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biofilmdriven

Biofilmdriven is a term used to describe processes, outcomes, or phenomena that are primarily determined by the presence and activity of microbial biofilms—structured communities of microorganisms attached to surfaces and embedded in a self-produced extracellular matrix. Biofilmdriven systems differ from those governed by free-floating (planktonic) cells, because biofilms create persistent, heterogeneous environments that influence chemistry, physics, and biology at the system level.

Key features of biofilmdriven dynamics include the development of chemical and nutrient gradients, enhanced cooperation among

Contexts where biofilmdriven processes are important span natural, industrial, medical, and environmental settings. In nature, biofilms

Research and management of biofilmdriven phenomena aim to promote beneficial biofilms and suppress harmful ones, using

community
members,
and
increased
resistance
to
environmental
stresses.
The
extracellular
polymeric
substance
matrix
provides
mechanical
stability
and
protection,
contributing
to
tolerance
to
antimicrobials
and
to
fluctuations
in
flow,
pH,
and
temperature.
Quorum
sensing
and
other
cell–cell
communication
pathways
coordinate
behavior
such
as
growth,
detachment,
and
differentiation
within
the
biofilm.
drive
biogeochemical
cycling
and
mineral
transformations.
In
industry,
they
can
cause
fouling,
corrosion
(microbiologically
influenced
corrosion),
and
process
inefficiencies,
but
can
also
enable
beneficial
operations
in
biofilm
reactors
and
wastewater
treatment.
In
medicine
and
dentistry,
biofilms
underlie
device-associated
infections
and
dental
plaque
formation.
approaches
such
as
surface
modification,
flow
control,
and
targeted
disruption
of
the
biofilm
matrix
or
signaling
networks.