Advances in environmental engineering and green technologies book series,
Год журнала:
2024,
Номер
unknown, С. 236 - 253
Опубликована: Июль 12, 2024
In
the
current
landscape,
addressing
nutritional
needs
of
our
rapidly
expanding
global
populace
is
imperative.
Traditional
farming
methods
face
challenges,
with
approximately
one-third
crops
succumbing
to
pests,
diseases,
natural
calamities,
soil
degradation,
and
nutrient
deficiencies.
Nanotechnology
have
been
made
in
harnessing
nanoparticulate
systems
enhance
quality,
act
as
sensors,
combat
bolster
fertilisation
efforts.
has
emerged
a
crucial
ally
boosting
agricultural
sustainability
by
amplifying
crop
yields
revitalising
health.
Over
past
decade,
nanotechnology
permeated
various
sectors,
prominently
agro-industrial
realms.
A
profound
comprehension
plant-nanomaterial
interactions
unveils
promising
avenues
for
fortifying
practices,
fostering
disease
resilience,
augmenting
yields,
optimising
absorption.
Plant Stress,
Год журнала:
2023,
Номер
10, С. 100253 - 100253
Опубликована: Окт. 10, 2023
The
world's
climate
shifts
rapidly,
leading
to
increasingly
severe
and
volatile
weather,
negatively
impacting
crop
yields.
To
produce
long-lasting
crops,
cutting-edge
nanotechnology
is
applied
agriculture
called
agri-nanotechnology
(ANT),
a
relatively
fresh
field
of
research.
ANT
aims
help
agricultural
systems
meet
the
demands
for
sustainable
food
production.
inclusion
could
transform
conventional
farming
practices
by
enabling
targeted
delivery
biomolecules
controlled
liberation
agrochemicals.
Increasing
yields
requires
vaster
understanding
interactions
between
plants
nanoparticles
(NPs)
make
them
more
resistant
environmental
stresses
maximize
their
utilization.
Furthermore,
well-known
highly
praised
tool
that
provides
various
solutions
build
modern
practices.
In
summation,
stands
as
vanguard
in
harnessing
nanoscale
innovations
optimize
protection
production
way.
Abstract
Across
the
world,
salinity
is
one
of
most
detrimental
environmental
stresses
that
severely
reduces
agricultural
yield
and
productivity.
More
than
20%
world's
soils
endure
adversity
stress,
such
saline-prone
regions
are
constantly
rising,
due
to
human
natural
activity.
This
review
paper
explores
promising
role
nanoparticles
(NPs)
in
mitigating
adverse
effects
stress
on
crops
offers
insights
into
their
potential
applications
sustainable
agriculture.
Salinity
primarily
caused
by
soil
salinization,
disrupts
plant
growth
development,
leading
reduced
crop
yields
quality.
NPs,
with
unique
physicochemical
properties
nanoscale
dimensions,
have
demonstrated
remarkable
ameliorating
stress.
provides
an
in-depth
analysis
various
types
including
metallic,
metal
oxide,
carbon-based
hormone
signalling
networks
(auxin,
giberellins,
abscisic
acid
(ABA)
jasmonic
(JA),
enhancing
salt
tolerance
diverse
species.
article
examines
physiochemical,
biochemical,
molecular
mechanisms
plants
which
NPs
alleviate
encompassing
ion
homeostasis,
osmotic
regulation,
antioxidant
defence
systems.
Moreover,
this
critically
evaluates
toxic
outlines
challenges
concerns
associated
widespread
adoption.
By
understanding
benefits
limitations
NP
applications,
we
can
pave
way
for
agriculture
practices
improve
resilience,
mitigate
contribute
global
food
security
era
increasing
stressors.
Journal of Animal Physiology and Animal Nutrition,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 1, 2025
Nanotechnology
has
revolutionized
nutritional
strategies
in
poultry
production,
offering
innovative
solutions
to
enhance
health
and
performance.
Minerals
such
as
chromium
(Cr),
zinc
(Zn),
calcium
(Ca),
copper
(Cu),
selenium
(Se),
iron
(Fe)
have
been
extensively
studied
for
their
effects
on
growth,
health,
feed
efficiency.
Among
these,
mineral
nanoparticles
(MNPs)
emerged
promising
tools
optimizing
nutrient
bioavailability
nutrigenomic
effects.
synergizes
with
nutrigenomics
by
delivering
nutrients
bioactive
compounds
nano-form
enhanced
absorption
bioavailability.
This
review
explores
the
potential
of
MNPs
poultry,
focusing
how
these
nanoscale
particles
can
modulate
gene
expression,
metabolic
pathways,
cellular
functions
optimize
outcomes.
