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.
Plants,
Год журнала:
2021,
Номер
10(1), С. 110 - 110
Опубликована: Янв. 7, 2021
A
pot
experiment
was
designed
and
performed
in
a
completely
randomized
block
design
(CRBD)
to
determine
the
main
effect
of
two
plant
growth-promoting
rhizobacteria
(PGPR)
their
co-inoculation
on
growth
criteria
physio-biochemical
attributes
canola
plants
(Brassica
napus
L.)
grown
saline
soil.
The
results
showed
that
inoculation
with
PGPR
(Azotobacter
chroococcum
and/or
Alcaligenes
faecalis)
energized
parameters
photosynthetic
pigments
stressed
plants.
Moreover,
soluble
sugars’
proteins’
contents
were
boosted
due
treatments
mentioned
above.
Proline,
malondialdehyde
(MDA),
hydrogen
peroxide
(H2O2)
markedly
declined.
At
same
time,
antioxidant
enzymes,
viz.
superoxide
dismutase
(SOD),
ascorbate
peroxidase
(APX),
(POD),
augmented
Azotobacter
faecalis.
Regarding
minerals’
uptake,
there
decline
sodium
(Na)
an
increase
nitrogen
(N),
potassium
(K),
calcium
(Ca),
magnesium
(Mg)
uptake
application
either
individual
or
bacterial
isolates.
This
study
faecalis
most
effective
treatment
could
be
considered
premium
tool
used
facing
environmental
problems,
especially
soils.
Microorganisms,
Год журнала:
2021,
Номер
9(9), С. 1841 - 1841
Опубликована: Авг. 30, 2021
Combating
the
consequences
of
climate
change
is
extremely
important
and
critical
in
context
feeding
world’s
population.
Crop
simulation
models
have
been
extensively
studied
recently
to
investigate
impact
on
agricultural
productivity
food
security.
Drought
salinity
are
major
environmental
stresses
that
cause
changes
physiological,
biochemical,
molecular
processes
plants,
resulting
significant
crop
losses.
Excessive
use
chemicals
has
become
a
severe
threat
human
health
environment.
The
beneficial
microorganisms
an
environmentally
friendly
method
increasing
yield
under
stress
conditions.
These
microbes
enhance
plant
growth
through
various
mechanisms
such
as
production
hormones,
ACC
deaminase,
VOCs
EPS,
modulate
hormone
synthesis
other
metabolites
plants.
This
review
aims
decipher
effect
promoting
bacteria
(PGPB)
abiotic
soil
associated
with
global
(viz.,
drought
salinity).
application
stress-resistant
PGPB
may
not
only
help
combating
effects
stressors,
but
also
lead
mitigation
change.
More
thorough
level
studies
needed
future
assess
their
cumulative
influence
development.
PeerJ,
Год журнала:
2022,
Номер
10, С. e13405 - e13405
Опубликована: Май 31, 2022
Food
safety
is
a
significant
challenge
worldwide,
from
plantation
to
cultivation,
especially
for
perishable
products
such
as
tomatoes.
New
eco-friendly
strategies
are
needed,
and
beneficial
microorganisms
might
be
sustainable
solution.
This
study
demonstrates
bacteria
activity
in
the
tomato
plant
rhizosphere.
Further,
it
investigates
rhizobacteria’s
structure,
function,
diversity
soil.
Rhizobacteria
that
promote
growth
development
of
plants
referred
growth-promoting
(PGPR).
They
form
series
associations
with
other
organisms
soil
through
mutualistic
relationship
where
both
parties
benefit
living
together.
It
implies
antagonistic
activities
rhizobacteria
deter
pathogens
invading
their
roots.
Some
PGPR
regarded
biological
control
agents
hinder
spoilage
can
act
an
alternative
agricultural
chemicals
may
detrimental
health
humans,
animals,
some
microbes
rhizosphere
These
also
help
acquire
essential
nutrients
like
potassium
(K),
magnesium
(Mg),
phosphorus
(P),
nitrogen
(N).
offer
solution
low
production
tackle
food
insecurity
farming
problems.
In
this
review,
overview
soil-inhabiting
focused
on
improving
Solanum
lycopersicum
.
Agriculture,
Год журнала:
2023,
Номер
13(1), С. 168 - 168
Опубликована: Янв. 9, 2023
Soil
salinity
is
one
of
the
major
abiotic
constraints
in
agricultural
ecosystems
worldwide.
High
levels
have
negative
impacts
on
plant
growth
and
yield,
affect
soil
physicochemical
properties.
Salinity
also
has
adverse
effects
distribution
abundance
microorganisms.
problems
previously
been
addressed
research,
but
most
approaches,
such
as
breeding
for
salt
tolerant
varieties
amelioration,
are
expensive
require
years
efforts.
Halotolerant
growth-promoting
rhizobacteria
(HT-PGPR)
secrete
secondary
metabolites,
including
osmoprotectants,
exopolysaccharides,
volatile
organic
compounds.
The
importance
these
compounds
promoting
reducing
under
stress
now
widely
recognised.
HT-PGPR
emerging
effective
biological
strategies
mitigating
harmful
high
salinity;
improving
growth,
development,
yield;
remediating
degraded
saline
soils.
This
review
describes
beneficial
mechanisms
various
HT-PGPR,
which
carried
out
by
maintaining
ion
homeostasis,
increasing
nutrient
availability,
producing
hormones,
Exploring
suitable
applications
agriculture
production
systems
can
play
a
crucial
role
sustainable
crop
productivity.
Scientific Reports,
Год журнала:
2021,
Номер
11(1)
Опубликована: Май 6, 2021
Fungicides
among
agrochemicals
are
consistently
used
in
high
throughput
agricultural
practices
to
protect
plants
from
damaging
impact
of
phytopathogens
and
hence
optimize
crop
production.
However,
the
negative
fungicides
on
composition
functions
soil
microbiota,
via
food
chain,
human
health
is
a
matter
grave
concern.
Considering
such
agrochemical
threats,
present
study
was
undertaken
know
that
how
fungicide-tolerant
symbiotic
bacterium,
Mesorhizobium
ciceri
affects
Cicer
arietinum
while
growing
kitazin
(KITZ)
stressed
soils
under
greenhouse
conditions.
Both
vitro
systems,
KITZ
imparted
deleterious
impacts
C.
as
function
dose.
The
three-time
more
normal
rate
dose
detrimentally
but
maximally
reduced
germination
efficiency,
vigor
index,
dry
production,
features,
leaf
pigments
seed
attributes
arietinum.
KITZ-induced
morphological
alterations
root
tips,
oxidative
damage
cell
death
cells
were
visible
scanning
electron
microscope
(SEM).
M.
tolerated
up
2400
µg
mL
