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Stand height and cover type complement forest age structure as a biodiversity indicator in boreal and northern temperate forest management

Summary

Published in Ecological indicators 72: 288-296. https//doi.org/10.1016/j.ecolind.2016.08.033

Forest age structure is one of the main indicators of biodiversity in temperate and boreal forests worldwide. This indicator was mainly chosen for the conservation of a subset of rare or sensitive species related to the oldest age classes, not to capture variability across the entire biodiversity spectrum, but is often considered as such. In this study, we analysed alpha and beta diversity in temporary plots of western Quebec, Canada, to consider biodiversity indicators complementary to existing forest age structure targets. Our analysis revealed that considered individually, stand characteristics such as cover type and height are better predictors of changes in site-level contribution to tree beta diversity than age. We also show that plots belonging to different age classes can be similar in terms of tree alpha diversity. Height class was found to have a more significant impact on tree alpha diversity than expected: height was more important than age in coniferous forests, and in deciduous and mixedwood stands it frequently complemented age in explaining the observed diversity patterns. Our results suggest that forest age structure target levels should not be used as the sole indicator of ecosystem sustainability, and that some mature secondary stands can provide significant contributions to biodiversity. We propose that more efficient trade-offs between forest exploitation, ecosystem functioning and environmental conservation can be attained if: (i) forest age structure targets are complemented by cover type and stand height; or (ii) complementary biodiversity indicators of ecosystem sustainability are implemented.

Sector(s): 

Forests

Categorie(s): 

Scientific Article

Theme(s): 

Forest Ecology, Forestry Research, Forests

Departmental author(s): 

Bouchard, Mathieu

Author(s)

CORREIA, David Laginha Pinto, Frédéric RAULIER, Élise FILOTAS and Mathieu BOUCHARD

Year of publication :

2017

Format :

PDF available upon request

Keywords :

forest ecology, insect outbreaks, spruce budworm, insect dispersal, spatially explicit models, defoliation surveys, landscape-level disturbance model, forestry research scientific article

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