Environmental Science and Pollution Research,
Journal Year:
2023,
Volume and Issue:
30(53), P. 113119 - 113137
Published: Oct. 18, 2023
Abstract
Currently,
sustainable
agriculture
involves
ecofriendly
techniques,
which
include
biofertilization.
Biofertilizers
increase
plant
productivity
by
improving
soil
fertility
and
nutrient
content.
A
wide
range
of
living
organisms
can
be
applied
as
biofertilizers
without
causing
pollution
due
to
their
biodegradability.
The
microorganisms
like
bacteria,
microalgae,
micro
fungi
or
macro
macroalgae,
fungi,
higher
plants.
extracted
from
residues
will
increasingly
used
rather
than
chemical
fertilizers,
cause
heavy
metal
accumulation
in
soil.
Biofertilizer
use
aims
for
development
maintaining
the
This
mitigate
climate
change
related
impacts
also
lower
many
serious
diseases
resulting
such
cancer,
liver
renal
failure,
immune
diseases.
review
is
a
comprehensive
overview
Kingdoms
Monera
Plantae
included
algae,
Organisms
that
play
vital
role
elevating
nutrients
safe,
cheap,
manner
are
promote
potential
commercial
application.
Applied Sciences,
Journal Year:
2022,
Volume and Issue:
12(3), P. 1198 - 1198
Published: Jan. 24, 2022
The
present
paper
reviews
the
most
recent
advances
regarding
effects
of
chemical
and
organic
fertilizers
on
soil
microbial
communities.
Based
results
from
articles
considered,
some
details
are
presented
how
use
various
types
affects
composition
activity
Soil
microbes
have
different
responses
to
fertilization
based
differences
in
total
carbon
(C),
nitrogen
(N)
phosphorus
(P)
contents
soil,
along
with
moisture
presence
plant
species.
These
show
that
changes
abundance
populations
stimulates
their
growth
thanks
nutrient
supply
added.
Overall,
however,
data
revealed
no
significant
influence
richness
diversity
bacteria
fungi.
Instead,
individual
bacterial
or
fungal
species
was
sensitive
mainly
attributed
properties
induced
by
fertilization.
Among
negative
fertilization,
decrease
enzymatic
has
been
highlighted
several
papers,
especially
soils
received
largest
amounts
together
losses
matter.
Plant Stress,
Journal Year:
2023,
Volume and Issue:
11, P. 100341 - 100341
Published: Dec. 28, 2023
Through
a
variety
of
mechanisms,
including
increasing
the
amount
readily
available
mineral
nutrients,
regulating
phytohormone
levels,
and
biocontrol
phytopathogens,
plant
growth-promoting
rhizobacteria
(PGPR)
associated
with
rhizosphere
either
directly
or
indirectly
stimulates
growth
development.
The
establishment,
survival,
persistence
PGPR
inoculants
are
widely
acknowledged
to
be
contingent
upon
these
two
parameters,
in
addition
intricate
network
interactions
within
rhizosphere.
In
general,
soil
is
moist
environment
significant
amounts
carbon
that
have
been
degraded
harbors
large
population
microbes.
rhizo-microbiome
crucial
agriculture
because
wide
root
exudates
cell
debris
attract
unique
distinct
patterns
microbial
colonization.
plays
role
manufacture
regulation
extracellular
molecules,
hormones,
secondary
metabolites,
antibiotics,
various
signaling
chemicals.
Additionally,
composition
influences
texture
enhancement.
Research
has
shown
can
used
treat
plants
inoculate
promote
alters
physiology
entire
plant,
which
enhances
nutrient
uptake
affects
effectiveness
activity.
specific
biochemical
processes
involved
this
phenomenon
often
not
well
understood.
Nevertheless,
new
studies
shed
light
on
mechanisms
via
by
induce
responses,
both
at
local
systemic
levels.
Insufficient
information
regarding
impact
mechanism
molecules
metabolic
pathways
characteristics.
Consequently,
review
will
concentrate
elucidating
identifying
essential
exert
influence
root-microbe
interactions.
