Agronomy,
Journal Year:
2023,
Volume and Issue:
13(12), P. 2950 - 2950
Published: Nov. 29, 2023
The
soil
microbial
community
is
critically
important
in
plant
nutrition
and
health.
However,
this
extremely
sensitive
to
various
environmental
conditions.
A
pot
experiment
was
conducted
during
the
wheat
seedling
stage
better
understand
influences
of
coupled
application
nitrogen
(N)
decomposing
inoculants
(MDI)
on
bacteria
under
different
water
regimes.
There
were
two
levels
six
fertilization.
results
reveal
that
stress
increased
relative
abundance
Acidobacteria
decreased
Firmicutes
Proteobacteria.
250
kg
N
ha−1
altered
diversity
bacterial
but
nitrifying
bacteria.
Nitrous
oxide
(N2O)
carbon
dioxide
(CO2)
emissions
negatively
correlated
with
Myxococcota
Methylomirabilota
while
positively
Patescibacteria.
These
gases
also
bacteria,
correlation
more
significant
full
irrigation
regime.
findings
indicate
MDI
does
not
substantially
influence
its
relationship
greenhouse
gas
emission
at
would
mainly
depend
rational
control
amount
applied.
Agronomy,
Journal Year:
2023,
Volume and Issue:
13(12), P. 3082 - 3082
Published: Dec. 18, 2023
Reasonable
evaluation
of
evapotranspiration
(ET)
is
crucial
for
optimizing
agricultural
water
resource
management.
In
the
study,
we
utilized
Data
Mining
Sharpener
(DMS)
model;
Landsat
thermal
infrared
images
were
sharpened
from
a
spatial
resolution
100
m
to
30
m.
We
then
used
Surface
Energy
Balance
System
(SEBS)
estimate
daily
ET
during
winter
wheat
growing
season
in
People’s
Victory
Irrigation
District
Henan,
China.
It
was
concluded
that
spatiotemporal
patterns
land
surface
temperature
and
remained
consistent
before
after
sharpening.
Results
showed
R2
value
between
by
eddy
covariance
method
reached
0.814,
with
an
RMSE
0.516
mm
MAE
0.245
mm.
All
these
higher
than
those
(R2
0.802,
0.534
mm,
0.253
mm).
Furthermore,
image
exhibited
clear
texture
distinct
boundaries,
without
any
noticeable
mosaic
effects.
The
changes
more
complex
subsurface
environments.
significantly
areas
intricate
drainage
systems
compared
other
regions.
During
early
growth
stage,
decreased
steadily
until
overwintering
stage.
After
greening
jointing
stages,
it
began
increase
peaked
sizing
period.
correlation
net
solar
radiation
significant,
while
relative
humidity
soil
moisture
negatively
correlated
ET.
Throughout
period,
had
greatest
effect
on
Ecohydrology,
Journal Year:
2024,
Volume and Issue:
unknown
Published: Oct. 2, 2024
ABSTRACT
Viticulture
is
an
essential
sector
in
agriculture
as
wine
production
plays
a
vital
role
the
socio‐economic
life
of
many
countries,
especially
Mediterranean
area.
Grapevines
are
valuable,
long‐lived
species
able
to
grow
hot
and
dry
regions.
We
currently
do
not
know
whether
rain‐fed
grapevines
entirely
rely
on
deep
soil
water
or
make
substantial
use
shallow
from
summer
precipitation
events.
Without
knowing
this,
we
poorly
understand
what
fraction
inputs
contributes
grapevine
transpiration.
This
has
implications
for
how
quantify
grapevine‐relevant
budgets
predicting
impacts
climate
change
grape
production.
investigated
vineyard
Chianti
region,
central
Italy.
During
growing
season
2021,
monitored
moisture
at
30‐
60‐cm
depth.
collected
over
250
samples
stable
isotope
analysis
rainfall,
soil,
plants.
Since
traditional
plant
sampling
problematic
grapevines,
shoots,
leaves,
condensed
leaf
transpiration
after
sealed
plastic
bags
were
wrapped
around
shoot.
these
alternative
reconstruct
isotopic
signal
xylem
infer
plant's
seasonal
origin
throughout
season.
The
revealed
that,
season,
received
disproportional
contributions
by
rain
that
had
fallen
winter,
even
when
compensating
Only
late
did
amounts
whose
contribution
occasionally
became
dominant.
These
results
provide
better
understanding
ecohydrological
interactions
uptake
dynamics
valuable
agroecosystems
such
vineyards.
Agronomy,
Journal Year:
2023,
Volume and Issue:
13(12), P. 2950 - 2950
Published: Nov. 29, 2023
The
soil
microbial
community
is
critically
important
in
plant
nutrition
and
health.
However,
this
extremely
sensitive
to
various
environmental
conditions.
A
pot
experiment
was
conducted
during
the
wheat
seedling
stage
better
understand
influences
of
coupled
application
nitrogen
(N)
decomposing
inoculants
(MDI)
on
bacteria
under
different
water
regimes.
There
were
two
levels
six
fertilization.
results
reveal
that
stress
increased
relative
abundance
Acidobacteria
decreased
Firmicutes
Proteobacteria.
250
kg
N
ha−1
altered
diversity
bacterial
but
nitrifying
bacteria.
Nitrous
oxide
(N2O)
carbon
dioxide
(CO2)
emissions
negatively
correlated
with
Myxococcota
Methylomirabilota
while
positively
Patescibacteria.
These
gases
also
bacteria,
correlation
more
significant
full
irrigation
regime.
findings
indicate
MDI
does
not
substantially
influence
its
relationship
greenhouse
gas
emission
at
would
mainly
depend
rational
control
amount
applied.
