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Joint simulation of stand dynamics and landscape evolution using a tree-level model for mixed uneven-aged forests
Context A century and more after a major reforestation program, large areas in the French Southern Alps have moved to a landscape mosaic of old pine plantations and new, heterogeneous and uneven-aged, mixed stands. These conditions are challenging foresters in silvicultural practices and management choices. Aims The aims of this study are to understand, analyze, model, and simulate the ongoing phenomena, and to propose a decision-making tool. Methods An individual-based forest dynamics model considering recruitment, growth, and mortality (as related to the spatial arrangement of stands and species, to site conditions and competition) and a simulation system including spatial sampling are designed and calibrated to allow simulation of both silviculture treatments at the stand level and management strategies at the forest or landscape level. Results By keeping track of the trees while simulating at the forest level, they offer an alternative to upscaling strategies and a suitable tool for prediction of stand and forest characteristics in situations influenced by strong driving forces such as colonization and forest maturation. Conclusion This approach is a straightforward means for adjusting forest management to trends such as expansion of shade-tolerant species; as spatial and temporal variation in site conditions are accounted for, it is also a promising way towards predicting their warming-induced upward shift.
Joint simulation of stand dynamics and landscape evolution using a tree-level model for mixed uneven-aged forests
Context A century and more after a major reforestation program, large areas in the French Southern Alps have moved to a landscape mosaic of old pine plantations and new, heterogeneous and uneven-aged, mixed stands. These conditions are challenging foresters in silvicultural practices and management choices. Aims The aims of this study are to understand, analyze, model, and simulate the ongoing phenomena, and to propose a decision-making tool. Methods An individual-based forest dynamics model considering recruitment, growth, and mortality (as related to the spatial arrangement of stands and species, to site conditions and competition) and a simulation system including spatial sampling are designed and calibrated to allow simulation of both silviculture treatments at the stand level and management strategies at the forest or landscape level. Results By keeping track of the trees while simulating at the forest level, they offer an alternative to upscaling strategies and a suitable tool for prediction of stand and forest characteristics in situations influenced by strong driving forces such as colonization and forest maturation. Conclusion This approach is a straightforward means for adjusting forest management to trends such as expansion of shade-tolerant species; as spatial and temporal variation in site conditions are accounted for, it is also a promising way towards predicting their warming-induced upward shift.
Joint simulation of stand dynamics and landscape evolution using a tree-level model for mixed uneven-aged forests
Dreyfus, Philippe (author)
2012-01-01
Annals of Forest Science 2 (69), 283 - 303. (2012)
Article (Journal)
Electronic Resource
English
DDC:
710
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