1. Utility of Dynamic-Landscape Metapopulation Models for Sustainable Forest Management.
- Author
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WINTLE, BRENDAN A., BEKESSY, SARAH A., VENIER, LISA A., PEARCE, JENNIE L., and CHISHOLM, RYAN A.
- Subjects
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LANDSCAPE ecology , *FOREST management , *SUSTAINABLE development , *BROWN creeper , *POPULATION viability analysis , *CONSERVATION of natural resources , *ENVIRONMENTAL engineering , *ECOLOGY - Abstract
We evaluated the utility of combining metapopulation models with landscape-level forest-dynamics models to assess the sustainability of forest management practices. We used the Brown Creeper (Certhia americana ) in the boreal forests of northern Ontario as a case study. We selected the Brown Creeper as a potential indicator of sustainability because it is relatively common in the region but is dependent on snags and old trees for nesting and foraging; hence, it may be sensitive to timber harvesting. For the modeling we used RAMAS Landscape, a software package that integrates RAMAS GIS, population-modeling software, and LANDIS, forest-dynamics modeling software. Predictions about the future floristic composition and structure of the landscape under a variety of management and natural disturbance scenarios were derived using LANDIS. We modeled eight alternative forest management scenarios, ranging in intensity from no timber harvesting and a natural fire regime to intensive timber harvesting with salvage logging after fire. We predicted the response of the Brown Creeper metapopulation over a 160-year period and used future population size and expected minimum population size to compare the sustainability of the various management scenarios. The modeling methods were easy to apply and model predictions were sensitive to the differences among management scenarios, indicating that these methods may be useful for assessing and ranking the sustainability of forest management options. Primary concerns about the method are the practical difficulties associated with incorporating fire stochasticity in prediction uncertainty and the number of model assumptions that must be made and tested with sensitivity analysis. We wrote new software to help quantify the contribution of landscape stochasticity to model prediction uncertainty. [ABSTRACT FROM AUTHOR]
- Published
- 2005
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