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.
Agronomy,
Journal Year:
2023,
Volume and Issue:
13(6), P. 1600 - 1600
Published: June 13, 2023
The
agricultural
sector
is
a
vital
source
of
human
well-being
that
provides
the
necessities
daily
life.
A
variety
farming
systems
are
utilized
in
agriculture,
such
as
wide
range
tillage
options,
no-till,
agroforestry,
precision
farming,
organic
cover
cropping,
crop
rotations,
etc.
Each
these
has
unique
challenges,
and
nanotechnology
successfully
improved
on
many
them.
Agricultural
applications
include
nanofertilizers,
nanopesticides,
nanosensors,
nanobiotechnology,
nanoremediation.
This
study
focuses
application
nano-farming
technologies
to
different
systems.
Suggested
practices
nano
improvement
soil
quality,
nano-protection
under
biotic
stress,
nanoremediation
polluted
water
environments,
nanomanagement
agro-wastes,
nano-agrochemicals,
nano-precision
nanobiotechnology
for
modern
farming.
review
also
addresses
expected
problems
may
occur
due
over
nanomaterials
systems,
nanopollution
nanotoxicity
agroecosystem
compartments.
Several
dimensions
emphasized
this
study,
green
energy,
sustainable
development,
circular
bioeconomy,
land
biodegradation,
pollution,
one
health
approach,
essential
global
goals
development.
Nanofarming
presents
both
benefits
obstacles
exact
balance
between
challenges
needs
more
study.
Frontiers in Microbiology,
Journal Year:
2024,
Volume and Issue:
15
Published: March 6, 2024
Globally,
food
security
has
become
a
critical
concern
due
to
the
rise
in
human
population
and
current
climate
change
crisis.
Usage
of
conventional
agrochemicals
maximize
crop
yields
resulted
degradation
fertile
soil,
environmental
pollution
as
well
agroecosystem
health
risks.
Nanotechnology
agriculture
is
fast-emerging
new
area
research
explored
improve
productivity
nutrient-use
efficiency
using
nano-sized
at
lower
doses
than
agrochemicals.
Nanoparticles
are
applied
nanofertilizers
and/or
nanopesticides.
Positive
results
have
been
observed
terms
plant
growth
when
nano-based
agricultural
amendments.
However,
their
continuous
application
may
adverse
effects
on
plant-associated
rhizospheric
endospheric
microorganisms
which
often
play
crucial
role
growth,
nutrient
uptake,
disease
prevention.
While
shows
that
nanoparticles
potential
yield,
effect
diversity
function
remains
under-explored.
This
review
provides
an
overview
functions.
Additionally,
it
highlights
response
nanoparticle
insight
into
areas
required
promote
sustainable
precision
practices
incorporate
Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 5, 2025
Abstract
Bacterial
infections
are
a
significant
obstacle
to
the
healing
of
acute
and
chronic
wounds,
such
as
diabetic
ulcers
burn
injuries.
Traditional
antibiotics
primary
treatment
for
bacterial
infections,
but
they
present
issues
antibiotic
resistance,
limited
efficacy,
potential
side
effects.
This
challenge
leads
exploration
nanozymes
alternative
therapeutic
agents.
Nanozymes
nanomaterials
with
enzyme‐like
activities.
Owing
their
low
production
costs,
high
stability,
scalability,
multifunctionality,
have
emerged
prominent
focus
in
antimicrobial
research.
Among
various
types
nanozymes,
metal‐based
offer
several
benefits,
including
broad‐spectrum
activity
robust
catalytic
properties.
Specifically,
copper‐based
(CuNZs)
shown
considerable
promoting
wound
healing.
They
exhibit
strong
effects,
reduce
inflammation,
enhance
tissue
regeneration,
making
them
highly
advantageous
use
care.
review
describes
dual
functions
CuNZs
combating
infection
facilitating
repair.
Recent
advancements
design
synthesis
CuNZs,
evaluating
promotion,
biosafety
both
vitro
vivo
on
basis
core
components,
critically
important.
