Plant Signaling & Behavior,
Год журнала:
2022,
Номер
17(1)
Опубликована: Авг. 9, 2022
The
interaction
of
silicon
and
soil
microorganisms
stimulates
crop
enhancement
to
ensure
sustainable
agriculture.
Silicon
may
potentially
increase
nutrient
availability
in
rhizosphere
with
improved
plants'
growth,
development
as
it
does
not
produce
phytotoxicity.
rhizospheric
microbiome
accommodates
a
variety
microbial
species
that
live
small
area
directly
associated
the
hidden
half
system.
Plant
growth-promoting
rhizobacteria
(PGPR)
play
major
role
plant
response
adverse
climatic
conditions.
PGPRs
enhance
quality,
productivity
crops,
mitigate
abiotic
stresses
by
reprogramming
stress-induced
physiological
variations
plants
via
different
mechanisms,
such
synthesis
indole-3-acetic
acid,
1-aminocyclopropane-1-carboxylate
deaminase,
exopolysaccharides,
volatile
organic
compounds,
atmospheric
nitrogen
fixation,
phosphate
solubilization.
Our
article
eye
upon
interactions
microbes
which
seems
be
an
opportunity
for
agriculture
series
crops
cropping
systems
years
come,
essential
safeguard
food
security
masses.
Microbiological Research,
Год журнала:
2021,
Номер
245, С. 126690 - 126690
Опубликована: Янв. 8, 2021
The
rhizosphere
microbiome
is
composed
of
diverse
microbial
organisms,
including
archaea,
viruses,
fungi,
bacteria
as
well
eukaryotic
microorganisms,
which
occupy
a
narrow
region
soil
directly
associated
with
plant
roots.
interactions
between
these
microorganisms
and
the
can
be
commensal,
beneficial
or
pathogenic.
These
also
interact
each
other,
either
competitively
synergistically.
Promoting
growth
by
harnessing
holds
tremendous
potential
for
providing
an
environmentally
friendly
solution
to
increasing
food
demands
world's
rapidly
growing
population,
while
helping
alleviate
environmental
societal
issues
large-scale
production.
There
recently
have
been
many
studies
on
disease
suppression
promoting
abilities
microbiome;
however,
findings
largely
not
translated
into
field.
Therefore,
additional
research
dynamic
crop
plants,
environment
are
necessary
better
guide
increase
yield
quality.
This
review
explores
biotic
abiotic
that
occur
within
plant's
current
agricultural
practices,
how
factors,
human
impact
microbiome.
Additionally,
some
limitations,
safety
considerations,
future
directions
study
discussed.
Agronomy,
Год журнала:
2021,
Номер
11(8), С. 1552 - 1552
Опубликована: Авг. 3, 2021
Among
the
environmental
factors,
soil
salinity
is
one
of
most
detrimental
factors
affecting
plant
growth
and
productivity.
Nutritional-imbalance
also
known
as
negative
effects
on
essential
nutrients,
phosphorus
(P)
a
nutrient
in
which
uptake,
transport,
distribution
adversely
affected
by
salinity-stress.
Salinity-stress-mediated
low
P
availability
limits
crop
production.
Adding
additional
fertilizer
generally
recommended
to
manage
deficit
saline-soils;
however,
low-efficiency
available
use
salt-affected
soils,
restricts
availability,
fertilizers
are
cause
significant
concerns.
The
application
salinity-tolerant
phosphate–solubilizing-bacteria
(ST-PSB)
can
be
greatly
effective
economical
way
improve
recover
P-deficit
saline-land.
This
review
focuses
salinization
its
effect
mechanisms
solubilization
ST-PSB,
ST-PSB
diversity,
their
role
alleviating
stress
plants,
current
future
scenarios
use,
potential
this
knowledge
sustainable
system.
According
review,
adding
saline
soils
could
an
alternative
for
plants
may
ameliorate
tolerance.
Sustainability,
Год журнала:
2022,
Номер
14(1), С. 490 - 490
Опубликована: Янв. 3, 2022
Agriculture
is
the
best
foundation
for
human
livelihoods,
and,
in
this
respect,
crop
production
has
been
forced
to
adopt
sustainable
farming
practices.
However,
soil
salinity
severely
affects
growth,
degradation
of
quality,
and
fertility
many
countries
world.
This
results
loss
profitability,
growth
agricultural
yields,
step-by-step
decline
nutrient
content.
Thus,
researchers
have
focused
on
searching
halotolerant
plant
growth-promoting
bacteria
(PGPB)
increase
productivity.
