Sustainability,
Год журнала:
2022,
Номер
14(15), С. 9397 - 9397
Опубликована: Авг. 1, 2022
Nutrient
management
is
always
a
great
concern
for
better
crop
production.
The
optimized
use
of
nutrients
plays
key
role
in
sustainable
production,
which
major
global
challenge
as
it
depends
mainly
on
synthetic
fertilizers.
A
novel
fertilizer
approach
required
that
can
boost
agricultural
system
production
while
being
more
ecologically
friendly
than
As
nanotechnology
has
left
no
field
untouched,
including
agriculture,
by
its
scientific
innovations.
nanofertilizers
agriculture
the
early
stage
development,
but
they
appear
to
have
significant
potential
different
ways,
such
increased
nutrient-use
efficiency,
slow
release
prevent
nutrient
loss,
targeted
delivery,
improved
abiotic
stress
tolerance,
etc.
This
review
summarizes
current
knowledge
various
developments
design
and
formulation
nanoparticles
used
nanofertilizers,
their
types,
mode
application,
impacts
crops.
main
emphasis
given
benefits
we
highlight
limitations
future
challenges
related
wide-scale
application
before
applications.
In
particular,
unprecedent
these
nanomaterials
into
environment
may
jeopardize
human
health
ecosystem.
green
revolution
occurred,
food
grains
at
cost
disproportionate
fertilizers
pesticides,
severely
damaged
our
We
need
make
sure
reduces
environmental
damage,
rather
increasing
it.
Therefore,
studies
should
also
check
risks
associated
with
if
there
are
any;
moreover,
focus
manufactured
biosynthesized
well
safety,
bioavailability,
toxicity
issues,
safeguard
environments.
Biomolecules,
Год журнала:
2023,
Номер
13(7), С. 1092 - 1092
Опубликована: Июль 7, 2023
Food
security
has
continued
to
be
a
topic
of
interest
in
our
world
due
the
increasing
demand
for
food.
Many
technologies
have
been
adopted
enhance
food
supply
and
narrow
gap.
Thus,
attempt
use
nanotechnology
improve
increase
emerged
severe
shortcomings
conventional
technologies,
which
made
them
insufficient
cater
continuous
products.
Hence,
nanoparticles
identified
play
major
role
areas
involving
production,
protection,
shelf-life
extensions.
Specifically,
metal-based
singled
out
an
important
manufacturing
materials
with
outstanding
properties,
can
help
different
materials.
The
physicochemical
biological
properties
nanoparticles,
such
as
large
surface
area
antimicrobial
suitable
adequately
useful,
not
just
regular
packaging
material
but
functional
upon
incorporation
into
biopolymer
matrices.
These,
amongst
many
other
reasons,
led
their
wide
synthesis
applications,
even
though
methods
preparation
risk
evaluation
remain
concern.
This
review,
therefore,
briefly
explores
available
synthetic
methods,
roles,
packaging.
Furthermore,
associated
limitations,
alongside
quality
safety
considerations,
these
were
summarily
explored.
Although
this
research
continues
garner
attention,
review
showed
that
possess
great
potential
leading
if
problem
migration
toxicity
effectively
modulated.
Plants,
Год журнала:
2023,
Номер
12(13), С. 2565 - 2565
Опубликована: Июль 6, 2023
Globally,
food
safety
and
security
are
receiving
a
lot
of
attention
to
ensure
steady
supply
nutrient-rich
safe
food.
Nanotechnology
is
used
in
wide
range
technical
processes,
including
the
development
new
materials
enhancement
security.
Nanomaterials
improve
protective
effects
help
detect
microbial
contamination,
hazardous
chemicals,
pesticides.
Nanosensors
pathogens
allergens
Food
processing
enhanced
further
by
nanocapsulation,
which
allows
for
delivery
bioactive
compounds,
increases
bioavailability,
extends
shelf
life.
Various
forms
nanomaterials
have
been
developed
enhance
agricultural
productivity,
nanometals,
nanorods,
nanofilms,
nanotubes,
nanofibers,
nanolayers,
nanosheets.
Such
developing
nanofertilizers,
nanopesticides,
induce
plant
growth,
genome
modification,
transgene
expression
plants.
antimicrobial
properties,
promote
plants’
innate
immunity,
act
as
agents
active
ingredients.
Nanocomposites
offer
good
acid-resistance
capabilities,
effective
recyclability,
significant
thermostability,
storage
stability.
extensively
targeted
release
genes
proteins
into
cells.
In
this
review
article,
we
discuss
role
nanotechnology
Furthermore,
include
partial
literature
survey
on
use
packaging,
safety,
preservation
using
smart
nanocarriers,
detection
food-borne
nanosensors,
crop
growth
yield
improvement;
however,
extensive
research
warranted.
Journal of Nanobiotechnology,
Год журнала:
2023,
Номер
21(1)
Опубликована: Окт. 11, 2023
Undoubtedly,
nanoparticles
are
one
of
the
ideal
choices
for
achieving
challenges
related
to
bio
sensing,
drug
delivery,
and
biotechnological
tools.
After
gaining
success
in
biomedical
research,
scientists
exploring
various
types
sustainable
agriculture.
The
active
can
be
used
as
a
direct
source
micronutrients
or
delivery
platform
delivering
bioactive
agrochemicals
improve
crop
growth,
yield,
quality.
Till
date,
several
reports
have
been
published
showing
applications
nanotechnology
For
instance,
methods
employed
application
nanoparticles;
especially
metal
physicochemical
properties
such
core
synthesize
nanoparticles,
their
size,
shape,
surface
chemistry,
coatings
affect
crops,
soil
health,
crop-associated
ecosystem.
