Agronomy,
Journal Year:
2024,
Volume and Issue:
14(12), P. 2822 - 2822
Published: Nov. 27, 2024
The
increasing
demand
for
bioactive
compounds
from
plants
has
spurred
the
exploration
of
innovative
strategies
to
enhance
their
production.
This
review
focuses
on
three
advanced
methodologies:
elicitation,
metabolic
engineering,
and
using
biosynthesized
nanoparticles.
Elicitation,
through
application
abiotic
biotic
stressors,
stimulates
plant
defense
mechanisms,
significantly
boosts
secondary
metabolite
Metabolic
engineering
further
refines
this
process
by
genetically
modifying
key
pathways
redirect
resources
towards
synthesis
valuable
compounds.
Additionally,
metallic
oxide
nanoparticles
offer
a
sustainable
method
growth
These
act
not
only
as
elicitors,
but
also
catalyze
processes
improve
efficiency
compound
synthesis.
Despite
significant
advancements,
challenges
remain
in
optimizing
these
approaches
large-scale
agricultural
application,
particularly
understanding
precise
interactions
between
systems.
integration
holds
great
potential
agriculture
development
high-value
phytochemicals.
Future
research
should
focus
unraveling
complex
mechanisms
behind
refining
methods
commercial
use,
ensuring
environmental
economic
sustainability.
Advances in chemical and materials engineering book series,
Journal Year:
2024,
Volume and Issue:
unknown, P. 97 - 118
Published: Jan. 25, 2024
The
agricultural
industry
is
a
primary
source
of
livelihood
for
the
world's
population.
importance
agriculture
in
ensuring
sustainable
future
becoming
even
more
evident
as
we
deal
with
problems
generated
by
growing
global
To
address
challenges
food
security,
environmental
preservation,
and
resource
efficiency,
integration
hybrid
nanomaterials
artificial
intelligence
(AI)
represents
transformative
approach
to
attain
agriculture.
This
chapter
will
concentrate
on
applications
AI
agriculture,
emphasising
their
functions
smart
farming.
Further,
researchers
working
this
domain
get
an
insight
that
how
these
two
cutting
edge
techniques
can
be
used
characterizing
quantifying
interactions
between
nanomaterials,
plants,
soil,
pests
thereby
paving
way
productive
Agronomy,
Journal Year:
2024,
Volume and Issue:
14(12), P. 2822 - 2822
Published: Nov. 27, 2024
The
increasing
demand
for
bioactive
compounds
from
plants
has
spurred
the
exploration
of
innovative
strategies
to
enhance
their
production.
This
review
focuses
on
three
advanced
methodologies:
elicitation,
metabolic
engineering,
and
using
biosynthesized
nanoparticles.
Elicitation,
through
application
abiotic
biotic
stressors,
stimulates
plant
defense
mechanisms,
significantly
boosts
secondary
metabolite
Metabolic
engineering
further
refines
this
process
by
genetically
modifying
key
pathways
redirect
resources
towards
synthesis
valuable
compounds.
Additionally,
metallic
oxide
nanoparticles
offer
a
sustainable
method
growth
These
act
not
only
as
elicitors,
but
also
catalyze
processes
improve
efficiency
compound
synthesis.
Despite
significant
advancements,
challenges
remain
in
optimizing
these
approaches
large-scale
agricultural
application,
particularly
understanding
precise
interactions
between
systems.
integration
holds
great
potential
agriculture
development
high-value
phytochemicals.
Future
research
should
focus
unraveling
complex
mechanisms
behind
refining
methods
commercial
use,
ensuring
environmental
economic
sustainability.