The
beneficial
are
frequently
connected
with
rhizosphere
can
alleviate
under
stress
through
direct
or
indirect
mechanisms.
In
context,
PGPB
attained
a
unique
position.
responses
include
an
increased
rate
photosynthesis,
high
antioxidants,
osmolyte
accumulation,
decreased
Na+
ions,
maintenance
water
balance,
germination
rate,
well-developed
root
shoot
elongation
salt-stress
conditions.
Therefore,
use
as
bioformulations
emerging
research
avenue
last
few
years,
applications
biopesticides
biofertilizers
being
considered
alternative
tools
agriculture,
they
ecofriendly
minimize
all
kinds
stresses.
Halotolerant
possess
greater
potential
salinity-affected
bioinoculants
bioremediation
salt-affected
soil.
Frontiers in Plant Science,
Год журнала:
2023,
Номер
13
Опубликована: Янв. 12, 2023
Soil
salinity,
a
growing
issue
worldwide,
is
detrimental
consequence
of
the
ever-changing
climate,
which
has
highlighted
and
worsened
conditions
associated
with
damaged
soil
quality,
reduced
agricultural
production,
decreasing
land
areas,
thus
resulting
in
an
unsteady
national
economy.
In
this
review,
halo-tolerant
plant
growth-promoting
rhizo-microbiomes
(PGPRs)
are
evaluated
salinity-affected
agriculture
as
they
serve
excellent
agents
controlling
various
biotic–abiotic
stresses
help
augmentation
crop
productivity.
Integrated
efforts
these
effective
microbes
lighten
load
agro-chemicals
on
environment
while
managing
nutrient
availability.
PGPR-assisted
modern
practices
have
emerged
green
strategy
to
benefit
sustainable
farming
without
compromising
yield
under
salinity
well
supplementary
including
increased
temperature,
drought,
potential
invasive
pathogenicity.
PGPRs
bio-inoculants
impart
induced
systemic
tolerance
(IST)
plants
by
production
volatile
organic
compounds
(VOCs),
antioxidants,
osmolytes,
extracellular
polymeric
substances
(EPS),
phytohormones,
ACC-deaminase
recuperation
nutritional
status
ionic
homeostasis.
Regulation
PGPR-induced
signaling
pathways
such
MAPK
CDPK
assists
stress
alleviation.
The
“Next
Gen
Agriculture”
consists
application
designer
microbiomes
through
gene
editing
tools,
for
instance,
CRISPR,
engineering
metabolic
so
gain
maximum
resistance.
utilization
omics
technologies
over
traditional
approaches
can
fulfill
criteria
required
increase
yields
manner
feeding
burgeoning
population
augment
adaptability
climate
change
conditions,
ultimately
leading
improved
vitality.
Furthermore,
constraints
specificity
PGPR,
lack
acceptance
farmers,
legal
regulatory
aspects
been
acknowledged
also
discussing
future
trends
product
commercialization
view
changing
climate.
Frontiers in Microbiology,
Год журнала:
2023,
Номер
14
Опубликована: Фев. 28, 2023
Several
seed
priming
methods
can
be
used
to
improve
germination,
seedling
vigor,
and
overcome
abiotic
stress.
In
addition
these
benefits,
only
the
biopriming
method
provides
additional
benefit
of
biotic
stress
management,
earning
it
special
attention.
Seed
is
useful
in
almost
all
crops
around
world
an
environmentally
friendly
alternative
chemical
fungicides.
Biopriming
usually
refers
use
beneficial
microorganisms,
particular
plant
growth-promoting
bacteria
(PGPB)
able
survive
under
various
harsh
environmental
conditions.
this
study,
bacterial
strains
were
isolated
from
samples
different
origins,
i.e.,
rhizospheric
soil,
desert
sand,
sea
mud.
Preliminary
screening
156
isolates
was
conducted
on
basis
their
potassium
(K),
phosphorus
(P)
solubilization
ability,
production
growth
hormone,
indole
acetic
acid
(IAA).
The
most
efficient
identified
by
16S
rRNA
gene
nucleotide
sequences
further
examined
for
ACC
deaminase
activity,
ammonia
production,
biocontrol
activity
(defined
via
chitinolytic
HCN,
siderophores
production).
Finally,
carrot
germination
assay
with
10
shortlisted
potent
isolates.
68.6,
58.3,
66.7%
tested
capable
P,
K,
Zn
solubilization,
respectively.
