Summary: Anthropogenic atmospheric deposition can increase nutrient supply in the most remoteecosystems, potentially affecting soil biodiversity. Arbuscular mycorrhizal fungal (AMF) com-munities rapidly respond to simulated soil eutrophication in tropical forests. Yet the limitedspatio-temporal extent of such manipulations, together with the often unrealistically high fer-tilization rates employed, impedes generalization of such responses. We sequenced mixed root AMF communities within a seven year-long fully factorial nitro-gen (N) and phosphorus (P) addition experiment, replicated at three tropical montane forestsin southern Ecuador with differing environmental characteristics. We hypothesized: strongshifts in community composition and species richness after long-term fertilization, site- andclade-specific responses to N vs P additions depending on local soil fertility and clade life his-tory traits respectively. Fertilization consistently shifted AMF community composition across sites, but only reducedrichness of Glomeraceae. Compositional changes were mainly driven by increases in P supplywhile richness reductions were observed only after combined N and P additions. We conclude that moderate increases of N and P exert a mild but consistent effect on tropi-cal AMF communities. To predict the consequences of these shifts, current results need to besupplemented with experiments that characterize local species-specific AMF functionality
