Abstract
Tree diversity is increasingly acknowledged as an important driver of insect herbivory. However, there is still a debate about the direction of associational effects that can range from associational resistance (i.e., less damage in mixed stands than in monocultures) to the opposite, associational susceptibility. Discrepancies among published studies may be due to the overlooked effect of spatially dependent processes such as tree location within forests. We addressed this issue by measuring crown defoliation and leaf damage made by different guilds of insect herbivores on oaks growing among conspecific versus heterospecific neighbors at forest edges versus interior, in two closed sites in SW France forests. Overall, oaks were significantly less defoliated among heterospecific neighbors (i.e., associational resistance), at both forest edge and interior. At the leaf level, guild diversity and leaf miner herbivory significantly increased with tree diversity regardless of oak location within stands. Other guilds showed no clear response to tree diversity or oak location. We showed that herbivore response to tree diversity varied among insect feeding guilds but not between forest edges and interior, with inconsistent patterns between sites. Importantly, we show that oaks were more defoliated in pure oak plots than in mixed plots at both edge and forest interior and that, on average, defoliation decreased with increasing tree diversity from one to seven species. We conclude that edge conditions could be interacting with tree diversity to regulate insect defoliation, but future investigations are needed to integrate them into the management of temperate forests, notably by better understanding the role of the landscape context.
Highlights
Within the general biodiversity—ecosystem functioning frame‐ work, a large body of research has been addressing associational effects of plant diversity on resistance to insect herbivores (Jactel et al, 2017; Moreira, Abdala‐Roberts, Rasmann, Castagneyrol, & Mooney, 2016)
We showed that in both sites, oaks were more defoliated in pure oak plots than in mixed plots at both edge and forest interior and that, on average, defoliation decreased with increasing tree diversity (1–7 species) demonstrating associational resistance patterns
We found that relationships between herbivory at leaf scale and tree diversity varied among insect feeding guilds and ranged from higher to equal in mixed plots as compared to pure plots
Summary
Associational resistance depends on several biotic and abiotic factors such as host specificity, local climate or bottom‐up and top‐down processes which appear acting differently on different herbivores (Barton et al, 2015; Singer et al, 2014) These processes may be affected by edge effects. The activity of predators differs between forest edges and interior (Bagchi et al, 2018; Maguire, Nicole, Buddle, & Bennett, 2015; Pryke & Samways, 2011; Ries et al, 2004), leading to a differential top‐down control of insect herbivores between forest edges and forest interiors These find‐ ings suggest that tree location within forests (i.e., edge vs interior) may affect associational effects in a way that differs among insect herbivores. We focused on oaks as target tree species and used a complete factorial design, sampling individual oak trees with con‐ specific versus heterospecific neighbors (hereafter referred to as pure and mixed plots) at both edge and interior of the same forest patches
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