The impact of nutrient deficiency on the structure of soil microbial communities within a double-cropping system
Rulan Yang,
Zheng Sun,
Yu Gong
и другие.
Frontiers in Plant Science,
Год журнала:
2025,
Номер
16
Опубликована: Янв. 29, 2025
In
the
North
China
Plain,
it
is
common
for
farmers
to
regularly
clear
crop
residues
from
their
fields.
The
prevalent
practice
of
fertilization
in
this
region
continues
depend
heavily
on
use
compound
fertilizers.
Howere
,
long-term
single
fertilizer
application
has
become
norm
present
agricultural
production,
which
not
only
destroys
rotation
system
but
also
negatively
affects
soil
environment
and
yields.
current
knowledge
how
nutrient
deficits
affect
microbial
community
structure
double-cropping
systems
still
limited.
To
clarify
specific
response
microorganisms
absence
key
nutrients
ecosystems
annual
double
cropping
system,
study
investigated
lack
essential
affected
diversity,
abundance,
functional
dynamics
soil,
designed
five
treatment
methods:
(1)
CK,
nofertilizer
treatment;
(2)
NPK,
adequate
nitrogen
fertilizer,
phosphorus
potassium
(3)
PK,
deficiency
(4)
NK,
(5)
NP,
treatment.
results
showed
that
two
growing
seasons,
NPK
increased
yields
wheat
corn
by
16.9%
27.0%,
respectively,
while
NK
NP
treatments
13.4%,
5.4%,
25.0%,
17.9%,
total
yield
21.1%.
addition,
promoted
diversity
abundance
maize,
balanced
provided
more
comprehensive
nutritional
support
crops.
Compared
other
nutrient-deficient
treatments,
substantially
bacterial
fungal
communities
(p<0.05).
are
significantly
correlated
with
physicochemical
factors
involve
organic
matter,
pH,
content,
phosphorus,
levels.
pH
primary
environmental
factor
influencing
communities.
Язык: Английский
Effects of organic fertilizer replacement on the microbial community structure in the rhizosphere soil of soybeans in albic soil
Xue Pan,
Hong-jiu Yu,
Bo Zhang
и другие.
Scientific Reports,
Год журнала:
2025,
Номер
15(1)
Опубликована: Апрель 10, 2025
Язык: Английский
Enhancing soil health through balanced fertilization: a pathway to sustainable agriculture and food security
Frontiers in Microbiology,
Год журнала:
2025,
Номер
16
Опубликована: Апрель 28, 2025
Sustainable
soil
health
management
is
pivotal
for
advancing
agricultural
productivity
and
ensuring
global
food
security.
This
review
comprehensively
evaluates
the
effects
of
mineral-organic
fertilizer
ratios
on
microbial
communities,
enzymatic
dynamics,
functional
gene
abundance,
holistic
health.
By
integrating
bioinformatics,
enzyme
activity
assays,
metagenomic
analyses,
we
demonstrate
that
balanced
fertilization
significantly
enhances
diversity,
community
stability,
resilience
against
environmental
stressors.
Specifically,
synergistic
application
mineral
organic
fertilizers
elevates
β
-glucosidase
urease
activities,
accelerating
matter
decomposition
nutrient
cycling
while
modulating
taxa
critical
transformation
pathogen
suppression.
Notably,
replacing
20–40%
with
alternatives
mitigates
risks
such
as
greenhouse
gas
emissions
leaching
sustaining
crop
yields.
dual
approach
improves
structure,
boosts
water
retention
capacity,
increases
biomass
by
20–30%,
fostering
long-term
fertility.
Field
trials
reveal
yield
25–40%
in
crops
like
rice
maize
under
combined
fertilization,
alongside
enhanced
carbon
(110.6%)
nitrogen
content
(59.2%).
The
findings
underscore
necessity
adopting
region-specific,
strategies
to
optimize
ecological
sustainability
productivity.
Future
research
should
prioritize
refining
frameworks
through
interdisciplinary
approaches,
addressing
soil-crop-climate
interactions,
scaling
these
practices
diverse
agroecosystems.
aligning
policies
principles,
stakeholders
can
safeguard
health—a
cornerstone
human
wellbeing—while
securing
resilient
systems
future
generations.
Язык: Английский
Root exudates regulate soil antibiotic resistance genes via rhizosphere microbes under long-term fertilization
Xiujing Guan,
Yuhui Li,
Yanying Yang
и другие.
Environment International,
Год журнала:
2024,
Номер
195, С. 109180 - 109180
Опубликована: Дек. 11, 2024
Organic
fertilizer
application
promotes
the
prevalence
of
antibiotic
resistance
genes
(ARGs),
yet
factors
driving
temporal
differences
in
ARG
abundance
under
long-term
organic
remain
unclear.
This
study
investigated
dynamics
diversity
and
both
bulk
rhizosphere
soils
over
17
years
(2003-2019),
explored
microbial
evolution
strategies,
hosts
succession
influence
root
exudates
on
ARGs
regulation.
The
results
showed
that
soil
was
lower
than
fertilization,
exhibited
a
decrease
then
remained
stable
time.
There
strong
association
between
host
bacteria
dominant
(p
<
0.05).
Structural
equations
demonstrated
bacterial
community
had
most
pronounced
0.05),
metabolites
an
important
mediation
effect
thereby
impacting
ARGs.
metabolome
analysis
evidenced
significant
correlations
were
found
defensive
like,
luteolin-7-glucoside
negatively
correlated
with
tetA(58).
These
findings
provide
deeper
insights
into
identify
critical
colonization
soils,
providing
support
for
controlling
spread
agriculture
soils.
Язык: Английский
Soil Microbiome Response to Reduced Nitrogen Supply in an Over-Fertilized Wheat-Maize System
Agronomy,
Год журнала:
2024,
Номер
14(11), С. 2631 - 2631
Опубликована: Ноя. 7, 2024
Excessive
nitrogen
(N)
fertilization
harms
the
diversity,
structure,
and
function
of
soil
microbiome.
Yet,
whether
such
adverse
effects
can
be
repaired
through
reducing
subsequent
N
rate
remains
not
completely
clear
so
far.
Here,
using
a
long-term
N-overfertilized
wheat-maize
cropping
field,
we
assessed
effect
various
proportions
over
six
years
on
crop
productivity,
physicochemical
biochemical
properties,
Five
treatments
were
employed
in
our
field
experiment:
farmers’
conventional
(zero
reduction,
as
control)
reduction
by
20%,
40%,
60%,
100%.
The
results
showed
that
moderate
(20–40%)
enhanced
productivity
fertility
but
did
affect
enzyme
activity.
Soil
bacterial
fungal
community
diversity
insensitive
to
whereas
their
structures
changed
significantly,
with
more
prominent
alteration
community.
Functional
prediction
indicated
average
relative
abundance
arbuscular
mycorrhizal
fungi
increased
ectomycorrhizal
decreased.
Moderate
species
interactions
and,
thus,
provided
complex
cross-kingdom
microbial
co-occurrence
network.
Both
assembly
governed
stochastic
processes,
this
was
altered
reduction.
Overall,
response
microbiome
greatly
dependent
reduced
proportion.
findings
obtained
here
shed
light
importance
optimal
intensively
cultivated,
high-input
grain
production
system.
Язык: Английский