Total Environment Research Themes,
Год журнала:
2023,
Номер
6, С. 100044 - 100044
Опубликована: Май 17, 2023
Intensive
cultivation
of
vegetables
and
scarcity
clean
irrigation
water
has
resulted
in
the
increased
use
wastewater
for
worldwide,
especially
developing
countries.
In
this
review,
we
analyze
outline
drawbacks
such
practice
to
provide
information
on
ecological
human
health
risk
associated
with
suggested
a
way
forward.
For
our
review
reflect
best
technological
advances
state-of-the-art
terms,
articles
published
last
decade
were
considered.
The
started
by
highlighting
growing
concern
countries,
sources
wastewater,
how
farmers
utilize
irrigation,
limitations
existing
studies.
It
then
proceeds
in-depth
look
at
benefits
using
recent
diseases
discovered
due
knowledge
alteration
soil
physical
chemical
properties
resulting
from
heavy
metals
contamination
food
crops
assessment
finally
proposed
novel
approach
irrigation.
terms
benefits,
more
emphasis
was
focused
economic
environmental
while
also
health.
We
have
highlighted
wastewater-borne
diseases,
paying
attention
ones
that
are
acute
chronic
risks.
soil's
properties,
put
its
effects
fertility
productivity.
critically
revealed
contaminating
because
discoursed
detail.
end,
special
consideration
given
formulation
sustainable
way,
avoiding
or
least
minimizing
becoming
rampant,
Frontiers in Microbiology,
Год журнала:
2022,
Номер
13
Опубликована: Июль 14, 2022
The
breaking
silence
between
the
plant
roots
and
microorganisms
in
rhizosphere
affects
growth
physiology
by
impacting
biochemical,
molecular,
nutritional,
edaphic
factors.
components
of
root
exudates
are
associated
with
microbial
population,
notably,
growth-promoting
rhizobacteria
(PGPR).
information
accessible
to
date
demonstrates
that
PGPR
is
specific
plant's
roots.
However,
inadequate
for
developing
bio-inoculation/bio-fertilizers
crop
concern,
satisfactory
results
at
field
level.
There
a
need
explore
perfect
candidate
meet
yield.
functions
their
chemotaxis
mobility
toward
triggered
cluster
genes
induced
exudates.
Some
reports
have
indicated
benefit
productivity,
yet
methodical
examination
rhizosecretion
its
consequences
phytoremediation
not
been
made.
In
light
afore-mentioned
facts,
present
review,
mechanistic
insight
recent
updates
on
recruitment
improve
production
level
methodically
addressed.
Sustainability,
Год журнала:
2022,
Номер
14(2), С. 914 - 914
Опубликована: Янв. 14, 2022
The
climate
is
one
of
the
key
elements
impacting
several
cycles
connected
to
soil
and
plant
systems,
as
well
production,
quality,
environmental
quality.
Due
heightened
human
activity,
rate
CO2
rising
in
atmosphere.
Changing
climatic
conditions
(such
temperature,
CO2,
precipitation)
influence
nutrition
a
range
ways,
comprising
mineralization,
decomposition,
leaching,
losing
nutrients
soil.
Soil
carbon
sequestration
plays
an
essential
function—not
only
change
mitigation
but
also
nutrient
accessibility
fertility.
As
result,
there
significant
interest
globally
capture
from
atmospheric
via
plants.
Adopting
effective
management
methods
increasing
inputs
over
outputs
will
consequently
play
crucial
role
(SCseq)
nutrition.
boosting
agricultural
yield
necessary
for
food
security,
notoriously
developing
countries.
Several
unanswered
problems
remain
regarding
its
impacts
on
global
output,
which
be
elucidated
time.
This
review
provides
remarkable
pieces
information
about
changing
variables
(availability
uptake).
Additionally,
it
addresses
effect
sequestration,
mitigations,
how
relevant
practices
can
positively
this.
Frontiers in Plant Science,
Год журнала:
2022,
Номер
13
Опубликована: Авг. 23, 2022
With
the
increase
in
world
population,
demography
of
humans
is
estimated
to
be
exceeded
and
it
has
become
a
major
challenge
provide
an
adequate
amount
food,
feed,
agricultural
products
majorly
developing
countries.
