Applied Sciences,
Journal Year:
2024,
Volume and Issue:
15(1), P. 132 - 132
Published: Dec. 27, 2024
The
concentration
of
endocrine
disruptor
compounds
(EDCs)
in
wastewater
is
increasing,
posing
significant
risks
to
living
organisms.
This
study
concerns
the
simultaneous
degradation
a
variety
EDCs
from
wastewater,
including
methylparaben
(MeP),
propylparaben
(PrP),
butylparaben
(BuP),
benzophenone
(BP),
bisphenol
A
(BPA),
and
estrone
(E),
presence
microalgae
Scenedesmus
sp.
or
Chlorella
vulgaris.
potential
for
abiotic
removal
these
their
underlying
mechanisms
were
also
studied.
significantly
enhanced
parabens,
achieving
complete
within
7
days,
primarily
through
mechanism
biodegradation.
BPA
was
improved
by
microalgae,
reaching
82%
90%
days
with
C.
vulgaris,
respectively.
BP
predominantly
abiotic,
accomplishing
95%
days.
E
mainly
approximately
40%
notable
contribution
biodegradation
later
stages,
accounting
27%
final
total
provides
insights
into
EDC
highlighting
vulgaris
remove
mixture
wastewater.
Royal Society of Chemistry eBooks,
Journal Year:
2024,
Volume and Issue:
unknown, P. 171 - 206
Published: Aug. 2, 2024
Global
estimates
specify
450
billion
m3
of
annual
water
consumption
in
industrial
and
domestic
use.
Approximately,
60%
wastewater
generated
from
these
applications
is
rich
nitrogen
phosphorus
along
with
other
trace
elements
can
be
used
as
a
substrate
for
microalgal
growth
to
produce
∼23.5
tons
oil.
The
processing
various
categories
through
conventional
physico-chemical
or
non-microalgal
approaches
could
either
energy-intensive
unproductive.
Improvement
optimization
an
integrated
system
microalgae
delivering
sustainable
cost-effective
approach
towards
bioremediation
simultaneous
creation
commercially
value-added
products
prime
concern.
This
chapter
deeply
portrays
the
latest
developments
specifying
characteristics,
pretreatment
strategies,
technological
prerequisites
efficacious
amalgamation
treatments
coupled
substantial
cultivation
systems
emphasizing
mechanisms
microalgae-mediated
pollutant
elimination,
prospects
treatment
diverse
varieties
wastewaters
using
evaluation
capital
operational
expenditures
large-scale
applications.
Jurnal Biodjati,
Journal Year:
2024,
Volume and Issue:
9(2), P. 202 - 217
Published: Nov. 30, 2024
Temajo
Island
is
renowned
for
its
marine
tourism
activities
and
home
to
a
range
of
organisms,
including
algae.
Microalgae
serve
as
indicator
species,
offering
insights
into
the
aquatic
environment
through
their
species
composition
abundance.
This
study
aims
provide
preliminary
data
on
abundance
some
ecological
indices
(diversity,
evenness,
dominance)
microalgae
Island,
which
will
be
basis
assessing
water
conditions
supporting
conservation
efforts
sustainable
management
natural
resources.
The
research
was
carried
out
at
four
stations
with
different
characteristics.
At
each
station,
surface
samples
were
collected
using
plankton
net.
in
these
subsequently
examined
under
microscope,
quantities
measured.
ranged
from
2.84
7,697.14
ind/L,
an
average
193.34
ind/L.
Chaetoceros
most
abundant
genus,
followed
by
Rhizosolenia,
Guinardia,
Thalassiosira,
Pseudo-nitzschia,
Bacteriastrum.
diversity
index
(H’)
2.67
3.08,
indicating
moderate
high
richness,
while
evenness
(E)
0.64
0.74,
reflecting
level
uniformity
among
populations.
dominance
(C)
varied
between
0.11
0.20,
suggesting
low
any
single
genus.
These
collectively
indicate
balanced
diverse
community,
underscoring
health
stability
waters.
Preliminary
information
about
this
provides
valuable
dynamics
populations
implications
ecosystems
Indonesia.
Applied Sciences,
Journal Year:
2024,
Volume and Issue:
15(1), P. 132 - 132
Published: Dec. 27, 2024
The
concentration
of
endocrine
disruptor
compounds
(EDCs)
in
wastewater
is
increasing,
posing
significant
risks
to
living
organisms.
This
study
concerns
the
simultaneous
degradation
a
variety
EDCs
from
wastewater,
including
methylparaben
(MeP),
propylparaben
(PrP),
butylparaben
(BuP),
benzophenone
(BP),
bisphenol
A
(BPA),
and
estrone
(E),
presence
microalgae
Scenedesmus
sp.
or
Chlorella
vulgaris.
potential
for
abiotic
removal
these
their
underlying
mechanisms
were
also
studied.
significantly
enhanced
parabens,
achieving
complete
within
7
days,
primarily
through
mechanism
biodegradation.
BPA
was
improved
by
microalgae,
reaching
82%
90%
days
with
C.
vulgaris,
respectively.
BP
predominantly
abiotic,
accomplishing
95%
days.
E
mainly
approximately
40%
notable
contribution
biodegradation
later
stages,
accounting
27%
final
total
provides
insights
into
EDC
highlighting
vulgaris
remove
mixture
wastewater.
