Aquaculture and Fisheries,
Journal Year:
2021,
Volume and Issue:
7(3), P. 244 - 258
Published: June 1, 2021
In
recent
years,
government
investments
in
implementing
restrictive
public
policies
on
the
treatment
and
discharge
of
effluents
from
aquaculture
industry
have
increased.
Hence,
efficient
cleaner
methods
for
production
are
needed.
Recirculating
systems
(RAS)
offers
water
conservation
by
recycling
treated
reuse.
RAS
wastewater
using
a
moving
bed
bioreactors
(MBBRs)
process
has
been
considered
well
suited
maintaining
good
quality,
thereby
making
fish
farming
more
sustainable.
Currently,
improvements
were
achieved
tackling
influence
salinity,
organic
matter,
disinfectant,
bioreactor
start-up
MBBR
performance
efficiency.
This
review
highlights
an
updated
overview
development
made
to
treat
residual
RAS.
Precisely,
nitrification
simultaneous
nitrification-denitrification
(SND),
other
hybrid
processes
nitrogen
removal
elucidated.
Finally,
future
challenges
prospects
MBBRs
facilities
that
need
be
also
proposed.
Frontiers in Cellular and Infection Microbiology,
Journal Year:
2022,
Volume and Issue:
12
Published: Feb. 25, 2022
Microbial
biofilms
are
becoming
increasingly
difficult
to
treat
in
the
medical
setting
due
their
intrinsic
resistance
antibiotics.
To
combat
this,
several
biofilm
dispersal
agents
currently
being
developed
as
treatments
for
infections.
Combining
with
antibiotics
is
emerging
a
promising
strategy
simultaneously
disperse
and
eradicate
or,
some
cases,
even
inhibit
formation.
Here
we
review
studies
that
have
investigated
anti-biofilm
activity
of
well-studied
(e.g.,
quorum
sensing
inhibitors,
nitric
oxide/nitroxides,
antimicrobial
peptides/amino
acids)
combination
from
various
classes.
This
aims
directly
compare
efficacy
different
strategies
against
microbial
highlight
synergistic
warrant
further
investigation.
By
comparing
across
use
measures
efficacy,
can
conclude
treating
vitro
and,
limited
cases
vivo,
an
agent
antibiotic,
appears
overall
more
effective
than
either
compound
alone.
The
identifies
most
therapies
under
development
inhibition
eradication
therapies.
Materials Advances,
Journal Year:
2023,
Volume and Issue:
4(6), P. 1415 - 1443
Published: Jan. 1, 2023
Biofilm-mediated
wastewater
remediation
has
been
developed
as
one
of
the
most
promising,
inexpensive,
and
environmentally
friendly
technology
it
breaks
down
contaminants
via
biotransformation,
bioaccumulation,
biomineralization,
biosorption.
Journal of Water Process Engineering,
Journal Year:
2024,
Volume and Issue:
63, P. 105368 - 105368
Published: May 16, 2024
Wastewater
treatment
using
biofilm
technology
with
sustainable
carriers
contributes
towards
the
circular
bioeconomy.
The
use
of
renewable
biological
materials
and
wastes
as
novel
supports
promotes
material
valorisation
reusability,
decreasing
depletion
natural
resources
generation
waste
emissions.
This
manuscript
presents
a
comprehensive
review
bacterial
used
in
wastewater
rehabilitation.
They
include
organic
inorganic
from
sources
such
clays,
volcanic
rocks,
stones,
bamboo
luffa
fibers
waste-based
wood
husk,
coconut
corncob,
tire
rubber,
cigarette
filter
rods,
textile
wastes,
among
others.
characteristics
application
performance
carrier
to
remove
several
toxic
pollutants
nutrients
typically
found
domestic
or
industrial
effluents,
batch
experiments
reactors
were
analyzed.
Cell
attachment
formation
mechanisms
are
discussed.
Processing
approaches
surface
modifications
referred
presented.
emphasizes
economic
environmental
benefits
compared
traditional
ones.
survey
is
tune
need
explore
that
included
within
principles
economy,
allowing
more
environment
friendly
cost-effective
water
treatment.
