Rhizobacteria from vineyard and commercial mycorrhizal fungi induce synergistic microbiome shifts within grapevine root systems
Research Square (Research Square),
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 28, 2025
Abstract
Background
The
addition
of
bacteria
and
arbuscular
mycorrhizal
fungi
(AMF)
is
a
strategy
used
to
protect
plants
against
disease
improve
their
growth
yield,
known
as
biocontrol
biostimulation,
respectively.
In
viticulture,
the
plant
promotion
(PGP)
potential
endemic
vineyard
soil
has
been
underexplored.
Furthermore,
most
research
about
microbial
biostimulants
focuses
on
effect
plant,
but
little
how
application
modify
root
ecosystem,
which
may
have
an
impact
resistance.
objectives
this
work
were
1)
identify
present
in
soils
with
functional
PGP
traits,
2)
test
activity
young
grapevines,
combination
AMF,
3)
assess
communities
inferred
functions
rhizosphere
roots.
Results
Two
hundred
isolated
from
vineyards
characterized
for
biochemical
activities.
efficient
tested
in
vitro,
both
singly
combination,
Lepidium
sativum
grapevine
plantlets.
Pseudomonas
species
particularly
increased
vitro
selected
further
testing,
without
two
Glomus
species,
grapevines
planted
experiencing
dysbiosis
greenhouse
setting.
After
five
months
growth,
co-application
rhizobacteria
AMF
significantly
enhanced
biomass
abundance
potentially
beneficial
bacterial
genera
roots,
compared
untreated
conditions
single
inoculum
treatments.
Additionally,
prevalence
Botr
ytis
cinerea,
associated
diseases,
decreased
endosphere.
combined
inoculation
resulted
more
complex
network
higher
metabolic
functionality
than
Conclusions
To
our
knowledge,
first
study
examine
apply
strains
derived
same
plot
commercialized
fungi.
results
show
remodeling
terms
presence
pathogens.
observed
synergistic
indicates
that
it
important
consider
effects
individuals
synthetic
applied
field.
Язык: Английский
Identification and Chemical Control of Stem Canker Pathogen of Idesia polycarpa
Plants,
Год журнала:
2025,
Номер
14(9), С. 1393 - 1393
Опубликована: Май 5, 2025
Idesia
polycarpa
is
an
important
woody
oilseed
tree
crucial
for
ensuring
China’s
grain
and
oil
security.
The
expansion
of
I.
plantations
has
been
accompanied
by
increase
in
pests
diseases,
with
canker
disease
recently
observed
two
forests
Henan
Province.
Field
surveys
revealed
a
incidence
70.12%
among
328
surveyed
trees,
indicating
substantial
threat
to
plantation
health.
most
virulent
pathogen,
strain
SQ5,
was
identified
as
Botryosphaeria
dothidea
through
molecular
sequencing
morphological
analyses.
Strain
SQ5
showed
optimum
growth
temperature
25
°C
mycelial
lethal
60
°C.
pathogen
thrives
acidic
conditions
promoted
light,
the
ability
utilize
various
carbon
nitrogen
sources.
In
vitro
toxicity
assessments
four
effective
fungicides:
70%
thiophanate-methyl
(EC50
=
0.0169
µg/mL),
43%
tebuconazole
0.0219
20%
octylamine
acetate
0.0271
40%
difenoconazole
0.0954
µg/mL).
trials
demonstrated
that
(average
efficacy
35.29%)
23.53%)
exhibited
superior
control
canker.
This
study
represents
first
systematic
analysis
its
measures,
laying
foundation
further
research
field
management
strategies.
Given
significance
Chinese
forestry,
this
underscores
need
strategies
sustain
productivity
mitigate
risks
associated
expanding
plantations.
Язык: Английский
Metabolome and (R)-Mellein Production in Neofusicoccum parvum Strains are Differentially Affected by Grapevine Woody Biomass
Journal of Agricultural and Food Chemistry,
Год журнала:
2025,
Номер
unknown
Опубликована: Май 26, 2025
Neofusicoccum
parvum
is
a
wood-colonizing
fungus
that
threatens
grape
production.
Its
ability
to
colonize
the
host
may
involve
secretion
of
effector
molecules,
such
as
phytotoxic
metabolite
(R)-mellein.
However,
role
(R)-mellein
in
disease
development
and
factors
influencing
its
production
are
poorly
understood.
Additionally,
how
this
pathogen
alters
metabolome
during
interaction
remains
unclear.
Here,
we
compared
metabolomes
two
wild-type
N.
strains
(Bt67
NpB)
UV
mutant
(UV9)
cultured
with
grapevine
wood
bioreactors.
We
found
reduced
but
increased
diversity
secreted
metabolites,
whereas
showed
minimal
changes
when
grown
tissue.
In
particular,
promoted
auxin-related
compounds,
tyramines,
phenylethanoids.
Our
findings
suggest
adapts
profile
response
biomass,
producing
compounds
antibiotic
properties.
Finally,
was
purified
using
Centrifugal
Partition
Chromatography
preparative
HPLC,
which
will
aid
future
research
into
disease.
Язык: Английский
Physiological and developmental disturbances caused by Botryosphaeria dieback in the annual stems of grapevine
Frontiers in Plant Science,
Год журнала:
2024,
Номер
15
Опубликована: Апрель 23, 2024
Botryosphaeria
dieback
is
a
grapevine
trunk
disease
caused
by
fungi
of
the
Botryosphaeriaceae
family,
which
attacks
more
specifically
woody
tissues.
The
infection
leads
to
different
symptoms
including
severe
form
with
leaf
drop
as
well
premature
plant
death.
causes
major
economic
losses,
since
no
effective
treatment
yet
available.
A
better
understanding
necessary
find
solutions
fight
this
disease.
In
study,
our
objective
was
characterize
“leaf
drop”
(1)
looking
for
presence
pathogens
in
basal
internodes
stems,
(2)
quantifying
blocked
vessels
tylosis
and/or
gummosis,
and
(3)
describing
impact
on
vine
physiology
(gene
expression
metabolome)
development
(establishment
functioning
cambium
phellogen)
at
level
xylem
phloem
stem
internodes.
Our
study
has
shown
that
were
present
both
annual
stem,
obturated.
We
have
also
clearly
demonstrated
gene
metabolite
profiles
strongly
modified
diseased
plants.
Differences
stems
between
healthy
(control,
C)
(D)
plants
low
flowering
(vines
not
symptomatic),
higher
onset
symptom
still
present,
although
less
marked,
full
expression.
qRT-PCR
analysis
showed
an
overexpression
genes
involved
defense,
repression
related
meristematic
activity
(i.e.
vascular
phellogen).
Metabolomic
specific
fingerprints
from
expression,
increase
phytoalexins
mannitol,
decrease
1-kestose
one.
At
structural
level,
many
alterations
observed
internodes,
even
before
symptoms:
classical
obstruction
and,
first
time,
disorganization
secondary
sieve
plates
callose.
modifies
(liber)
phellogen.
Altogether,
combining
approaches
allowed
highlight
deep
dysfunction
base
may
explain
decline
due
dieback.
Язык: Английский