Microorganisms,
Journal Year:
2022,
Volume and Issue:
10(11), P. 2212 - 2212
Published: Nov. 9, 2022
Plant
growth-promoting
bacteria
have
several
abilities
to
promote
plant
growth
and
development.
One
of
these
skills
is
the
synthesis
indole-3-acetic
acid
(IAA),
which
mainly
promotes
root
shoot
The
Bacillus
subtilis
Azospirillum
brasilense
been
widely
used
in
agriculture
with
this
function.
However,
little
known
about
whether
joint
inoculation
can
reduce
development
by
excess
IAA
produced
as
a
result
inoculation.
objective
present
study
was
verify
effect
on
B.
A.
three
tomato
genotypes.
Micro-Tom
genotype
without
mutation
for
synthesis,
Entire,
has
high
sensitivity
IAA,
diageotropic
(dgt)
low
IAA.
results
show
that
parameter
most
sensitive
microbial
number
roots.
No
treatment
increased
dry
mass
parameters
dgt,
genotype,
height
Entire
genotypes,
area
volume
dgt.
Azm
reduced
compared
control
BS
+
Azw
treatments
dgt
diameter
control.
roots
Micro-Tom.
strongly
support
mixture
some
development;
however,
possibly
an
interference
mode
action
promotion
each
isolate
not
related
bacteria.
Journal of Applied Microbiology,
Journal Year:
2022,
Volume and Issue:
132(5), P. 3543 - 3562
Published: Feb. 9, 2022
Abstract
The
increased
dependence
of
farmers
on
chemical
fertilizers
poses
a
risk
to
soil
fertility
and
ecosystem
stability.
Plant
growth-promoting
rhizobacteria
(PGPR)
are
at
the
forefront
sustainable
agriculture,
providing
multiple
benefits
for
enhancement
crop
production
health.
Bacillus
subtilis
is
common
PGPR
in
that
plays
key
role
conferring
biotic
abiotic
stress
tolerance
plants
by
induced
systemic
resistance
(ISR),
biofilm
formation
lipopeptide
production.
As
part
bioremediating
technologies,
spp.
can
purify
metal
contaminated
soil.
It
acts
as
potent
denitrifying
agent
agroecosystems
while
improving
carbon
sequestration
process
when
applied
regulated
concentration.
Although
it
harbours
several
antibiotic
genes
(ARGs),
reduce
horizontal
transfer
ARGs
during
manure
composting
modifying
genetic
makeup
existing
microbiota.
In
some
instances,
affects
beneficial
microbes
rhizosphere.
External
inoculation
B.
has
both
positive
negative
impacts
endophytic
semi-synthetic
microbial
community.
Soil
texture,
type,
pH
bacterial
concentration
play
crucial
regulation
all
these
processes.
amendments
consortia
produced
engineering
could
be
used
lessen
effect
diversity.
complex
plant–microbe
interactions
decoded
using
transcriptomics,
proteomics,
metabolomics
epigenomics
strategies
which
would
productivity
well-being
more
attributes
similar
character
Dr.
Jekyll
plant
growth,
health
environment
akin
Mr.
Hyde.
Waste Management,
Journal Year:
2022,
Volume and Issue:
142, P. 65 - 76
Published: Feb. 14, 2022
Inadequately
treated
biodegradable
waste
is
considered
an
environmental,
social
and
economic
threat
worldwide,
which
call
for
great
attention.
Waste
treatment
with
larvae
of
the
black
soldier
fly
(BSF,
Hermetia
illucens)
complies
concepts
circular
economy,
as
it
enables
transformation
these
wastes
into
marketable
products,
closing
loops
promoting
circularity.
The
processing
residues
(frass)
constantly
generated
in
management
facilities
large
volumes,
this
product
can
be
used
organic
fertilizer
agriculture,
stimulating
a
transition
to
economy.
However,
many
aspects
related
frass
are
still
unknown,
such
its
varying
composition
nutrients,
microorganisms
bioactive
compounds,
post-processing
requirements
improved
biological
stabilization,
behavior
soil
action
plants'
metabolism,
among
other
aspects.
In
review
article,
we
highlight
potential
from
BSF
world
market
regarding
possible
use
fertilizer,
summarize
recent
results
novel
point
towards
future
research
perspectives.
Plants,
Journal Year:
2022,
Volume and Issue:
11(19), P. 2482 - 2482
Published: Sept. 22, 2022
The
rhizosphere
is
a
thin
film
of
soil
that
surrounds
plant
roots
and
the
primary
location
nutrient
uptake,
where
important
physiological,
chemical,
biological
activities
are
occurring.
