International Journal of experimental research and review,
Journal Year:
2024,
Volume and Issue:
45(Spl Vol), P. 301 - 312
Published: Nov. 30, 2024
The
globe
faces
food
security
difficulties
because
of
population
increase
and
resource
degradation,
both
worsened
by
climate
change.
Applying
chemical
fertilizer
along
with
cereal-based
cropping
systems
degrades
soil
health
respect
to
physical,
chemical,
biological
properties,
which
also
results
in
low
crop
land
productivity.
However,
adopting
legume-based
integrated
nutrient
management
provides
an
appropriate
way
reach
Sustainable
Development
Goals
(SDGs).
Hence,
a
field
trial
was
conducted
on
groundnut
2018
2019
at
the
Post
Graduate
Research
Farm,
M.S.
Swaminathan
School
Agriculture,
Paralakhemundi,
Odisha,
India.
experiment
laid
out
Factorial
Randomized
Block
Design
(FRBD)
two
factors
as
seed
inoculation
(solid
carrier-based
Rhizobium
(SR)
liquid
(LR))
(N1:
100%
N
(fertilizer),
N2:
75%N
(fertilizer)
+
25%
(FYM),
N3:
50%N
50%
N4:
75%
(FYM)
N5:
(through
farmyard
manure,
FYM)
ten
treatment
combinations
replicated
thrice.
result
revealed
that
SR
LR
showed
almost
similar
trend
root
length,
dry
weight
nodule,
post-harvest
pH,
organic
carbon
years,
remained
statistically
par.
highest
value
for
growth.
Among
management,
inorganic
fertilizer)
recorded
length
(11.72,
19.75
23.9
cm)
(0.394,
1.075
1.141
30,
60
90
days
after
sowing
(DAS)
respectively.
Further,
pooled
data,
interaction
effect
significantly
impacted
weight.
factors,
influenced
%
population.
equal
(0.46%)
from
NM3,
NM4
NM5
(64.5
x
106
CFU
g-1
soil)
(FYM).
concluded
positively
growth
properties.
Integration
inoculation,
fertilizer,
manure
properties
growth,
enhancing
Agriculture,
Journal Year:
2024,
Volume and Issue:
14(11), P. 1957 - 1957
Published: Oct. 31, 2024
Accurate
measurement
of
slip
rate
(SR)
in
agricultural
tractors,
particularly
Iraq,
is
essential
for
optimizing
tractive
efficiency,
fuel
economy,
and
field
efficiency.
Presently,
tractors
Iraq
lack
sensors
SR
detection,
posing
a
challenge.
This
research
addresses
the
issue
by
introducing
wireless
technology,
novel
digital
slippage
system
(NDSS),
designed
to
precisely
measure
rear
wheels.
The
NDSS
was
tested
across
diverse
conditions,
involving
six
soil
textures
various
kinds
tillage
equipment
(A-TE).
Different
practices,
including
conservational
(CT)
with
chisel
plough,
traditional
(TT)
moldboard
plough
disc
minimum
(MT)
using
harrowing
spring
tooth
harrowing,
were
examined.
Results
from
compared
techniques,
demonstrating
cost
effectiveness
overall
performance.
Silty
loam
exhibited
higher
values,
while
silty
clay
showed
lower
values.
varied
significantly
textures,
more
cohesive
soils
leading
reduced
percentages.
Additionally,
methods
had
marked
influence
on
use
CT
resulted
values
18.35%
TT
MT
systems,
which
recorded
13.69%
6.03%,
respectively.
measurements
also
found
be
affected
draft
force
during
loading
A-TE,
emphasizing
role
operational
conditions
tractor
performance,
especially
challenging
environments.
Comparison
between
techniques
revealed
that
offered
high
accuracy,
flexibility,
configurability,
consistent
demonstrated
superior
precision,
making
it
an
effective
tool
assessing
tractors.
International Journal of experimental research and review,
Journal Year:
2024,
Volume and Issue:
45(Spl Vol), P. 301 - 312
Published: Nov. 30, 2024
The
globe
faces
food
security
difficulties
because
of
population
increase
and
resource
degradation,
both
worsened
by
climate
change.
Applying
chemical
fertilizer
along
with
cereal-based
cropping
systems
degrades
soil
health
respect
to
physical,
chemical,
biological
properties,
which
also
results
in
low
crop
land
productivity.
However,
adopting
legume-based
integrated
nutrient
management
provides
an
appropriate
way
reach
Sustainable
Development
Goals
(SDGs).
Hence,
a
field
trial
was
conducted
on
groundnut
2018
2019
at
the
Post
Graduate
Research
Farm,
M.S.
Swaminathan
School
Agriculture,
Paralakhemundi,
Odisha,
India.
experiment
laid
out
Factorial
Randomized
Block
Design
(FRBD)
two
factors
as
seed
inoculation
(solid
carrier-based
Rhizobium
(SR)
liquid
(LR))
(N1:
100%
N
(fertilizer),
N2:
75%N
(fertilizer)
+
25%
(FYM),
N3:
50%N
50%
N4:
75%
(FYM)
N5:
(through
farmyard
manure,
FYM)
ten
treatment
combinations
replicated
thrice.
result
revealed
that
SR
LR
showed
almost
similar
trend
root
length,
dry
weight
nodule,
post-harvest
pH,
organic
carbon
years,
remained
statistically
par.
highest
value
for
growth.
Among
management,
inorganic
fertilizer)
recorded
length
(11.72,
19.75
23.9
cm)
(0.394,
1.075
1.141
30,
60
90
days
after
sowing
(DAS)
respectively.
Further,
pooled
data,
interaction
effect
significantly
impacted
weight.
factors,
influenced
%
population.
equal
(0.46%)
from
NM3,
NM4
NM5
(64.5
x
106
CFU
g-1
soil)
(FYM).
concluded
positively
growth
properties.
Integration
inoculation,
fertilizer,
manure
properties
growth,
enhancing
