TY - JOUR T1 - Exploitation by cheaters facilitates the preservation of essential public goods in microbial communities JF - bioRxiv DO - 10.1101/040964 SP - 040964 AU - Clara Moreno-Fenoll AU - Matteo Cavaliere AU - Esteban Martínez-García AU - Juan F. Poyatos Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/02/23/040964.abstract N2 - How are public goods1-4 maintained in bacterial cooperative populations? The presence of these compounds is usually threatened by the rise of cheaters that do not contribute but just exploit the common resource5,6. Minimizing cheater invasions appears then as a necessary maintenance mechanism7,8. However, that invasions can instead add to the persistence of cooperation is a prospect that has yet remained largely unexplored6. Here, we show that the detrimental consequences of cheaters can actually preserve public goods, at the cost of recurrent collapses and revivals of the population. The result is made possible by the interplay between spatial constraints and the essentiality of the shared resource. We validate this counter-intuitive effect by carefully combining theory and experiment, with the engineering of an explicit synthetic community in which the public compound allows survival to a bactericidal stress. Notably, the characterization of the experimental system identifies additional factors that can matter, like the impact of the lag phase on the tolerance to stress, or the appearance of spontaneous mutants. Our work emphasizes the unanticipated consequences of the eco-evolutionary feedbacks that emerge in microbial communities relying on essential public goods to function, feedbacks that reveal fundamental for the adaptive change of ecosystems at all scales. ER -