Plant Stress,
Journal Year:
2023,
Volume and Issue:
10, P. 100253 - 100253
Published: Oct. 10, 2023
The
world's
climate
shifts
rapidly,
leading
to
increasingly
severe
and
volatile
weather,
negatively
impacting
crop
yields.
To
produce
long-lasting
crops,
cutting-edge
nanotechnology
is
applied
agriculture
called
agri-nanotechnology
(ANT),
a
relatively
fresh
field
of
research.
ANT
aims
help
agricultural
systems
meet
the
demands
for
sustainable
food
production.
inclusion
could
transform
conventional
farming
practices
by
enabling
targeted
delivery
biomolecules
controlled
liberation
agrochemicals.
Increasing
yields
requires
vaster
understanding
interactions
between
plants
nanoparticles
(NPs)
make
them
more
resistant
environmental
stresses
maximize
their
utilization.
Furthermore,
well-known
highly
praised
tool
that
provides
various
solutions
build
modern
practices.
In
summation,
stands
as
vanguard
in
harnessing
nanoscale
innovations
optimize
protection
production
way.
Plant Cell Reports,
Journal Year:
2023,
Volume and Issue:
42(4), P. 657 - 688
Published: Feb. 13, 2023
The
potential
of
seed
priming
is
still
not
fully
exploited.
Our
limited
knowledge
the
molecular
dynamics
pre-germinative
metabolism
main
hindrance
to
more
effective
new-generation
techniques.
Climate
change
and
other
recent
global
crises
are
disrupting
food
security.
To
cope
with
current
demand
for
increased
food,
feed,
biofuel
production,
while
preserving
sustainability,
continuous
technological
innovation
should
be
provided
agri-food
sector.
Seed
priming,
a
pre-sowing
technique
used
increase
vigor,
has
become
valuable
tool
due
its
enhance
germination
stress
resilience
under
changing
environments.
Successful
protocols
result
from
ability
properly
act
on
stimulate
events
that
crucial
quality.
However,
requires
constant
optimization,
researchers
committed
addressing
some
key
open
questions
overcome
such
drawbacks.
In
this
review,
an
update
scientific
technical
related
provided.
rehydration-dehydration
cycle
associated
treatments
can
described
in
terms
metabolic
pathways
triggered,
modulated,
or
turned
off,
depending
physiological
stage.
Understanding
ways
affects,
either
positively
negatively,
impacts
gene
expression
protein/metabolite
accumulation/depletion
represents
essential
step
toward
identification
novel
quality
hallmarks.
need
expand
basic
mechanisms
ruling
response
underlined
along
strong
applied
research
primed
seeds
as
source
This
route
will
hasten
implementation
techniques
needed
support
sustainable
agriculture
systems.
Frontiers in Plant Science,
Journal Year:
2024,
Volume and Issue:
14
Published: Jan. 16, 2024
Plants
experience
diverse
abiotic
stresses,
encompassing
low
or
high
temperature,
drought,
water
logging
and
salinity.
The
challenge
of
maintaining
worldwide
crop
cultivation
food
sustenance
becomes
particularly
serious
due
to
drought
salinity
stress.
Sustainable
agriculture
has
significant
promise
with
the
use
nano-biotechnology.
Nanoparticles
(NPs)
have
evolved
into
remarkable
assets
improve
agricultural
productivity
under
robust
climate
alteration
increasing
stress
severity.
Drought
adversely
impact
plant
development,
physiological
metabolic
pathways,
leading
disturbances
in
cell
membranes,
antioxidant
activities,
photosynthetic
system,
nutrient
uptake.
NPs
protect
membrane
apparatus,
enhance
efficiency,
optimize
hormone
phenolic
levels,
boost
intake
regulate
gene
expression,
thereby
strengthening
plant’s
resilience
In
this
paper,
we
explored
classification
their
biological
effects,
nanoparticle
absorption,
toxicity,
relationship
between
genetic
engineering,
molecular
tolerance
because
effects
vary
size,
shape,
structure,
concentration.
We
emphasized
several
areas
research
that
need
be
addressed
future
investigations.
This
comprehensive
review
will
a
valuable
resource
for
upcoming
researchers
who
wish
embrace
nanotechnology
as
an
environmentally
friendly
approach
enhancing
tolerance.
Egyptian Journal of Soil Science,
Journal Year:
2023,
Volume and Issue:
64(1), P. 0 - 0
Published: Dec. 11, 2023
Reviewing
Agri-nanotechnology
from
the
perspective
of
nanoparticles
and
crops
will
help
us
better
understand
interactions
between
crops,
such
as
uptake,
mobilization,
accumulation.
In
recent
years,
a
great
deal
has
been
accomplished
in
nanotechnology
biomedical
sciences,
revolutionizing
therapeutic
diagnostic
techniques.
Despite
that,
additional
research
is
introducing
NPs
on
plant
development
agroecosystems
for
smart
nontechnological
approaches
crop
enhancement.
Here,
we
have
swiftly
introduced
used
science
described
methods
application
biological
effects
crops.
Intending
to
invigorate
safety
or
promote
progression
that
affected
production.
This
review
examines
essential
present
applications
agriculture
while
also
exploring
potential
regulatory
manner,
which
could
open
novel
harmless
possibilities
intelligent
delivery
biomolecules
tactics
nutrient
management,
genetic
engineering,
battling
against
abiotic
stresses.
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.
Plants,
Journal Year:
2024,
Volume and Issue:
13(3), P. 446 - 446
Published: Feb. 3, 2024
In
today's
time,
agricultural
productivity
is
severely
affected
by
climate
change
and
increasing
pollution.
Hence,
several
biotechnological
approaches,
including
genetic
non-genetic
strategies,
have
been
developed
adapted
to
increase
productivity.
One
of
them
nano-priming,
i.e.,
seed
priming
with
nanomaterials.
Thus
far,
nano-priming
methods
successfully
used
mount
desired
physiological
responses
attributes
in
crops.
this
review,
the
literature
about
utility
for
vigor,
germination,
photosynthetic
output,
biomass,
early
growth,
crop
yield
has
summarized.
Moreover,
available
knowledge
use
modulating
plant
antioxidant
defenses
hormonal
networks,
inducing
salinity
tolerance
disease
resistance,
as
well
alleviating
heavy
metal
toxicity
plants,
reviewed.
The
significance
context
phytotoxicity
environmental
safety
also
discussed.
For
future
perspectives,
gaps
present
are
highlighted,
need
optimization
validation
their
outcomes,
from
lab
field,
emphasized.
