Sustainability,
Год журнала:
2024,
Номер
16(23), С. 10544 - 10544
Опубликована: Дек. 1, 2024
The
discharge
of
medical
and
domestic
wastewater
has
resulted
in
increasing
levels
pharmaceutical
pollutants
water
bodies.
We
combined
dielectric
barrier
(DBD)
technology
with
an
Fe3⁺/sodium
sulfite
oxidation
system
to
address
the
limitations
associated
traditional
treatment
technologies
removing
carbamazepine,
exploring
application
efficacy
mechanisms
this
approach
carbamazepine
degradation.
Under
optimized
experimental
conditions,
our
achieved
a
97%
degradation
efficiency
for
within
4
min,
significantly
outperforming
both
DBD
sodium
standalone
systems.
Using
response
surface
methodology
optimize
parameters,
effects
concentration,
pH,
Fe3⁺
concentration
on
were
assessed.
optimal
system’s
was
2.5
times
higher
than
that
individual
Hydroxyl
sulfate
radicals
contributed
65%
85%,
respectively,
degradation,
while
superoxide
only
30%.
study
demonstrated
effectively
breaks
down
molecular
structure
carbamazepine.
Eight
primary
intermediate
products
identified,
and,
as
progressed,
concentrations
these
intermediates
gradually
decreased,
ultimately
achieving
mineralization
rate
exceeding
85%.
This
not
provides
effective
technical
solution
rapidly
treating
recalcitrant
organic
but
also
offers
new
insights
environmental
protection
sustainable
use
resources
providing
theoretical
data
future
related
research.
The Science of The Total Environment,
Год журнала:
2024,
Номер
951, С. 175375 - 175375
Опубликована: Авг. 11, 2024
Chemical
pollution
is
a
major
driver
for
the
current
worldwide
crisis
of
amphibian
decline.
The
present
study
aimed
to
assess
influence
polystyrene
nanoplastics
(PS-NPLs)
on
toxicity
haloperidol
aquatic
life
stages
amphibians,
by
using
in
vivo
(tadpoles
Xenopus
laevis
and
Pelophylax
perezi)
vitro
(A6
XTC-2
cell
lines
X.
laevis)
biological
models.
Tadpoles
both
species
were
exposed,
96
h,
haloperidol:
0.404
2.05
mg
l
Animals,
Год журнала:
2024,
Номер
14(11), С. 1597 - 1597
Опубликована: Май 28, 2024
The
Mediterranean
region
is
facing
several
environmental
changes
and
pollution
issues.
Teleosts
are
particularly
sensitive
to
these
challenges
due
their
intricate
reproductive
biology
reliance
on
specific
cues
for
successful
reproduction.
Wild
populations
struggle
with
the
triad
of
climate
change,
contamination,
overfishing,
which
can
deeply
affect
success
population
dynamics.
In
farmed
species,
abiotic
factors
affecting
reproduction
easier
control,
whereas
finding
alternatives
conventional
diets
teleosts
crucial
enhancing
broodstock
health,
success,
sustainability
aquaculture
sector.
Addressing
involves
ongoing
research
into
formulating
specialized
diets,
optimizing
feeding
strategies,
developing
alternative
sustainable
feed
ingredients.
To
achieve
a
deeper
comprehension
challenges,
studies
employing
model
species
have
emerged
as
pivotal
tools.
These
models
offer
advantages
in
understanding
mechanisms
well-defined
physiology,
genetic
tractability,
ease
manipulation.
Yet,
while
providing
invaluable
insights,
applicability
diverse
remains
constrained
by
inherent
variations
across
taxa
oversimplification
complex
interactions,
thus
limiting
extrapolation
scientific
findings.
Bridging
gaps
necessitates
multidisciplinary
approaches,
emphasizing
conservation
efforts
wild
tailored
nutritional
strategies
aquaculture,
thereby
fostering
teleost
Mediterranean.
