TY - JOUR T1 - Microbial metabolically cohesive consortia and ecosystem functioning JF - bioRxiv DO - 10.1101/859421 SP - 859421 AU - Alberto Pascual-GarcĂ­a AU - Sebastian Bonhoeffer AU - Thomas Bell Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/11/29/859421.abstract N2 - Recent theory and experiments have reported a reproducible tendency for the coexistence of microbial species under controlled environmental conditions. This observation has been explained in the context of competition for resources and metabolic complementarity given that, in microbial communities, many excreted by-products of metabolism may also be resources. Microbial communities therefore play a key role in promoting their own stability and in shaping the niches of the constituent taxa. We suggest that an intermediate level of organisation between the species and the community level may be pervasive, where tightly-knit metabolic interactions create discrete consortia that are stably maintained. We call these units Metabolically Cohesive Consortia (MeCoCos) and we discuss the environmental context in which we expect their formation, and the ecological and evolutionary consequences of their existence. We argue that the ability to identify MeCoCos would open new avenues to link the species-, community-, and ecosystem-level properties, with consequences for our understanding of microbial ecology and evolution, and an improved ability to predict ecosystem functioning in the wild. ER -