Frontiers in Microbiology,
Journal Year:
2023,
Volume and Issue:
14
Published: May 30, 2023
Cyanobacteria
are
widespread
phototrophic
microorganisms
that
represent
a
promising
biotechnological
tool
to
satisfy
current
sustainability
and
circularity
requirements.
They
potential
bio-factories
of
wide
range
compounds
can
be
exploited
in
several
fields
including
bioremediation
nanotechnology
sectors.
This
article
aims
illustrate
the
most
recent
trends
use
cyanobacteria
for
bioremoval
(i.e.,
cyanoremediation)
heavy
metals
metal
recovery
reuse.
Heavy
biosorption
by
combined
with
consecutive
valorization
obtained
metal-organic
materials
get
added-value
compounds,
nanoparticles,
opening
field
phyconanotechnology.
It
is
thus
possible
approaches
could
increase
environmental
economic
feasibility
cyanobacteria-based
processes,
promoting
transition
toward
circular
economy.
Water,
Journal Year:
2022,
Volume and Issue:
15(1), P. 70 - 70
Published: Dec. 25, 2022
Pesticides
have
been
identified
as
major
contaminants
of
various
waterways.
Being
classified
potential
endocrine
disrupting
compounds,
pesticides
in
aqueous
system
are
highly
hazardous
to
aquatic
organisms
and
the
ecosystem.
The
treatment
pesticide-containing
wastewater
can
be
performed
through
several
means,
but
a
strategy
which
emphasizes
both
efficiency
sustainability
is
necessity
current
time.
In
this
context,
bioremediation
has
increasingly
promoted
an
alternative
technique
for
remediation
diverse
pollutants.
Particularly,
involves
utilization
microalgae
removal
or
conversion
harmless
less
harmful
compounds
becoming
trend.
Exploiting
tool
presents
multiple
advantages
over
conventional
technologies,
include
opportunity
simultaneously
treat
nutrient
recovery
cultivation
well
formation
toxic
sludge.
This
review
discusses
roles
mitigating
pesticide
pollution
issue,
while
offering
from
sources.
Based
on
laboratory
studies,
use
promising
rationalized.
establishment
more
pilot
scale
studies
encouraged
further
facilitate
implementation
approach
practical
application.
Membranes,
Journal Year:
2022,
Volume and Issue:
12(11), P. 1094 - 1094
Published: Nov. 3, 2022
The
use
of
microalgae
for
wastewater
remediation
and
nutrient
recovery
answers
the
call
a
circular
bioeconomy,
which
involves
waste
resource
utilization
ecosystem
protection.
integration
cultivation
treatment
has
been
proposed
as
promising
strategy
to
tackle
issues
water
energy
source
depletions.
Specifically,
microalgae-enabled
offers
an
opportunity
simultaneously
implement
valuable
biomass
production.
As
versatile
technology,
membrane-based
processes
have
increasingly
explored
microalgae-based
remediation.
This
review
provides
literature
survey
discussion
recent
progressions
achievements
made
in
development
membrane
photobioreactors
(MPBRs)
recovery.
opportunities
using
interesting
option
manage
effluents
that
contain
high
levels
nutrients
are
explored.
innovations
design
their
performances
evaluated.
pave
way
effective
practical
implementation
technology
large-scale
processes.
Sustainability,
Journal Year:
2023,
Volume and Issue:
15(6), P. 5128 - 5128
Published: March 14, 2023
The
progression
of
urban
industrialization
releases
large
quantities
heavy
metals
into
water,
resulting
in
the
severe
metal
contamination
aquatic
environment.
Traditional
methods
for
removing
from
wastewater
generally
have
varying
removal
efficiencies,
whereas
algae
adsorption
technology
is
a
cost-effective
and
sustainable
bioremediation
technique.
A
green
that
immobilizes
through
carrier
to
improve
biosorbent’s
stability
performance
immobilization
technology.
purpose
this
review
study
optimization
strategy
comprehensively
analyze
immobilized
terms
sustainability.
analysis
mechanism
by
parameters
affecting
efficiency
biosorbent,
as
well
approach
based
on
life
cycle
assessment
economic
analysis,
allowed
identification
algae.
This
provides
theoretical
basis
practical
application
algal
bioremediation.
Fermentation,
Journal Year:
2023,
Volume and Issue:
9(3), P. 311 - 311
Published: March 22, 2023
The
water
resource
crisis
and
concerns
with
environmental
pollution
prompt
the
necessity
to
upgrade
conventional
wastewater
treatment
processes.
microalgae-based
process
has
shown
many
advantages
that
can
fulfill
stricter
demands
for
improved
treatment.
Microalgae
cultivation
be
carried
out
in
different
photobioreactors
under
operational
conditions.
of
microalgae
biomass
provides
bioremediation
some
targeted
pollutants
through
uptake/digestion
or
biosorption,
resulting
treated
effluent
production
biomass.
This
paper
reviews
progress
microalgae-biotechnology
industrial
A
brief
overview
microalga
types/classification,
type,
conditions
was
first
provided.
Next,
a
comprehensive
review
wastewater,
including
distillery,
heavy
metals,
textiles,
emerging
contaminants,
Finally,
perspectives
on
potential
scale-up
technology
critical
considerations
were
also
discussed.
