Personalized models of the gut microbiome are valuable for disease prevention and treatment. For this, one requires a mathematical model that predicts microbial community composition and the emergent behavior of microbial communities. We seek a modeling strategy that can capture emergent behavior when built from sets of universal individual interactions. Our investigation reveals that species-metabolite interaction modeling is better able to capture emergent behavior in community composition dynamics than direct species-species modeling. Using publicly available data, we examine the ability of species-species models and species-metabolite models to predict trio growth experiments from the outcomes of pair growth experiments. We compare quadratic species-species interaction models and quadratic species-metabolite interaction models, and conclude that only species-metabolite models have the necessary complexity to to explain a wide variety of interdependent growth outcomes. We also show that general species-species interaction models cannot match patterns observed in community growth dynamics, whereas species-metabolite models can. We conclude that species-metabolite modeling will be important in the development of accurate, clinically useful models of microbial communities.
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