The
use
chemical
fertilizers
causes
plant
grow
efficiently
rapidly
meet
food
demand.
drawbacks
using
higher
quantity
or
synthetic
are
environmental
pollution,
persistent
changes
soil
ecology,
physiochemical
composition,
decreasing
productivity
cause
several
health
hazards.
Climatic
factors
responsible
for
enhancing
abiotic
stress
on
crops,
resulting
reduced
productivity.
There
various
types
biotic
like
salinity,
drought,
wind,
improper
temperature,
heavy
metals,
waterlogging,
different
weeds
phytopathogens
bacteria,
viruses,
fungi,
nematodes
which
attack
plants,
reducing
crop
quality.
shift
toward
biofertilizers
due
all
these
facts,
nutrition
through
natural
processes
zinc,
potassium
phosphorus
solubilization,
nitrogen
fixation,
production
hormones,
siderophore,
hydrolytic
enzymes
protect
from
pathogens
conditions.
They
that
sufficient
healthy
development
fulfill
demand
increasing
population
worldwide,
eco-friendly
economically
convenient.
This
review
will
focus
their
mechanisms
action,
role
biotic/abiotic
tolerance.
Agronomy,
Год журнала:
2022,
Номер
12(9), С. 2069 - 2069
Опубликована: Авг. 30, 2022
Abiotic
stresses
are
the
most
significant
factors
reducing
agricultural
productivity.
Plants
face
extreme
environmental
conditions
that
may
affect
their
biological
mechanisms,
thereby
influencing
growth
and
development.
Microorganisms
possess
substantial
metabolites
aid
in
helping
plants
mitigate
abiotic
stresses.
Plants’
interaction
with
microbes
constitutes
a
diversified
ecosystem,
as
sometimes
both
partners
share
mutualistic
relationship.
Endophytes,
plant-growth-promoting
rhizobacteria
(PGPRs),
arbuscular
mycorrhizal
fungi
(AMFs)
examples
of
microorganisms
play
an
essential
role
alleviating
and,
hence,
improving
plant
growth.
The
plant–microbe
leads
to
modulation
complex
mechanisms
cellular
system.
Moreover,
residing
microbial
flora
also
inhibits
phytopathogens,
therefore,
it
becomes
part
plants’
innate
defense
Keeping
view
growing
concerns,
is
important
identify
microbiome
transportation
nutrients
maintain
sustainable
production.
Furthermore,
enabling
recruit
beneficial
species
how
deal
potential
pathogens.
Therefore,
this
review
aims
summarize
impacts
various
stressors
on
productivity
mitigating
negative
effects
literature
shows
microbes,
including
PGPRs,
AMFs,
endophytes,
adopt
for
ameliorating
It
has
been
observed
biochar
either
individually
or
combination,
can
maintaining
under
stress
conditions.
Although
conventional
inoculation
mitigates
enhances
productivity,
advancement
genetic
engineering
would
help
transfer
specific
genes
from
mitigation.
ACS Omega,
Год журнала:
2023,
Номер
8(25), С. 22296 - 22315
Опубликована: Июнь 16, 2023
The
modern
agricultural
system
has
issues
with
the
reduction
of
productivity
due
to
a
wide
range
abiotic
and
biotic
stresses.
It
is
also
expected
that
in
future
entire
world
population
may
rapidly
increase
will
surely
demand
more
food.
Farmers
now
utilize
massive
quantity
synthetic
fertilizers
pesticides
for
disease
management
food
production.
These
badly
affect
environment,
texture
soil,
plant
productivity,
human
health.
However,
safety
sustainability
depend
on
an
ecofriendly
inexpensive
biological
application.
In
contrast
fertilizers,
soil
inoculation
plant-growth-promoting
rhizobacteria
(PGPR)
one
excellent
alternative
options.
this
regard,
we
focused
best
PGPR
genera,
Pseudomonas,
which
exists
rhizosphere
as
well
inside
plant's
body
plays
role
sustainable
agriculture.
