Sediment fluxes in aquatic environments are crucially dependent on bedform dynamics. However, sediment-flux predictions rely almost completely on clean-sand studies, despite most environments being composed of mixtures of non-cohesive sands, physically cohesive muds and biologically cohesive extracellular polymeric substances (EPS) generated by microorganisms. EPS associated with surficial biofilms are known to stabilize sediment and increase erosion thresholds. Here we present experimental data showing that the pervasive distribution of low levels of EPS throughout the sediment, rather than the high surficial levels of EPS in biofilms, is the key control on bedform dynamics. The development time for bedforms increases by up to two orders o...
Biofilm mediated intertidal sediments exhibit more complex erosional behaviour than abiotic systems....
Biofilm mediated intertidal sediments exhibit more complex erosional behaviour than abiotic systems....
Extracellular Polymeric Substance is found to be responsible for the stabilizing behaviour of biofil...
Sediment fluxes in aquatic environments are crucially dependent on bedform dynamics. However, sedime...
Extracellular polymeric substances (EPS) are ubiquitous on tidal flats but their impact on sediment ...
Extracellular polymeric substances (EPS) are ubiquitous on tidal flats but their impact on sediment ...
Cohesive extracellular polymeric substances (EPS) generated by microorganisms abundant on Earth are ...
Biofilms, consisting of microorganisms and their secreted extracellular polymeric substances (EPS), ...
Microbial assemblages (<q>biofilms</q>) preferentially develop at water–sediment interfaces and are...
Sand-attached benthic biofilms drive many important biogeological processes and serve as cooperative...
Biologically active, fine-grained sediment forms abundant sedimentary deposits on Earth's surface, a...
Biologically active, fine-grained sediment forms abundant sedimentary deposits on Earth's surface, a...
Biologically active, fine-grained sediment forms abundant sedimentary deposits on Earth's surface, a...
Biofilm mediated intertidal sediments exhibit more complex erosional behaviour than abiotic systems....
Biofilm mediated intertidal sediments exhibit more complex erosional behaviour than abiotic systems....
Extracellular Polymeric Substance is found to be responsible for the stabilizing behaviour of biofil...
Sediment fluxes in aquatic environments are crucially dependent on bedform dynamics. However, sedime...
Extracellular polymeric substances (EPS) are ubiquitous on tidal flats but their impact on sediment ...
Extracellular polymeric substances (EPS) are ubiquitous on tidal flats but their impact on sediment ...
Cohesive extracellular polymeric substances (EPS) generated by microorganisms abundant on Earth are ...
Biofilms, consisting of microorganisms and their secreted extracellular polymeric substances (EPS), ...
Microbial assemblages (<q>biofilms</q>) preferentially develop at water–sediment interfaces and are...
Sand-attached benthic biofilms drive many important biogeological processes and serve as cooperative...
Biologically active, fine-grained sediment forms abundant sedimentary deposits on Earth's surface, a...
Biologically active, fine-grained sediment forms abundant sedimentary deposits on Earth's surface, a...
Biologically active, fine-grained sediment forms abundant sedimentary deposits on Earth's surface, a...
Biofilm mediated intertidal sediments exhibit more complex erosional behaviour than abiotic systems....
Biofilm mediated intertidal sediments exhibit more complex erosional behaviour than abiotic systems....
Extracellular Polymeric Substance is found to be responsible for the stabilizing behaviour of biofil...
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