BIO Web of Conferences,
Journal Year:
2024,
Volume and Issue:
145, P. 02006 - 02006
Published: Jan. 1, 2024
Oak
is
an
important
tree
species,
playing
a
fundamental
role
in
many
forest
ecosystems.
Obtaining
high-quality
oak
planting
material
actual
issue
biotechnology.
The
most
promising
method
for
this,
vitro
micropropagation,
faces
number
of
problems
that
can
be
overcome
using
nanobiotechnological
approach.
In
our
work,
we
obtained
flaky
copper
oxide
nanoparticles
with
particle
size
50–200
nm
diameter
and
thickness
10–20
nm,
which
were
used
the
WPN
medium
at
concentration
0.75,
1.5,
3,
6,
15
μg
L
-1
stage
introducing
original
red
into
tissue
culture.
study
demonstrated
dose-dependent
antimicrobial
effect:
seedling
sterility
increased
from
80%
(+10%
to
control)
1.5
CuO
100%
doses
3
higher.
maximum
survival
rate
was
observed
–
43%,
23%
higher
than
control
values.
At
multiplication
stage,
significantly
plant
viability
twice
as
much
variant
1.7
times
when
phytohormones.
combined
use
hormones
height
by
additional
shoots
times.
rooting
did
not
show
any
rhizogenesis-stimulating
effect.
same
time,
phytohormones
stimulated
root
formation.
adaptation
fairly
low
percentage
surviving
adapted
plants
variant,
while
addition
had
positive
effect
on
adaptation.
seedlings
15%,
ones
10.
Thus,
showed
prospects
improve
biotechnology
clonal
micropropagation
oak.
future,
these
results
breeding
obtaining
this
species.
RSC Advances,
Journal Year:
2025,
Volume and Issue:
15(5), P. 3858 - 3903
Published: Jan. 1, 2025
A
sustainable
and
viable
alternative
for
conventional
chemical
physical
approaches
is
the
green
production
of
silver
nanoparticles
(SNPs)
using
plant
extracts.
Oriental Journal Of Chemistry,
Journal Year:
2025,
Volume and Issue:
41(1), P. 144 - 151
Published: Feb. 28, 2025
Nanoparticles
can
be
readily
synthesized
using
environmentally
friendly
techniques
from
a
wide
range
of
plants.
Silver
nanoparticles
(AgNPs)
are
particularly
useful
because
their
unique
biological,
physical
and
chemical
properties
make
them
ideal
as
antibacterial,
antiviral,
antifungal
well
anticancer
activities.
Several
methods
available
for
producing
AgNPs,
but
the
biological
approach,
also
known
green
method
is
useful.
A
extracts
flowers,
fruits,
leaves,
stems,
bark,
seeds
roots
used
to
synthesize
AgNPs.
Such
synthesis
has
number
advantages
over
approaches,
notably
marked
reduction
in
use
hazardous
production
pathways.
Here,
biogenic
antimicrobial
effects
AgNPs
obtained
medicinal
plant
extracts,
Arabian
Peninsula
reviewed.
Chemical and Biological Technologies in Agriculture,
Journal Year:
2025,
Volume and Issue:
12(1)
Published: March 4, 2025
Among
the
fungal
diseases,
Fusarium
head
blight
(FHB),
caused
by
graminearum,
is
one
of
most
destructive
disease
affecting
wheat.
This
pathogen
poses
significant
threats
to
global
wheat
production,
leading
substantial
yield
losses
and
contaminating
grains
with
harmful
mycotoxins.
The
chemical
control
FHB
has
become
increasingly
challenging
due
rise
resistance,
environmental
concerns,
effects
climate
change.
review
introduces
a
novel
approach
management
through
spray-induced
gene
silencing
(SIGS),
cutting-edge
technology
that
uses
double-stranded
RNA
(dsRNA)
silence
critical
genes
in
both
fungus
host
plant.
reduces
virulence
enhances
plant
resilience.
A
key
innovation
integration
nanotechnology
improve
delivery
dsRNA,
addressing
challenges
related
stability,
cellular
uptake,
targeting
efficiency
field
conditions.
Nanocarriers
have
revolutionized
dsRNA
improving
its
encapsulation
efficiency,
precision,
compared
traditional
methods.
Advances
cost-effective
particularly
microbial
expression
systems,
enable
scalable
sustainable
implementation
this
technology.
emphasizes
potential
nanocarrier
systems
precision
agriculture
highlights
their
role
replacing
treatments
interference
(RNAi)-based
solutions.
RNAi-based
approaches
not
only
reduce
reliance
on
synthetic
chemicals,
but
also
promote
sustainability
fungicide
resistance.
However,
remain
large-scale
application,
cost-effectiveness,
regulatory
approval
processes.
