Gradients and consequences of heterogeneity in biofilms

Historically, appreciation for the roles of resource gradients in biology has fluctuated inversely to the popularity of genetic mechanisms. Nevertheless, in microbiology specifically, widespread recognition of the multicellular lifestyle has recently brought new emphasis to the importance of resource gradients. Most microorganisms grow in assemblages such as biofilms or spatially constrained communities with gradients that influence, and are influenced by, metabolism. In this Review, we discuss examples of gradient formation and physiological differentiation in microbial assemblages growing in diverse settings. We highlight consequences of physiological heterogeneity in microbial assemblages, including division of labour and increased resistance to stress. Our impressions of microbial behaviour in various ecosystems are not complete without complementary maps of the chemical and physical geographies that influence cellular activities. A holistic view, incorporating these geographies and the genetically encoded functions that operate within them, will be essential for understanding microbial assemblages in their many roles and potential applications. Differential availability of oxygen, nutrients and other resources leads to metabolic and structural heterogeneity in multicellular systems, including in biofilms. In this Review, Jo et al. discuss how chemical and physical gradients can affect the physiology of microbial biofilms.

Automated summary

The appreciation for resource gradients in biology, especially in microbiology, has gained widespread recognition in recent years. These gradients influence the physiological differentiation and ecological roles of microbial assemblages, highlighting their importance in understanding microbial behavior and applications.