Fibers,
Год журнала:
2024,
Номер
12(8), С. 64 - 64
Опубликована: Авг. 5, 2024
Agrochemicals
can
now
be
protected
from
harsh
environments
like
pH,
light,
temperature,
and
more
with
the
help
of
a
drug-loading
system.
This
has
allowed
creation
targeted
continuous
release
functions
for
pesticides
fertilizers,
as
well
precise
application,
reduction,
efficiency
agrochemicals.
All
these
benefits
have
been
made
possible
by
recent
advancements
in
field
nanomaterials.
A
simple
procedure
known
electrospinning
used
to
create
nanofibers
natural
synthetic
polymers.
Nanofibers
come
recognized
one
sustainable
routes
enormous
applicability
different
fields.
In
agriculture,
promising
strategy
may
entail
plant
protection
growth
through
encapsulating
numerous
bio-active
molecules
fertilizers
intelligent
administration
at
desired
places.
Owing
their
permeability,
tiny
dimensions,
large
surface
area,
regulate
rate
which
agrochemicals
are
released.
slows
down
fertilizer
dissolves
permits
coated
gradually
over
time,
is
effectively
absorbed
roots,
pesticides.
Thus,
modern
agriculture
requires
products
formulations
that
efficient
environmentally
friendly
than
traditional
addition
highlighting
significance
originality
using
offering
brief
explanation
technology,
review
article’s
main
goal
provide
thorough
summary
research
leading
breakthroughs
nanoencapsulation
Plant and Soil,
Год журнала:
2024,
Номер
503(1-2), С. 313 - 330
Опубликована: Март 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.
Frontiers in Plant Science,
Год журнала:
2024,
Номер
15
Опубликована: Апрель 29, 2024
Sustainable
food
security
and
safety
are
major
concerns
on
a
global
scale,
especially
in
developed
nations.
Adverse
agroclimatic
conditions
affect
the
largest
agricultural-producing
areas,
which
reduces
production
of
crops.
Achieving
sustainable
is
challenging
because
several
factors,
such
as
soil
flooding/waterlogging,
ultraviolet
(UV)
rays,
acidic/sodic
soil,
hazardous
ions,
low
high
temperatures,
nutritional
imbalances.
Plant
growth-promoting
rhizobacteria
(PGPR)
widely
employed
in-vitro
they
recognized
more
environmentally
sustainably
friendly
approach
to
increasing
crop
yield
contaminated
fertile
soil.
Conversely,
use
nanoparticles
(NPs)
an
amendment
has
recently
been
proposed
economical
way
enhance
texture
improving
agricultural
yields.
Nowadays,
various
research
experiments
have
combined
or
individually
applied
with
PGPR
NPs
for
balancing
elements
response
control
adverse
situations,
expectation
that
both
additives
might
perform
well
together.
According
findings,
interactive
applications
significantly
increase
yields
than
alone.
The
present
review
summarized
functional
mechanistic
basis
role
NPs.
However,
this
article
focused
potential
direction
realize
possible
interaction
at
large
scale
upcoming
years.
Plants,
Год журнала:
2024,
Номер
13(7), С. 984 - 984
Опубликована: Март 29, 2024
As
global
food
security
faces
challenges,
enhancing
crop
yield
and
stress
resistance
becomes
imperative.
This
study
comprehensively
explores
the
impact
of
nanomaterials
(NMs)
on
Gramineae
plants,
with
a
focus
effects
various
types
nanoparticles,
such
as
iron-based,
titanium-containing,
zinc,
copper
plant
photosynthesis,
chlorophyll
content,
antioxidant
enzyme
activity.
We
found
that
nanoparticles
largely
depend
their
chemical
properties,
particle
size,
concentration,
species
developmental
stage
plant.
Under
appropriate
conditions,
specific
NMs
can
promote
root
development
enhance
increase
content.
Notably,
iron-based
titanium-containing
show
significant
in
promoting
synthesis
growth.
However,
oxidative
is
complex.
certain
plants’
activity,
improving
ability
to
withstand
environmental
stresses;
excessive
or
inappropriate
may
cause
stress,
affecting
growth
development.
Copper
particular,
exhibit
this
dual
nature,
being
beneficial
at
low
concentrations
but
potentially
harmful
high
concentrations.
provides
theoretical
basis
for
future
nanofertilizers
aimed
precisely
targeting
plants
capacity
improve
photosynthesis
efficiency.
emphasize
importance
balancing
agricultural
advantages
nanotechnology
safety
practical
applications.
Future
research
should
deeper
understanding
interaction
mechanisms
between
more
explore
strategies
reduce
potential
impacts
ensure
health
sustainability
ecosystem
while
quality
crops.
Microbial Cell Factories,
Год журнала:
2024,
Номер
23(1)
Опубликована: Сен. 20, 2024
Bionanofertilizers
are
promising
eco-friendly
alternative
to
chemical
fertilizers,
leveraging
nanotechnology
and
biotechnology
enhance
nutrient
uptake
by
plants
improve
soil
health.
They
consist
of
nanoscale
materials
beneficial
microorganisms,
offering
benefits
such
as
enhanced
seed
germination,
improved
quality,
increased
use
efficiency,
pesticide
residue
degradation,
ultimately
leading
crop
productivity.
designed
for
targeted
delivery
nutrients,
controlled
release,
minimizing
environmental
pollutants,
making
them
a
sustainable
option
agriculture.
These
fertilizers
also
have
the
potential
plant
growth,
provide
disease
resistance,
contribute
farming
practices.
The
development
bionanofertilizers
addresses
adverse
impact
safer
productive
means
fertilization
agricultural
This
review
provides
substantial
evidence
supporting
in
revolutionizing
practices,
solutions
management
