Agronomy,
Год журнала:
2023,
Номер
13(11), С. 2695 - 2695
Опубликована: Окт. 26, 2023
Soil
salinity
is
a
serious
global
problem
that
threatens
high
percentage
of
the
soils.
Salinity
stress
can
create
ionic,
oxidative,
and
osmotic
stress,
along
with
hormonal
imbalances,
in
stressful
plants.
This
kind
was
investigated
on
agricultural
productivity
at
different
levels,
starting
vitro
(plant
tissue
culture),
through
hydroponics,
pots,
field
conditions.
Several
approaches
were
studied
for
managing
including
using
traditional
materials
(e.g.,
gypsum,
sulfur),
organic
amendments
compost,
biochar,
chitosan),
applied
manufactured
or
engineered
nanomaterials
(NMs).
Application
ameliorating
has
gained
great
attention
due
to
their
efficiency,
eco-friendliness,
non-toxicity,
especially
biological
nanomaterials.
The
application
NMs
did
not
only
support
growing
plants
under
but
also
increased
yield
crops,
provided
an
economically
feasible
nutrient
management
approach,
environmentally
robust
sustainable
crop
productivity.
Nano-management
may
involve
applying
nano-amendments,
nanomaterials,
nano-enabled
nutrients,
nano-organic
amendments,
derived
smart
nanostructures,
nano-tolerant
plant
cultivars.
Producing
cultivars
are
tolerant
be
achieved
conventional
breeding
plantomics
technologies.
In
addition
large-scale
use
there
urgent
need
address
treat
nanotoxicity.
study
aims
contribute
this
area
research
by
exploring
nano-management
current
practices
raises
many
questions
regarding
expected
interaction
between
toxic
effects
such
includes
whether
acts
positively
negatively
cultivated
soil
activity,
what
regulatory
ecotoxicity
tests
protocols
should
used
research.
Nano-Micro Letters,
Год журнала:
2023,
Номер
15(1)
Опубликована: Фев. 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 Nanomaterials,
Год журнала:
2022,
Номер
2022(1)
Опубликована: Янв. 1, 2022
Nanotechnology
is
an
emerging
technology
in
the
field
of
food
and
agriculture;
every
individual
molecule
atom
can
be
modified
or
controlled
by
this
technology.
Everything
that
exists
on
earth
made
up
atoms
molecules.
Problems
all
fields
easily
overcome
modifying
altering
their
nanosize.
Similarly,
nanotechnology
could
address
many
issues
agriculture
industries.
Nanomaterials
play
a
keen
role
place
pesticides,
fertilizers,
biosensors.
Nutrition
enhancement,
safe
delivery
bioactive
components
micronutrients,
preservations
were
facilitated
applications
nanotechnologies.
Efforts
have
to
taken
create
awareness
among
public
field.
Future
research
directions
identified
review
improve
nanoembedded
system.
This
article
reviews
recent
development
industries
through
nanotechnology,
application
agricultural
sectors,
backlogs
such
sectors.
Environment International,
Год журнала:
2024,
Номер
190, С. 108859 - 108859
Опубликована: Июнь 30, 2024
Metal
nanoparticles
offer
promising
prospects
in
agriculture,
enhancing
plant
growth
and
ensuring
food
security.
Silver,
gold,
copper,
zinc
possess
unique
properties
making
them
attractive
for
applications.
Understanding
molecular
interactions
between
metal
plants
is
crucial
unlocking
their
potential
to
boost
crop
productivity
sustainability.
This
review
explores
emphasizing
the
need
understand
these
interactions.
By
elucidating
mechanisms,
it
highlights
productivity,
stress
tolerance,
nutrient-use
efficiency,
contributing
sustainable
agriculture
Quantifying
benefits
risks
reveal
significant
advantages.
enhance
by
20%
on
average
reduce
disease
incidence
up
50%
when
used
as
antimicrobial
agents.
They
also
nutrient
leaching
30%
soil
carbon
sequestration
15%,
but
concerns
about
toxicity,
adverse
effects
non-target
organisms,
nanoparticle
accumulation
chain
must
be
addressed.
influence
cellular
processes
including
sensing,
signaling,
transcription,
translation,
post-translational
modifications.
act
signaling
molecules,
activate
stress-responsive
genes,
defense
improve
uptake.
The
catalytic
role
management,
control,
precision
nano-fertilizers,
nano-remediation.
A
bibliometric
analysis
offers
insights
into
current
research
landscape,
highlighting
trends,
gaps,
future
directions.
In
conclusion,
hold
revolutionizing
mitigating
environmental
stressors,
promoting
Addressing
gaps
safe
integration
agricultural
practices.
