Complementarity effects are strengthened by competition intensity and global environmental change in the central boreal forests of Canada

Increases in niche complementarity have been hypothesised to reduce the intensity of interspecific competition within natural forests. In regions currently experiencing potentially enhanced growth under global environmental change, niche complementarity may become even more beneficial. However, few studies have provided direct evidence of this mechanism. Here, we use data from 180 permanent sample plots in Manitoba, Canada, with a full spatial mapping of all stems, to show that complementarity effects on average increased with neighbourhood competition intensity and temporally rising CO2, warming and water availability. Importantly, complementarity effects increased with both shade tolerance and phylogenetic dissimilarity between the focal tree and its neighbours. Our results provide further evidence that increasing stand functional and phylogenetic diversity can improve individual tree productivity, especially for individuals experiencing intense competition and may offer an avenue to maintain productivity under global environmental change. Increases in niche complementarity have been hypothesized to reduce the intensity of interspecific competition within natural forests. Here, we use data from 180 permanent sample plots to show that complementarity effects increased with competition intensity and global environmental change. Complementarity effects increased with both shade tolerance and phylogenetic dissimilarity between the focal tree and its neighbours.