International Journal of Molecular Sciences,
Год журнала:
2021,
Номер
22(13), С. 6852 - 6852
Опубликована: Июнь 25, 2021
Plants
host
diverse
but
taxonomically
structured
communities
of
microorganisms,
called
microbiome,
which
colonize
various
parts
plants.
Plant-associated
microbial
have
been
shown
to
confer
multiple
beneficial
advantages
their
plants,
such
as
nutrient
acquisition,
growth
promotion,
pathogen
resistance,
and
environmental
stress
tolerance.
Systematic
studies
provided
new
insights
into
the
economically
ecologically
important
hubs
core
microbiota
revealed
impacts
on
Microbiome
engineering,
can
improve
functional
capabilities
native
species
under
challenging
agricultural
ambiance,
is
an
emerging
biotechnological
strategy
crop
yield
resilience
against
variety
constraints
both
biotic
abiotic
nature.
This
review
highlights
importance
indigenous
in
improving
plant
health
pathogen-induced
stress.
Moreover,
potential
solutions
leading
towards
commercialization
proficient
bioformulations
for
sustainable
improved
production
are
also
described.
Critical Reviews in Biotechnology,
Год журнала:
2020,
Номер
40(8), С. 1210 - 1231
Опубликована: Авг. 30, 2020
Endophytic
microbes
are
present
in
nearly
all
of
the
plant
species
known
to
date
but
how
they
enter
and
flourish
inside
a
host
display
multiple
benefits
like
growth
promotion
(PGP),
biodegradation,
stress
alleviation
still
unexplored.
Until
now,
majority
research
has
been
conducted
assuming
that
host-endophyte
interaction
is
analogous
PGP
microbes,
although,
studies
related
mechanisms
their
infection,
colonization
as
well
conferring
important
traits
plants
limited.
It
would
be
fascinating
explore
role
these
endophytic
gene
expression,
metabolism,
modulation
phenotypic
traits,
under
abiotic
biotic
conditions.
In
this
review,
we
critically
focused
on
following
areas:
(i)
lifestyle
mechanism
entry
into
tissues,
(ii)
endophytes
modulate
immune
system
affect
genotypic
expression
condition,
(iii)
omics
other
integrated
genomic
approaches
unraveling
complex
signaling
crosstalk.
Furthermore,
discussed
phytoremediation
heavy
metal
whole
analysis
based
an
understanding
different
metabolic
pathways
utilize
combat
stress.
Plants,
Год журнала:
2021,
Номер
11(1), С. 109 - 109
Опубликована: Дек. 30, 2021
A
staggering
number
of
nanomaterials-based
products
are
being
engineered
and
produced
commercially.
Many
these
nanomaterials
(ENMs)
finally
disposed
into
the
soil
through
various
routes
in
enormous
quantities.
Nanomaterials
also
specially
tailored
for
their
use
agriculture
as
nano-fertilizers,
nano-pesticides,
nano-based
biosensors,
which
is
leading
to
accumulation
soil.
The
presence
ENMs
considerably
affects
microbiome,
including
abundance
diversity
microbes.
In
addition,
they
influence
crucial
microbial
processes,
such
nitrogen
fixation,
mineralization,
plant
growth
promoting
activities.
conduct
typically
dependent
on
properties
Among
nanoparticles,
silver
zinc
oxide
have
been
extensively
prepared
studied
owing
excellent
industrial
well-known
antimicrobial
Therefore,
at
this
stage,
it
imperative
understand
how
microbiome
related
processes.
These
investigations
will
provide
necessary
information
regulate
applications
sustainable
may
help
increasing
agrarian
production.
review
discusses
several
issues.
Frontiers in Plant Science,
Год журнала:
2020,
Номер
11
Опубликована: Дек. 11, 2020
Rock
powders
are
low-cost
potential
sources
of
most
the
nutrients
required
by
higher
plants
for
growth
and
development.
However,
slow
dissolution
rates
minerals
represent
an
obstacle
to
widespread
use
rock
in
agriculture.
Rhizosphere
processes
biological
weathering
may
further
enhance
mineral
since
interaction
between
minerals,
plants,
bacteria
results
release
macro-
micronutrients
into
soil
solution.
Plants
important
agents
this
process
acting
directly
or
sustaining
a
wide
diversity
microorganisms
root
environment.
Meanwhile,
promote
producing
complexing
ligands
(siderophores
organic
acids),
affecting
pH
(via
inorganic
acid
production),
performing
redox
reactions.
Besides
that,
variety
rhizosphere
fungi
could
also
plant
development
directly,
synergistically
contributing
activity
performed
plants.
The
inoculation
especially
combined
with
crushed
rocks,
can
increase
fertility
improve
crop
production.
This
approach
is
more
sustainable
than
conventional
fertilization
practices,
which
contribute
reducing
climate
change
linked
agricultural
activity.
Besides,
it
decrease
dependency
developing
countries
on
imported
fertilizers,
thus
improving
local
International Journal of Molecular Sciences,
Год журнала:
2021,
Номер
22(13), С. 6852 - 6852
Опубликована: Июнь 25, 2021
Plants
host
diverse
but
taxonomically
structured
communities
of
microorganisms,
called
microbiome,
which
colonize
various
parts
plants.
Plant-associated
microbial
have
been
shown
to
confer
multiple
beneficial
advantages
their
plants,
such
as
nutrient
acquisition,
growth
promotion,
pathogen
resistance,
and
environmental
stress
tolerance.
Systematic
studies
provided
new
insights
into
the
economically
ecologically
important
hubs
core
microbiota
revealed
impacts
on
Microbiome
engineering,
can
improve
functional
capabilities
native
species
under
challenging
agricultural
ambiance,
is
an
emerging
biotechnological
strategy
crop
yield
resilience
against
variety
constraints
both
biotic
abiotic
nature.
This
review
highlights
importance
indigenous
in
improving
plant
health
pathogen-induced
stress.
Moreover,
potential
solutions
leading
towards
commercialization
proficient
bioformulations
for
sustainable
improved
production
are
also
described.
