Nanotechnology
is
a
multifaceted
and
promising
strategy
in
agricultural
pest
management
for
the
development
of
insecticides
or
insecticide
carriers.
Research
has
shown
that
nanoparticles
increase
stability
efficacy
entrapped
chemical
pesticides
to
prevent
active
ingredient
degradation
while
improving
solubility.
The
following
work
evaluated
synthesized
from
biopolymers,
materials
originate
renewable
sources
also
have
an
increased
biodegradability.Work
was
conducted
under
laboratory,
greenhouse,
field
conditions
test
biopoloymers
as
possible
primary
biopolymer
studies
zein,
although
lignin
chitosan
were
evaluated.
Overall,
this
dissertation
aimed
improve
our
understanding
zein
potential
tools.Research
first
established
direct
toxic
effects
on
lepidopteran
defoliators.
Results
indicated
toxicity
instars
both
model
soybean
pests,
Chrysodeixis
includens
(Walker)
(Lepidoptera:
Noctuidae)
Anticarsia
gemmatalis
Hübner
Erebidae).
These
results
followed
up
with
lifetable
C.
using
nanocarriers
methoxyfenozide,
study
chronic
at
low
lethal
concentrations.
empty
had
deleterious
effects,
loaded
methoxyfenozide
more
efficacious
harming
populations
than
ingredient.Multiyear
compare
sprayed
formulated
product.
provide
equal
level
control
product,
xii
providing
greater
residuals
insecticide.
Trials
agronomic
plants
different
conditions.
Our
suggested
other
are
not
plants.
Nano-Micro Letters,
Journal Year:
2023,
Volume and Issue:
15(1)
Published: Feb. 16, 2023
Abstract
Agro
seeds
are
vulnerable
to
environmental
stressors,
adversely
affecting
seed
vigor,
crop
growth,
and
productivity.
Different
agrochemical-based
treatments
enhance
germination,
but
they
can
also
cause
damage
the
environment;
therefore,
sustainable
technologies
such
as
nano-based
agrochemicals
urgently
needed.
Nanoagrochemicals
reduce
dose-dependent
toxicity
of
treatment,
thereby
improving
viability
ensuring
controlled
release
nanoagrochemical
active
ingredients
However,
applications
nanoagrochemicals
plants
in
field
raise
concerns
about
nanomaterial
safety,
exposure
levels,
toxicological
implications
environment
human
health.
In
present
comprehensive
review,
development,
scope,
challenges,
risk
assessments
on
treatment
discussed.
Moreover,
implementation
obstacles
for
use
treatments,
their
commercialization
potential,
need
policy
regulations
assess
possible
risks
Based
our
knowledge,
this
is
first
time
that
we
have
presented
legendary
literature
readers
order
help
them
gain
a
deeper
understanding
upcoming
nanotechnologies
may
enable
development
future
generation
agrochemical
formulations,
potential
associated
with
treatment.
Journal of Experimental Botany,
Journal Year:
2023,
Volume and Issue:
74(12), P. 3406 - 3424
Published: March 22, 2023
Abstract
Due
to
their
unique
properties,
nanomaterials
behave
peculiarly
in
biosystems.
Regarding
plants,
the
interactions
of
can
be
interpreted
on
a
spatial
scale:
from
local
cells
systemic
effects
whole
plants
and
ecosystems.
Interpreted
time
scale,
may
immediate
or
subsequent.
At
cellular
level,
composition
structure
cell
wall
membranes
are
modified
by
nanomaterials,
promoting
internalization.
The
germination
seedling
physiology
primary
secondary
metabolism
shoot
realized
at
organ
organism
levels.
Nanomaterials
interact
with
beneficial
ecological
partners
plants.
plant
growth-promoting
rhizobacteria
legume–rhizobia
symbiosis
stimulating
inhibitory,
depending
concentration
type
nanomaterial.
exert
negative
effect
arbuscular
mycorrhiza,
vice
versa.
Pollinators
exposed
which
affect
reproduction.
substances
released
roots
influence
availability
rhizosphere,
components
trigger
internalization,
translocation,
transformation
nanomaterials.
Understanding
multilevel
bidirectional
relationship
between
is
great
relevance.
Advanced Agrochem,
Journal Year:
2024,
Volume and Issue:
3(4), P. 265 - 278
Published: July 16, 2024
Nanopesticides,
as
a
promising
technology,
bring
scientific
and
technological
impetus
to
sustainable
development
green
revolution
of
agriculture.
