Journal of Integrative Agriculture,
Journal Year:
2023,
Volume and Issue:
23(1), P. 267 - 282
Published: July 22, 2023
Bidens
pilosa
is
recognized
as
one
of
the
major
invasive
plants
in
China.
Its
invasion
has
been
associated
with
significant
losses
agriculture,
forestry,
husbandry,
and
biodiversity.
Soil
ecosystems
play
an
important
role
alien
plant
invasion.
Microorganisms
within
soil
act
intermediaries
between
ecological
functions,
playing
a
regulating
enzyme
activities
nutrient
dynamics.
Understanding
interactions
plants,
microorganisms,
processes
vital
for
managing
mitigating
impacts
species
on
environment.
In
this
study,
we
conducted
systematic
analysis
focusing
Setaria
viridis,
common
native
companion
invaded
area.
To
simulate
process
B.
pilosa,
constructed
homogeneous
plots
consisting
S.
viridis
grown
separately
monocultures,
well
mixtures.
The
rhizosphere
bulk
soils
were
collected
from
viridis.
order
to
focus
functional
mechanisms
that
contribute
successful
analyzed
effects
composition
microbial
communities
functions.
results
showed
biomass
increased
by
27.51%
was
significantly
reduced
66.56%.
organic
matter
contents
approximately
1.30
times
those
soils.
TN
NO3-
2.71
acid
phosphatase,
alkaline
urease
1.98–2.25
higher
than
Using
high-throughput
sequencing
16S
rRNA
gene,
found
altered
community.
Specifically,
many
genera
Actinobacteria
Proteobacteria
enriched
Further
correlation
analyses
verified
these
had
positive
relationships
nutrients
activities.
Plant
biomass,
pH,
matter,
TN,
NO3-,
TP,
AP,
TK,
AK
main
factors
affecting
communities.
This
study
led
alterations
These
changes
closely
linked
modifications
traits
physical
chemical
properties.
Some
related
C,
N
P
cycling
pilosa.
findings
provide
additional
support
hypothesis
soil-microbe
feedback
plants.
They
also
offer
insights
into
mechanism
which
microbes
Overall,
our
research
contributes
better
understanding
complex
communities,
ecosystem
Diversity,
Journal Year:
2023,
Volume and Issue:
15(1), P. 49 - 49
Published: Jan. 1, 2023
The
genus
Fusarium
includes
many
pathogenic
species
causing
a
wide
range
of
plant
diseases
that
lead
to
high
economic
losses.
In
this
review,
we
describe
how
the
taxonomy
has
changed
with
development
microbiological
methods.
We
specify
ecological
traits
and
methods
its
identification
in
soils,
particularly
detection
phytopathogenic
representatives
mycotoxins
produced
by
them.
negative
effects
soil-borne
on
agricultural
plants
current
for
control
are
discussed.
Due
complexity
polymorphism
species,
integrated
approaches
risk
assessment
necessary.
Agronomy,
Journal Year:
2025,
Volume and Issue:
15(2), P. 335 - 335
Published: Jan. 28, 2025
Agricultural
practices
significantly
impact
soil
properties
and
ecological
functions,
highlighting
the
importance
of
comprehensive
health
assessments.
Traditionally,
these
assessments
have
focused
on
physical
chemical
indicators,
often
neglecting
microbiological
properties.
This
review
explores
potential
indicators
in
evaluating
effects
agricultural
emphasizing
their
significance
addressing
challenges
associated
with
application.
A
key
advantage
is
high
sensitivity
rapid
response
to
environmental
changes.
These
can
be
grouped
into
three
categories:
microbial
biomass
abundance,
taxonomic
composition
diversity,
activity.
Among
these,
carbon,
basal
respiration,
decomposition
rates
are
considered
most
reliable
interpretable
indicators.
Microbial
diversity
remain
limited
diagnostic
predictive
capabilities
due
interpretation.
Integrating
offers
a
more
holistic
understanding
interactions
between
health,
enhancing
our
ability
monitor,
manage,
preserve
ecosystems.
To
facilitate
adoption
production
land
management,
further
efforts
needed
improve
interpretability
establish
standardized
criteria
for
assessment.
BMC Microbiology,
Journal Year:
2023,
Volume and Issue:
23(1)
Published: Sept. 7, 2023
Rapeseed
cake
is
an
important
agricultural
waste.
After
enzymatic
fermentation,
rapeseed
not
only
has
specific
microbial
diversity
but
also
contains
a
lot
of
fatty
acids,
organic
amino
acids
and
their
derivatives,
which
potential
value
as
high-quality
fertilizer.
However,
the
effects
fermented
on
tea
rhizosphere
microorganisms
soil
metabolites
have
been
reported.
In
this
study,
we
aimed
to
elucidate
effect
fertilizer
tree,
reveal
correlation
between
nutrients/metabolites.The
results
showed
that:
(1)
The
application
increased
contents
matter
(OM),
total
nitrogen
(TN),
phosphorus
(TP),
available
(AN),
(AP);
activities
urease
(S-UE),
catalase
(S-CAT),
acid
phosphatase
(S-ACP)
sucrase
(S-SC);
(2)
relative
abundance
beneficial
such
Chaetomium,
Inocybe,
Pseudoxanthomonas,
Pseudomonas,
Sphingomonas,
Stenotrophomonas;
(3)
sugar,
acid,
in
soil,
key
metabolic
pathways
were
concentrated
sugar
metabolisms;
(4)
promoted
metabolism
by
microorganisms;
enzymes
jointly
regulated
soil.Enzymatic
improved
nutrient
status
structure
was
for
enhancing
productivity
plantations.
These
findings
provide
new
insights
into
use
efficient
expand
its
Communications in Soil Science and Plant Analysis,
Journal Year:
2024,
Volume and Issue:
55(17), P. 2636 - 2650
Published: June 18, 2024
Soil
is
an
important
reservoir
of
innumerable
natural
and
biological
resources
fundamental
to
the
sustainability
life
earth's
functionality.
The
soil
complex
due
changing
biodiversity,
physicochemical
characteristics,
disturbances,
pedogenesis,
which
are
constituent
indices
required
for
measurement
its
healthiness.
Hence,
there
a
need
concertedly
protect
by
consciously
promoting
practices
behaviors
that
optimize
priority
functions
in
delivering
ecosystem
services.
It
further
significant
crop
yield,
hence
pay
more
attention
health.
healthiness
also
reflection
capacity
support
biogeochemical
processes,
abiotic
communities,
plant
animal
productions.
However,
agronomic
studies,
until
recently,
focused
on
use
chemical
indicators
determining
health,
despite
versatile
ecophysiological
role
microorganisms
formation,
resource
cycling,
management.
These
phenomena
expressed
microbial
communities
form
basis
conversion
diverse
organic
matters
into
bioutilizable
plants'
healthy
development.
This
review,
therefore,
explored
underlining
mechanisms,
particularly
climate
change-related,
caused
divergent
properties
how
this
impacted
composition
soil.
Likewise,
several
pieces
literature
physical
ecological
services,
were
compared
toward
innovative
best
management
improving
