Journal of Applied Microbiology,
Journal Year:
2022,
Volume and Issue:
134(2)
Published: Dec. 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.
Critical Reviews in Environmental Science and Technology,
Journal Year:
2022,
Volume and Issue:
53(3), P. 315 - 339
Published: March 20, 2022
Algae-bacteria
consortia
treatment
has
been
found
to
be
a
promising
method
for
the
remediation
of
aqueous
systems.
Given
scope
previous
reviews
on
algae-bacteria
interactions,
sections
chemical
signaling
between
algae
and
bacteria
don't
cover
current
knowledge
gap,
recent
advances
in
explore
full
depth.
Accordingly,
specific
aim
this
review
was
thoroughly
screen
summarize
peer-reviewed
literature
(1)
mechanism
algal
selection
enrichment
wastewater
treatment;
(2)
interactions
ecological
niche
environments;
(3)
bacteria;
(4)
using
consortia;
(5)
advanced
techniques
combined
with
systems
improved
remediation.
The
main
challenges
future
perspectives
are
proposed,
including:
(i)
comprehensively
establishing
network
bacteria,
especially
quorum
sensing
phycospheric
interactions;
(ii)
developing
detailed
understanding
exchange
microbial
species
based
molecular
diffusion
processes;
(iii)
tracking
complex
aquatic
environments
machine
learning
(ML),
providing
potential
tool
design
beneficial
customizable
synthetic
communities
(iv)
integrating
(e.g.,
MBRs,
UV
photolysis
biological
activated
carbon)
systems,
increasing
sustainability
applicability
processes.
Therefore,
provides
guidance
insights
development
their
application
Journal of Applied Microbiology,
Journal Year:
2022,
Volume and Issue:
134(2)
Published: Dec. 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.
