Plant and Soil,
Journal Year:
2024,
Volume and Issue:
503(1-2), P. 313 - 330
Published: March 12, 2024
Abstract
Background
As
the
world
grapples
with
increasing
agricultural
demands
and
unpredictable
environmental
stressors,
there
is
a
pressing
need
to
improve
plant
resilience.
Therefore,
understanding
pioneering
role
of
nanoparticles
in
alleviating
stress
crucial
for
developing
stress-resilient
varieties
enhance
food
secure
world.
Nanoparticles
have
unique
physical
chemical
properties,
demonstrate
their
potential
growth,
nutrient
utilization,
tolerance.
This
review
delves
into
mechanistic
insights
nanoparticle-plant
interactions,
highlighting
how
these
tiny
particles
can
mitigate
diverse
stressors
such
as
drought,
salinity,
heavy
metal
toxicity.
The
action
different
types
nanoparticles,
including
metal,
carbon-based,
biogenic
are
discussed
context
interaction
physiology
responses.
Aims
article
also
explores
drawbacks
implications
nanoparticle
use,
emphasizing
responsible
sustainable
applications.
this
study
aimed
offer
exciting
possibilities
managing
both
biotic
abiotic
species,
from
improving
water-use
efficiency
resilience
via
nanotechnology.
Conclusions
Future
research
directions
suggested,
focusing
on
nano-bioengineering
precision
agriculture
create
crops
security.
Through
lens
interdisciplinary
research,
paper
underscores
significance
innovative
tools
realm
agriculture,
catalyzing
paradigm
shift
towards
farming
systems.
Ecotoxicology and Environmental Safety,
Journal Year:
2022,
Volume and Issue:
249, P. 114408 - 114408
Published: Dec. 12, 2022
The
unpredictable
climatic
perturbations,
the
expanding
industrial
and
mining
sectors,
excessive
agrochemicals,
greater
reliance
on
wastewater
usage
in
cultivation,
landfill
leachates,
are
collectively
causing
land
degradation
affecting
thereby
reducing
food
production
globally.
Biochar
can
generally
mitigate
unfavourable
effects
brought
about
by
perturbations
(drought,
waterlogging)
degraded
soils
to
sustain
crop
production.
It
also
reduce
bioavailability
phytotoxicity
of
pollutants
contaminated
via
immobilization
inorganic
and/or
organic
contaminants,
commonly
through
surface
complexation,
electrostatic
attraction,
ion
exchange,
adsorption,
co-precipitation.
When
biochar
is
applied
soil,
it
typically
neutralizes
soil
acidity,
enhances
cation
exchange
capacity,
water
holding
aeration,
microbial
activity.
Thus,
has
been
was
widely
used
as
an
amendment
ameliorate
abiotic/biotic
stress.
This
review
discusses
addition
under
certain
conditions
(salinity,
drought,
flooding
heavy
metal
stress)
improve
plant
resilience
undergoing
these
perturbations.
with
other
stimulants
like
compost,
humic
acid,
phytohormones,
microbes
nanoparticles
could
be
synergistic
some
situation
enhance
survivorship
especially
saline,
waterlogged
arid
conditions.
Overall,
provide
effective
low-cost
solution,
nutrient-poor
highly
cultivation.
Environmental Pollution,
Journal Year:
2023,
Volume and Issue:
334, P. 122222 - 122222
Published: July 21, 2023
Agricultural
nanotechnology
has
become
a
powerful
tool
to
help
crops
and
improve
agricultural
production
in
the
context
of
growing
world
population.
However,
its
application
can
have
some
problems
with
development
harvests,
especially
during
germination.
This
review
evaluates
nanoparticles
essential
(Cu,
Fe,
Ni
Zn)
non-essential
(Ag
Ti)
elements
on
plant
In
general,
effect
depends
several
factors
(dose,
treatment
time,
method,
type
nanoparticle
plant).
addition,
pH
ionic
strength
are
relevant
when
applying
soil.
case
element
nanoparticles,
Fe
show
better
results
improving
nutrient
uptake,
germination,
possibility
magnetic
properties
could
favor
their
use
removal
pollutants.
Cu
Zn
they
be
beneficial
at
low
concentrations,
while
excess
presents
toxicity
negatively
affects
About
elements,
both
Ti
Ag
helpful
for
uptake.
potential
effects
depend
highly
crop
type,
particle
size
concentration.
Overall,
agriculture
is
still
early
stages
development,
more
research
needed
understand
environmental
public
health
impacts.
Plant and Soil,
Journal Year:
2024,
Volume and Issue:
503(1-2), P. 313 - 330
Published: March 12, 2024
Abstract
Background
As
the
world
grapples
with
increasing
agricultural
demands
and
unpredictable
environmental
stressors,
there
is
a
pressing
need
to
improve
plant
resilience.
Therefore,
understanding
pioneering
role
of
nanoparticles
in
alleviating
stress
crucial
for
developing
stress-resilient
varieties
enhance
food
secure
world.
Nanoparticles
have
unique
physical
chemical
properties,
demonstrate
their
potential
growth,
nutrient
utilization,
tolerance.
This
review
delves
into
mechanistic
insights
nanoparticle-plant
interactions,
highlighting
how
these
tiny
particles
can
mitigate
diverse
stressors
such
as
drought,
salinity,
heavy
metal
toxicity.
The
action
different
types
nanoparticles,
including
metal,
carbon-based,
biogenic
are
discussed
context
interaction
physiology
responses.
Aims
article
also
explores
drawbacks
implications
nanoparticle
use,
emphasizing
responsible
sustainable
applications.
this
study
aimed
offer
exciting
possibilities
managing
both
biotic
abiotic
species,
from
improving
water-use
efficiency
resilience
via
nanotechnology.
Conclusions
Future
research
directions
suggested,
focusing
on
nano-bioengineering
precision
agriculture
create
crops
security.
Through
lens
interdisciplinary
research,
paper
underscores
significance
innovative
tools
realm
agriculture,
catalyzing
paradigm
shift
towards
farming
systems.
