Plant Nano Biology,
Год журнала:
2023,
Номер
5, С. 100042 - 100042
Опубликована: Авг. 1, 2023
Agricultural
biotechnology
has
become
familiar
with
nanomaterials'
properties
and
potential
use.
The
present
experiment
was
conducted
to
examine
the
effect
of
8.1±1.6
nm
sized
silver
nanoparticles
(AgNPs)
on
growth
performance
yield
quality
pea
(Pisum
sativum)
as
well
Arbuscular
Mycorrhizal
Fungi
(AMF)
Rhizobium
population
in
soil.
Pea
seeds
were
separately
treated
3
h
1
mM,
2.5
5
mM
AgNPs
aqueous
solution,
after
2
weeks
their
seed
germination,
leaf
number,
shoot,
root
length,
shoot
dry
weight,
fresh
biomass,
biomass
weight
investigated
laboratory
condition
using
Murashige
Skoog
(MS)
Basal
Medium.
Results
showed
that
had
a
significant
positive
impact
notably
increased
all
experimental
parameters
mentioned
above
compared
control.
also
an
open
environment
under
natural
where
improved
31.57%
fruit
9.09%
without
causing
any
harm
symbiotic
microbes
(AMF
bacteria).
Whereas,
other
concentrations
(1.0
5.0
mM)
varied
impacts
growth,
comparison
For
first
time,
outcome
demonstrated
successful
use
enhancing
peas,
AMF
colonization
but
no
Scientific African,
Год журнала:
2024,
Номер
25, С. e02276 - e02276
Опубликована: Июнь 15, 2024
A
combination
of
rapid
population
growth,
climate
change,
and
environmental
degradation
have
placed
immense
pressure
on
global
food
sources
increased
security
concerns
especially
in
developing
economies
like
those
African
countries.
Notably,
efforts
to
produce
for
the
rising
human
continued
burden
arable
lands
across
globe,
necessitating
heavy
use
chemical
fertilizers
increase
crop
yield.
While
widespread
conventional
has
indeed
enhanced
productivity,
its
sustainability
is
threatened
by
soil
resulting
from
compound
accumulation
several
ecosystems.
The
invention
nanotechnology,
which
synthesis
manipulation
materials
at
nanometer
(1
100
nm)
range,
promises
potential
solutions
these
agricultural
challenges.
Specifically,
theoretical,
experimental
research
nanofertilizers
highlighted
significant
their
employment
sustainable
farming
practices.
current
review
examines
benefits
conferred
delivery
nutrients
plants
nanoscale,
outlining
progress,
challenges,
opportunities
adopting
this
emerging
technology
countries,
highlighting
future
perspectives
areas
possible
collaborations
globally.
Sustainability,
Год журнала:
2023,
Номер
15(13), С. 10582 - 10582
Опубликована: Июль 5, 2023
Organic
agriculture
is
considered
an
important
component
of
sustainable
development
because
it
promotes
environmental
sustainability
and
social
responsibility,
involving
the
use
practices
that
minimize
negative
impact
on
environment
human
health.
Through
this
research,
we
aim
to
gain
a
more
comprehensive
understanding
current
state
perspectives
specific
indicators
organic
from
perspective
SDGs
assumed
by
EU
member
countries
in
context
implementation
2030
Agenda
for
Sustainable
Development.
Based
Eurostat
data
covering
timeframe
2008
2021,
ARIMA
model
was
used
analyze
forecast
trends
selected
until
2030.
The
results
unique
study
provide
relevant
information
which
positive
developments
are
expected
up
2030,
as
opposed
those
mixed
or
forecast.
findings
research
empower
policymakers,
researchers,
other
stakeholders
identify
possible
take
appropriate
corrective
action,
with
achieving
goals
proposed
Functional & Integrative Genomics,
Год журнала:
2024,
Номер
24(6)
Опубликована: Ноя. 16, 2024
Abstract
At
the
dawn
of
new
millennium,
policy
makers
and
researchers
focused
on
sustainable
agricultural
growth,
aiming
for
food
security
enhanced
quality.
Several
emerging
scientific
innovations
hold
promise
to
meet
future
challenges.
Nanotechnology
presents
a
promising
avenue
tackle
diverse
challenges
in
agriculture.
By
leveraging
nanomaterials,
including
nano
fertilizers,
pesticides,
sensors,
it
provides
targeted
delivery
methods,
enhancing
efficacy
both
crop
production
protection.
This
integration
nanotechnology
with
agriculture
introduces
like
disease
diagnostics,
improved
nutrient
uptake
plants,
advanced
systems
agrochemicals.
These
precision-based
approaches
not
only
optimize
resource
utilization
but
also
reduce
environmental
impact,
aligning
well
sustainability
objectives.
Concurrently,
genetic
innovations,
genome
editing
breeding
techniques,
enable
development
crops
yield,
resilience,
nutritional
content.
The
emergence
precision
gene-editing
technologies,
exemplified
by
CRISPR/Cas9,
can
transform
realm
modification
enabled
precise
manipulation
plant
genomes
while
avoiding
incorporation
external
DNAs.
Integration
transformative
approach.
Leveraging
nanoparticles
modifications,
nanosensors
early
health
monitoring,
nanomaterials
controlled
inputs
offers
pathway
towards
productivity,
efficiency,
safety
throughout
lifecycle.
comprehensive
review
outlines
pivotal
role
agriculture,
emphasizing
soil
improvement,
stress
resilience
against
biotic
abiotic
factors,
sustainability,
engineering.
Biology,
Год журнала:
2021,
Номер
10(11), С. 1123 - 1123
Опубликована: Ноя. 2, 2021
The
deficiency
of
nutrients
in
food
crops
is
a
major
issue
affecting
the
health
human
beings,
mainly
underdeveloped
areas.
Despite
development
methods
fortification,
several
barriers
such
as
lack
proper
regulations
and
smaller
public-private
partnerships
hinder
its
successful
implementation
society.
Consequently,
genetic
agronomic
biofortification
has
been
suggested
potential
techniques
for
fortifying
diets.
However,
time-consuming
nature
restricted
available
diversity
targeted
crop
gene
pool
limit
benefits
biofortification.
In
biofortification,
organic
fertilizers
face
problem
prolonged
duration
release
lesser
content
minerals;
while
inorganic
fertilizers,
large-sized
(greater
than
100
nm)
suffer
from
volatilization
leaching
losses.
application
nanotechnology
agriculture
holds
enormous
to
cope
with
these
challenges.
utility
nanomaterials
wheat
gains
importance
by
supplying
appropriate
dose
fertilizer
at
time
diminishing
environmental
concerns
smoothening
process
nutrient
uptake
absorption.
Wheat
whose
nano-biofortification
can
largely
handle
malnutrition
beings.
Though
research
experiments
have
conducted
small
levels
see
effects
on
plants,
review
article
providing
an
overview
studies
summarizing
outcomes
still
lacking.
Although
number
articles
are
role
crop,
mostly
focused
nanoparticles
alleviating
biotic
abiotic
stress
conditions
wheat.
None
them
prospects
Hence,
this
first
time,
current
advancement
employment
different
nanotechnology-based
approaches
outlined.
Different
strategies
including
supply
nano-based
macro-
micronutrients
that
shown
promising
results
improvement
discussed
detail.
Understanding
aspects
related
safe
usage
their
future
perspectives
may
enhance
utilization
terms
economy
fulfillment
nutritional
requirements
following
nano-biofortification.
