to support studies on climate-induced extremes on food, energy, and water systems (C-FEWS) and designed to identify and evaluate response options to extreme climate events in the context of managing traditionally engineered (TEI) and nature-based infrastructures (NBI). This paper presents our strategy for a first stage of research using the framework to analyze contemporary FEWS and their sensitivity to climate drivers shaped by historical conditions (1980–2019). We offer a description of the computational framework, working definitions of the climate extremes analyzed, and example configurations of numerical experiments aimed at evaluating the importance of individual and combined driving variables. Single and multiple factor experiments involving the historical time series enable two categories of outputs to be analyzed: the first involving biogeophysical entities (e.g., crop production, carbon sequestered, nutrient and thermal pollution loads) and the second reflecting a portfolio of services provided by the region’s TEI and NBI, evaluated in economic terms. The framework is exercised in a series of companion papers in this special issue that focus on the Northeast and Midwest regions of the United States. Use of the C-FEWS framework to simulate historical conditions facilitates research to better identify existing FEWS linkages and how they function. The framework also enables a next stage of analysis to be pursued using future scenario pathways that will vary land use, technology deployments, regulatory objectives, and climate trends and extremes. It also supports a stakeholder engagement effort to co-design scenarios of interest beyond the research domain.

Keywords