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How considering multiple criteria, uncertainty scenarios and biological interactions may influence the optimal silvicultural strategy for a mixed forest

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  • Knoke, Thomas
  • Kindu, Mengistie
  • Jarisch, Isabelle
  • Gosling, Elizabeth
  • Friedrich, Stefan
  • Bödeker, Kai
  • Paul, Carola

Abstract

Assessing pre-defined strategies remains the status quo for studies supporting silvicultural decision-making for future forest management, yet, such strategies may not fully address decision-makers' preferences and uncertainty attitudes. We develop a continuous stand-level optimisation approach that integrates multiple decision criteria, uncertain input data based on ellipsoidal uncertainty sets and biological interactions. The optimisation aims to derive silvicultural strategies that closely align with the objectives and uncertainty attitudes of decision-makers. The novel approach optimises tree species composition and harvesting regimes simultaneously. In our example, the decision criteria are the soil expectation value (SEV), the volume of timber harvested, the sum of cash flows and the average amount of carbon stored in the forest. We use input data for Norway spruce (Picea abies), Silver fir (Abies alba) and European beech (Fagus sylvatica), and integrate biological stand-level interactions represented by a) enhanced survival of tree species in mixed forests and b) the growth response of trees remaining after partial harvesting. The resulting optimal silvicultural strategies ranged from a clear-cutting system (when maximising SEV and ignoring uncertainty) to continuous cover forestry (maximising SEV and considering uncertainty). Our analyses did not support single species forestry – even the clear-cutting system suggested a mixed rather than pure forest. Silvicultural strategies that consider multiple criteria stored up to 47% more carbon than the clear-cutting system, but their SEVs were up to 39% lower. Biological interactions influence the optimal stand composition and harvesting regime, while establishment costs and the discount rate affect the level achieved for each management criterion. Lower survival due to changes in climate hardly influenced the model results. Our optimisation approach is flexible and may integrate many more and different criteria. It is useful to derive silvicultural strategies to guide science-based recommendations for various forest decision-makers.

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  • Knoke, Thomas & Kindu, Mengistie & Jarisch, Isabelle & Gosling, Elizabeth & Friedrich, Stefan & Bödeker, Kai & Paul, Carola, 2020. "How considering multiple criteria, uncertainty scenarios and biological interactions may influence the optimal silvicultural strategy for a mixed forest," Forest Policy and Economics, Elsevier, vol. 118(C).
    • Handle: RePEc:eee:forpol:v:118:y:2020:i:c:s1389934120302483
    DOI: 10.1016/j.forpol.2020.102239
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    Cited by:

    1. Jarisch, Isabelle & Bödeker, Kai & Bingham, Logan Robert & Friedrich, Stefan & Kindu, Mengistie & Knoke, Thomas, 2022. "The influence of discounting ecosystem services in robust multi-objective optimization – An application to a forestry-avocado land-use portfolio," Forest Policy and Economics, Elsevier, vol. 141(C).
    2. Bastit, Félix & Brunette, Marielle & Montagné-Huck, Claire, 2023. "Pests, wind and fire: A multi-hazard risk review for natural disturbances in forests," Ecological Economics, Elsevier, vol. 205(C).
    3. Esther Reith & Elizabeth Gosling & Thomas Knoke & Carola Paul, 2020. "How Much Agroforestry Is Needed to Achieve Multifunctional Landscapes at the Forest Frontier?—Coupling Expert Opinion with Robust Goal Programming," Sustainability, MDPI, vol. 12(15), pages 1-27, July.
    4. Knoke, Thomas & Gosling, Elizabeth & Thom, Dominik & Chreptun, Claudia & Rammig, Anja & Seidl, Rupert, 2021. "Economic losses from natural disturbances in Norway spruce forests – A quantification using Monte-Carlo simulations," Ecological Economics, Elsevier, vol. 185(C).
    5. Félix Bastit & Marielle Brunette & Claire Montagne-Huck, 2021. "Earth, wind and fire: A multi-hazard risk review for natural disturbances in forests," Working Papers of BETA 2021-25, Bureau d'Economie Théorique et Appliquée, UDS, Strasbourg.
    6. Mengistie Kindu & Logan Robert Bingham & José G. Borges & Susete Marques & Olha Nahorna & Jeannette Eggers & Thomas Knoke, 2022. "Opportunity Costs of In Situ Carbon Storage Derived by Multiple-Objective Stand-Level Optimization—Results from Case Studies in Portugal and Germany," Land, MDPI, vol. 11(11), pages 1-12, November.
    7. Aino Assmuth & Janne Rämö & Olli Tahvonen, 2021. "Optimal Carbon Storage in Mixed-Species Size-Structured Forests," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 79(2), pages 249-275, June.

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