Microbes often live in dense communities called biofilms where competition between strains and species is fundamental to both evolution and community function. While biofilms are commonly found in soil-like porous environments, the study of microbial interactions has largely focused on biofilms growing on flat, planar surfaces. Here we use novel microfluidic experiments, mechanistic models, and game theory to study how porous media hydrodynamics can mediate competition between bacterial genotypes. Our experiments reveal a fundamental challenge faced by microbial strains that live in porous environments: cells that rapidly form biofilms tend to block their access to fluid flow and redirect resources to competitors. To understand how these dy...
The majority of bacteria in nature live in biofilms, where they are encased by extracellular polymer...
Bacteria form dense surface-associated communities known as biofilms that are central to their persi...
ABSTRACT Bacterial cells, like many other organisms, face a tradeoff between longevity and fecundity...
International audienceMicrobes often live in dense communities called biofilms, where competition be...
Bacteria in porous media, such as soils, aquifers, and filters, often form surface-attached communit...
Bacteria often live in biofilms, which are microbial communities surrounded by a secreted extracellu...
Bacteria occupy heterogeneous environments, attaching and growing within pores in materials, living ...
Microbial communities colonise virtually every habitable environment on earth. They live on us, insi...
Microorganisms navigate and divide on surfaces to form multicellular structures called biofilms, the...
The phenotypic diversity in biofilms allows bacteria to adapt to changing environmental conditions. ...
Microbial life in porous systems dominates the functioning of numerous ecosystems, ranging from stre...
<div><p>Bacteria form dense surface-associated communities known as biofilms that are central to the...
Encounters among bacteria and their viral predators (bacteriophages) are among the most common ecolo...
Microbial communities display complex population dynamics, both in frequency and absolute density. E...
A key feature of biological systems is the emergence of higher-order structures from interacting uni...
The majority of bacteria in nature live in biofilms, where they are encased by extracellular polymer...
Bacteria form dense surface-associated communities known as biofilms that are central to their persi...
ABSTRACT Bacterial cells, like many other organisms, face a tradeoff between longevity and fecundity...
International audienceMicrobes often live in dense communities called biofilms, where competition be...
Bacteria in porous media, such as soils, aquifers, and filters, often form surface-attached communit...
Bacteria often live in biofilms, which are microbial communities surrounded by a secreted extracellu...
Bacteria occupy heterogeneous environments, attaching and growing within pores in materials, living ...
Microbial communities colonise virtually every habitable environment on earth. They live on us, insi...
Microorganisms navigate and divide on surfaces to form multicellular structures called biofilms, the...
The phenotypic diversity in biofilms allows bacteria to adapt to changing environmental conditions. ...
Microbial life in porous systems dominates the functioning of numerous ecosystems, ranging from stre...
<div><p>Bacteria form dense surface-associated communities known as biofilms that are central to the...
Encounters among bacteria and their viral predators (bacteriophages) are among the most common ecolo...
Microbial communities display complex population dynamics, both in frequency and absolute density. E...
A key feature of biological systems is the emergence of higher-order structures from interacting uni...
The majority of bacteria in nature live in biofilms, where they are encased by extracellular polymer...
Bacteria form dense surface-associated communities known as biofilms that are central to their persi...
ABSTRACT Bacterial cells, like many other organisms, face a tradeoff between longevity and fecundity...