Agronomy,
Journal Year:
2024,
Volume and Issue:
14(12), P. 3006 - 3006
Published: Dec. 17, 2024
Mycorrhizal
inoculants
can
contribute
to
the
development
of
corn
crops
by
improving
crop
productivity.
In
this
sense,
objective
study
was
evaluate
effects
a
mycorrhizal
inoculant
on
dynamics
root
system
growth,
gas
exchange,
productivity,
and
microbial
activity
in
rhizospheric
soil
no-till
area
with
different
levels
available
phosphorus.
The
experiment
conducted
during
2019/2020
2020/2021
growing
seasons.
At
75
days
after
plant
emergence,
morphological
parameters
(total
length
(cm),
average
diameter
(mm),
surface
(cm2),
volume),
shoot
biomass
production,
P
content
shoots,
microbiological
attributes
were
evaluated.
end
cycle,
grain
yield
determined.
A
beneficial
effect
AMF
inoculation
observed
regardless
level.
Under
conditions
evenly
distributed
rainfall
(2019/2020
season),
contributed
90%
increase
acid
phosphatase
76%
carbon
(C-BIO),
independent
contrast,
under
water
deficit
(2020/2021
provided
29%
yield.
We
concluded
that
introducing
commercial
benefits
physiological
traits,
favors
enzymes
related
increased
availability,
contributing
productivity
system.
Frontiers in Plant Science,
Journal Year:
2024,
Volume and Issue:
15
Published: Nov. 26, 2024
Drought
is
the
one
primary
issue
limiting
peanut
growth
and
productivity.
The
study
aimed
to
investigate
effects
of
arbuscular
mycorrhizal
fungi
(AMF),
rhizobium
(Rhi),
their
combinations
on
phenolic
content,
proline
growth,
yield
under
different
soil
water
regimes.
pot
experiments
were
carried
out
for
two
growing
seasons
greenhouse
conditions
designed
based
a
2×3
factorial
in
randomized
complete
block
design
(RCBD)
with
four
replications.
Factor
A
comprised
regimes:
field
capacity
(FC)
1/3
available
(1/3
AW),
whereas
factor
B
included
three
types
microorganisms:
(i)
uninoculated
control,
(ii)
mycorrhiza
(iii)
combination
AMF
(Rhi)
inoculations.
Data
collected
yield,
components.
stress
significantly
reduced
relative
leaf
area,
biomass,
components
peanut,
content
was
increased
drought
stress.
Higher
pod
dry
weight
achieved
FC
(28.87
g
plant
Agronomy,
Journal Year:
2024,
Volume and Issue:
14(12), P. 2835 - 2835
Published: Nov. 28, 2024
Many
techniques
adopted
by
annual
crop
growers,
addressing
challenges
such
as
disease,
are
not
viable
for
perennial
systems.
Groundcover
vegetation
can
be
employed
a
natural
method
increasing
soil
health
and
plant
performance;
however,
cover
species
may
differ
in
the
plant–soil
feedback
effects
that
modulate
rhizosphere.
To
investigate
relationship
between
identity
microbial
composition
to
determine
potential
impacts
of
on
pathogen
occurrence
systems,
we
characterized
fungal
communities
sampled
from
nine
used
under-vine
groundcover
at
three
separate
Okanagan
vineyards.
Soil
characteristics,
particularly
available
phosphorus
levels,
varied
significantly
among
sites,
with
SuRDC
39.9
ppm,
Covert
140.1
Kalala
276.2
ppm.
Of
1876
species,
showed
lower
richness
diversity.
A
random
forest
model
classified
samples
site
98.4%
accuracy
(p
<
0.001),
but
classification
was
minimal
(2.4%
accuracy).
Phacelia
had
variance
Shannon’s
=
2.35×10−7)
Simpson’s
diversity
3.59×10−12).
Crescendo
ladino
clover
simpler
networks
than
buckwheat,
negative
correlation
count
co-occurrence
affinity
across
crops
0.001).
We
found
within
did
vary
greatly
measures
community
structure,
regardless
identity.
Nectriaceae
were
abundant
all
samples,
suggesting
recruit
certain
pathogens.
distinct
indicating
site-specific
conditions
play
larger
role
shaping
BC
vineyards
crop–microbe
interactions
do
have
consistent
short-term
(<1
year)
fungi
sites.
Altogether,
this
research
encourages
careful
consideration
both
when
using
agriculture.
Agronomy,
Journal Year:
2024,
Volume and Issue:
14(12), P. 3006 - 3006
Published: Dec. 17, 2024
Mycorrhizal
inoculants
can
contribute
to
the
development
of
corn
crops
by
improving
crop
productivity.
In
this
sense,
objective
study
was
evaluate
effects
a
mycorrhizal
inoculant
on
dynamics
root
system
growth,
gas
exchange,
productivity,
and
microbial
activity
in
rhizospheric
soil
no-till
area
with
different
levels
available
phosphorus.
The
experiment
conducted
during
2019/2020
2020/2021
growing
seasons.
At
75
days
after
plant
emergence,
morphological
parameters
(total
length
(cm),
average
diameter
(mm),
surface
(cm2),
volume),
shoot
biomass
production,
P
content
shoots,
microbiological
attributes
were
evaluated.
end
cycle,
grain
yield
determined.
A
beneficial
effect
AMF
inoculation
observed
regardless
level.
Under
conditions
evenly
distributed
rainfall
(2019/2020
season),
contributed
90%
increase
acid
phosphatase
76%
carbon
(C-BIO),
independent
contrast,
under
water
deficit
(2020/2021
provided
29%
yield.
We
concluded
that
introducing
commercial
benefits
physiological
traits,
favors
enzymes
related
increased
availability,
contributing
productivity
system.
