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
Critical Reviews in Plant Sciences,
Год журнала:
2023,
Номер
43(2), С. 63 - 93
Опубликована: Окт. 20, 2023
AbstractCrop
production
plays
a
critical
role
in
global
food
security,
with
key
commodities
such
as
corn,
wheat,
soybean,
and
rice
ranking
among
the
most
widely
cultivated
crops.
These
major
crops
are
predominantly
grown
within
extensive
cropping
systems.
However,
these
systems
threatened
by
fungal
diseases,
which
may
cause
substantial
yield
reductions.
The
adopted
strategy
to
manage
pathogens
extensively
worldwide
is
chemical
control.
Nevertheless,
this
has
multiple
drawbacks
potential
hazards,
including
pathogen
resistance,
environmental
contamination,
negative
effects
on
human
health
other
organisms.
As
logical
result,
over
last
decades,
conventional
agricultural
have
been
questioned
transition
toward
more
sustainable
methods
emerged.
new
productive
paradigm
emphasizes
adoption
of
eco-friendly
approaches
disease
management,
biofungicides
biostimulants
tools
gaining
popularity.
establishing
regulatory
framework
for
different
countries
proven
challenging
due
lack
harmonization.
primary
objective
review
gather
dispersed
information
technologies
(either
available
market
or
being
studied)
applicable
generated
latest
scientific
advances.
Additionally,
seeks
contribute
clarifying
categorization
(biostimulants,
biofungicides,
plant
defense
inducers,
gene
editing,
RNAi,
nanotechnology,
physical
treatment)
enhance
their
understanding
critically
assess
potentials,
challenges,
future
perspectives.
Furthermore,
aims
identify
successfully
implemented
horticulture
intensive
but
not
yet
practically
applied
crops,
pave
way
advances
adaptations
suit
practices.
Finally,
presents
practical
management
model
that
incorporates
address
wheat.Keywords:
Extensive
systemsintegrated
managementnew
toolsbiostimulantsbiofungicidesplant
resistance
inducersdual-effect
Disclosure
statementThe
authors
declare
no
conflict
interest.Data
availability
statementData
sharing
article
data
were
created
analyzed
study.Additional
informationFundingThe
publication
was
part
collaborative
work
co-financed
University
Buenos
Aires
(UBACYT
20020220100114BA),
Argentina,
Polish
National
Agency
Academic
-
NAWA
(BPI/PST/2021/1/00034).
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
