Frontiers in Plant Science,
Journal Year:
2023,
Volume and Issue:
14
Published: Nov. 16, 2023
Soil
acidification
is
very
likely
to
affect
the
growth
of
tea
trees
and
reduce
yield.
In
this
study,
we
analyzed
effects
soils
with
different
pH
on
physiological
characteristics
leaves
determined
multi-element
content
hormone
metabolomes
by
ICP-MS
LC-MS/MS,
based
which
further
their
interaction.
The
results
showed
that
increasing
soil
(3.29~5.32)
was
beneficial
increase
available
nutrient
rhizosphere
tree,
improve
antioxidant
enzyme
activity
photosynthesis
capacity
tree
leaves,
promote
tree.
Orthogonal
partial
least
squares
discriminant
analysis
(OPLS-DA)
bubble
were
used
screen
key
elements
hormones
for
effect
redundancy
(RDA)
interaction
network.
an
in
favored
accumulation
seven
(C,
K,
Ca,
Mg,
Mn,
P,
S)
turn
promoted
synthesis
six
(salicylic
acid,
salicylic
acid
2-O-β-glucoside,
tryptamine,
2-oxindole-3-acetic
indole-3-acetic
trans-zeatin-O-glucoside).
It
can
be
seen
enhanced
resistance
itself,
improved
ability
effectively
Plants,
Journal Year:
2022,
Volume and Issue:
11(19), P. 2587 - 2587
Published: Sept. 30, 2022
The
widespread
use
of
fertilizers
is
a
result
the
increased
global
demand
for
food.
commonly
used
chemical
may
increase
plant
growth
and
output,
but
they
have
deleterious
effects
on
soil,
environment,
even
human
health.
Therefore,
nanofertilizers
are
one
most
promising
solutions
or
substitutes
conventional
fertilizers.
These
engineered
materials
composed
nanoparticles
containing
macro-
micronutrients
that
delivered
to
rhizosphere
in
regulated
manner.
In
nanofertilizers,
essential
minerals
nutrients
(such
as
N,
P,
K,
Fe,
Mn)
bonded
alone
combination
with
nano-dimensional
adsorbents.
This
review
discusses
development
nanotechnology-based
smart
efficient
agriculture
using
higher
nutritional
management,
owing
their
ability
nutrient
uptake
efficiency.
Additionally,
synthesis
mechanism
action
discussed,
along
different
types
currently
available.
Furthermore,
sustainable
can
be
realised
by
targeted
delivery
controlled
release
through
application
nanoscale
active
substances.
paper
emphasises
successful
safe
nanotechnology
agriculture;
however,
certain
basic
concerns
existing
gaps
research
need
addressed
resolved.
Plant Stress,
Journal Year:
2023,
Volume and Issue:
11, P. 100319 - 100319
Published: Dec. 10, 2023
Global
climate
change
affects
weather
patterns,
affecting
soil
salinity
and
drought
tolerance.
Crop
resilience
agriculture
sustainability
can
be
enhanced
by
exploring
salinity,
plant
tolerance,
microbial
diversity,
remediation
techniques.
This
review
examines
the
morpho-physiological,
molecular,
genetic
mechanisms
underlying
adaptation
to
stress.
It
highlights
their
impact
on
growth,
productivity,
diversity.
Diverse
methods
are
investigated
tackle
stress,
encompassing
chemical,
physical,
biological
approaches.
Additionally,
water-efficient
agricultural
practices
drought-resistant
crop
varieties
presented
as
ways
increase
tolerance
these
stresses.
These
implications
for
sustainable
emphasize
potential
of
findings
optimize
resource
utilization,
yield,
promote
environmental
sustainability.
The
concludes
discussing
future
research
directions,
particularly
need
more
study
into
molecular
basis
plant-microbe
interactions
stress
mechanisms.
By
advancing
our
knowledge
in
this
field,
we
develop
innovative
solutions
mitigate
ensuring
food
security
changing
climates.
Life,
Journal Year:
2023,
Volume and Issue:
13(1), P. 211 - 211
Published: Jan. 11, 2023
Extreme
environmental
conditions,
such
as
abiotic
stresses
(drought,
salinity,
heat,
chilling
and
intense
light),
offer
great
opportunities
to
study
how
different
microorganisms
plant
nutrition
can
influence
growth
development.
