Bacterial biofilms and surface fouling

Abstract

Bacteria are attracted to surfaces. Their surface adhesion, with subsequent binary fission and exopolymer production, leads to the formation of biofilms. Such biofilms consist of bacterial cells in a matrix of their own exopolysaccharide glycocalyces. In addition to the bulk fluid and the surface, biofilms constitute a third physical phase. The close proximity of the bacterial cells in the biofilm matrices assists the formation of metabolically dependent consortia. The chemical and physical activities of these microbial communities produces a heterogeneous system at the colonised surface. Metabolites, produced at specific points on the surface, can lead to the development of effective anodes and cathodes at adjoining locations on the surface. In this way the fouling of a surface by bacterial biofilm development facilitates focal attack on that surface. This pit formation is characteristic of bacterial surface activities as diverse as dental decay and metal corrosion. In this review, we examine bacterial adhesion, biofilm formation and several instances of focal bacterial attack on colonised surfaces. However, pathogenic biofilms and the fouling of biological surfaces, with the exception of caries formation, is outside the scope of this paper.