Plants,
Год журнала:
2023,
Номер
12(12), С. 2307 - 2307
Опубликована: Июнь 14, 2023
Microorganisms
are
an
important
element
in
modeling
sustainable
agriculture.
Their
role
soil
fertility
and
health
is
crucial
maintaining
plants'
growth,
development,
yield.
Further,
microorganisms
impact
agriculture
negatively
through
disease
emerging
diseases.
Deciphering
the
extensive
functionality
structural
diversity
within
plant-soil
microbiome
necessary
to
effectively
deploy
these
organisms
Although
both
plant
have
been
studied
over
decades,
efficiency
of
translating
laboratory
greenhouse
findings
field
largely
dependent
on
ability
inoculants
or
beneficial
colonize
maintain
stability
ecosystem.
its
environment
two
variables
that
influence
microbiome's
structure.
Thus,
recent
years,
researchers
looked
into
engineering
would
enable
them
modify
microbial
communities
order
increase
effectiveness
inoculants.
The
environments
believed
support
resistance
biotic
abiotic
stressors,
fitness,
productivity.
Population
characterization
manipulation,
as
well
identification
potential
biofertilizers
biocontrol
agents.
Next-generation
sequencing
approaches
identify
culturable
non-culturable
microbes
associated
with
expanded
our
knowledge
this
area.
Additionally,
genome
editing
multidisciplinary
omics
methods
provided
scientists
a
framework
engineer
dependable
high
yield,
resistance,
nutrient
cycling,
management
stressors.
In
review,
we
present
overview
agriculture,
engineering,
translation
technology
field,
main
used
by
laboratories
worldwide
study
microbiome.
These
initiatives
advancement
green
technologies
Microorganisms,
Год журнала:
2025,
Номер
13(2), С. 233 - 233
Опубликована: Янв. 22, 2025
The
plant
microbiome,
found
in
the
rhizosphere,
phyllosphere,
and
endosphere,
is
essential
for
nutrient
acquisition,
stress
tolerance,
overall
health
of
plants.
This
review
aims
to
update
our
knowledge
critically
discuss
diversity
functional
roles
rice
as
well
microbiome
engineering
strategies
enhance
biofertilization
resilience.
Rice
hosts
various
microorganisms
that
affect
cycling,
growth
promotion,
resistance
stresses.
Microorganisms
carry
out
these
functions
through
nitrogen
fixation,
phytohormone
metabolite
production,
enhanced
solubilization
uptake,
regulation
host
gene
expression.
Recent
research
on
molecular
biology
has
elucidated
complex
interactions
within
microbiomes
signalling
mechanisms
establish
beneficial
microbial
communities,
which
are
crucial
sustainable
production
environmental
health.
Crucial
factors
successful
commercialization
agents
include
soil
properties,
practical
field
conditions,
genotype.
Advances
engineering,
from
traditional
inoculants
synthetic
biology,
optimize
availability
resilience
abiotic
stresses
like
drought.
Climate
change
intensifies
challenges,
but
innovations
microbiome-shaping
genes
(M
genes)
offer
promising
solutions
crop
also
discusses
agronomic
implications
emphasizing
need
further
exploration
M
breeding
disease
traits.
Ultimately,
we
provide
an
current
findings
rice,
highlighting
pathways
productivity
sustainably
while
minimizing
impacts.
Frontiers in Sustainable Food Systems,
Год журнала:
2024,
Номер
8
Опубликована: Ноя. 21, 2024
Agroecology
has
emerged
as
a
fundamental
paradigm
for
developing
innovative
solutions
to
major
global
concerns
such
food
security,
biodiversity
loss,
and
climate
change.
The
core
subject
of
conservation
emphasizes
agroecology’s
role
in
the
preservation
native
species,
pollinators,
beneficial
creatures
through
practices
agroforestry,
cover
crops,
decreased
chemical
inputs.
Agroecological
principles
polyculture,
crop
diversity,
integrated
pest
control
help
improve
security
by
increasing
stability
nutrition.
encourages
carbon
sequestration,
soil
health,
greenhouse
gas
reductions,
resulting
climate-resilient
farming
systems.
literature
review
revealed
that
no
article
thoroughly
discusses
all
critical
hitting
challenges,
change,
single
study
can
be
addressed
using
agroecological
principles.
This
attempts
make
connection
between
numerous
challenges
may
solved
techniques
order
facilitate
sustainable
growth
while
protecting
environment.
examines
benefits
incorporating
methodologies
into
agriculture,
with
an
emphasis
on
agroecosystem
resilience,
improving
socioeconomic
circumstances
smallholder
farmers,
rural
livelihoods,
local
communities,
contributing
change
mitigation.
It
provides
complete
concepts
their
advantages,
making
it
excellent
guide
policymakers,
academics,
practitioners
who
is
working
build
resilient
system.
emerges
light
hope,
boosting
agricultural
output
also
environment,
ultimate
goal
achieving
harmonious
cohabitation
mankind
natural
world.
International Journal of Environment and Climate Change,
Год журнала:
2023,
Номер
13(10), С. 2088 - 2102
Опубликована: Сен. 4, 2023
Organic
amendments
have
emerged
as
a
pivotal
component
in
the
trajectory
of
sustainable
agriculture,
given
their
multifaceted
contributions
to
soil
health,
crop
yield,
and
environmental
conservation.
This
comprehensive
review
delves
into
intricacies
organic
amendments,
spanning
historical
context,
types,
sources,
nutrient
profiles,
interplay
with
plant
health.
Special
emphasis
is
laid
on
integration
modern
technological
advancements
traditional
amendment
practices,
exploring
synergistic
potential
digital
agriculture
precision
farming
enhancing
efficacy
inputs.
The
also
sheds
light
economic,
social,
ramifications,
emphasizing
role
smallholder
versus
large-scale
agricultural
systems
influence
farmer
resilience
consumer
perceptions.
Crucially,
this
addresses
challenges
limitations
inherent
including
concerns
related
quality
variation,
scalability,
over-application,
regulatory
nuances.
Concomitantly,
work
culminates
forward-looking
perspective,
highlighting
emergent
trends
innovations
that
portend
future
global
agriculture.
findings
underscore
significance
not
merely
additives
but
integral
elements
blueprint
for
sustainable,
resilient,
food-secure
future.
