Microbiological Research,
Год журнала:
2024,
Номер
285, С. 127776 - 127776
Опубликована: Май 20, 2024
Applying
beneficial
microorganisms
(BM)
as
bioinoculants
presents
a
promising
soil-amendment
strategy
while
impacting
the
native
microbiome,
which
jointly
alters
soil-plant
performance.
Leveraging
untapped
potential
of
microbiomes
alongside
may
enable
farmers
to
sustainably
regulate
systems
via
natural
bioresources.
This
review
synthesizes
literature
on
microbiome
responses
BMs
and
their
interactive
effects
soil
plant
We
highlight
that
harbor
both
microbial
"helpers"
can
improve
fertility
productivity,
well
"inhibitors"
hinder
these
benefits.
To
harness
full
resident
it
is
crucial
elucidate
intricate
synergistic
antagonistic
interplays
with
introduced
clarify
conditions
facilitate
durable
BM-microbiome
synergies.
Hence,
we
indicate
current
challenges
in
predicting
complex
interactions
propose
corresponding
strategies
for
breeding
BM
bioinoculant.
Overall,
fully
realizing
requires
clarifying
judiciously
engineering
helpful
microbes
already
present
within
agroecosystems.
Microorganisms,
Год журнала:
2025,
Номер
13(4), С. 768 - 768
Опубликована: Март 28, 2025
Phosphate
tailings
are
usually
rich
in
phosphorus
and
some
other
mineral
nutrients,
which
is
very
suitable
for
composting.
In
this
study,
60
days
of
composting
using
phosphate
tailings,
chicken
manure,
straw
resulted
a
significant
decrease
total
nitrogen
(TN)
content
from
1.75
±
0.12
g/kg
to
0.98
0.23
(p
<
0.01),
with
retention
56%,
an
increase
water-soluble
(Ws-P)
3.24
0.14
mg/kg
7.21
0.09
mg/kg,
immediate
potassium
(AK)
0.56
0.21
1.90
0.11
0.05).
Metagenomic
sequencing
showed
little
changes
the
diversity
abundance
microbial
communities
before
after
composting,
but
species
composition
archaea,
bacteria,
fungi
differences
community
structure
Composting
contributed
lower
gene
ARGs
MRGs.
The
addition
combined
functions
chemical
regulation
nutrient
enrichment,
its
synergistic
effect
significantly
optimized
cycling
system.
