Plants,
Journal Year:
2024,
Volume and Issue:
13(14), P. 1991 - 1991
Published: July 21, 2024
Waterlogging
stress
causes
substantial
destruction
to
plant
growth
and
production
under
climatic
fluctuations
globally.
Plants
hormones
have
been
widely
explored
in
numerous
crops,
displaying
an
imperative
role
crop
defense
mechanism.
However,
there
is
a
paucity
of
research
on
the
subject
regulating
waterlogging
responses
wheat
crop.
In
this
study,
we
clarified
6-BA
through
inducing
phenylpropanoid
biosynthesis
wheat.
The
application
(6-benzyladenine)
enhanced
development
plants
stress,
which
was
accompanied
by
reduced
electrolyte
leakage,
high
chlorophyll,
soluble
sugar
content.
ROS
scavenging
also
6-BA,
resulting
MDA
H
Smart Agricultural Technology,
Journal Year:
2024,
Volume and Issue:
7, P. 100429 - 100429
Published: March 1, 2024
This
study
presents
the
Modified
Bare
Soil
Index
(MBI),
an
innovative
remote
sensing
instrument
that
employs
Short
Wave
Infrared
(SWIR)
and
Near
(NIR)
wavelengths
sourced
from
Landsat
8
satellite
observations.
Its
purpose
is
to
refine
identification
distinction
of
bare
soil
within
woodland
regions.
Addressing
limitations
existing
methods,
MBI
represents
a
significant
advancement
in
land
cover
change
detection.
Through
focused
Sardasht
forests
western
Iran,
demonstrates
superior
accuracy,
achieving
overall
accuracy
approximately
96%
with
Kappa
coefficient
exceeding
0.94,
surpassing
traditional
indices.
innovation
improves
classification
surfaces
also
aids
efficient
monitoring
safeguarding
changes
cover.
The
MBI's
robust
performance
underscores
its
potential
smart
forestry,
enabling
more
precise
surveillance
areas.
pivotal
for
ecological
studies
resource
management,
offering
practical
solution
challenges
erosion
degradation.
By
integrating
advanced
spectral
analysis
imagery,
sets
new
standard
techniques,
vital
insights
environmental
conservation
agricultural
practices.
Plant and Soil,
Journal Year:
2023,
Volume and Issue:
493(1-2), P. 475 - 495
Published: Aug. 28, 2023
Abstract
Background
and
aims
Wheat
growth
productivity
need
an
exceptional
approach
to
resist
the
deleterious
effects
of
salt
stress.
Methods
This
study
proposed
assess
effectiveness
exogenous
application
plant
growth-promoting
rhizobacteria
(PGPR;
i.e.,
Azospirillum
lipoferum
SP2,
Bacillus
coagulans
NCAIM
B.01123,
circulance
B.02324,
subtilis
MF497446)
at
a
rate
950
g
ha
−1
foliar
zinc
oxide
nanoparticles
(ZnO-NPs;
500
mg
L
)
against
irrigation
with
saline
(from
groundwater
well)
fresh
water
Nile
River
water)
wheat
(
Triticum
aestivum
L.)
in
sodic-saline
soil
during
2021
2022
growing
seasons
under
open
field
conditions.
Results
The
integrated
PGPR
ZnO-NPs
protected
plants
through
increasing
antioxidant
enzyme
activities,
catalase
(47%),
peroxidase
(102%),
superoxide
dismutase
(106%),
K
+
uptake
(27%)
over
control.
Conversely,
higher
stress
mitigation
was
illustrated
by
considerable
decline
electrolyte
leakage
(−62%),
proline
(−39%),
MDA
(−56%),
H
2
O
levels
(−60%).
N
grains
increased
57%
upon
treating
PGPR+ZnO-NPs,
which
also
Zn
contents
grain
straw
117%
72%,
respectively.
Also,
PGPR+ZnO-NPs
activity
urease
dehydrogenase
80%
232%,
respectively,
plots
irrigated
water.
Conclusion
results
present
investigation
suggest
use
protect
salinity
and/
or
Plants,
Journal Year:
2024,
Volume and Issue:
13(14), P. 1991 - 1991
Published: July 21, 2024
Waterlogging
stress
causes
substantial
destruction
to
plant
growth
and
production
under
climatic
fluctuations
globally.
Plants
hormones
have
been
widely
explored
in
numerous
crops,
displaying
an
imperative
role
crop
defense
mechanism.
However,
there
is
a
paucity
of
research
on
the
subject
regulating
waterlogging
responses
wheat
crop.
In
this
study,
we
clarified
6-BA
through
inducing
phenylpropanoid
biosynthesis
wheat.
The
application
(6-benzyladenine)
enhanced
development
plants
stress,
which
was
accompanied
by
reduced
electrolyte
leakage,
high
chlorophyll,
soluble
sugar
content.
ROS
scavenging
also
6-BA,
resulting
MDA
H
