Environments,
Journal Year:
2024,
Volume and Issue:
11(8), P. 177 - 177
Published: Aug. 20, 2024
Nickel
(Ni)
is
an
essential
micronutrient
for
plants,
responsible
metabolizing
urea
nitrogen
(urea-N)
by
urease
and
mitigating
abiotic
oxidative
stresses
through
the
glyoxalase
(Gly)
glutathione
(GSH)
cycles.
However,
excess
Ni
toxic
to
flora
at
>100
mg
kg−1,
except
hyperaccumulators
that
tolerate
>1000
kg−1
Ni.
This
review
discusses
benefits
of
nutrient
management
soil
fertility,
improving
food
security,
minimizing
adverse
environmental
impacts
from
overapplication.
Many
farming
soils
are
deficient,
suggesting
applying
0.05–5
kg
ha−1
improves
yield
urea-N
use
efficiency.
Applied
foliar
fertilizers
decrease
biotic
primarily
control
fungal
diseases.
The
bioavailability
limiting
factor
synthesis
in
animal
guts,
microbiome.
Improved
activity
plants
subsequently
feed
livestock
guts
reduces
release
nitrous
oxide
nitrite
pollutants.
Fertilizer
applied
crops
dispersed
vegetative
tissue
since
highly
mobile
not
accumulated
fruit
or
leafy
tissues
cause
health
concerns
consumers.
New
methods
delivery,
including
rhizophagy,
recycled
struvite,
nanoparticle
fertilizers,
can
improve
systems.
Environmental Science Nano,
Journal Year:
2024,
Volume and Issue:
11(10), P. 4089 - 4101
Published: Jan. 1, 2024
Our
work
suggested
that
cuproptosis
serves
as
a
key
toxic
mechanism
of
CuO
NPs,
damaging
mitochondria
to
induce
ferroptosis
by
disrupting
mitochondrial
membrane
lipid
synthesis.
Nanomaterials,
Journal Year:
2024,
Volume and Issue:
14(15), P. 1253 - 1253
Published: July 26, 2024
Climate
change
is
a
global
problem
facing
all
aspects
of
the
agricultural
sector.
Heat
stress
due
to
increasing
atmospheric
temperature
one
most
common
climate
impacts
on
agriculture.
has
direct
effects
crop
production,
along
with
indirect
through
associated
problems
such
as
drought,
salinity,
and
pathogenic
stresses.
Approaches
reported
be
effective
mitigate
heat
include
nano-management.
Nano-agrochemicals
nanofertilizers
nanopesticides
are
emerging
approaches
that
have
shown
promise
against
stress,
particularly
biogenic
nano-sources.
Nanomaterials
favorable
for
production
their
low
toxicity
eco-friendly
action.
This
review
focuses
different
stresses
production.
Nano-management
crops
under
including
application
nanopesticides,
discussed.
The
potential
limitations
these
nano-agrochemicals
reviewed.
Potential
nanotoxicity
need
more
investigation
at
local,
national,
levels,
well
additional
studies
into
soil,
plant,
microbial
properties
processes.
Environments,
Journal Year:
2024,
Volume and Issue:
11(8), P. 177 - 177
Published: Aug. 20, 2024
Nickel
(Ni)
is
an
essential
micronutrient
for
plants,
responsible
metabolizing
urea
nitrogen
(urea-N)
by
urease
and
mitigating
abiotic
oxidative
stresses
through
the
glyoxalase
(Gly)
glutathione
(GSH)
cycles.
However,
excess
Ni
toxic
to
flora
at
>100
mg
kg−1,
except
hyperaccumulators
that
tolerate
>1000
kg−1
Ni.
This
review
discusses
benefits
of
nutrient
management
soil
fertility,
improving
food
security,
minimizing
adverse
environmental
impacts
from
overapplication.
Many
farming
soils
are
deficient,
suggesting
applying
0.05–5
kg
ha−1
improves
yield
urea-N
use
efficiency.
Applied
foliar
fertilizers
decrease
biotic
primarily
control
fungal
diseases.
The
bioavailability
limiting
factor
synthesis
in
animal
guts,
microbiome.
Improved
activity
plants
subsequently
feed
livestock
guts
reduces
release
nitrous
oxide
nitrite
pollutants.
Fertilizer
applied
crops
dispersed
vegetative
tissue
since
highly
mobile
not
accumulated
fruit
or
leafy
tissues
cause
health
concerns
consumers.
New
methods
delivery,
including
rhizophagy,
recycled
struvite,
nanoparticle
fertilizers,
can
improve
systems.