Overcoming
these
hurdles
will
be
crucial
unlocking
full
In
conclusion,
combination
SIGS-based
offers
groundbreaking
managing
infections
innovative
strategy
minimize
impacts
while
enhancing
food
security,
paving
way
for
more
resilient
agricultural
future.
Discover Nano,
Journal Year:
2025,
Volume and Issue:
20(1)
Published: March 27, 2025
Agriculture
is
the
backbone
of
all
countries
which
dictates
major
economy
country.
The
management
pathogens
critical
in
field
agriculture.
Many
species
pathogenic
fungi
infect
a
broad
range
hosts
including
cash
crops
and
agricultural
crops.
Coffee
one
most
important
commercial
crop
many
world.
Coffea
arabica
infected
by
several
fungal
results
decrease
quality
quantity
coffee
berries.
Infection
plants
not
only
kills
fruit
yield
but
also
affect
human
being
through
toxin
intoxication.
Chemical
fungicides
are
primary
choice
for
control
plant
fungi.
However,
these
chemicals
pollute
environment,
disturb
normal
flora,
fauna
aquatic
environment.
intake
inhalation
or
ingestion
serious
health
consequences
immunological,
endocrinal,
neurological,
gynaecological,
carcinogenic
effects.
Hence,
it
challenge
to
find
novel
alternative
green
solution
both
detoxify
toxins.
Green
nanotechnology
can
be
adopted
develop
eco-friendly
nanoformulation
pathogens.
In
this
study,
were
isolated
from
identified
sequencing.
novelty
study
stands
on
uniqueness
Polyherbal
was
synthesized
using
Triphala.
Antifungal
studies
carried
out
developed
nanoformulation.
From
results,
as
Cladorrhinum
flexuosum,
Rigidoporus
vinctus,
Mucor
circinelloides,
lusitanicus,
Nigrospora
oryzae.
On
treating
with
PHNF,
radial
growth
strains
effectively
controlled
even
at
lower
concentration
3.125
µg/ml.
specific
contribution
PHNF
'synergism'
plays
significant
role
controlling
tested
further
exploration
conditions
will
help
optimize
dosage
development
nano
based
fungicide
benefit
farmers
well
global
problem.
addition,
formulated
nanosprays
nanomaterials
during
post-harvest
condition.
Processes,
Journal Year:
2025,
Volume and Issue:
13(5), P. 1278 - 1278
Published: April 23, 2025
Metal-based
nanoparticles
(MNPs)
are
gaining
attention
as
promising
components
of
nanopesticides,
offering
innovative
solutions
to
enhance
agricultural
pest
management
while
addressing
environmental
concerns
associated
with
traditional
pesticides.
MNPs,
such
silver,
copper,
zinc,
nickel,
gold,
iron,
aluminum,
and
titanium,
exhibit
unique
nanoscale
properties.
These
properties
enable
the
formulation
MNPs
for
controlled
sustained
release,
thereby
reducing
application
frequency
minimizing
runoff.
This
release
mechanism
not
only
improves
efficacy
but
also
reduces
risks
non-target
organisms
beneficial
species,
aligning
principles
sustainable
crop
protection.
review
examines
nanopesticides
based
on
their
specific
targets,
nanoinsecticide,
nanobactericide,
nanofungicide,
nanonematicide,
nanoviricide.
It
explores
mechanisms
action
metal-based
nanoparticles,
including
physical
disruption,
chemical
interactions,
biological
processes.
Additionally,
details
how
compromise
cellular
integrity
through
membrane
damage,
DNA
mitochondrial
impairment,
protein
denaturation.
Despite
these
advantages,
significant
challenges
remain,
particularly
concerning
impact
long-term
effects
soil
health
ecosystem
dynamics,
potential
human
safety.
Addressing
is
crucial
realizing
full
in
agriculture.
Advances in environmental engineering and green technologies book series,
Journal Year:
2024,
Volume and Issue:
unknown, P. 413 - 442
Published: May 1, 2024
As
the
global
demand
for
high-quality
animal
products
continues
to
rise,
livestock
industry
faces
unprecedented
challenges
in
ensuring
health,
productivity,
and
sustainability
of
farming.
Nanotechnology,
with
its
ability
manipulate
materials
at
nanoscale,
presents
a
promising
frontier
innovative
solutions
health
husbandry.
These
applications
nanotechnology
farming,
focusing
on
disease
prevention,
nutritional
enhancement,
environmental
sustainability.
The
first
section
research
delves
into
nanomaterials
as
novel
tools
prevention
control
livestock.
second
segment
highlights
use
address
Nanoscale
nutrient
delivery
systems
are
investigated
their
capacity
enhance
bioavailability
essential
nutrients,
such
vitamins
minerals,
thereby
improving
growth,
reproduction,
overall
health.
Nanosensors
used
real-time
monitoring
parameters,
feeding
strategies
nutrition.
