Frontiers in Microbiology,
Journal Year:
2023,
Volume and Issue:
14
Published: Aug. 2, 2023
Plant-associated
microbes
include
taxonomically
diverse
communities
of
bacteria,
archaebacteria,
fungi,
and
viruses,
which
establish
integral
ecological
relationships
with
the
host
plant
constitute
phyto-microbiome.
The
phyto-microbiome
not
only
contributes
in
normal
growth
development
plants
but
also
plays
a
vital
role
maintenance
homeostasis
during
abiotic
stress
conditions.
Owing
to
its
immense
metabolic
potential,
provides
capability
mitigate
through
various
mechanisms
like
production
antioxidants,
hormones,
bioactive
compounds,
detoxification
harmful
chemicals
toxins,
sequestration
reactive
oxygen
species
other
free
radicals.
A
deeper
understanding
structure
functions
complex
mediated
mitigation
would
enable
utilization
for
alleviation
crop
stress-resistant
crops.
This
review
aims
at
exploring
potential
alleviate
drought,
heat,
salinity
heavy
metal
finding
sustainable
solutions
enhance
agricultural
productivity.
mechanistic
insights
into
phytomicrobiome
imparting
tolerance
have
been
summarized,
that
be
helpful
novel
bioinoculants.
high-throughput
modern
approaches
involving
candidate
gene
identification
target
modification
such
as
genomics,
metagenomics,
transcriptomics,
metabolomics,
based
genetic
engineering
discussed
wake
ever-increasing
demand
climate
resilient
plants.
Frontiers in Agronomy,
Journal Year:
2022,
Volume and Issue:
3
Published: Jan. 28, 2022
Plant
mutualistic
association
with
various
beneficial
microbes
is
referred
to
as
the
plant
enhancer
microbiome.
These
are
found
either
in
episphere
or
endosphere
of
tissues.
Several
pieces
evidence
have
highlighted
that
microbiomes
and
soil
play
a
pivotal
role
making
nutrient
balance
which
readily
available
plants
provide
strength
under
stresses.
Recently
different
technologies
relevant
microbiome
diversity
such
sequencing
technologies,
metagenomics,
bioinformatics
been
utilized.
Knowledge
about
factors
shape
composition
still
less
explored.
Here,
current
insights
into
issues
driving
above/below
microbial
diversities
Primarily,
we
address
distribution
communities
above
below
ground
across
habitats
has
benefitted
plants.
Microbial
efficient
regulators
biogeochemical
cycle
better
approach
mitigate
changing
climatic
patterns
aids
proper
utilization
greenhouse
gases
for
their
metabolic
mechanisms.
The
present
review
thereby
significant
assessing
mitigation
toward
climate
change
multiple
avenues
plant-
microbe
interaction
commuting
scenario.
Finally,
summarize
promote
structure
Microorganisms,
Journal Year:
2022,
Volume and Issue:
10(1), P. 150 - 150
Published: Jan. 12, 2022
Plants
and
their
microbiomes,
including
plant
growth-promoting
bacteria
(PGPB),
can
work
as
a
team
to
reduce
the
adverse
effects
of
different
types
stress,
drought,
heat,
cold,
heavy
metals
stresses,
well
salinity
in
soils.
These
abiotic
stresses
are
reviewed
here,
with
an
emphasis
on
its
negative
consequences
crops,
due
wide
presence
cultivable
soils
around
world.
Likewise,
factors
that
stimulate
impact
microbial
diversity
physiology
were
also
analyzed.
In
addition,
saline
exist
Mexico
analyzed
case
study.
We
made
some
proposals
for
more
extensive
use
bacterial
bioinoculants
agriculture,
particularly
developing
countries.
Finally,
PGPB
highly
relevant
extremely
helpful
counteracting
toxic
soil
improving
crop
growth
production;
therefore,
should
be
intensively
promoted.
Frontiers in Microbiology,
Journal Year:
2023,
Volume and Issue:
14
Published: Aug. 2, 2023
Plant-associated
microbes
include
taxonomically
diverse
communities
of
bacteria,
archaebacteria,
fungi,
and
viruses,
which
establish
integral
ecological
relationships
with
the
host
plant
constitute
phyto-microbiome.
The
phyto-microbiome
not
only
contributes
in
normal
growth
development
plants
but
also
plays
a
vital
role
maintenance
homeostasis
during
abiotic
stress
conditions.
Owing
to
its
immense
metabolic
potential,
provides
capability
mitigate
through
various
mechanisms
like
production
antioxidants,
hormones,
bioactive
compounds,
detoxification
harmful
chemicals
toxins,
sequestration
reactive
oxygen
species
other
free
radicals.
A
deeper
understanding
structure
functions
complex
mediated
mitigation
would
enable
utilization
for
alleviation
crop
stress-resistant
crops.
This
review
aims
at
exploring
potential
alleviate
drought,
heat,
salinity
heavy
metal
finding
sustainable
solutions
enhance
agricultural
productivity.
mechanistic
insights
into
phytomicrobiome
imparting
tolerance
have
been
summarized,
that
be
helpful
novel
bioinoculants.
high-throughput
modern
approaches
involving
candidate
gene
identification
target
modification
such
as
genomics,
metagenomics,
transcriptomics,
metabolomics,
based
genetic
engineering
discussed
wake
ever-increasing
demand
climate
resilient
plants.
