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The human scalp hosts an unusually low diversity microbiota dominated by three species: Cutibacterium acnes, Staphylococcus epidermidis, and Malassezia restricta, where characteristic shifts in species' frequencies are associated with seborrheic dermatitis and dandruff. In order to better understand this important community, here we study the ecological interactions between these scalp species. We establish a new experimental model system that supports the growth of all three species in vitro and allows one to selectively enumerate each species from co-culture. Our work reveals the potential for strong ecological interactions within the scalp community. In particular, C. acnes greatly benefits from the presence of M. restricta, but harms it in return (exploitation), while S. epidermidis suppresses both M. restricta and C. acnes. Our data suggest that the shifts in composition seen in compromised scalps are influenced by ecological interactions between species. We argue that the scalp microbiome should be viewed as an ecological system where species interactions have the potential to contribute to health outcomes.