Journal of Applied Microbiology,
Год журнала:
2022,
Номер
134(2)
Опубликована: Дек. 16, 2022
Abstract
Environmental
contamination
brought
on
by
the
discharge
of
wastewater
from
textile
industries
is
a
growing
concern
global
scale.
Textile
produce
huge
quantity
effluents
containing
myriad
chemicals,
mostly
dyes.
The
such
into
aquatic
environment
results
in
pollution
that
adversely
affects
organisms.
Synthetic
dyes
are
complex
aromatic
chemical
structures
with
carcinogenic
and
mutagenic
properties
addition
to
high
biological
oxygen
demand
(BOD)
(COD).
This
structure
resists
degradation
conventional
techniques.
bioremediation
approach
clean-up
toxic
contaminants
industrial
effluents.
Biological
treatment
methods
less
or
no
sludge
cost-effective,
efficient,
eco-friendly.
Microorganisms,
microalgae
bacteria,
and,
some
instances,
fungi,
yeast,
enzymes
decolorize
dye
compounds
simple,
non-toxic
compounds.
Following
thorough
review
literature,
we
persuaded
bacteria
might
be
one
potential
decolorizing
agents
substituting
for
most
other
organisms
treatment.
article
presents
extensive
literature
information
dyes,
their
classification,
toxicity
industry
effluent
utilizing
bacteria.
Additionally,
it
combines
data
factors
influencing
bioremediation,
few
suggestions
future
research
proposed.
Environment International,
Год журнала:
2021,
Номер
155, С. 106594 - 106594
Опубликована: Апрель 30, 2021
Antibiotics
contamination
is
an
emerging
environmental
concern,
owing
to
its
potential
risks
ecosystems
and
human
health.
Microalgae-based
technology
has
been
widely
reported
as
a
promising
alternative
conventional
wastewater
treatment,
since
it
solar-power
driven,
ecologically
friendly,
cost-effective,
sustainable
reclamation
strategy.
This
review
provides
fundamental
insights
into
the
major
mechanisms
underpinning
microalgae-based
antibiotics
removal,
including
bioadsorption,
bioaccumulation,
biodegradation.
The
critical
role
of
extracellular
polymeric
substances
on
bioadsorption
biodegradation
are
also
covered.
Moreover,
this
sheds
light
important
factors
affecting
removal
by
microalgae,
summarizes
several
novel
approaches
improve
efficiency,
acclimation,
co-metabolism
microbial
consortium.
Besides,
hybrid
systems
(such
as,
technologies
combined
with
activated
sludge,
advanced
oxidation
processes,
constructed
wetlands,
fuel
cells),
genetic
engineering
recommended,
which
will
be
feasible
for
enhanced
antibiotics.
Finally,
highlights
need
further
studies
aimed
at
optimizing
technology,
emphasis
improving
performance
expanding
application
in
large-scale
settings,
especially
terms
technical,
environmental-friendly
economically
competitiveness.
Overall,
current
understanding
outlines
future
research
directions.