The
properties
fasciliate
targeted
modulation
expression
related
immune
function,
stress
response,
efficiency,
leading
improved
performance
birds.
Additionally,
shown
significant
absorption,
antioxidant
defense,
gut
thermal
tolerance,
which
are
crucial
productive
poultry.
Integrating
nanotechnology
nutrigenomics,
offer
a
sustainable
approach
addressing
key
challenges
nutrition,
deficiencies,
heat
stress,
disease
susceptibility.
highlights
interact
genome,
influencing
epigenetic
mechanisms
improving
overall
productivity.
current
study
importance
exploring
intersection
nanotechnology,
genomics
devise
Agronomy,
Год журнала:
2024,
Номер
14(3), С. 606 - 606
Опубликована: Март 18, 2024
The
relationship
between
agriculture
and
food
is
very
close.
It
impossible
to
produce
adequate
crops
for
global
security
without
proper
farm
management.
Farming
practices
represent
direct
indirect
controlling
factors
in
terms
of
security.
management
influence
agro-food
production
from
seed
germination
through
the
post-harvest
treatments.
Nano-farming
utilizes
nanotechnologies
agricultural
production.
This
review
covers
four
key
components
nano-farming:
nano-mushroom
production,
protein-based
nanoparticles,
nano-nutrients,
nanofibers.
provides
a
comprehensive
overview
potential
applications
nanotechnology
agriculture.
role
these
will
be
discussed
relation
challenges
faced
solutions
required
achieve
sustainable
Edible
mushrooms
are
important
because
they
nutritious
source
can
nanoparticles
that
used
other
sources.
Protein-based
have
considerable
delivery
bioactives
as
carriers
applications.
Nano-nutrients
(mainly
nano-selenium,
nano-tellurium
carbon
nanodots)
crucial
impacts
on
nutrient
status
plant-based
foods.
Carbon
nanodots
carbon-based
nanomaterials
positively.
There
promising
nanofibers
packaging,
safety
processing.
However,
further
research
needed
understand
risks
system.
Advances in environmental engineering and green technologies book series,
Год журнала:
2024,
Номер
unknown, С. 78 - 99
Опубликована: Май 1, 2024
In
the
demesne
of
sustainable
agriculture,
diverse
scientific
disciplines
contribute
significantly,
with
nanotechnology
taking
center
stage.
Recent
strides
in
precision
agriculture
primarily
emphasize
real-time,
environmentally
conscious
sensing
crop,
water,
and
soil
parameters
to
optimize
crop
yield.
Nanotechnology's
focus
extends
development
innovative
nanomaterials,
enhancing
nutrient
availability,
seed
germination,
seedling
growth
while
concurrently
addressing
biotic
abiotic
stress.
Furthermore,
application
nano-based
fertilizers
pesticides
directly
onto
crops
at
reduced
dosages
emerges
as
a
key
strategy,
mitigating
risks
both
human
health
environment.
The
exploration
advanced
nanodiagnostic
systems
nanobiosensors
plays
pivotal
role
monitoring
plant
diseases,
quality
parameters,
stress,
thereby
offering
substantial
advantage
agriculture.
Nanosensors
are
composed
nanoscale
particles
such
wires,
carbon
nanotubes,
thin
films,
nanoparticles.
Plants,
Год журнала:
2024,
Номер
13(5), С. 681 - 681
Опубликована: Фев. 28, 2024
Nanotechnologies
can
improve
plant
growth,
protect
it
from
pathogens,
and
enrich
with
bioactive
mineral
substances.
In
order
to
fill
the
lack
of
knowledge
about
combined
environmental
effects
lighting
nanoparticles
(NPs)
on
plants,
this
study
is
designed
investigate
how
different
HPS
LED
CuO
ZnO
NPs
influence
elemental
composition
ice
plants
(Mesembryanthemum
crystallinum
L.).
Plants
were
grown
in
hydroponic
systems
at
250
±
5
μmol
m−2
s−1
intensity,
sprayed
aqueous
suspensions
(40
nm,
30
ppm)
(35–45
800
NPs;
their
was
measured
using
an
ICP–OES
spectrometer
hazard
quotients
calculated.
application
significantly
affected
Zn
accumulation
leaves.
Cu
higher
when
treated
illumination
combined.
The
calculated
showed
that
limits
are
not
exceeded
applying
our
selected
concentrations
growth
conditions
plants.
conclusion,
had
a
more
significant
positive
effect
macro-
microelements
under
than
HPS.
strongest
increase
respective
microelements.
