The Science of The Total Environment,
Год журнала:
2023,
Номер
898, С. 165446 - 165446
Опубликована: Июль 17, 2023
Due
to
their
size,
flexibility,
biocompatibility,
large
surface
area,
and
variable
functionality
nanoparticles
have
enormous
industrial,
agricultural,
pharmaceutical
biotechnological
applications.
This
has
led
widespread
use
in
various
fields.
The
advancement
of
knowledge
this
field
research
altered
our
way
life
from
medicine
agriculture.
One
the
rungs
revolution,
which
somewhat
reduced
harmful
consequences,
is
nanotechnology.
A
helpful
ingredient
for
plants,
silicon
(Si),
well-known
its
preventive
properties
under
adverse
environmental
conditions.
Several
studies
shown
how
biogenic
silica
helps
plants
recover
biotic
abiotic
stressors.
majority
demonstrated
benefits
silicon-based
(Si-NPs)
plant
growth
development,
particularly
stressful
environments.
In
order
minimize
release
brine,
heavy
metals,
radioactive
chemicals
into
water,
remove
non-metals,
components,
purify
also
been
used
remediation.
Potentially
toxic
elements
(PTEs)
become
a
huge
threat
food
security
through
negative
impact
on
agroecosystem.
Si-NPs
potentials
PTEs
agroecosystem
promote
via
promotion
development.
review,
we
outlined
sources
ecotoxicological
consequences
agroecosystems.
mitigating
were
extensively
discussed
other
applications
agriculture
foster
highlighted.
Plants,
Год журнала:
2023,
Номер
12(2), С. 234 - 234
Опубликована: Янв. 4, 2023
Weeds
are
a
permanent
component
of
anthropogenic
ecosystems.
They
require
strict
control
to
avoid
the
accumulation
their
long-lasting
seeds
in
soil.
With
high
crop
infestation,
many
elements
production
technologies
(fertilization,
productive
varieties,
growth
stimulators,
etc.)
turn
out
be
practically
meaningless
due
yield
losses.
Intensive
use
chemical
herbicides
(CHs)
has
led
undesirable
consequences:
contamination
soil
and
wastewater,
residues
crop,
emergence
CH-resistant
populations
weeds.
In
this
regard,
development
environmentally
friendly
CHs
with
new
mechanisms
action
is
relevant.
The
natural
phytotoxins
plant
or
microbial
origin
may
explored
directly
herbicidal
formulations
(biorational
CHs)
indirectly
as
scaffolds
for
nature-derived
CHs.
This
review
considers
(1)
main
current
trends
that
important
enhancement
biorational
herbicides;
(2)
advances
practical
application
compounds
weed
control;
(3)
prototypes
synthetic
herbicides.
Some
modern
approaches,
such
computational
methods
virtual
screening
design
molecules,
formulations,
determination
molecular
targets,
stressed
crucial
make
exploration
more
effective.
ChemEngineering,
Год журнала:
2023,
Номер
7(4), С. 61 - 61
Опубликована: Июль 12, 2023
Nanotechnology
has
an
extensive
series
of
applications
in
agronomy
and
important
role
the
future
sustainable
agriculture.
The
agricultural
industries
should
be
supported
by
innovative
active
materials
such
as
nanofertilizers,
nanofungicides,
nanopesticides.
It
is
necessary
current
situation
to
meet
dietary
needs
constantly
expanding
world
population.
Nearly
one-third
crops
grown
conventionally
suffer
damage,
mostly
a
result
pest
infestation,
microbiological
assaults,
natural
disasters,
poor
soil
quality,
lack
nutrients.
To
solve
these
problems,
we
urgently
need
more
inventive
technology.
application
nanotechnology
agriculture
provides
intelligent
methods
for
delivering
nutrients,
herbicides,
genetic
improving
fertility,
stress
tolerance,
protection.
currently
confronting
significant
issues
related
rising
demand
enough
food
safe
well
dealing
with
environmental
damage
caused
traditional
Nanomaterials
have
increasing
plant
growth
development
quality
quantity
controlling
managing
diseases.
major
objective
this
article
describe
various
importance
nanoparticles
sector.
The Science of The Total Environment,
Год журнала:
2023,
Номер
898, С. 165446 - 165446
Опубликована: Июль 17, 2023
Due
to
their
size,
flexibility,
biocompatibility,
large
surface
area,
and
variable
functionality
nanoparticles
have
enormous
industrial,
agricultural,
pharmaceutical
biotechnological
applications.
This
has
led
widespread
use
in
various
fields.
The
advancement
of
knowledge
this
field
research
altered
our
way
life
from
medicine
agriculture.
One
the
rungs
revolution,
which
somewhat
reduced
harmful
consequences,
is
nanotechnology.
A
helpful
ingredient
for
plants,
silicon
(Si),
well-known
its
preventive
properties
under
adverse
environmental
conditions.
Several
studies
shown
how
biogenic
silica
helps
plants
recover
biotic
abiotic
stressors.
majority
demonstrated
benefits
silicon-based
(Si-NPs)
plant
growth
development,
particularly
stressful
environments.
In
order
minimize
release
brine,
heavy
metals,
radioactive
chemicals
into
water,
remove
non-metals,
components,
purify
also
been
used
remediation.
Potentially
toxic
elements
(PTEs)
become
a
huge
threat
food
security
through
negative
impact
on
agroecosystem.
Si-NPs
potentials
PTEs
agroecosystem
promote
via
promotion
development.
review,
we
outlined
sources
ecotoxicological
consequences
agroecosystems.
mitigating
were
extensively
discussed
other
applications
agriculture
foster
highlighted.
