Frontiers in Plant Science,
Journal Year:
2021,
Volume and Issue:
12
Published: May 28, 2021
Agriculture
is
an
important
source
of
human
food.
However,
current
agricultural
practices
need
modernizing
and
strengthening
to
fulfill
the
increasing
food
requirements
growing
worldwide
population.
Genome
editing
(GE)
technology
has
been
used
produce
plants
with
improved
yields
nutritional
value
as
well
higher
resilience
herbicides,
insects,
diseases.
Several
GE
tools
have
developed
recently,
including
clustered
regularly
interspaced
short
palindromic
repeats
(CRISPR)
nucleases,
a
customizable
successful
method.
The
main
steps
process
involve
introducing
transgenes
or
CRISPR
into
via
specific
gene
delivery
systems.
certain
limitations,
time-consuming
complicated
protocols,
potential
tissue
damage,
DNA
incorporation
in
host
genome,
low
transformation
efficiency.
To
overcome
these
issues,
nanotechnology
emerged
groundbreaking
modern
technique.
Nanoparticle-mediated
superior
conventional
biomolecular
approaches
because
it
enhances
efficiency
for
both
temporal
(transient)
permanent
(stable)
genetic
modifications
various
plant
species.
discoveries
advanced
technologies,
challenges
developing
short-term
breeding
strategy
remain.
Thus,
this
review,
nanobased
systems
engineering
are
discussed
detail.
Moreover,
we
suggested
effective
method
hasten
crop
improvement
programs
by
combining
such
speed
CRISPR/Cas,
nanotechnology.
overall
aim
review
provide
detailed
overview
nanotechnology-based
techniques
suggest
applications
possible
enhancement.
The Crop Journal,
Journal Year:
2021,
Volume and Issue:
10(1), P. 1 - 12
Published: July 13, 2021
Nano-enabled
agriculture
is
an
emerging
hot
topic.
To
facilitate
the
development
of
nano-enabled
agriculture,
reviews
addressing
or
discussing
applications,
knowledge
gap,
future
research
needs,
and
possible
new
field
plant
nanobiotechnology
in
agricultural
production
are
encouraged.
Here
we
review
following
topics
for
agriculture:
1)
improving
stress
tolerance,
2)
sensing
early
detection,
3)
targeted
delivery
controlled
release
agrochemicals,
4)
transgenic
events
non-model
crop
species,
5)
seed
nanopriming.
We
discuss
gaps
these
topics.
Besides
use
nanomaterials
harvesting
more
electrons
to
improve
photosynthetic
performance,
they
could
be
used
convert
nIR
UV
visible
light
expand
spectrum
photosynthesis.
this
approach
maintaining
photosynthesis
under
light-insufficient
conditions.
Our
aim
aid
researchers
learn
quickly
how
production.
Journal of Fungi,
Journal Year:
2021,
Volume and Issue:
7(12), P. 1033 - 1033
Published: Dec. 1, 2021
The
use
of
metal
nanoparticles
is
considered
a
good
alternative
to
control
phytopathogenic
fungi
in
agriculture.
To
date,
numerous
(e.g.,
Ag,
Cu,
Se,
Ni,
Mg,
and
Fe)
have
been
synthesized
used
as
potential
antifungal
agents.
Therefore,
this
proposal
presents
critical
detailed
review
the
these
fungi.
Ag
most
investigated
due
their
activities,
followed
by
Cu
nanoparticles.
It
was
also
found
that
other
agents,
such
Pd,
Fe,
showing
prominent
results.
Different
synthesis
methods
produce
with
different
shapes
sizes,
which
shown
outstanding
activities.
This
shows
success
Nano-Micro Letters,
Journal Year:
2023,
Volume and Issue:
15(1)
Published: Feb. 16, 2023
Abstract
Agro
seeds
are
vulnerable
to
environmental
stressors,
adversely
affecting
seed
vigor,
crop
growth,
and
productivity.
Different
agrochemical-based
treatments
enhance
germination,
but
they
can
also
cause
damage
the
environment;
therefore,
sustainable
technologies
such
as
nano-based
agrochemicals
urgently
needed.
Nanoagrochemicals
reduce
dose-dependent
toxicity
of
treatment,
thereby
improving
viability
ensuring
controlled
release
nanoagrochemical
active
ingredients
However,
applications
nanoagrochemicals
plants
in
field
raise
concerns
about
nanomaterial
safety,
exposure
levels,
toxicological
implications
environment
human
health.
In
present
comprehensive
review,
development,
scope,
challenges,
risk
assessments
on
treatment
discussed.
Moreover,
implementation
obstacles
for
use
treatments,
their
commercialization
potential,
need
policy
regulations
assess
possible
risks
Based
our
knowledge,
this
is
first
time
that
we
have
presented
legendary
literature
readers
order
help
them
gain
a
deeper
understanding
upcoming
nanotechnologies
may
enable
development
future
generation
agrochemical
formulations,
potential
associated
with
treatment.
Frontiers in Plant Science,
Journal Year:
2021,
Volume and Issue:
12
Published: May 28, 2021
Agriculture
is
an
important
source
of
human
food.
However,
current
agricultural
practices
need
modernizing
and
strengthening
to
fulfill
the
increasing
food
requirements
growing
worldwide
population.
Genome
editing
(GE)
technology
has
been
used
produce
plants
with
improved
yields
nutritional
value
as
well
higher
resilience
herbicides,
insects,
diseases.
Several
GE
tools
have
developed
recently,
including
clustered
regularly
interspaced
short
palindromic
repeats
(CRISPR)
nucleases,
a
customizable
successful
method.
The
main
steps
process
involve
introducing
transgenes
or
CRISPR
into
via
specific
gene
delivery
systems.
certain
limitations,
time-consuming
complicated
protocols,
potential
tissue
damage,
DNA
incorporation
in
host
genome,
low
transformation
efficiency.
To
overcome
these
issues,
nanotechnology
emerged
groundbreaking
modern
technique.
Nanoparticle-mediated
superior
conventional
biomolecular
approaches
because
it
enhances
efficiency
for
both
temporal
(transient)
permanent
(stable)
genetic
modifications
various
plant
species.
discoveries
advanced
technologies,
challenges
developing
short-term
breeding
strategy
remain.
Thus,
this
review,
nanobased
systems
engineering
are
discussed
detail.
Moreover,
we
suggested
effective
method
hasten
crop
improvement
programs
by
combining
such
speed
CRISPR/Cas,
nanotechnology.
overall
aim
review
provide
detailed
overview
nanotechnology-based
techniques
suggest
applications
possible
enhancement.
