Plant Nano Biology,
Journal Year:
2023,
Volume and Issue:
5, P. 100042 - 100042
Published: Aug. 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
Climate,
Journal Year:
2022,
Volume and Issue:
10(11), P. 183 - 183
Published: Nov. 20, 2022
Rice
is
the
staple
food
of
more
than
half
world’s
population,
which
still
growing.
The
great
dependence
that
agriculture,
and
rice
specially,
has
on
fertilizers
alongside
extreme
events
result
from
climatic
change
creates
an
urge
for
adaptation.
Fertilizers
are
expensive,
finite
a
potential
environmental
problem.
Their
precise
application,
by
use
slow-release
nanofertilizers,
thus
avoiding
losses
consequently
reducing
pressure
water
resources,
one
step
forward
in
this
It
can
reduce
costs
protect
environment
while
ensuring
production.
Phosphorous
very
important
rice,
since
it
involved
its
flowering
root
development,
low
availability
to
plants
constitutes
serious
delivery
phosphorous
through
crop
cycle
form
phosphorus
nanofertilizer
(Pnf)
instead
conventional
annual
bulk
application
reduces
amount
nutrients
applied
increases
absorption
crop.
Combining
fertilizing
effect
with
natural
stimulant
compounds
such
as
chitosan
diseases
increase
resilience
stress.
Pnf
resources
avoids
imbalances
soil
nutrients,
responding
challenges
abiotic
stresses.
Plant Nano Biology,
Journal Year:
2023,
Volume and Issue:
5, P. 100042 - 100042
Published: Aug. 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