Environmental and Experimental Botany,
Journal Year:
2023,
Volume and Issue:
212, P. 105397 - 105397
Published: May 29, 2023
Soil
salinization
is
an
important
global
issue
since
marginal
salt-affected
soils
have
harmful
consequences
in
agriculture
and
ecosystems.
This
article
reviews
different
sustainable
strategies
adopted
for
soil
reclamation
Mediterranean
climates.
An
innovative
approach
to
salinity
management
includes
a
wide
range
of
technologies,
such
as:
phytoremediation,
phytodesalination,
vegetative
bioremediation,
amendments
application
Technosols
as
well
inoculation
with
beneficial
microorganisms
like
plant
growth
promoting
bacteria
arbuscular
mycorrhizal
fungi.
Besides
that,
the
role
halophyte
crops
accelerating
area's
recovery
while
providing
food
feed,
halophilic
new
bioinoculant
production,
are
discussed.
We
conclude
that
combined
use
plant,
soil-
microbial-based
technologies
valuable
option
relieve
saline
stress
exposure
improve
yield
conditions.
Frontiers in Plant Science,
Journal Year:
2023,
Volume and Issue:
13
Published: Jan. 13, 2023
The
microbial
diseases
cause
significant
damage
in
agriculture,
resulting
major
yield
and
quality
losses.
To
control
microbiological
promote
plant
growth,
a
number
of
chemical
agents
such
as
pesticides,
herbicides,
insecticides
are
available.
However,
the
rising
prevalence
has
led
to
unintended
consequences
for
agricultural
quality,
environmental
devastation,
human
health.
Chemical
not
naturally
broken
down
by
microbes
can
be
found
soil
environment
long
after
natural
decomposition
occurred.
As
an
alternative
agents,
biocontrol
employed
manage
phytopathogens.
Interest
lactic
acid
bacteria
(LAB)
research
another
class
potentially
useful
against
phytopathogens
increased
recent
years.
Due
high
level
biosafety,
they
possess
processes
employ
stimulate
LAB
is
increasingly
being
recognized
viable
option.
This
paper
will
review
available
information
on
antagonistic
plant-promoting
capabilities
its
mechanisms
action
well
limitation
BCA.
aimed
at
underlining
benefits
inputs
from
potential
alternatives
usage
sustaining
crop
productivity.
Plants,
Journal Year:
2023,
Volume and Issue:
12(12), P. 2307 - 2307
Published: June 14, 2023
Microorganisms
are
an
important
element
in
modeling
sustainable
agriculture.
Their
role
soil
fertility
and
health
is
crucial
maintaining
plants'
growth,
development,
yield.
Further,
microorganisms
impact
agriculture
negatively
through
disease
emerging
diseases.
Deciphering
the
extensive
functionality
structural
diversity
within
plant-soil
microbiome
necessary
to
effectively
deploy
these
organisms
Although
both
plant
have
been
studied
over
decades,
efficiency
of
translating
laboratory
greenhouse
findings
field
largely
dependent
on
ability
inoculants
or
beneficial
colonize
maintain
stability
ecosystem.
its
environment
two
variables
that
influence
microbiome's
structure.
Thus,
recent
years,
researchers
looked
into
engineering
would
enable
them
modify
microbial
communities
order
increase
effectiveness
inoculants.
The
environments
believed
support
resistance
biotic
abiotic
stressors,
fitness,
productivity.
Population
characterization
manipulation,
as
well
identification
potential
biofertilizers
biocontrol
agents.
Next-generation
sequencing
approaches
identify
culturable
non-culturable
microbes
associated
with
expanded
our
knowledge
this
area.
Additionally,
genome
editing
multidisciplinary
omics
methods
provided
scientists
a
framework
engineer
dependable
high
yield,
resistance,
nutrient
cycling,
management
stressors.
In
review,
we
present
overview
agriculture,
engineering,
translation
technology
field,
main
used
by
laboratories
worldwide
study
microbiome.
These
initiatives
advancement
green
technologies
