Environmental Quality Management,
Journal Year:
2024,
Volume and Issue:
34(1)
Published: July 18, 2024
ABSTRACT
Green
surfactants–based
bioremediation
of
polycyclic
aromatic
hydrocarbons
(PAHs)
from
the
environment
is
a
promising
technique.
Rhamnolipids
are
class
glycolipid
surfactants
that
belong
to
category
green
and
have
distinctive
characteristics.
PAHs,
which
hazardous
toxins,
commonly
found
in
polluted
soil,
water,
air.
PAHs
difficult
break
down
because
they
resistant
degradation
typical
methods
cleaning
up
pollution
not
very
effective.
In
recent
years,
there
has
been
growing
interest
capacity
specific
microorganism
species
produce
rhamnolipids,
can
enhance
process
PAH
biodegradation.
dissolve
accessibility
thereby
boosting
effectiveness
microorganisms
PAHs.
The
presence
rhamnolipids
be
attributed
equilibrium
between
hydrophobic
hydrophilic
properties,
as
well
their
positive
charge.
biosurfactant
making
them
beneficial
for
soil
water.
general,
proven
highly
efficient
means
removing
environment,
providing
viable
alternative
conventional
chemical
approaches.
Nevertheless,
additional
investigation
necessary
gain
deeper
comprehension
fundamental
principles
behind
rhamnolipid‐assisted
its
implementation
larger
real‐world
scenarios.
This
study
provides
concise
overview
research
on
utilization
bioremediating
environment.
article
covers
underlying
mechanisms,
employed,
overall
efficacy
process.
tool
examined,
along
with
difficulties
restrictions
implementation.
review's
conclusion
followed
by
discussion
future
directions
studying
this
topic.
Molecules,
Journal Year:
2023,
Volume and Issue:
28(21), P. 7433 - 7433
Published: Nov. 5, 2023
Nocardioides,
a
genus
belonging
to
Actinomycetes,
can
endure
various
low-nutrient
conditions.
It
degrade
pollutants
using
multiple
organic
materials
such
as
carbon
and
nitrogen
sources.
The
characteristics
applications
of
Nocardioides
are
described
in
detail
this
review,
with
emphasis
on
the
degradation
several
hard-to-degrade
by
including
aromatic
compounds,
hydrocarbons,
haloalkanes,
heterocycles,
polymeric
polyesters.
has
unique
advantages
when
it
comes
pollutants.
Compared
other
strains,
significantly
higher
rate
requires
less
time
break
down
substances.
This
review
be
theoretical
basis
for
developing
microbial
agent
significant
commercial
application
potential.
Applied Sciences,
Journal Year:
2024,
Volume and Issue:
14(12), P. 5081 - 5081
Published: June 11, 2024
Industrial
evolution
and
agricultural
expansion,
explained
by
continuing
population
growth,
have
rendered
enormous
problems
for
the
world
throughout
past
few
decades,
primarily
because
of
waste
generation.
To
reduce
environmental
impact
dependence
on
fossil
fuels,
scientists
explored
replacing
synthetic
polymers
with
environmentally
friendly
sustainable
alternatives
in
many
emergent
applications.
In
this
regard,
microbial
biopolymers
gained
special
attention.
Many
originating
from
various
strains
bacteria,
fungi,
algae
been
reported
their
possible
applications
increased
rapidly.
This
review
focuses
wide
range
biopolymers,
characteristics,
factors
influencing
production.
The
present
study
also
describes
biopolymers.
use
these
is
very
attractive
as
a
value-added
approach
to
wastewater
treatment.
By
acting
adsorbents,
coagulants,
flocculants
well
filters
membrane
processes,
shine
promising
solutions
beyond
conventional
methods.
They
can
be
integrated
into
stages
treatment
process,
further
enhancing
efficiency
Microbial
biopolymer
bioremediation
soil
stabilization
are
reviewed.
Several
studies
demonstrated
strong
potential
improvement
due
ability
minimize
permeability,
eliminate
heavy
metals,
stabilize
soil,
limit
erosion.
Challenges
related
scaling
up
downstream
processing
its
future
perspectives
applications,
discussed.
