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Climate Change Constrains the Efficiency Frontier When Managing Forests to Reduce Fire Severity and Maximize Carbon Storage

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  • Bagdon, Benjamin A.
  • Huang, Ching-Hsun
  • Dewhurst, Stephen
  • Meador, Andrew Sánchez

Abstract

Pareto efficiency frontiers are ideal analytical tools for evaluating likely shifts in the production of forest ecosystem services under climate change. In the context of multi-objective forest management, these frontiers, or the set of non-dominated solutions for a set of objectives at varying levels of output, provide quantitative measures of trade-offs between competing ecosystem services and changes in the best-possible management outcomes for different climate change scenarios. We used outputs from a forest growth-and-yield model that simulated wildfire and management to examine three types of Pareto frontier analyses: 1) carbon storage maximization under changing budgetary constraints with and without wildfire effects, 2) minimization of undesirable wildfire effects under changing budgetary constraints, and 3) minimization of undesirable wildfire effects at varying constrained carbon storage levels. We found that over 45years climate change reduced the average amount of carbon stored, whether or not we simulated a wildfire on the 23,204ha study area despite our best management efforts. Climate change also adversely affected the trade-off rate, or slope of the frontiers, between carbon storage and wildfire effects. We illustrate how the application of a methodology typically used in economics can reveal insights in forest ecosystem management otherwise hidden to decision-makers.

Suggested Citation

  • Bagdon, Benjamin A. & Huang, Ching-Hsun & Dewhurst, Stephen & Meador, Andrew Sánchez, 2017. "Climate Change Constrains the Efficiency Frontier When Managing Forests to Reduce Fire Severity and Maximize Carbon Storage," Ecological Economics, Elsevier, vol. 140(C), pages 201-214.
    • Handle: RePEc:eee:ecolec:v:140:y:2017:i:c:p:201-214
    DOI: 10.1016/j.ecolecon.2017.05.016
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    1. Ananda, Jayanath & Herath, Gamini, 2005. "Evaluating public risk preferences in forest land-use choices using multi-attribute utility theory," Ecological Economics, Elsevier, vol. 55(3), pages 408-419, November.
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    3. Morgan Wiechmann & Matthew Hurteau & Malcolm North & George Koch & Lucie Jerabkova, 2015. "The carbon balance of reducing wildfire risk and restoring process: an analysis of 10-year post-treatment carbon dynamics in a mixed-conifer forest," Climatic Change, Springer, vol. 132(4), pages 709-719, October.
    4. Morgan Wiechmann & Matthew Hurteau & Malcolm North & George Koch & Lucie Jerabkova, 2015. "Erratum to: The carbon balance of reducing wildfire risk and restoring process: an analysis of 10-year post-treatment carbon dynamics in a mixed-conifer forest," Climatic Change, Springer, vol. 132(4), pages 721-722, October.
    5. Detlef Vuuren & Jae Edmonds & Mikiko Kainuma & Keywan Riahi & Allison Thomson & Kathy Hibbard & George Hurtt & Tom Kram & Volker Krey & Jean-Francois Lamarque & Toshihiko Masui & Malte Meinshausen & N, 2011. "The representative concentration pathways: an overview," Climatic Change, Springer, vol. 109(1), pages 5-31, November.
    6. Bagdon, Benjamin A. & Huang, Ching-Hsun & Dewhurst, Stephen, 2016. "Managing for ecosystem services in northern Arizona ponderosa pine forests using a novel simulation-to-optimization methodology," Ecological Modelling, Elsevier, vol. 324(C), pages 11-27.
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    1. Huang, Ching-Hsun & Bagdon, Benjamin A., 2018. "Quantifying environmental and health benefits of using woody biomass for electricity generation in the Southwestern United States," Journal of Forest Economics, Elsevier, vol. 32(C), pages 123-134.

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