1. Interactions between established (canopy) and recruiting individuals (recruits) are pervasive in plant communities. Studies on recruitment in forests have mainly focused on negative density-dependent conspecific interactions, while the outcomes of heterospecific canopy-recruit interactions have received much less attention and are generally assumed to be driven by stochastic processes. 2. Herein, we explore the relative influence of stochastic (abundance) and deterministic (species identity and phylogenetic distance) effects on the frequency of canopy-recruit interactions, and characterise the interactions in terms of their spatial consistency and effect on recruitment (depressing, neutral or enhancing). 3. In 12 plots (50  50 m) of mixed pine-oak forests in Southern Spain we identified all saplings recruiting beneath 56 shrub and tree species, and in open areas not covered by woody plants. We used generalised linear mixed models to investigate the influence of stochastic and deterministic processes on the frequency of canopy-recruit interactions, on their spatial consistency and their effects on recruitment, and applied neutral null models to evaluate the spatial consistency in the occurrence of interactions across plots. 4. Deterministic and stochastic interactions were equally common emphasizing the prevalence of non-neutral effects. Among the realized interactions, 36.8% enhanced recruitment, 49.05% were neutral, and 14.1% depressed recruitment. Many potential interactions (42.08%) were not observed in any study sites, presumably due to the scarcity of the interacting species. Moreover, the probability that two species formed a canopy-recruit interaction, the frequency of their interaction, and the probability that the interaction had an enhancing effect on recruitment, all increased with the phylogenetic distance between the interacting species. However, the prevalence of these effects depended on the recruitment environment (heterospecific, conspecific or open). Recruitment-enhancing interactions between heterospecifics were more consistently realized in different sites than neutral or depressing interactions. 5. The establishment of canopy-recruit interactions (which species recruits beneath which others, and how often) is not simply determined by stochastic events. Indeed, due to their prevalence we argue that deterministic canopy-recruit interactions are important drivers of plant community dynamics.