Biofilms are antibiotic-resistant, sessile bacterial communities that occupy most moist surfaces on Earth and cause chronic and medical device-associated infections. Despite their importance, basic information about biofilm dynamics in common ecological environments is lacking. Here, we demonstrate that flow through soil-like porous materials, industrial filters, and medical stents dramatically modifies the morphology of Pseudomonas aeruginosa biofilms to form 3D streamers, which, over time, bridge the spaces between obstacles and corners in nonuniform environments. We discovered that accumulation of surface-attached biofilm has little effect on flow through such environments, whereas biofilm streamers cause sudden and rapid clogging. We de...
Bacteria occupy heterogeneous environments, attaching and growing within pores in materials, living ...
Twitching motility-mediated biofilm expansion is a complex, multicellular behavior that enables the ...
International audienceBacterial communities attached to surfaces under fluid flow represent a widesp...
Biofilms are antibiotic-resistant, sessile bacterial communities that occupy most moist surfaces on ...
Bacteria in porous media, such as soils, aquifers, and filters, often form surface-attached communit...
SignificanceStreamers, filamentous bacterial biofilms formed in flowing systems, are ubiquitous in n...
Bacteria attached to surfaces in biofilms are responsible for the contamination of industrial proces...
AbstractIn most environments, such as natural aquatic systems, bacteria are found predominantly in s...
Biofilm communities are exposed to long periods of desiccation in temporary streams. We investigated...
Using a microfabricated porous media mimic platform, we investigated how fluid flow influences the f...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Civil and Environmental Enginee...
Bacteria in aqueous environments usually gather to form aggregates called biofilms. In biofilms, cel...
Using a microfabricated porous media mimic platform, we investigated the clogging dynamics of bacter...
© 2019 American Physical Society. Bacterial biofilms represent a major form of microbial life on Ear...
Mixed-species biofilms, consisting of Klebsiella pneumoniae, Pseudomonas aeruginosa, Pseudomonas flu...
Bacteria occupy heterogeneous environments, attaching and growing within pores in materials, living ...
Twitching motility-mediated biofilm expansion is a complex, multicellular behavior that enables the ...
International audienceBacterial communities attached to surfaces under fluid flow represent a widesp...
Biofilms are antibiotic-resistant, sessile bacterial communities that occupy most moist surfaces on ...
Bacteria in porous media, such as soils, aquifers, and filters, often form surface-attached communit...
SignificanceStreamers, filamentous bacterial biofilms formed in flowing systems, are ubiquitous in n...
Bacteria attached to surfaces in biofilms are responsible for the contamination of industrial proces...
AbstractIn most environments, such as natural aquatic systems, bacteria are found predominantly in s...
Biofilm communities are exposed to long periods of desiccation in temporary streams. We investigated...
Using a microfabricated porous media mimic platform, we investigated how fluid flow influences the f...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Civil and Environmental Enginee...
Bacteria in aqueous environments usually gather to form aggregates called biofilms. In biofilms, cel...
Using a microfabricated porous media mimic platform, we investigated the clogging dynamics of bacter...
© 2019 American Physical Society. Bacterial biofilms represent a major form of microbial life on Ear...
Mixed-species biofilms, consisting of Klebsiella pneumoniae, Pseudomonas aeruginosa, Pseudomonas flu...
Bacteria occupy heterogeneous environments, attaching and growing within pores in materials, living ...
Twitching motility-mediated biofilm expansion is a complex, multicellular behavior that enables the ...
International audienceBacterial communities attached to surfaces under fluid flow represent a widesp...