TY - JOUR T1 - Community structure follows simple assembly rules in microbial microcosms JF - bioRxiv DO - 10.1101/067926 SP - 067926 AU - Jonathan Friedman AU - Logan M. Higgins AU - Jeff Gore Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/12/28/067926.abstract N2 - Microbes typically form diverse communities of interacting species, whose activities have tremendous impact on the plants, animals, and humans they associate with1–3, as well as on the biogeochemistry of the entire planet4. The ability to predict the structure of these complex communities is crucial to understanding, managing, and utilizing them5. Here, we propose a simple, qualitative assembly rule that predicts community structure from the outcomes of competitions between small sets of species, and experimentally assess its predictive power using synthetic microbial communities. The rule's accuracy was evaluated by competing combinations of up to eight soil bacterial species, and comparing the experimentally observed outcomes to the predicted ones. Nearly all competitions resulted in a unique, stable community, whose composition was independent of the initial species fractions. Survival in three-species competitions was predicted by the pairwise outcomes with an accuracy of ~90%. Obtaining a similar level of accuracy in competitions between sets of seven or all eight species required incorporating additional information regarding the outcomes of the three-species competitions. Our results demonstrate experimentally the ability of a simple bottom-up approach to predict community structure. Such an approach is key for anticipating the response of communities to changing environments, designing interventions to steer existing communities to more desirable states, and, ultimately, rationally designing communities de novo6,7. ER -