In pollination networks, indirect plant-plant interactions mediated by their shared pollinators, can shape community dynamics and species fitness; yet, the influence of floral traits on species roles remains unclear, particularly in diverse ecosystems like the tropical Andes. We studied hummingbird-mediated interactions among 31 flowering plants in three high-elevation shrubby habitats located in southern Ecuador. During August and November 2022, and January 2023, we collected stigma samples and constructed weighted interaction networks linked by heterospecific pollen grains. Species roles were determined by defining if they were overall donors or receptors of pollen. We also explored the association between the abundance of flowers and different floral traits and species roles. Finally, we assessed the potential influence of floral roles on species fitness by calculating the ratio of conspecific-to-heterospecific pollen grains observed in each species. We found that the identity of donor and receptor species was highly dynamic across sites and time. Donor species were characterized by being highly abundant, and having long and wide corollas, while receptor species had low abundance, and short and narrow corollas. Donor species received less heterospecific pollen than conspecific pollen, indicating that the pollen sharing roles of species could have fitness consequences. Our findings highlight the importance of floral traits and abundance in shaping floral roles and their potential fitness consequences in hummingbird-mediated indirect interactions.