Abstract
While uneven-aged silviculture may appear preferable to even-aged silviculture in terms of stand susceptibility to windthrow (major wind damage), the scientific evidence is equivocal on this issue, because the two systems do not operate over the same time frame. The goal of this study was to evaluate the windthrow susceptibility of even- and uneven-aged stands over a 100-year period. Susceptibility to windthrow of North American hardwood stands was evaluated by coupling a stand growth model (Forest Vegetation Simulator, or FVS) to stem windthrow probability equations from the literature. This coupling was straightforward given that FVS provides the diameter at breast height (DBH) of each tree within a stand over the simulation period. Windthrow susceptibility equations also use DBH to calculate stem windthrow probability. Our results show that average loss due to windthrow under uneven-aged management can be twice that observed under even-aged management at moderate wind severity for sugar maple-dominated stands. This result should be interpreted with caution because of the impossibility in our simulations of considering differences in tree form development between the two approaches. Nevertheless, this study clearly shows that even-/uneven-aged silviculture comparisons should be made on a long-term basis since uneven-aged stands are continuously susceptible to windthrow, while even-aged stands tend to be little affected by windthrow in their early developmental stages.
Highlights
Uneven-aged and continuous-cover silviculture have gained in popularity around the globe for a variety of reasons, from concerns regarding aesthetics and social acceptability to issues surrounding ecological and global change resilience [1,2]
The advantages of uneven-aged silviculture are frequently discussed in relation to even-aged silviculture, as these two approaches strongly differ in the manner in which they influence stand dynamics
Understanding how even- and uneven-aged silviculture compare with respect to these stressors is a critical step in the development of forest management strategies that could contribute to forest resilience [5]
Summary
Uneven-aged and continuous-cover silviculture have gained in popularity around the globe for a variety of reasons, from concerns regarding aesthetics and social acceptability to issues surrounding ecological and global change resilience [1,2]. The advantages of uneven-aged silviculture are frequently discussed in relation to even-aged silviculture, as these two approaches strongly differ in the manner in which they influence stand dynamics. In the context of global change, many stressors (e.g., new pests or pathogens, more frequent and intense droughts or windthrows, among other disturbances) are expected to interfere more severely with forest stand dynamics [3,4]. Understanding how even- and uneven-aged silviculture compare with respect to these stressors is a critical step in the development of forest management strategies that could contribute to forest resilience [5].
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