Journal of Sustainable Agriculture and Environment,
Год журнала:
2023,
Номер
2(3), С. 189 - 214
Опубликована: Июль 18, 2023
Abstract
Salinity
and
drought
stress
substantially
decrease
crop
yield
superiority,
directly
threatening
the
food
supply
needed
to
meet
rising
needs
of
growing
total
population.
Nanotechnology
is
a
step
towards
improving
agricultural
output
tolerance
by
efficacy
inputs
in
agriculture
via
targeted
delivery,
controlled
release,
enhanced
solubility
adhesion
while
also
reducing
significant
damage.
The
direct
application
nanoparticles
(NPs)/nanomaterials
can
boost
performance
effectiveness
physio‐biochemical
molecular
mechanisms
plants
under
conditions,
leading
advanced
tolerance.
Therefore,
we
presented
effects
plant
responses
explored
potential
nanomaterials
for
systems,
discussed
advantages
applying
NPs
at
various
developmental
stages
alleviate
negative
salinity
stress.
Moreover,
feature
recent
innovations
state‐of‐the‐art
nanobiotechnology,
specifically
NP‐mediated
genome
editing
CRISPR/Cas
system,
develop
stress‐smart
crops.
However,
further
investigations
are
unravel
role
nanobiotechnology
addressing
climate
change
challenges
modern
systems.
We
propose
that
combining
speed
breeding
techniques
could
enable
designing
climate‐smart
cultivars
(particularly
bred
or
genetically
modified
varieties)
security
world
Soil Systems,
Год журнала:
2024,
Номер
8(1), С. 11 - 11
Опубликована: Янв. 15, 2024
Soil
salinity
is
a
serious
problem
facing
many
countries
globally,
especially
those
with
semi-arid
and
arid
climates.
can
have
negative
influences
on
soil
microbial
activity
as
well
chemical
physical
processes,
all
of
which
are
crucial
for
health,
fertility,
productivity.
negatively
affect
physiological,
biochemical,
genetic
attributes
cultivated
plants
well.
Plants
wide
variety
responses
to
stress
classified
sensitive
(e.g.,
carrot
strawberry),
moderately
(grapevine),
tolerant
(wheat)
(barley
date
palm)
depending
the
salt
content
required
cause
crop
production
problems.
Salinity
mitigation
represents
critical
global
agricultural
issue.
This
review
highlights
properties
classification
salt-affected
soils,
plant
damage
from
osmotic
due
salinity,
possible
approaches
(i.e.,
applied
nutrients,
inoculations,
organic
amendments,
physio-chemical
approaches,
biological
nano-management),
research
gaps
that
important
future
food
security.
The
strong
relationship
between
different
subdisciplines
(mainly,
biogeochemistry,
microbiology,
fertility
nutrition)
also
discussed.
Frontiers in Plant Science,
Год журнала:
2024,
Номер
15
Опубликована: Март 28, 2024
Silicon
(Si)
is
a
widely
recognized
beneficial
element
in
plants.
With
the
emergence
of
nanotechnology
agriculture,
silicon
nanoparticles
(SiNPs)
demonstrate
promising
applicability
sustainable
agriculture.
Particularly,
application
SiNPs
has
proven
to
be
high-efficiency
and
cost-effective
strategy
for
protecting
plant
against
various
biotic
abiotic
stresses
such
as
insect
pests,
pathogen
diseases,
metal
stress,
drought
salt
stress.
To
date,
rapid
progress
been
made
unveiling
multiple
functions
related
mechanisms
promoting
sustainability
agricultural
production
recent
decade,
while
comprehensive
summary
still
lacking.
Here,
review
provides
an
up-to-date
overview
synthesis,
uptake
translocation,
alleviating
aiming
reasonable
usage
nano-enabled
The
major
points
are
listed
following:
(1)
can
synthesized
by
using
physical,
chemical,
biological
(green
synthesis)
approaches,
green
synthesis
wastes
raw
materials
more
suitable
large-scale
recycling
(2)
translocation
plants
differs
significantly
from
that
Si,
which
determined
factors
properties
SiNPs.
(3)
Under
stressful
conditions,
regulate
stress
acclimation
at
morphological,
physiological,
molecular
levels
growth
stimulator;
well
deliver
pesticides
regulating
chemicals
nanocarrier,
thereby
enhancing
yield.
(4)
Several
key
issues
deserve
further
investigation
including
effective
approaches
modification,
basis
SiNPs-induced
resistance,
systematic
effects
on
ecosystem.
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
(