Klebsiella
aerogenes
AF3II1
showed
highest
P
K
while
isolate
AF4II5,
AF7II3,
PC3
IAA
synthesis
ability.
Serratia
plymuthica
EDC15
Pseudomonas
putida
AF1I1
strongest
siderophore
Seven
demonstrated
strong
HCN
Five
improved
germination.
Only
selected
properties
results
study
demonstrate
that
mainly
auxins
are
involved
Furthermore,
data
suggest
phosphate
ability
may
play
role
Plant Stress,
Год журнала:
2024,
Номер
12, С. 100482 - 100482
Опубликована: Май 14, 2024
Due
to
climate
change,
expansion
of
salt-affected
arable
lands
has
emerged
as
a
major
threat
global
food
security
and
agricultural
sustainability.
Conventional
crop
breeding
programs
have
proven
insufficient
for
mitigating
the
risks
salt
stress
in
soil
productivity.
Research
on
improving
health
tolerance
boost
yield
performance
under
by
plant-associated
microbiomes
gained
considerable
attention
over
past
few
decades.
In
addition
rehabilitation
salt-degraded
soils,
halotolerant
plant
growth-promoting
rhizobacteria
(HT-PGPR)
are
effective
stimulating
growth,
nutritional
values
yields,
increasing
tolerance/resistance
abiotic/biotic
conditions
plants.
To
alleviate
salinity
stress,
HT-PGPR
employ
wide
range
mechanisms,
including
production
secondary
metabolites
siderophores,
synthesis
phytohormones
enzymes,
maintenance
ion
homeostasis,
nutrient
availability
Because
our
goal
is
continuously
improve
understanding
their
impact
agriculture,
current
review
addresses
challenges
associated
with
salinity,
updates
scientific
community
solutions
(e.g.,
HT-PGPR)
sustainable
agriculture
farming
practices.
Frontiers in Microbiology,
Год журнала:
2020,
Номер
11
Опубликована: Окт. 22, 2020
Soil
salinization
has
emerged
as
one
of
the
prime
environmental
constraints
endangering
soil
quality
and
agricultural
productivity.
Anthropogenic
activities
coupled
with
rapid
pace
climate
change
are
key
drivers
salinity
resulting
in
degradation
lands.
Increasing
levels
salt
not
only
impair
structure
its
microbial
biomass
but
also
restrict
plant
growth
by
causing
imbalances
metabolic
disorders.
Potential
secondary
metabolites
synthesized
halotolerant
promoting
rhizobacteria
(HT-PGPR)
management
stress
crops
is
gaining
importance.
A
wide
array
such
osmoprotectants/compatible
solutes,
exopolysaccharides
(EPS)
volatile
organic
compounds
(VOCs)
from
HT-PGPR
have
been
reported
to
play
crucial
roles
ameliorating
them
their
symbiotic
partners.
In
addition,
help
prompt
buffering
act
biological
engineers
enhancing
productivity
saline
soils.
The
review
documents
prominent
role
modulating
genetic
responses
stress.
highlights
mechanisms
involved
production
conditions.
Utilizing
for
development
novel
bioinoculants
agro-ecosystems
can
be
an
important
strategy
future.
Microorganisms,
Год журнала:
2021,
Номер
9(4), С. 682 - 682
Опубликована: Март 26, 2021
As
a
major
food
crop,
rice
(Oryza
sativa)
is
produced
and
consumed
by
nearly
90%
of
the
population
in
Asia
with
less
than
9%
outside
Asia.
Hence,
reports
on
large
scale
grain
losses
were
alarming
resulted
heightened
awareness
importance
plants’
health
increased
interest
against
phytopathogens
rice.
To
serve
this
interest,
review
will
provide
summary
bacterial
pathogens,
which
can
potentially
be
controlled
plant
growth-promoting
bacteria
(PGPB).
Additionally,
highlights
PGPB-mediated
functional
traits,
including
biocontrol
pathogens
enhancement
plant’s
growth.
Currently,
plethora
recent
studies
address
use
PGPB
to
combat
an
attempt
replace
existing
methods
chemical
fertilizers
pesticides
that
often
lead
environmental
pollutions.
tool
presented
itself
as
promising
alternative
improving
simultaneously
controlling
vitro
field/greenhouse
studies.
PGPB,
such
Bacillus,
Pseudomonas,
Enterobacter,
Streptomyces,
are
now
very
well-known.
Applications
bioformulations
found
effective
productivity
eco-friendly
agroecosystems.
