International Journal of Applied Agricultural Sciences,
Journal Year:
2023,
Volume and Issue:
unknown
Published: Nov. 21, 2023
Plasma-activated
water
(PAW),
which
is
produced
by
introducing
non-thermal
plasma
into
deionized
water,
contains
variety
of
active
substances
such
as
reactive
oxygen
and
nitrogen
species.These
in
PAW
exhibit
sterilizing
properties
facilitates
intracellular
chemical
reactions,
holds
the
potential
to
enhance
plant
growth.This
study
aims
investigate
effects
treatment
on
process
maize
seed
germination
seedling
growth.A
gradient
different
excitation
voltages
(10
kV,
14
18kV)
times
(1min,
3min,
5min)
was
set
ionize
air
produce
air-plasma,
used
prepare
PAWs
subsequently.The
resulting
were
irrigate
seeds
seedlings
every
day.The
rate,
potential,
index,
well
chlorophyll
content,
peroxidase
(POD)
activity,
malondialdehyde
(MDA)
content
examined.Treatment
with
promoted
growth,
index
increased
much
19.71%,
50.45%
21.22%
respectively.The
POD
also
31.68%
23.09%
respectively.In
addition,
MDA
decreased
15.11%
compared
control
group
(CK).The
experimental
results
subjected
significant
variance
analysis
using
Duncan
method.
International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(20), P. 15093 - 15093
Published: Oct. 11, 2023
This
review
is
devoted
to
a
topic
of
high
interest
in
recent
times—the
use
plasma
technologies
agriculture.
The
increased
attention
these
studies
primarily
due
the
demand
for
intensification
food
production
and,
at
same
time,
request
reduce
pesticides.
We
analyzed
publications,
focusing
on
research
conducted
last
3
years,
identify
main
achievements
agrotechnologies
and
key
obstacles
their
widespread
implementation
practice.
considered
types
sources
used
this
area,
advantages
limitations,
which
determine
areas
application.
also
plasma-activated
liquids
efficiency
by
various
sources.
Comprehensive Reviews in Food Science and Food Safety,
Journal Year:
2023,
Volume and Issue:
22(6), P. 4993 - 5019
Published: Oct. 6, 2023
Abstract
Meat
is
a
nutritious
food
with
short
shelf
life,
making
it
challenging
to
ensure
safety,
quality,
and
nutritional
value.
Foodborne
pathogens
oxidation
are
the
main
concerns
that
lead
health
risks
economic
losses.
Conventional
approaches
like
hot
water,
steam
pasteurization,
chemical
washes
for
meat
decontamination
improve
safety
but
cause
quality
issues.
Plasma‐activated
water
(PAW)
potential
alternative
thermal
treatment
can
reduce
microbial
growth,
an
essential
factor
in
ensuring
This
review
explores
different
types
of
PAW
their
physiochemical
properties.
It
also
outlines
reaction
pathways
involved
generation
short‐lived
long‐lived
reactive
nitrogen
oxygen
species
(RONS)
PAW,
which
contribute
its
antimicrobial
abilities.
The
highlights
current
studies
on
inactivation
against
various
planktonic
bacteria,
as
well
critical
processing
parameters
efficacy.
Promising
applications
curing,
thawing,
discussed,
emphasis
need
understand
how
RONS
affect
quality.
Recent
reports
combining
ultrasound,
mild
heating,
non‐thermal
plasma
efficacy
presented.
Finally,
develop
energy‐efficient
systems
production
scalability
discussed
use
disinfectant
without
compromising
BMC Plant Biology,
Journal Year:
2024,
Volume and Issue:
24(1)
Published: Jan. 22, 2024
Abstract
Applying
cold
discharge
plasma
can
potentially
alter
plants'
germination
characteristics
by
triggering
their
physiological
activities.
As
a
main
crop
in
many
countries,
soybean
was
examined
the
present
study
using
cultivars
such
as
Arian,
Katoul,
Saba,
Sari,
and
Williams
argon
plasma.
This
has
been
motivated
importance
of
plant
production
worldwide,
considering
climate
change
increasing
needs
human
populations
for
food.
performed
to
inspect
effect
treatment
on
seed
impact
microbial
decontamination
investigated
soybeans.
Also,
employed
have
not
studied
until
now
radicals
generated
from
were
detected
optical
emission
spectrometry
(OES),
collisional
radiative
model
used
describe
electron
density.
The
properties,
including
final
percentage
(FGP),
mean
time
(MGT),
root
length,
electrical
conductivity
biomolecules
released
seeds,
after
treatments
30,
60,
180,
300,
420
s.
Aspergillus
flavus
(A.flavus)
Fusarium
solani
(F.solani)
also
examined.
60
s
induced
maximum
FGP
23.12
±
0.34%
lowest
MGT
value
1.40
0.007
days.
Moreover,
ultimate
length
56.12
2.89%,
seeds
treated
exposure,
however,
failed
yield
significant
enhancement
conductivity,
even
when
duration
extended
180
or
longer.
Therefore,
selected
blotter
technique.
Both
fungi
showed
successful
sterilization;
infectivity
inhibition
67
4
65
3.1%,
respectively.
In
general,
soybeans
preserved
healthy
qualities
reduced
degree
fungal
contamination.
Plasma Processes and Polymers,
Journal Year:
2024,
Volume and Issue:
21(5)
Published: Jan. 21, 2024
Abstract
This
study
conducted
an
activation
experiment
on
tap
water
using
a
self‐designed
dielectric
barrier
discharge
plasma
field.
Aged
pepper
seeds
and
seedlings
were
chosen
as
the
investigation's
subjects
to
assess
plasma‐activated
(PAW's)
effects
aged
seed
germination,
seedling
growth,
their
respective
qualities.
