Abstract
The aim of this paper is to describe a bioeconomic forest simulator based on models for individual trees. At present, the forest simulator can be applied only to stand-level analyses, but in future it is planned to be a part of a software system that may be used for decision support for large forest areas. The focus is on a flexible platform facilitating future development, and the biological submodels, i.e. distance-independent individual-tree growth and mortality models and area-based regeneration and recruitment models, are based on permanent sample plots from the Norwegian National Forest Inventory. The economic submodels estimate timber prices and harvesting costs from individual trees. For each management unit (i.e. stand), the simulator produces treatment schedules with all feasible combinations of user-defined treatment and regeneration options (e.g. precommercial thinning, thinning, different kinds of regeneration cutting with different kinds of regeneration options and selective cutting). A net present value is calculated for all treatment schedules. From the treatment schedules various aspects of forest dynamics and economics can be analysed and visualized. A case study is presented to demonstrate some of the functionality and behaviour of the simulator.
Acknowledgements
The development of the forest simulator was mainly financed by the Norwegian Research Council under project no. 146675/110. The Norwegian University of Life Sciences also contributed financially. Terje Gobakken, who was the project leader, did most of the professional development work including all programming. Nils Lexer⊘d performed extensive testing of the software and was also responsible for the case study. All three authors contributed to the writing and the evaluations of the simulator. We thank Knut Finstad, Norwegian Institute of Wood Technology, for advice related to the software development and Ole Martin Bollandsås, Norwegian University of Life Sciences, for support in development and evaluation of the biological submodels applied in the simulator. Finally, we would like to thank Kåre Hobbelstad, Norwegian Forest and Landscape Institute, for valuable advice during the simulator development.