Many
microbes
invade
have
capacity
to
promote
growth
health.
Sustainability,
Journal Year:
2022,
Volume and Issue:
14(9), P. 5358 - 5358
Published: April 29, 2022
The
practice
of
agriculture
has
always
been
a
source
food
production.
increase
in
the
global
population
leads
to
improvements
agriculture,
increasing
crop
quality
and
yield.
Plant
growth
results
from
interaction
between
roots
their
environment,
which
is
soil
or
planting
medium
that
provides
structural
support
as
well
water
nutrients
plant.
Therefore,
good
management
necessary
prevent
problems
will
directly
affect
plant
health.
Integrated
pragmatic
approach
production,
includes
integrated
pest
focusing
on
protection.
Currently,
there
an
extended
idea
many
microorganisms,
such
fungi
bacteria,
are
useful
since
they
attractive
eco-friendly
alternatives
mineral
fertilizers
chemical
pesticides.
microbes
interact
with
plants
supply
crops,
control
phytopathogens
stimulate
growth.
These
actions
have
beneficial
implications
agriculture.
Despite
great
benefits
microorganisms
use
quite
limited;
however,
recent
years.
This
may
be
because
more
progress
needed
field
applications.
One
most
employed
genera
Bacillus
it
several
mechanisms
act
biofertilizers
biopesticides.
In
this
review,
role
special
emphasis
genus,
health
discussed,
highlighting
advances
topic.
Biological Control,
Journal Year:
2022,
Volume and Issue:
176, P. 105100 - 105100
Published: Nov. 7, 2022
Trichoderma-bacteria
co-inoculations
have
a
synergistic
effect
on
plant
benefits.•
biocontrollers
similar
results
than
chemical
pesticides.•
Compatibility
and
formulation
are
key
steps
in
co-inoculants.
Heliyon,
Journal Year:
2024,
Volume and Issue:
10(11), P. e31573 - e31573
Published: May 23, 2024
Endophytic
bacteria,
living
inside
plants,
are
competent
plant
colonizers,
capable
of
enhancing
immune
responses
in
plants
and
establishing
a
mutual
relationship
with
them.
bacteria
have
been
described
as
being
used
to
control
phytopathogenic
fungi
while
exhibiting
growth-promoting
activity.
Here,
we
discussed
the
mechanisms
actions
discovered
some
major
groups
beneficial
endophytic
such
Bacillus,
Paenibacillus,
Pseudomonas.
Most
studied
strains
these
genera
were
isolated
from
rhizosphere
soils,
more
extensive
study
is
needed.
It
essential
understand
underlying
biocontrol
develop
an
effective
screening
approach
for
selecting
potential
bacteria.
We
suggested
strategy
based
on
mechanistic
phenomena.
This
review
will
help
screen
sustainable
agriculture.
Microorganisms,
Journal Year:
2025,
Volume and Issue:
13(1), P. 187 - 187
Published: Jan. 17, 2025
Over
the
past
four
decades,
Bacillus
biofertilizers,
which
are
microbial
formulations
based
on
species,
have
significantly
contributed
to
sustainable
agriculture
by
enhancing
crop
growth,
improving
soil
health,
and
reducing
dependency
chemical
fertilizers.
particularly
known
for
their
ability
promote
plant
fix
nitrogen,
solubilize
phosphorus,
produce
growth-promoting
substances
such
as
phytohormones
antibiotics,
emerged
key
players
in
development
of
eco-friendly
agricultural
solutions.
This
research
utilizes
bibliometric
analysis
3,242
documents
sourced
from
Web
Science
database
map
development,
contributions,
innovation
within
field
1985
2023.
study
identifies
exponential
growth
output,
2003
onwards,
indicating
a
robust
interest
expanding
base
predominantly
China,
India,
United
States.
We
segmented
timeline
into
three
distinct
phases,
each
marked
varying
rates
foci.
paper
presents
novel
insights
geographical
institutional
distributions
research,
highlighting
predominant
role
developing
countries
advancing
Bacillus-based
technologies.
Key
hotspots
evolved
basic
applications
complex
interactions
involving
synthetic
communities
advanced
multi-omics
techniques.
Our
findings
demonstrate
trend
towards
more
strategic
technologically
integrated
approaches
reflecting
broader
shifts
systems.
not
only
charts
historical
progress,
but
also
proposes
future
trajectories
aimed
at
application
effectiveness
fertilizers
across
diverse
ecosystems.