PAW
cultivation
led
notable
improvements
in
seeds'
germination
potential
rate,
with
increases
of
18.0%
28.3%,
respectively.
Moreover,
vitality
index
exhibited
remarkable
rise
250.0%.
Concurrently,
treated
significant
growth
enhancements,
root
length,
number,
stem
leaf
area
increasing
by
138.6%,
69.2%,
47.9%,
28.4
cm²,
Additionally,
treatment
induces
changes
endogenous
substances
enzyme
activities
seedlings.
Journal of Pest Science,
Journal Year:
2024,
Volume and Issue:
unknown
Published: May 12, 2024
Abstract
Plasma-activated
water
(PAW)
is
receiving
increased
attention
as
a
booster
of
seed
germination
and
seedling
vigor,
some
studies
have
described
use
PAW
to
manage
crop
pathogens.
Here,
we
examined
physicochemical
properties
two
PAWs
(referred
6.0
9.4
min
with
atmospheric
plasma
jet)
assessed
“their
indirect
effects”
(applied
supplementary
irrigation)
on
host
suitability
tomato
plants
(
Solanum
lycopersicum
L.)
two-spotted
spider
mites
Tetranychus
urticae
Koch).
Exposure
cold
significantly
lowered
pH
concentrations
H
2
O
2,
NO
−
,
3
.
Supplementary
irrigations
elicited
significant
increases
in
leaf
composition
several
elements
(N,
P,
K
S,
Ca,
Mg),
reflectance,
plant
size,
trichome
densities
(except
non-glandular
trichomes
the
adaxial
surface).
Preference
bioassays
revealed
avoidance
settling
reduced
oviposition
by
discs
from
PAW-irrigated
compared
those
untreated
control
plants.
Performance
showed
decrease
mite
populations
Results
presented
this
study
provide
comprehensive
support
hypothesis
that
effects
irrigation
reduce
mites.
may
be
slightly
better
than
9.4,
difference
performance
discussed
study.
Applications
are
likely
highly
compatible
other
IPM
tactics
should
considered
an
innovative
sustainable
component
twenty-first-century
pest
management.
Journal of Physics D Applied Physics,
Journal Year:
2024,
Volume and Issue:
57(49), P. 493003 - 493003
Published: Sept. 6, 2024
Abstract
This
review
explores
the
engineering
and
design
aspects
of
plasma
activated
water
(PAW)
systems,
focusing
on
their
application
in
food
safety
agriculture.
aims
to
bridge
gap
between
research
practical
application,
paving
way
for
development
robust
efficient
PAW
systems
enhancing
agricultural
productivity.
By
examining
a
variety
activation
methods,
including
direct
gas
ionization,
underwater
discharges,
dynamic
interactions
ionized
gases
with
liquids,
this
work
discusses
mechanical
designs
that
facilitate
these
processes,
highlighting
scalability
efficiency.
The
discussion
is
grounded
comprehensive
relevant
scientific
patent
literature,
offering
critical
overview
systems’
parameters
influence
generation
reactive
oxygen
nitrogen
species
(RONS).
reported
literature
have
employed
three
major
approaches,
viz.
ionization
followed
by
introduction
into
liquid,
creation
liquid
mixtures
subsequent
ionization.
laboratory
relied
natural
convective
diffusion
RONS
water,
while
most
patents
advocate
use
forced
increase
transfer
rates.
Despite
widespread
laboratory-scale
PAW,
transition
industrial-scale
remains
underexplored.
Applied Sciences,
Journal Year:
2025,
Volume and Issue:
15(3), P. 1255 - 1255
Published: Jan. 26, 2025
In
view
of
a
constant
growth
in
the
human
population
on
Earth,
provision
necessary
amount
high-quality
food
looks
challenging.
As
over
10%
crop
yields
are
annually
lost
due
to
presence
phytopathogens,
development
novel,
eco-friendly
methods
pest
eradication
might
contribute
avoiding
nutritional
shortages.
Here,
we
propose
controlled
application
cold
atmospheric
pressure
plasma
(CAPP)
generated
form
an
jet
(APPJ),
for
which
conducted
multivariate
optimization
working
parameters
with
use
design
experiments
(DoE)
addition
response
surface
methodology
(RSM).
After
estimating
optimal
operating
conditions
APPJ,
determined
inactivation
rates
caused
by
2
min
CAPP
exposure
towards
bacterial
phytopathogens
from
three
species
Dickeya
solani,
Pectobacterium
atrosepticum
and
carotovorum
artificially
inoculated
plant
seeds
four
species.
Logarithmic
reductions,
as
key
result
this
work,
were
enclosed
range
1.61–4.95
case
Cucumis
sativus,
Pisum
sativum,
Vigna
radiata,
while
bacteria-inoculated
Zea
mays
seeds,
lower
antibacterial
properties
APPJ
equaling
0.86–1.12
logs
noted.
The
herein
applied
did
not
reveal
any
statistically
significant
detrimental
effects
germination
seed
coat
integrity,
or
early
growth.
Even
promotion
20.96%
was
observed
APPJ-exposed
seeds.
By
applying
colorimetric
assays
optical
emission
spectrometry
(OES),
oxidative
potential
identifying
reactive
oxygen
(ROS)
•OH,
•HO2,
•O2−,
O3,
1O2
nitrogen
(RNS)
N,
NO2,
NO3
responsible
APPJ.
summary,
universal
antiphytopathogenic
treatment
reached
proper
revealed
against
strains
family
Pectobacteriaceae
diverse
data
presented
may
future
agriculture
field
provide
alternatives
pesticides
prevention-based
control
pathogenic
bacteria.
