Nanotechnology Reviews,
Год журнала:
2024,
Номер
13(1)
Опубликована: Янв. 1, 2024
Abstract
Nanotechnology
holds
excessive
potential
for
addressing
agricultural
challenges
such
as
soil
deprivation,
nutrient
deficiencies,
low
harvests,
and
leaching.
Nanofertilizers
enable
more
efficient
absorption
by
plants
due
to
their
enlarged
surface
area,
bestowing
viable
solutions.
Urea–hydroxyapatite
hybrid
(urea–HA
hybrid)
was
successfully
synthesized
via
a
coprecipitation
approach
doping
nanohydroxyapatite
with
copper
zinc
along
urea.
The
nanohybrids
were
analyzed
applying
various
techniques
Fourier
transform
infrared
spectroscopy,
energy-dispersive
spectroscopy
(EDS),
scanning
electron
microscopy,
X-ray
powder
diffraction
(XRD).
evidence
the
crystalline
structure
of
HA
confirmed
peaks
present
in
XRD
analysis
at
25.89°,
28.77°,
32.11°,
while
urea
validated
39.29°.
nanosized
hexagonal
nanorods
approximately
16
±
1.5
nm,
incorporation
urea,
Cu,
Zn.
components
urea–HA
(Ca,
P,
C,
O,
N)
EDS
traces
Si.
Antibacterial
antifungal
activities
investigated
against
phytopathogenic
microbes.
nanohybrid
significantly
inhibits
growth
Clavibacter
michiganensis
,
Xanthomonas
campestris
Macrophomina
phaseolina
Sclerotium
rolfsii
.
A
fertilization
trial
using
on
Citrus
limon
has
demonstrated
30
cm
within
8
weeks
treatment,
accompanied
brighter-colored
leaves.
Thus,
enabled
slow
release
nutrients,
which
had
significant
impact
plant
will
also
effectively
manage
disease
control
phytopathogens.
this
innovative
addresses
regarding
delivery
effectively.
Environmental Science & Technology,
Год журнала:
2024,
Номер
58(35), С. 15755 - 15765
Опубликована: Авг. 20, 2024
Lithium,
as
an
emerging
contaminant,
lacks
sufficient
information
regarding
its
environmental
and
ecotoxicological
implications
within
soil-plant
systems.
Employing
maize,
wheat,
pea,
water
spinach,
we
conducted
a
thorough
investigation
utilizing
multispecies,
multiparameter,
multitechnique
approach
to
assess
the
pollution
characteristics
effects
of
lithium.
The
findings
suggested
that
lithium
might
persist
in
amorphous
state,
altering
surface
functional
groups
chemical
bonds,
although
semiquantitative
analysis
was
unattainable.
Notably,
demonstrated
high
mobility,
with
mild
acid-soluble
fraction
accounting
for
29.66-97.02%
total,
while
minor
quantity
exogenous
tended
be
residual
fraction.
Plant
revealed
10-80
mg
Li/kg
soils
significantly
enhanced
certain
growth
parameters
maize
calculated
LC50
values
aerial
part
length
across
four
plant
species
varied
from
173.58
315.63
Li/kg.
Lithium
accumulation
leaves
up
1127.61-4719.22
mg/kg,
inorganic
form
18.60-94.59%,
cytoplasm
(38.24-89.70%)
predominantly
harbored
Furthermore,
model
displayed
stimulation
attributed
influence
on
phytohormone
levels.
Water
spinach
exhibited
superior
capacity
tolerance
stress
promising
candidate
phytoremediation
strategies.
Our
contribute
more
comprehensive
understanding
lithium's
behavior
systems,
particularly
context
global
initiatives
toward
carbon
neutrality.
Agriculture,
Год журнала:
2024,
Номер
14(10), С. 1691 - 1691
Опубликована: Сен. 27, 2024
Based
on
the
BERTopic
model,
this
study
analyzes
15,744
scientific
papers
in
field
of
functional
agriculture
from
1995
to
2024
uncover
core
themes
and
evolutionary
trends
global
agriculture,
particularly
focuses
revealing
developmental
trajectory
China.
The
results
indicate
that
research
is
characterized
by
diverse
intensive
study,
forming
a
multi-topic
cross-network
centered
plant
chemical
extraction
agricultural
soil
research,
with
focus
food
nutrition,
human
health,
environmental
protection.
By
contrast,
China’s
demonstrates
more
focused
in-depth
approach,
concentrating
development
protection
themes,
notable
growth
areas
such
as
selenium-enriched
products
resistant
starch.
Combined
environment,
makes
following
suggestions
for
China:
(1)
Promoting
interdisciplinary
cooperation
between
other
technologies.
(2)
Developing
Chinese
characteristics
product
brands.
(3)
Utilizing
smart
farming
technology
boost
agriculture.
Nanotechnology Reviews,
Год журнала:
2024,
Номер
13(1)
Опубликована: Янв. 1, 2024
Abstract
Nanotechnology
holds
excessive
potential
for
addressing
agricultural
challenges
such
as
soil
deprivation,
nutrient
deficiencies,
low
harvests,
and
leaching.
Nanofertilizers
enable
more
efficient
absorption
by
plants
due
to
their
enlarged
surface
area,
bestowing
viable
solutions.
Urea–hydroxyapatite
hybrid
(urea–HA
hybrid)
was
successfully
synthesized
via
a
coprecipitation
approach
doping
nanohydroxyapatite
with
copper
zinc
along
urea.
The
nanohybrids
were
analyzed
applying
various
techniques
Fourier
transform
infrared
spectroscopy,
energy-dispersive
spectroscopy
(EDS),
scanning
electron
microscopy,
X-ray
powder
diffraction
(XRD).
evidence
the
crystalline
structure
of
HA
confirmed
peaks
present
in
XRD
analysis
at
25.89°,
28.77°,
32.11°,
while
urea
validated
39.29°.
nanosized
hexagonal
nanorods
approximately
16
±
1.5
nm,
incorporation
urea,
Cu,
Zn.
components
urea–HA
(Ca,
P,
C,
O,
N)
EDS
traces
Si.
Antibacterial
antifungal
activities
investigated
against
phytopathogenic
microbes.
nanohybrid
significantly
inhibits
growth
Clavibacter
michiganensis
,
Xanthomonas
campestris
Macrophomina
phaseolina
Sclerotium
rolfsii
.
A
fertilization
trial
using
on
Citrus
limon
has
demonstrated
30
cm
within
8
weeks
treatment,
accompanied
brighter-colored
leaves.
Thus,
enabled
slow
release
nutrients,
which
had
significant
impact
plant
will
also
effectively
manage
disease
control
phytopathogens.
this
innovative
addresses
regarding
delivery
effectively.
