Plant and Cell Physiology,
Journal Year:
2022,
Volume and Issue:
63(11), P. 1654 - 1666
Published: July 25, 2022
Through
the
process
of
domestication,
selection
is
targeted
on
a
limited
number
plant
traits
that
are
typically
associated
with
yield.
As
an
unintended
consequence,
domesticated
plants
often
perform
poorly
compared
to
their
wild
progenitors
for
multitude
were
not
under
during
including
abiotic
and
biotic
stress
tolerance.
Over
past
decade,
advances
in
sequencing
technology
have
allowed
rigorous
characterization
host-associated
microbial
communities,
termed
microbiome.
It
now
clear
nearly
every
conceivable
interaction
environment
mediated
by
interactions
For
this
reason,
plant-microbiome
area
great
promise
breeding
crop
improvement.
Here,
we
review
literature
assess
potential
impact
domestication
has
had
current
understanding
genetic
basis
microbiome
variation
inform
efforts.
Overall,
find
evidence
impacts
diversity
microbiomes,
but
shifts
abundance
composition
taxa
known
functional
significance.
Moreover,
genome-wide
association
studies
mutant
analysis
revealed
consistent
set
core
candidate
genes
or
pathways
confer
microbiomes
across
systems.
However,
such
do
implicate
role
immunity,
root
traits,
leaf
exudates
cell
wall
integrity
as
key
control
colonization
assembly.
Therefore,
these
may
pose
most
immediate
enhancing
through
breeding.
The Plant Journal,
Journal Year:
2020,
Volume and Issue:
105(2), P. 518 - 541
Published: Dec. 18, 2020
Summary
The
interaction
of
plants
with
complex
microbial
communities
is
the
result
co‐evolution
over
millions
years
and
contributed
to
plant
transition
adaptation
land.
ability
be
an
essential
part
highly
dynamic
ecosystems
dependent
on
their
diverse
communities.
Plant
microbiota
can
support,
even
enable,
functions
are
crucial
in
sustaining
fitness
under
often
rapidly
changing
environments.
composition
diversity
differs
between
soil
compartments.
It
indicates
that
these
compartments
not
static
but
adjusted
by
environment
as
well
inter‐microbial
plant–microbe
communication.
Hormones
take
a
role
contributing
assembly
microbiomes,
microbes
employ
same
hormones
completely
different
intentions.
Here,
function
go‐betweens
influence
shape
discussed.
versatility
microbe‐derived
essentially
contributes
creation
habitats
origin
and,
thus,
multifunctionality
plants,
ultimately
ecosystems.
New Phytologist,
Journal Year:
2021,
Volume and Issue:
234(6), P. 1977 - 1986
Published: Dec. 18, 2021
Summary
Plants
form
complex
interaction
networks
with
diverse
microbiomes
in
the
environment,
and
intricate
interplay
between
plants
their
associated
can
greatly
influence
ecosystem
processes
functions.
The
phyllosphere,
aerial
part
of
plant,
provides
a
unique
habitat
for
microbes,
return
phyllosphere
microbiome
affects
plant
performance.
As
an
open
system,
is
subjected
to
environmental
perturbations,
including
global
change,
which
will
impact
crosstalk
microbiomes.
In
this
review,
we
aim
provide
synthesis
current
knowledge
interactions
under
changes
identify
future
priority
areas
research
on
topic.
Journal of Agricultural and Food Chemistry,
Journal Year:
2022,
Volume and Issue:
70(16), P. 4860 - 4870
Published: April 18, 2022
The
leaves
of
plants
are
colonized
by
various
microorganisms.
In
comparison
to
the
rhizosphere,
less
is
known
about
characteristics
and
ecological
functions
phyllosphere
Phyllosphere
microorganisms
mainly
originate
from
soil,
air,
seeds.
composition
affected
abiotic
factors.
execute
multiple
influencing
leaf
longevity,
seed
mass,
fruit
development,
homeostasis
host
growth.
A
plant
can
respond
secondary
metabolite
secretion
its
immune
system.
Meanwhile,
play
an
important
role
in
stability
environmental
safety
assessment.
However,
as
a
result
instability
environment
poor
cultivability
current
research,
there
still
many
limitations,
such
lack
insight
into
mechanisms
plant–microorganism
interactions,
roles
growth
processes,
responses
metabolites,
etc.
This
review
summarizes
latest
progress
made
research
recent
years.
beneficial
for
deepening
our
understanding
promoting
plant–atmosphere
pathogens,
biological
control.
Plants,
Journal Year:
2023,
Volume and Issue:
12(8), P. 1668 - 1668
Published: April 17, 2023
Bacteria
have
been
used
to
increase
crop
yields.
For
their
application
on
crops,
bacteria
are
provided
in
inoculant
formulations
that
continuously
changing,
with
liquid-
and
solid-based
products.
for
inoculants
mainly
selected
from
natural
isolates.
In
nature,
microorganisms
favor
plants
exhibit
various
strategies
succeed
prevail
the
rhizosphere,
such
as
biological
nitrogen
fixation,
phosphorus
solubilization,
siderophore
production.
On
other
hand,
maintain
beneficial
microorganisms,
exudation
of
chemoattractanst
specific
signaling
pathways
regulate
plant–bacteria
interactions.
Transcriptomic
approaches
helpful
attempting
elucidate
plant–microorganism
Here,
we
present
a
review
these
issues.
Plant Communications,
Journal Year:
2024,
Volume and Issue:
5(4), P. 100812 - 100812
Published: Jan. 11, 2024
The
Green
Revolution
of
the
mid-20th
century
transformed
agriculture
worldwide
and
has
resulted
in
environmental
challenges.
A
new
approach,
Second
Revolution,
seeks
to
enhance
agricultural
productivity
while
minimizing
negative
impacts.
Plant
microbiomes
play
critical
roles
plant
growth
stress
responses,
understanding
plant-microbiome
interactions
is
essential
for
developing
sustainable
practices
that
meet
food
security
safety
challenges,
which
are
among
United
Nations
Sustainable
Development
Goals.
This
review
provides
a
comprehensive
exploration
key
deterministic
processes
crucial
microbiome
management
strategies,
including
host
effect,
facilitator
microbe-microbe
interactions.
hierarchical
framework
modulation
proposed
bridge
gap
between
basic
research
applications.
emphasizes
three
levels
modulation:
single
strain,
synthetic
community,
situ
modulation.
Overall,
rational
wide-ranging
applications
can
potentially
be
core
technology
Revolution.
New Phytologist,
Journal Year:
2021,
Volume and Issue:
232(2), P. 502 - 509
Published: July 21, 2021
Summary
Breeders
and
evolutionary
geneticists
have
grappled
with
the
complexity
of
‘genotype‐to‐phenotype
map’
for
decades.
Now,
recent
studies
highlight
relevance
this
concept
understanding
heritability
plant
microbiomes.
Because
host
phenotype
is
a
more
proximate
cause
microbiome
variation
than
genotype,
varies
across
anatomy
development.
Fine‐scale
traits
within
organs
suggests
that
well‐established
‘microbiome
compartment’
should
be
refined.
Additionally,
work
shows
balance
deterministic
processes
(including
genetic
effects)
vs
stochastic
also
over
time
space.
Together,
these
findings
suggest
re‐centering
–
both
as
predictor
readout
function
will
accelerate
new
insights
into
heritability.
