The study delves into utilizing Nash equilibrium strategies to enhance forest harvesting decisions by considering various indicators like CO2 sequestration, biodiversity, wood volume, native species fraction, and protective functions. By identifying a Nash equilibrium through a game involving five players representing different objectives, the study highlights the potential for refining optimization approaches in forest management practices.
The research focuses on addressing conflicting interests and diverse objectives in forestry decision-making processes. It emphasizes the significance of maintaining a balance between different goals to ensure effective and sustainable forest management practices. The study showcases how Nash equilibrium can lead to strategic modifications that maintain wood volume extraction while reducing biodiversity loss, enhancing carbon sequestration, improving species suitability, and preserving protective functions.
Through simulation-based analysis and negotiation models involving multiple players representing distinct criteria, the study demonstrates how Nash equilibrium can optimize forest harvesting strategies. By examining key metrics like carbon sequestration, species diversity, timber volume, native species selection, and protective functions, the research provides valuable insights into achieving a balanced approach towards forestry management goals.
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arxiv.org
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