Sustainability,
Год журнала:
2024,
Номер
16(21), С. 9280 - 9280
Опубликована: Окт. 25, 2024
Currently,
one
of
the
main
challenges
is
mitigation
effects
climate
change
on
agricultural
sector.
Conventional
agriculture,
with
intensive
use
herbicides
and
pesticides
to
control
weeds
pests,
improper
mineral
fertilizers,
contributes
by
causing
increased
greenhouse
gases
groundwater
pollution.
Therefore,
more
innovative
technologies
must
be
used
overcome
these
problems.
One
possible
solution
nanotechnology,
which
has
potential
revolutionize
conventional
system.
Active
nanoparticles
can
both
as
a
direct
source
micronutrients
delivery
platform
for
bioactive
agrochemicals
improve
crop
growth,
yield,
quality.
The
nanoparticle
formulations,
including
nano-pesticides,
nano-herbicides,
nano-fertilizers,
nano-emulsions,
been
extensively
studied
health
shelf-life
products.
Comprehensive
knowledge
interactions
between
plants
opens
up
new
opportunities
cropping
practices
through
enhancement
properties
such
disease
resistance,
nutrient
use.
objective
this
review
analyze
practices,
pesticides,
herbicides,
fertilizers.
It
also
focuses
how
introduction
into
efficiency
chemical
pest
nutrition.
Finally,
examines
in
depth
last
10
years
(2014–2024)
scientific
literature
regarding
agriculture
mitigate
change.
Heliyon,
Год журнала:
2024,
Номер
10(7), С. e28973 - e28973
Опубликована: Апрель 1, 2024
Exogenous
application
of
iron
(Fe)
may
alleviate
salinity
stress
in
plants
growing
saline
soils.
This
comparative
study
evaluated
the
residual
effects
nanoparticles
(FNp)
with
two
other
Fe
sources
including
iron-sulphate
(FS)
and
iron-chelate
(FC)
on
maize
(
Frontiers in Plant Science,
Год журнала:
2024,
Номер
15
Опубликована: Сен. 4, 2024
Salt
stress
poses
a
significant
challenge
to
global
agriculture,
adversely
affecting
crop
yield
and
food
production.
The
current
study
investigates
the
potential
of
Zinc
Oxide
(ZnO)
nanoparticles
(NPs)
in
mitigating
salt
common
beans.
Salt-stressed
bean
plants
were
treated
with
varying
concentrations
NPs
(25
mg/L,
50
100
200
mg/L)
using
three
different
application
methods:
foliar
application,
nano
priming,
soil
application.
Results
indicated
pronounced
impact
salinity
on
plants,
evidenced
by
reduction
fresh
weight
(24%),
relative
water
content
(27%),
plant
height
(33%),
chlorophyll
(37%),
increased
proline
(over
100%),
sodium
accumulation,
antioxidant
enzyme
activity.
Application
ZnO
reduced
promoting
physiological
growth
parameters.
facilitated
enhanced
reactive
oxygen
species
(ROS)
generation
regulating
nutrient
homeostasis
fluorescence
All
tested
methods
effectively
mitigate
stress,
nano-priming
emerging
as
most
effective
approach,
yielding
results
comparable
control
for
This
provides
first
evidence
that
can
highlighting
their
address
salinity-induced
inhibition
crops.
Journal of Plant Nutrition,
Год журнала:
2024,
Номер
47(7), С. 1152 - 1174
Опубликована: Янв. 18, 2024
Our
study
aimed
to
evaluate
the
effects
of
nano
and
chelated
Fe
fertilization
on
nutrient
heavy
metals
uptake
their
translocation
from
soil
root,
stem,
leaf,
fruits
fresh
market
tomatoes
(Solanum
Lycopersicon,
cv.
Sunbrite).
A
completely
randomized
design
in
a
factorial
experiment,
with
two
sources
(nano
vs.
chelated)
applied
at
0
(control),
10,
20,
40
mg/L
via
drip-irrigated
plasticulture,
was
conducted.
Nutrient
concentrations
soil,
water,
tomato
roots,
stems,
leaves,
were
determined.
Soil
had
higher
K,
Fe,
Ca,
Mg,
P,
Mn
but
lower
Ni,
Cd,
Cr
concentrations.
The
Cu,
Mn,
Na
roots
significantly
affected
by
both
fertilization;
however,
without
following
consistent
pattern.
Averaged
across
treatments,
P
that
translocated
dominated
leaves.
order,
response
fertilization,
(40%)
>
(37%)
control
(23%).
Based
treatment
index
values
calculated
it
is
evident
plays
pivotal
role
translocation.
use
concentration
20
pronounced
effect
improving
nutritional
quality
and,
extension,
associated
public
health
benefits.
In
conclusion,
(20
mg/L)
stands
out
as
most
preferable
effective
for
tomatoes.
Applied Ecology and Environmental Research,
Год журнала:
2023,
Номер
21(5), С. 4853 - 4882
Опубликована: Янв. 1, 2023
Cultivation
of
salt-tolerant
plants
is
regarded
as
an
innovative
approach
for
desalination
and
remediation
salt-impacted
agricultural
soils.From
this
point
view,
the
effects
increasing
NaCl
concentrations
in
root
medium
on
some
growth
traits
development
wheat,
oat,
emmer,
barley
under
hydroponic
conditions
were
studied
phytodesalination
potential
these
was
assessed
at
greenhouse
facilities
YSU,
Republic
Armenia.Crops
grown
six
different
degrees
salinity
(0,
100,
200,
300,
400,
500
mM
NaCl)
a
system
that
set
up
greenhouse.The
results
show
have
tolerance
to
NaCl.The
negative
influence
main
parameters,
relative
electrolytic
leakage,
leaf
succulence,
chlorophyll
content
index,
photosynthetic
rate,
transpiration
rate
expressed
stronger
emmer
compared
with
rest
crops.Along
increase
concentration
medium,
simultaneously
significant
Na
+
leaves
decrease
K
observed,
whilst
barley,
contrary,
accompanied
by
concentrations,
which
indicated
activation
physiological
adaptation
mechanisms.Summarizing
our
results,
we
concluded
oat
could
be
suggested
promising
crops
saline
agriculture
soil
phytodesalination,
since
they
are
survivable,
productive
accumulate
large
amounts
ions
their
above-ground
parts.
