International Journal of Agronomy,
Год журнала:
2025,
Номер
2025(1)
Опубликована: Янв. 1, 2025
Inoculating
multifunctional
microbial
consortia
offers
potential
benefits
for
enhancing
plant
growth
and
grain
yield
formation.
This
study
verified
the
feasibility
of
inoculating
soybean
(
Glycine
max
)
seeds
with
to
improve
productivity.
Seeds
were
inoculated
12
combinations
inoculants
[
Bradyrhizobium
japonicum
B
.
diazoefficiens
biological
N
2
fixation,
Azospirillum
brasilense
promotion
via
phytohormone
release,
Bacillus
megaterium
(=
Priestia
B.
subtilis
P
uptake,
Trichoderma
harzianum
as
biopesticide]
grown
in
BOD
chamber,
greenhouse,
field
experiments.
In
subjected
germination
tests.
sown
pots
nonsterile
soil,
was
monitored
until
flowering
stage.
field,
plants
cultivated
physiological
maturity.
Soil
samples
collected
at
three
stages:
vegetative,
reproductive,
maturation.
Measurements
included
shoot,
root,
nodules,
masses,
yield,
alongside
analyses
seed
N,
P,
lipid,
protein,
carbohydrate
contents.
The
highest
number
inputs
inclusion
T.
impeded
germination,
hindered
initial
vegetative
growth,
decreased
densities
plots.
Likely
due
crop’s
plasticity
stimulation
microorganisms,
setbacks
did
not
affect
lipid
content.
Therefore,
holds
promise
a
sustainable
approach
agriculture.
Still,
care
should
be
taken
concerning
an
excessive
composing
consortia.
Plant Stress,
Год журнала:
2024,
Номер
11, С. 100391 - 100391
Опубликована: Фев. 10, 2024
In
response
to
mounting
concerns
over
heavy
metal
contamination
in
soils,
this
review
explores
the
potential
of
beneficial
soil
microorganisms,
particularly
Plant
Growth-Promoting
Rhizobacteria
(PGPR)
and
Arbuscular
Mycorrhizal
Fungi
(AMF),
as
a
sustainable
solution.
These
microorganisms
play
pivotal
role
enhancing
plant
growth,
development,
resilience
against
stress.
Effective
phytoremediation
strategies
depend
on
selecting
suitable
families,
including
Fabaceae,
Brassicaceae,
Poaceae,
known
for
their
unique
attributes
that
contribute
mitigation.
Utilizing
microbes
fostering
plant-microbe
interactions,
commonly
termed
'green
technology,'
offers
compelling
strategy
address
promote
environmental
restoration.
AMF
species
like
Glomus
Rhizophagus,
PGPR
belonging
Bacillus
Pseudomonas,
significantly
enhance
phytoremediation.
The
synergistic
interaction
between
(AMF)
represents
significant
advancement,
especially
metal-contaminated
soils.
This
amplifies
enhances
resistance
metals,
holds
promise
restoration
Future
research
should
focus
elucidating
underlying
mechanisms,
optimizing
synergies,
translating
findings
into
practical
applications.
Tailored,
crop-specific
approaches
may
revolutionize
agriculture,
considering
long-term
effects
multi-stress
tolerance.
International Journal of Molecular Sciences,
Год журнала:
2023,
Номер
24(15), С. 12227 - 12227
Опубликована: Июль 31, 2023
Biological
plant
protection
presents
a
promising
and
exciting
alternative
to
chemical
methods
for
safeguarding
plants
against
the
increasing
threats
posed
by
diseases.
This
approach
revolves
around
utilization
of
biological
control
agents
(BCAs)
suppress
activity
significant
pathogens.
Microbial
BCAs
have
potential
effectively
manage
crop
disease
development
interacting
with
pathogens
or
hosts,
thereby
their
resistance.
However,
current
efficacy
remains
unsatisfactory,
creating
new
research
opportunities
sustainable
cultivation
management.
In
this
context,
microbial
consortia,
comprising
multiple
microorganisms
diverse
mechanisms
action,
hold
promise
in
terms
augmenting
magnitude
stability
overall
antipathogen
effect.
Despite
scientific
efforts
identify
construct
consortia
that
can
aid
vital
crops,
only
limited
number
consortia-based
biocontrol
formulations
are
currently
available.
Therefore,
article
aims
present
complex
analysis
status
explore
future
directions
technological
advancements.
FEMS Microbiology Ecology,
Год журнала:
2024,
Номер
100(4)
Опубликована: Март 12, 2024
Abstract
Synthetic
Communities
(SynComs)
are
being
developed
and
tested
to
manipulate
plant
microbiota
improve
health.
To
date,
only
few
studies
proposed
the
use
of
SynCom
on
seed
despite
its
potential
for
engineering.
We
presented
a
simple
effective
seedling
engineering
method
using
inoculation
seeds.
The
was
successful
wide
diversity
compositions
bacterial
strains
that
representative
common
bean
microbiota.
First,
this
enables
modulation
composition
community
size.
Then,
SynComs
strongly
outcompeted
native
potting
soil
contributed
average
80%
showed
strain
abundance
main
driver
an
colonization.
Also,
selection
partly
involved
in
colonization
capacities
since
affiliated
Enterobacteriaceae
Erwiniaceae
were
good
colonizers
while
Bacillaceae
Microbacteriaceae
poor
colonizers.
Additionally,
engineered
modified
recruitment
assembly
rhizosphere
through
priority
effects.
This
study
shows
seeds
represents
promising
approach
consequence
fitness.
Horticulturae,
Год журнала:
2025,
Номер
11(1), С. 64 - 64
Опубликована: Янв. 9, 2025
Soilless
cultivation
allows
for
the
exploitation
of
benefits
plant
growth-promoting
rhizobacteria
(PGPR)
without
loss
efficacy
observed
with
soil
inoculation.
In
this
study,
we
investigated
effects
a
PGPR
consortium
on
growth,
ecophysiology,
and
metabolic
profile
lettuce
(Lactuca
sativa
L.)
grown
in
an
aeroponic
system
under
low-nutrient
regime.
Overall,
biomass
increased
by
25%
PGPR-inoculated
plants
due
to
enhanced
leaf
root
growth.
The
rise
was
primarily
increase
number
average
mass,
coupled
higher
total
area.
addition,
inoculated
exhibited
altered
anatomy
characterized
palisade
parenchyma
thickness
reduced
airspace
area,
suggesting
improved
photosynthetic
efficiency
changes
mesophyll
conductance.
morphology
also
altered,
showing
lateral
development.
Furthermore,
inoculation
induced
significant
reprogramming
leaves,
affecting
several
pathways
related
development,
stress
responses.
These
findings
provide
valuable
insights
into
intricate
dialog
between
beneficial
microbes
demonstrate
that
integration
soilless
culture
analysis
ecophysiological,
anatomical,
metabolomic
responses
can
be
powerful
approach
accelerate
design
new
consortia
use
as
microbial
biostimulants.
