New Crops,
Journal Year:
2024,
Volume and Issue:
1, P. 100013 - 100013
Published: Jan. 29, 2024
Establishing
global
sustainable
agriculture
emerges
as
the
primary,
indispensable
strategy
to
meet
escalating
food
demands
and
address
environmental
preservation
amidst
challenges
posed
by
severe
climate
change.
The
intricate
communities
of
microorganisms
associated
with
plants,
collectively
termed
plant
microbiome,
wield
significant
influence
over
vitality
productivity
species.
Unleashing
potential
microbiome
stands
a
pivotal
approach
safeguard
rejuvenate
our
planet.
However,
complex
nature
interactions,
coupled
their
limited
persistence
in
settings
due
gaps
understanding
or
technological
limitations,
has
impeded
substantial
progress
this
field.
This
review
explores
innovative
revitalized
strategies
for
harnessing
microbiome-based
enhancements
crop
fitness.
Additionally,
we
illuminate
encountered
deciphering
interplay
between
its
host,
particularly
context
mitigating
adverse
influences
change
on
resilience.
To
navigate
these
complexities,
advocate
comprehensive
that
considers
both
host
microbiome-oriented
perspectives.
dual-focused
aims
overcome
current
limitations
pave
way
toward
future
where
intervention
forms
bedrock
protection.
Frontiers in Microbiology,
Journal Year:
2023,
Volume and Issue:
14
Published: May 5, 2023
The
viable
community
of
microorganisms
in
the
rhizosphere
significantly
impacts
physiological
development
and
vitality
plants.
assembly
functional
capacity
microbiome
are
greatly
influenced
by
various
factors
within
rhizosphere.
primary
host
plant
genotype,
developmental
stage
status,
soil
properties,
resident
microbiota.
These
drive
composition,
dynamics,
activity
microbiome.
This
review
addresses
intricate
interplay
between
these
how
it
facilitates
recruitment
specific
microbes
to
support
growth
resilience
under
stress.
also
explores
current
methods
for
engineering
manipulating
microbiome,
including
plant-mediated
manipulation,
soil-related
methods,
microbe-mediated
methods.
Advanced
techniques
harness
plant's
ability
recruit
useful
promising
use
rhizo-microbiome
transplantation
highlighted.
goal
this
is
provide
valuable
insights
into
knowledge,
which
will
facilitate
cutting-edge
strategies
enhanced
stress
tolerance.
article
indicates
avenues
future
research
field.
Plants,
Journal Year:
2023,
Volume and Issue:
12(12), P. 2307 - 2307
Published: June 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
New Crops,
Journal Year:
2024,
Volume and Issue:
1, P. 100013 - 100013
Published: Jan. 29, 2024
Establishing
global
sustainable
agriculture
emerges
as
the
primary,
indispensable
strategy
to
meet
escalating
food
demands
and
address
environmental
preservation
amidst
challenges
posed
by
severe
climate
change.
The
intricate
communities
of
microorganisms
associated
with
plants,
collectively
termed
plant
microbiome,
wield
significant
influence
over
vitality
productivity
species.
Unleashing
potential
microbiome
stands
a
pivotal
approach
safeguard
rejuvenate
our
planet.
However,
complex
nature
interactions,
coupled
their
limited
persistence
in
settings
due
gaps
understanding
or
technological
limitations,
has
impeded
substantial
progress
this
field.
This
review
explores
innovative
revitalized
strategies
for
harnessing
microbiome-based
enhancements
crop
fitness.
Additionally,
we
illuminate
encountered
deciphering
interplay
between
its
host,
particularly
context
mitigating
adverse
influences
change
on
resilience.
To
navigate
these
complexities,
advocate
comprehensive
that
considers
both
host
microbiome-oriented
perspectives.
dual-focused
aims
overcome
current
limitations
pave
way
toward
future
where
intervention
forms
bedrock
protection.