The
excellent
physicochemical
properties,
beneficial
biological
effects,
functional
potential
nanopesticides
have
significantly
contributed
improving
utilization
rates
pesticides,
enhancing
pest
disease
management,
alleviating
stresses.
However,
agricultural
production
plant
cultivation
are
diverse,
leading
wide
range
application
scenarios
for
pesticides.
These
put
forward
more
precise
requirements
numerous
innovative
opportunities
the
nanopesticides.
Scenario-oriented
customized
various
methods,
aligning
with
principles
economical,
efficient,
future
This
article
outlines
status
then
reviews
research
progress
scenario-oriented
nanopesticides,
encompassing
nine
major
scenarios.
Finally,
priorities
prospects
summarized,
offering
concepts
advancement
Green Chemistry,
Journal Year:
2023,
Volume and Issue:
26(1), P. 42 - 56
Published: Nov. 23, 2023
Lignin,
as
an
intelligent
material,
holds
significant
potential
for
the
development
of
pesticide
smart
delivery
systems,
thereby
promoting
green
and
sustainable
agriculture.
Polymers,
Journal Year:
2023,
Volume and Issue:
15(5), P. 1193 - 1193
Published: Feb. 27, 2023
Lignin,
a
naturally
occurring
biopolymer,
is
produced
primarily
as
waste
product
by
the
pulp
and
paper
industries
burned
to
produce
electricity.
Lignin-based
nano-
microcarriers
found
in
plants
are
promising
biodegradable
drug
delivery
platforms.
Here,
we
highlight
few
characteristics
of
potential
antifungal
nanocomposite
consisting
carbon
nanoparticles
(C-NPs)
with
defined
size
shape
containing
lignin
(L-NPs).
Spectroscopic
microscopic
studies
verified
that
lignin-loaded
(L-CNPs)
were
successfully
prepared.
Under
vitro
vivo
conditions,
activity
L-CNPs
at
various
doses
was
effectively
tested
against
wild
strain
F.
verticillioides
causes
maize
stalk
rot
disease.
In
comparison
commercial
fungicide,
Ridomil
Gold
SL
(2%),
introduced
beneficial
effects
earliest
stages
development
(seed
germination
radicle
length).
Additionally,
L-CNP
treatments
promoted
positive
on
seedlings,
significant
increment
level
carotenoid,
anthocyanin,
chlorophyll
pigments
for
particular
treatments.
Finally,
soluble
protein
content
displayed
favorable
trend
response
dosages.
Most
importantly,
100
500
mg/L
significantly
reduced
disease
86%
81%,
respectively,
compared
chemical
which
79%.
These
consequences
substantial
considering
essential
cellular
function
carried
out
these
special
natural-based
compounds.
intravenous
both
male
female
mice
affected
clinical
applications
toxicological
assessments
explained.
The
results
this
study
suggest
high
interest
vehicles
can
be
used
stimulate
biological
responses
when
administered
recommended
dosages,
contributing
idea
agro-nanotechnology
demonstrating
their
unique
qualities
cost-effective
alternative
conventional
fungicides
environmentally
benign
nanopesticides
long-term
plant
protection.
ACS Sustainable Chemistry & Engineering,
Journal Year:
2024,
Volume and Issue:
12(27), P. 10045 - 10067
Published: June 22, 2024
Given
the
growing
urgency
to
address
food
security
and
environmental-preservation
challenges,
sustainable
agriculture
assumes
undeniable
global
relevance.
Furthermore,
using
renewable
biomass
as
a
base
for
nanopesticides
offers
an
environmentally
friendly
solution,
reducing
dependence
on
nonrenewable
resources
promoting
circular
economy.
This
study
examined
use
of
lignocellulosic
in
formulating
nanopesticides,
highlighting
their
potential
alternative
conventional
pesticides.
By
incorporating
lignocellulose
into
controlled
release
nanosystems,
researchers
observed
improved
adhesion,
stability,
ability
pesticides,
significantly
need
reapplication
risk
environmental
pollution.
Encapsulation,
formulation,
characterization
techniques
biomass-based
were
discussed,
control
active
ingredient
release.
Additionally,
provides
thorough
overview
recent
research,
underscoring
promising
effectiveness
these
across
diverse
crops.
Hence,
this
review
compiles
advancements,
trends,
challenges
utilizing
aiming
furnish
valuable
resource
scientists,
researchers,
farmers,
policymakers
committed
advancing
agricultural
practices.
