BMC Plant Biology,
Journal Year:
2025,
Volume and Issue:
25(1)
Published: April 4, 2025
Microbe-based
biostimulants
offer
a
sustainable
and
promising
alternative
to
synthetic
inputs,
potentially
reducing
or
replacing
conventional
inputs
in
crop
management.
Studying
the
native
microbiota,
particularly
endophytic
microbes,
helps
selecting
those
that
are
naturally
adapted
persist
enhance
plant
growth
under
specific
environmental
conditions.
This
study
aims
define
microbiota
tomato
crops
by
discriminant
amplicon
sequence
variant
(ASVs)
enriched
during
key
stages
found
core
microbiota.
presents
large-scale
analysis
of
root
prokaryotic
using
16
S
sequencing
across
most
common
widespread
conditions
used
for
cultivation,
offering
comprehensive
insight
into
its
structure
dynamics.
The
results
revealed
predominance
Actinobacteriota
Proteobacteria
phyla;
less
abundant
groups
included
Bacteroidota,
Verrucomicrobiota,
Patescibacteria,
Firmicutes.
Core
ASV
identification
different
enabled
selection
persistent
taxa
endorhizosphere.
Streptomyces,
Shinella,
Devosia,
Pseudoxanthomonas,
as
well
lesser
known
genera
Variovorax,
Pseudarthrobacter,
Lechevalieria,
represented
identified,
suggesting
long-term
host‒microbe
associations.
description
representative
framework
tomato-associated
important
components
provide
basis
developing
tailored
microbial
formulations
can
increase
resilience
reduce
dependence
on
agricultural
aimed
at
more
management
strategies.
Current Microbiology,
Journal Year:
2025,
Volume and Issue:
82(6)
Published: April 16, 2025
Strawberry
(Fragaria
×
ananassa)
is
the
most
widely
cultivated
small
berries
in
world.
They
are
not
only
delicious,
juicy,
and
nutritious,
but
also
have
important
economic
value.
However,
current
research
on
endophytic
bacteria
related
to
strawberry
limited.
This
work
provides
a
comprehensive
description
of
composition
diversity
bacterial
communities
three
niches
(root,
stem,
leaf)
cultivars
(White
Elves,
Tokun,
Akihime).
study
indicated
that
differ
significantly
between
belowground
niche
(roots)
aboveground
compartments
(stems
leaves).
The
richness
varied
for
all
cultivars;
it
decreased
from
root
stem
leaf.
alpha
Akihime
community
were
lower
than
White
Elves
stems
leaves.
Beneficial
genera,
such
as
Ochrobacter,
Bradyrhizobium,
Sphingomonas,
Pseudolobrys,
more
abundant
Tokun
Akihime,
especially
roots
stems.
results
this
provide
an
reference
discovering
new
species
or
genetic
variations
improve
host
fitness
stress
tolerance.
Further
needed
uncover
interactions
plants
bacteria,
well
potential
extracting
bioactive
compounds
these
bacteria.
Horticulturae,
Journal Year:
2025,
Volume and Issue:
11(5), P. 459 - 459
Published: April 25, 2025
Verticillium
spp.
are
soil-borne
fungal
pathogens
capable
of
infecting
over
400
plant
species
via
their
root
systems,
with
each
demonstrating
a
distinct
host
range.
The
primary
nonalfalfae
is
the
hop
(Humulus
lupulus),
which
becomes
affected
by
wilt
and,
in
severe
cases,
dieback.
A
dual
screening
approach
was
employed
to
isolate
Streptomycetes
as
potential
biocontrol
agents
from
systems
alongside
other
bacterial
xylem.
Three
Pseudomonas
strains
xylem
and
three
Streptomyces
roots
were
selected
based
on
vitro
antifungal
activity
against
dahliae
and/or
V.
nonalfalfae.
Their
for
controlling
further
assessed
through
planta
assays
conducted
under
greenhouse
conditions.
results
demonstrated
that
sp.
HX1,
luteogriseus
HR40,
flavofungini
HR77
significantly
reduced
disease
severity
index
32.56%
compared
artificially
infected
control
plants.
In
contrast,
commercial
product
Serenade®
ASO,
containing
Bacillus
amyloliquefaciens
QST
713,
achieved
reduction
13.96%.
These
findings
underscore
promising
candidates
biological
hops
Microorganisms,
Journal Year:
2024,
Volume and Issue:
12(11), P. 2278 - 2278
Published: Nov. 10, 2024
plants
are
known
for
their
significant
medicinal
and
economic
value.
Being
perennial,
they
prone
to
soil-borne
diseases
during
cultivation.
However,
there
has
been
limited
research
on
the
pathogenesis
of
diversity
pathogens.
While
biological
control
gained
attention
its
efficacy
environmental
benefits,
factors
affecting
efficiency
still
need
thorough
evaluation.
This
review
summarizes
influence
biotic
factors,
such
as
pathogens
hosts,
occurrence
pathogen
diversity.
Additionally,
we
synthesized
bacterial,
actinobacterial,
fungal
biocontrol
functional
mechanisms.
Moreover,
delves
into
influencing
biocontrol,
including
microbial
species,
inoculation
method
volume,
inoculant
composition.
article
serves
a
valuable
resource
enhancing
optimizing
strategies
managing
in
Agrobiotechnologies and digital farming,
Journal Year:
2024,
Volume and Issue:
3(3), P. 6 - 13
Published: Nov. 26, 2024
The
studies
were
conducted
to
assess
the
effect
of
using
two
biological
biopreparations
based
on
endophytic
bacteria
phytopathogenic
fungi
and
productivity
spring
wheat
Ulyanovskaya
105
variety.
carried
out
in
years
with
both
favorable
(2020,
2022)
extremely
dry
(2021)
moisture
conditions
during
growing
season.
Field
experiments
laid
highly
fertile
gray
forest
soil
Predkama
zone
Republic
Tatarstan.
Bacillus
monojavensis
PS17
(endophytic
seed
bacterium)
amyloliquefaciens
RECB-95
root
stem
used
as
agents.
Biopreparations
these
for
treatment
(rate
1
l/t)
spraying
plants
heading
phase
(1.0
l/ha).
control
variant
was
without
any
treatments,
standard
scheme
chemical
fungicides
(seed
Lamador
(0.2
l/t),
PropiShans
(0.5
l/ha)).
In
laboratory
conditions,
high
fungicidal
activity
mojavensis
against
Fusarium
found.
An
advantage
amyloligurosine
when
treating
seeds
suppressing
infection
Both
strains,
treated
seeds,
suppressed
development
Cochliobolus
sativus
plants.
most
effective
rot
at
early
stages
plant
ensured
by
PS17.
use
reduced
leaf
mycoses
wheat,
no
significant
differences
noted
between
strains
terms
disease
efficiency.
strongest
positive
yield
exerted
under
an
vegetation
period.
maximum
protection
bacterium
