Invertebrate predators drive distance‐dependent patterns of seedling mortality in a temperate tree Acer pseudoplatanus

Abstract

There is growing evidence that distance‐ and density‐dependent recruitment are important factors in structuring tree communities in temperate forests. Although pathogens have generally been assumed to be driving these patterns, few studies have attempted to experimentally identify the agent responsible. Here we investigate patterns of recruitment in sycamore Acer pseudoplatanus, a temperate tree species, in its exotic range in Britain. Seedling mortality, the limiting stage in sycamore regeneration, was monitored with respect to the proximity and density of adult sycamores and seedlings in a grid of sampling units. We found that mortality was significantly greater beneath adult sycamores compared with heterospecifics, and was further elevated in areas of high conspecific basal area, a proxy for biomass. An experimental approach that manipulated the access of predators to seedlings demonstrated that herbivorous invertebrates were responsible for driving these distance‐ and biomass‐dependent trends in mortality. Evidence of stem damage on dead seedlings suggests that slugs are the principal cause of mortality, although there was only partial evidence of higher slug activity beneath sycamores. The implications of these findings for sycamore invasion, species co‐existence and management are discussed.