Microbial biofilms, complex communities of microorganisms encased in a self-produced matrix of extracellular polymeric substances (EPS), are the central focus. These biofilms exhibit sophisticated cooperation regulated by quorum sensing, impacting diverse fields like medicine and environmental science. Microbial Biofilms highlights how these structures, ubiquitous in nature, influence everything from chronic infections to industrial water systems, making their understanding critical.
Interestingly, biofilms demonstrate increased resistance to antimicrobial agents compared to free-floating cells, posing significant challenges in treatment and control. The book explores biofilm formation mechanisms, impacts, and control strategies. It begins by laying down the fundamental concepts of biofilm development and progresses into the genetic and physiological adaptations within these communities.
Examining their roles in various environments, from the human body to industrial settings, the book culminates in analyzing methods for biofilm control, eradication, and potential applications in bioremediation. By integrating knowledge across disciplines, it offers a holistic view essential for students, researchers, and professionals seeking a complete overview of biofilm biology.