Many
Pseudomonas
spp.
control
pathogens
play
effective
through
direct
indirect
mechanisms.
fix
amount
atmospheric
nitrogen,
solubilize
phosphorus
potassium,
produce
phytohormones,
lytic
enzymes,
volatile
organic
compounds,
antibiotics,
secondary
metabolites
during
stress
conditions.
compounds
stimulate
growth
by
inducing
systemic
resistance
inhibiting
pathogens.
Furthermore,
pseudomonads
protect
plants
different
conditions
like
heavy
metal
pollution,
osmosis,
temperature,
oxidative
stress,
etc.
Now,
several
Pseudomonas-based
commercial
products
have
been
promoted
marketed,
but
there
are
few
limitations
hinder
development
technology
extensive
usage
systems.
variability
among
members
draws
attention
huge
research
interest
genus.
There
need
explore
potential
native
biocontrol
agents
use
them
biopesticide
support
Environmental Technology & Innovation,
Год журнала:
2024,
Номер
34, С. 103573 - 103573
Опубликована: Фев. 13, 2024
Unprecedented
increasing
of
human
population
has
led
to
the
huge
production
bio-wastes
which
is
a
rich
source
plant
nutrients.
These
consist
fundamental
nutrients
(e.g.
phosphorous,
nitrogen,
and
potassium)
can
play
crucial
role
in
protecting
agriculture
sectors
from
adverse
effects
derived
synthetic
fertilizers.
Reusing
bio-waste
materials
originating
agricultural
waste,
animal
sewage
sludge
aid
recovery
as
well
development
products
with
value,
order
fostering
circular
economy.
Waste
valorization
process
converting
waste
into
valuable
for
enhancement
soil
fertility
sustaining
growth.
Microbes
biological
systems
offer
sustainable
bioconversion
mechanisms
convert
bio-products.
By
utilizing
bio-based
fertilizers
bio-waste,
be
increased
while
mitigating
negative
environmental
impact
caused
by
microbes
are
sourced
nature
cultivated
laboratories
further
incorporated
suitable
carrier
application
soil.
More
research
needed
explore
their
field-level
applications
fertilizers,
supported
based
on
155
publications
included
this
study,
maintain
sustainability
productivity.
However,
interplay
between
must
carefully
considered
ensure
an
optimal
result
field,
sometimes
requiring
artificial
augmentation.
Therefore,
present
review
emphasizes
through
cutting-edge
technology,
microbial
utilization,
optimization
economy,
opens
new
horizon
minimization
its
resource
utilization.
Plant Stress,
Год журнала:
2024,
Номер
12, С. 100435 - 100435
Опубликована: Март 15, 2024
Climatic
changes
and
global
warming
produce
abiotic
stressors
that
affect
plant
development
productivity.
Abiotic
stressors,
such
as
drought,
salt,
cold,
heat,
significantly
impair
agricultural
crop
yields.
The
endophyte
is
a
type
of
endosymbiont,
usually
bacteria
or
fungus
lives
inside
cells
doesn't
cause
disease
in
the
host
plant.
This
review
scrutinizes
integral
contribution
endophytes
to
augmenting
stress
tolerance
plants.
core
analysis
investigates
regulatory
role
mechanism
pivotal
physiological
aspects
plants
under
conditions.
includes
their
involvement
managing
water
uptake
maintaining
balance
during
drought
salinity
stress,
regulating
osmotic
scavenging
reactive
oxygen
species
(ROS).
Additionally,
explores
outlines
diverse
strategies
for
inoculating
applying
enhance
Endophytes
secondary
active
compounds
defend
from
diseases
extracellular
enzymes
help
colonize
hosts.
Microbial
may
thrive
poor
soil
conditions
through
phytohormone
production
hazardous
chemical
degradation.
use
many
processes
survive
nutritional
deficiency,
heavy
metal
temperature.
These
findings
suggest
rhizobacteria
cope
with
stress.
Still,
more
research
needed
understand
mechanisms
side
effects
maximize
sustainable
climate-smart
agriculture.