Therefore,
selecting
with
appropriate
applying
them
agriculture
via
suitable
method
stands
smart
option
achieve
improved
plant
performance.
In
presented
review,
we
compared
nanoparticle
plants
critically
interpreted
significant
differences
find
out
relatively
safe
specific
agricultural
practice.
Further,
analyzed
discussed
different
that
influence
on
terms
nano
safety
nanotoxicity.
From
literature
would
like
point
implementation
smaller
sized
low
concentration
seed
priming
foliar
spray
could
safer
minimizing
nanotoxicity,
exhibiting
better
performance
during
stress
non-stressed
conditions.
Moreover,
using
nanomaterials
pose
alternative
conventional
chemical
fertilizers
cleaner
technology
While
reviewing
all
available
literature,
came
across
some
serious
drawbacks
lack
proper
regulatory
bodies
control
usage
poor
knowledge
long-term
impact
ecosystem
which
need
addressed
near
future
comprehensive
applicability
green
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
Frontiers in Microbiology,
Год журнала:
2023,
Номер
14
Опубликована: Май 3, 2023
Modern
agriculture
is
primarily
focused
on
the
massive
production
of
cereals
and
other
food-based
crops
in
a
sustainable
manner
order
to
fulfill
food
demands
an
ever-increasing
global
population.
However,
intensive
agricultural
practices,
rampant
use
agrochemicals,
environmental
factors
result
soil
fertility
degradation,
pollution,
disruption
biodiversity,
pest
resistance,
decline
crop
yields.
Thus,
experts
are
shifting
their
focus
eco-friendly
safer
methods
fertilization
ensure
sustainability.
Indeed,
importance
plant
growth-promoting
microorganisms,
also
determined
as
“plant
probiotics
(PPs),”
has
gained
widespread
recognition,
usage
biofertilizers
being
actively
promoted
means
mitigating
harmful
effects
agrochemicals.
As
bio-elicitors,
PPs
promote
growth
colonize
or
tissues
when
administered
soil,
seeds,
surface
used
alternative
avoid
heavy
In
past
few
years,
nanotechnology
brought
revolution
due
application
various
nanomaterials
(NMs)
nano-based
fertilizers
increase
productivity.
Given
beneficial
properties
NMs,
these
two
can
be
tandem
maximize
benefits.
combinations
NMs
PPs,
synergistic
use,
its
infancy
but
exhibited
better
crop-modulating
terms
improvement
productivity,
mitigation
stress
(drought,
salinity,
etc.),
restoration
fertility,
strengthening
bioeconomy.
addition,
proper
assessment
necessary
before
application,
dose
should
applicable
without
showing
any
toxic
impact
environment
microbial
communities.
The
combo
encapsulated
within
suitable
carrier,
this
method
aids
controlled
targeted
delivery
entrapped
components
increases
shelf
life
PPs.
review
highlights
functional
annotation
combined
manner.
Journal of Agricultural and Food Chemistry,
Год журнала:
2024,
Номер
72(6), С. 2835 - 2852
Опубликована: Фев. 5, 2024
This
comprehensive
review
explores
the
emerging
landscape
of
Nano-QSAR
(quantitative
structure–activity
relationship)
for
assessing
risk
and
potency
nanomaterials
in
agricultural
settings.
The
paper
begins
with
an
introduction
to
Nano-QSAR,
providing
background
rationale,
explicitly
states
hypotheses
guiding
review.
study
navigates
through
various
dimensions
nanomaterial
applications
agriculture,
encompassing
their
diverse
properties,
types,
associated
challenges.
Delving
into
principles
QSAR
nanotoxicology,
this
article
elucidates
its
application
evaluating
safety
nanomaterials,
while
addressing
unique
limitations
posed
by
these
materials.
narrative
then
transitions
progression
context
exemplified
insightful
case
studies
that
highlight
both
strengths
inherent
methodology.
Emerging
prospects
hurdles
tied
agriculture
are
rigorously
examined,
casting
light
on
important
pathways
forward,
existing
constraints,
avenues
research
enhancement.
Culminating
a
synthesis
key
insights,
underscores
significance
shaping
future
nanoenabled
agriculture.
It
provides
strategic
guidance
steer
forthcoming
endeavors
dynamic
field.
Plant Nano Biology,
Год журнала:
2024,
Номер
9, С. 100079 - 100079
Опубликована: Июнь 2, 2024
The
growing
world's
population
and
increasing
demand
for
food
production
can
lead
to
major
security
safety
challenges.
different
varieties
of
pathogens
such
as
bacteria,
fungi,
viruses,
pests,
insects,
etc.
are
the
causes
crop
loss.
So,
implementation
biosensors
in
field
agriculture
be
a
beneficial
tool
solve
this
problem.
Biosensors
help
promote
sustainable
by
early
detection
pathogens,
fertilizers,
herbicides,
pesticides,
moisture,
diseases
crops
animals,
well
presence
heavy
metal
ions,
toxins.
Additionally,
it
also
measure
parameters
including
soil
pH,
chlorophyll
content,
photosynthetic
protein
total
nutrient
uptake
(macronutrients
micronutrients)
plants,
With
these
biosensors,
farmers
increase
yields,
optimize
fertilization
techniques,
preserve
resources
detecting
measuring
particular
nutrients.
Artificial
Intelligence
(AI)
Internet
Things
(IoT)
technology
greatly
transforms
state
traditional
addressing
various
challenges,
pest
management
post-harvest
issues.
In
review,
types
utilized
agricultural
monitoring
related
plants
but
some
obstacles
need
addressed.
This
article
mainly
focuses
on
electrochemical
optical
plant
wearable
etc.,
their
applications
advantages
along
with
adoption
AI
IoT
smart-
farming
discussed.
