Annals of Animal Science,
Journal Year:
2024,
Volume and Issue:
0(0)
Published: April 24, 2024
Abstract
High
levels
of
heavy
metals
in
the
environment
pose
a
significant
risk
to
aquatic
ecosystem
and
its
organisms.
The
non-biodegradable
nature
lengthy
persistence
lead
toxicity
shrimp.
Using
animals
as
bio-indicators
metal
contamination
provides
valuable
data
on
acute
chronic
species
environmental
quality.
This
review
aims
provide
insights
into
sources,
impacts,
diseases
mitigation
strategies
related
pollution
shrimp
farming
dangers
humans.
Shrimp
growth
development
at
each
stage
exhibit
distinct
responses
toxicity,
which
can
vary
depending
species,
types
metals,
their
mechanisms
action,
well
concentration
duration
exposure.
While
several
are
considered
essential
nutrient
elements
that
enhance
feed
efficiency,
exceeding
maximum
tolerable
limit
threatens
health,
human
consumers,
ecological
systems’
stability.
subjected
lethal
toxic
concentrations
experience
effects
accumulation
histopathology.
Heavy
has
been
linked
high
mortality
rates,
malformation
oxidative
stress,
moulting
issues,
decreased
reproduction
with
increasing
Various
methods
have
reported
for
removing
ions
from
environments,
including
filtration,
adsorbents,
removal
efficacy,
operating
conditions,
pros
cons
technique.
Therefore,
this
an
overview
how
affect
physiology
consumers.
It
increase
awareness
about
importance
preventing
regulating
environments.
Environmental Science & Technology,
Journal Year:
2024,
Volume and Issue:
58(16), P. 6900 - 6912
Published: April 13, 2024
Foliar
application
of
beneficial
nanoparticles
(NPs)
exhibits
potential
in
reducing
cadmium
(Cd)
uptake
crops,
necessitating
a
systematic
understanding
their
leaf-root-microorganism
process
for
sustainable
development
efficient
nano-enabled
agrochemicals.
Herein,
wheat
grown
Cd-contaminated
soil
(5.23
mg/kg)
was
sprayed
with
different
rates
four
commonly
used
NPs,
including
nano
selenium
(SeNPs)/silica
(SiO
Toxics,
Journal Year:
2024,
Volume and Issue:
12(2), P. 111 - 111
Published: Jan. 28, 2024
This
study
delves
into
the
critical
issue
of
water
pollution
caused
by
presence
metal
oxides,
synthetic
dyes,
and
dissolved
organic
matter,
shedding
light
on
their
potential
ramifications
for
both
environment
human
health.
Metal
ubiquitous
in
industrial
processes
consumer
products,
are
known
to
leach
bodies,
posing
a
significant
threat
aquatic
ecosystems.
Additionally,
extensively
used
various
industries,
can
persist
systems
exhibit
complex
chemical
behavior.
review
provides
comprehensive
examination
toxicity
associated
with
matter
systems.
We
delve
sources
environmental
fate
these
contaminants,
highlighting
prevalence
natural
bodies
wastewater
effluents.
The
highlights
multifaceted
impacts
them
health
ecosystems,
encompassing
effects
microbial
communities,
flora
fauna,
overall
ecological
balance.
novelty
this
lies
its
unique
presentation,
focusing
matter.
approach
aims
facilitate
accessibility
results
readers,
providing
streamlined
clear
understanding
reported
findings.
Biochar,
Journal Year:
2023,
Volume and Issue:
5(1)
Published: April 7, 2023
Abstract
Microbially
induced
calcite
precipitation
(MICP)
technique
utilizes
ureolytic
bacteria
to
decompose
urea
and
generate
carbonate
ions
for
metal
combination.
MICP
can
remediate
heavy
(e.g.,
Cd)
contaminated
soils
while
maintaining
or
even
improving
soil
functions,
but
its
efficiency
in
agricultural
practical
application
still
needs
be
enhanced.
Here,
we
constructed
a
biochar-bacteria
(2B)
partnership
which
biochar
provides
high
nutrition
diverse
sorption
sites.
Using
the
2B
system,
Cd
immobilization
effectiveness
underlying
mechanism
were
examined
along
with
properties
functions.
Results
showed
that
compared
single
systems,
mobility
was
reduced
by
23.6%
45.8%
through
co-precipitating
CaCO
3
as
otavite
(CdCO
)
whereas
fertility,
bacterial
diversity,
richness
increased
11.7–90.2%,
5.4–16.1%,
6.8–54.7%,
respectively.
Moreover,
abundances
of
Proteobacteria
Firmicutes
enhanced
system.
Notably,
Sporosarcina
Bacillus
(
genus)
carry
ure
C
gene
boosted
further
implicating
microbiological
reducing
migration
bioavailability
soil.
Overall,
system
efficient
strengthening
growth
their
nutrient
supply
bacteria-rich
ecosystem.
ACS Sustainable Chemistry & Engineering,
Journal Year:
2024,
Volume and Issue:
12(2), P. 716 - 727
Published: Jan. 4, 2024
Nanomaterials
(NMs),
particularly
ZnO
nanoparticles
(NPs),
show
great
promise
in
sustainable
agriculture
for
enhancing
crop
production,
mineral
nutrition,
and
food
safety.
However,
custom
synthesis
of
NMs
to
optimize
performance
is
still
a
bottleneck.
This
study
synthesized
three
types
(NPs)
(nZnO-1,
nZnO-2,
nZnO-3)
with
different
particle
size,
charge,
dissolution
properties
were
foliar-applied
wheat
under
field
conditions.
Foliar
application
nZnO-3
significantly
increased
grain
by
15.2%
biological
yield
9.5%
compared
that
the
unamended
control.
Both
nZnO-2
improved
Zn
content
whole
(21.0
15.6%,
respectively)
starchy
endosperm
(31.8
13.1%,
respectively),
enhanced
bioavailability
(40.9
43.3%,
estimated
daily
intake
(EDI)
(55.1
23.8%,
respectively).
Impressively,
also
reduced
Cd
concentration
(17.2%)
although
it
did
not
affect
level
flour.
Additionally,
all
treatments
levels
crude
protein
(5.2–15.7%)
other
nutrients
(e.g.,
S,
Fe,
Mn)
grains.
These
findings
underscore
potential
tailored
NPs
biofortification
point
toward
approach
agricultural
production
through
controlled
platform.
