Article ID: | iaor20031012 |
Country: | Canada |
Volume: | 30 |
Issue: | 11 |
Start Page Number: | 1817 |
End Page Number: | 1823 |
Publication Date: | Nov 2000 |
Journal: | Canadian Journal of Forest Research |
Authors: | Ohman Karin |
Keywords: | optimization: simulated annealing |
Harvest activities tend often to create landscapes where the old forest is fragmented into isolated patches that provide marginal conditions for species that inhabit forest interiors. This paper presents a long-range planning model designed to maximize the net present value and to create continuous patches of old forest. In this model, the spatial structure of old forest is controlled by core area and edge habitats. Core area is defined as the area of old forest that is free of edge effects from surrounding habitats. The core area requirement is set to a fixed value for each of a number of time periods, whereas the area of edge habitats, which should be as small as possible, is weighted against the net present value. The model is applied in a case study to an actual landscape consisting of 755 stands of forest in northern Sweden and solved using simulated annealing. The results show that distinct continuous patches of old forest are created when both a core area requirement and consideration of the amount of edge habitats are included in the problem formulation. The cost of creating continuous areas of old forest was found to be significant.