Tobacco black shank disease significantly affects the composition and assembly of the genotype-associated microbial community in the rhizosphere
Qipeng Jiang,
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Jiamin Yu,
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Min Mao
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et al.
Applied Soil Ecology,
Journal Year:
2025,
Volume and Issue:
209, P. 106039 - 106039
Published: March 28, 2025
Language: Английский
Deciphering variations in the surficial bacterial compositions and functional profiles in the intersection between North and South Yellow Sea
Caixia Wang,
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Zenglei Song,
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Haikun Zhang
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et al.
Marine Environmental Research,
Journal Year:
2024,
Volume and Issue:
195, P. 106355 - 106355
Published: Jan. 12, 2024
Language: Английский
Continuous Cropping of Patchouli Alleviate Soil Properties, Enzyme Activities, and Bacterial Community Structures
Muhammad Zeeshan Ul Haq,
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Guangtao Gu,
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Ya Liu
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et al.
Plants,
Journal Year:
2024,
Volume and Issue:
13(24), P. 3481 - 3481
Published: Dec. 12, 2024
Pogostemon
cablin
(Patchouli),
an
essential
medicinal
plant
in
the
Lamiaceae
family,
faces
significant
challenges
under
continuous
cropping
(CC)
obstacles.
This
study
examined
rhizospheric
soil
bacterial
communities
of
patchouli
four
different
CC
years,
zero
(CK),
one
(T1),
two
(T2),
and
three
(T3)
years
through
high-throughput
16S
rRNA
gene
amplicon
sequencing.
Results
showed
long-term
led
to
properties
enzyme
activity
shifts.
Key
parameters
such
as
pH
total
potassium
(TK)
decreased,
while
ammonium
nitrogen
(NH4+–N),
organic
carbon
(SOC),
nitrate
(NO3−–N),
available
(AK),
phosphorus
(AP),
(TN),
(TP)
increased
over
years.
Enzyme
activities,
including
ß-glucosidase
(ß-GC),
polyphenol
oxidase
(PPO),
catalase
(CAT),
N-acetyl-β-D-glucosaminidase
(NAG),
leucine
aminopeptidase
(LAP),
were
notably
affected.
The
altered
community
structure
composition,
reducing
relative
abundance
Proteobacteria,
Firmicutes,
Actinobacteria,
Planctomycetota
time.
These
findings
highlight
impact
on
rhizosphere
bacteria,
providing
insights
for
improved
management
fertilization
strategies
systems.
Language: Английский
Using fungal–bacterial community analysis to explore potential microbiomes to manage Meloidogyne incongnita
Qipeng Jiang,
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Yong Wang,
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Jiamin Yu
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et al.
Frontiers in Microbiology,
Journal Year:
2024,
Volume and Issue:
15
Published: Oct. 22, 2024
Rhizosphere
microbial
communities
strongly
affect
outbreaks
of
root-knot
nematode
(RKN)
disease.
However,
little
is
known
about
the
interactions
among
fungi,
bacteria
and
RKN.
The
bacterial
fungal
community
compositions
in
rhizospheres
four
representative
tobacco
varieties,
both
resistant
susceptible
to
RKN,
were
characterized
using
16S
rRNA
gene
sequencing
for
internal
transcribed
spacer
fungi.
Our
findings
revealed
that
fungi
played
crucial
roles
facilitating
cross-kingdom
symbiotic
fungal–bacterial
suppress
Moreover,
our
investigation
suggested
Microbacterium
as
a
potential
antagonist
against
RKN
based
on
its
enhanced
presence
RKN-resistant
genotypes,
relative
abundance
was
34.49%
greater
rhizosphere
than
significantly.
Notably,
richness
tobacco’s
microbe-associated
resistance
through
positive
regulation
diversity
.
This
study
underscores
critical
role
fungus–dominated
bolstering
antagonistic
presents
promising
avenues
innovative
management
strategies.
Language: Английский