The
intervention
of
biological
agents
growth-promoting
rhizobacteria
(PGPRs)
coupled
with
proper
improve
the
agricultural
importance
species.
Brassicaceae
(Cruciferae)
belongs
monophyletic
taxon
consists
around
338
genera
3709
species
worldwide.
is
composed
several
important
economical,
ornamental
food
crops
(vegetables,
cooking
oils,
forage,
condiments
industrial
species).
Sustainable
production
Brassicas
plants
has
been
compromised
over
years
due
unbalanced
utilization
chemical
fertilizers
uncertified
chemicals
that
ultimately
affect
environment
human
health.
This
chapter
summarized
PGPRs
nutrient
management
in
family
against
stresses.
use
contributed
combating
climate-induced
change/abiotic
factors
drought,
soil
water
salinization
heavy
metal
contamination
limits
general
performance
plants.
Brassica
widely
utilized
an
oil
vegetable
crop
harshly
affected
by
Therefore,
along
mineral
nutrients
a
possible
strategy
cope
improving
biochemical,
physiological
attributes
brassica
eco-friendly
environment.
Scientific Reports,
Journal Year:
2023,
Volume and Issue:
13(1)
Published: March 2, 2023
Abstract
Mungbean
[
Vigna
radiata
L.
(Wilczek)]
is
considered
as
an
extremely
nutritious
crop
possessing
a
high
level
of
micronutrients,
but
their
low
bioavailability
in
the
leads
to
micronutrient
malnutrition
humans.
Therefore,
present
study
was
conducted
investigate
potential
nutrients
viz.
boron
(B),
zinc
(Zn)
and
iron
(Fe)
biofortification
on
productivity,
nutrient
concentration
uptake
well
economics
mungbean
cultivation.
In
experiment,
various
combinations
RDF
with
ZnSO
4
.7H
2
O
(0.5%),
FeSO
(0.5%)
borax
(0.1%)
were
applied
variety
ML
2056.
The
combined
foliar
application
Zn,
Fe
B
highly
efficient
increasing
yield
grain
straw
exhibiting
maximum
values
i.e.
944
kg
ha
−1
6133
,
respectively.
Similar
results
for
B,
Zn
(27.3
mg
35.7
187.1
respectively)
(21.1
18.6
376.1
observed.
Also,
by
(31.3
g
164.4
respectively),
(113.7
2295.0
above
treatment.
Whereas,
found
enhance
significantly
through
Fe,
where
24.0
128.7
corresponded
straw,
Thus,
use
+
improved
outcomes,
economic
returns
cultivation
alleviate
deficiency.
Frontiers in Plant Science,
Journal Year:
2023,
Volume and Issue:
14
Published: June 8, 2023
Manganese
(Mn)
is
an
essential
micronutrient
in
plants,
and
it
necessary
for
hydrolysis
photosystem
II,
chlorophyll
biosynthesis,
also
chloroplast
breakdown.
Limited
Mn
availability
light
soil
resulted
interveinal
chlorosis,
poor
root
development,
the
development
of
fewer
tillers,
particularly
staple
cereals
including
wheat,
while
foliar
fertilizers
were
found
efficient
improving
crop
yield
as
well
use
efficiency.
In
above
context,
a
study
was
conducted
consecutive
two
wheat
growing
seasons
screening
most
effective
economical
treatment
uptake
to
compare
relative
effectiveness
MnCO3
against
recommended
dose
MnSO4
wheat.
To
fulfill
aims
study,
three
manganese
products,
namely,
1)
carbonate
(26%
w/w
3.3%
N
w/w),
2)
0.5%
MnSO4·H2O
(30.5%
Mn),
3)
Mn-EDTA
solution
(12%
used
experimental
treatments.
Treatments
their
combinations
follows:
levels
Mn)
@
750
1,250
ml
ha-1
applied
at
stages
(i.e.,
25-30
35-40
days
after
sowing)
sprays
each
other
plots.
The
2-year
showed
that
application
significantly
increased
plant
height,
productive
tillers
plant-1,
1,000
grain
weight
irrespective
fertilizer
source.
results
statistically
par
with
both
(750
ha-1)
However,
form
more
than
MnCO3,
mobilization
efficiency
index
(1.56)
maximum
when
Thus,
present
revealed
can
be
alternative
enhance
