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
International Journal of Plant & Soil Science,
Год журнала:
2024,
Номер
36(6), С. 492 - 503
Опубликована: Май 11, 2024
Sustainable
agriculture
aims
to
meet
the
growing
global
demand
for
food
without
compromising
environmental
integrity.
This
review
paper
explores
integration
of
agronomic
practices,
physiology,
and
plant
nutrition
as
pathways
toward
sustainable
crop
production.
Intensive
agricultural
practices
have
led
significant
problems
such
soil
degradation,
loss
biodiversity,
pollution.
Recent
advancements
in
physiology
enhanced
our
understanding
growth
response
biotic
abiotic
stresses.
Optimizing
production
a
manner
depends
on
insights
into
key
processes
like
photosynthesis,
water
use
efficiency,
nutrient
uptake.
discusses
role
growth-promoting
microorganisms
(PGPMs)
biofertilizers,
providing
an
alternative
harmful
agrochemicals.
PGPMs
can
improve
health
promote
when
applied
soil,
seeds,
or
surfaces,
reducing
reliance
synthetic
fertilizers
pesticides.
Additionally,
nanotechnology
is
examined,
illustrating
how
nanomaterials
(NMs)
nano-based
enhance
absorption
increase
yields.
Beyond
these
scientific
approaches,
there
urgent
need
implement
novel
that
support
sustainability.
The
world
population
at
disquieting
rate,
placing
tremendous
pressure
natural
resources.
threatens
future
generations'
access
nutritious
clean
air.
Innovative
approaches
climate-smart
agriculture,
organic
farming,
biodynamic
intensification,
regenerative
along
with
integrated
farming
systems,
precision
management,
pest
proven
safeguard
By
integrating
innovative
it
possible
increasing
demands
while
preserving
environment.
Antonie van Leeuwenhoek,
Год журнала:
2024,
Номер
117(1)
Опубликована: Фев. 9, 2024
Plant
probiotics
are
live
microbial
cells
or
cultures
that
support
plant
growth
and
control
pathogens
through
different
mechanisms.
They
have
various
effects
on
plants,
including
promotion
the
production
of
indole
acetic
acid
(IAA),
biological
activity
(BCA),
cellulase
enzymes,
thus
inducing
systemic
resistance
increasing
availability
mineral
elements.
The
present
work
aimed
to
study
potential
Achromobacter
marplatensis
Bacillus
velezensis
as
for
field
cultivation
potatoes.
In
vitro
studies
demonstrated
ability
selected
produce
IAA
cellulase,
well
antimicrobial
against
two
infect
Solanum
tuberosum
Fusarium
oxysporum
Ralstonia
solanacearum
under
conditions
at
a
broad
range
temperatures
pH
values.
vivo
A.
B.
S.
plants
grown
in
sandy
clay
loamy
soil
was
detected
after
90
days.
Probiotic
isolates
were
able
tolerate
ultraviolet
radiation
(UV)
exposure
up
hours,
dose
response
curve
exhibited
D
