Who put the film in biofilm? : The migration of a term from wastewater engineering to medicine and beyond

GND
140256776
ORCID
0000-0002-3670-9236
LSF
11401
Affiliation
Water Academy, Friedrichshafen, Germany
Flemming, Hans-Curt;
ORCID
0000-0002-8432-6141
Affiliation
Saint Loup Research Institute, Saint Loup Lamairé, France
Baveye, Philippe;
GND
12116635X
ORCID
0000-0001-6990-8787
Affiliation
Department of River Ecology, Helmholtz Centre for Environmental Research–UFZ, Magdeburg, Germany
Neu, Thomas R.;
ORCID
0000-0001-6069-273X
Affiliation
National Centre for Advanced Tribology at Southampton (nCATS), National Biofilm Innovation Centre (NBIC), Mechanical Engineering, University of Southampton, Southampton, UK
Stoodley, Paul;
GND
1197567291
ORCID
0000-0003-3421-3779
Affiliation
Technical University of Berlin, Department of Environmental Microbiology, Berlin, Germany
Szewzyk, Ulrich;
GND
1247824241
ORCID
0000-0003-3143-4760
LSF
11404
Affiliation
University of Duisburg-Essen, Biofilm Centre, Essen, Germany
Wingender, Jost;
ORCID
0000-0002-3415-6199
Affiliation
School of Civil and Environmental Engineering, Nanyang Technological University Singapore, Singapore, Singapore
Wuertz, Stefan
Sessile microorganisms were described as early as the seventeenth century. However, the term biofilm arose only in the 1960s in wastewater treatment research and was adopted later in marine fouling and in medical and dental microbiology. The sessile mode of microbial life was gradually recognized to be predominant on Earth, and the term biofilm became established for the growth of microorganisms in aggregates, frequently associated with interfaces, although many, if not the majority, of them not being continuous “films” in the strict sense. In this sessile form of life, microorganisms live in close proximity in a matrix of extracellular polymeric substances (EPS). They share emerging properties, clearly distinct from solitary free floating planktonic microbial cells. Common characteristics include the formation of synergistic microconsortia, using the EPS matrix as an external digestion system, the formation of gradients and high biodiversity over microscopically small distances, resource capture and retention, facilitated gene exchange as well as intercellular communication, and enhanced tolerance to antimicrobials. Thus, biofilms belong to the class of collective systems in biology, like forests, beehives, or coral reefs, although the term film addresses only one form of the various manifestations of microbial aggregates. The uncertainty of this term is discussed, and it is acknowledged that it will not likely be replaced soon, but it is recommended to understand these communities in the broader sense of microbial aggregates.

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