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.
Sustainability,
Journal Year:
2023,
Volume and Issue:
15(16), P. 12413 - 12413
Published: Aug. 15, 2023
The
intensification
of
agricultural
production
in
response
to
the
global
population
increase
and
growing
demand
for
food
has
raised
significant
concerns
regarding
environmental
impacts
over
past
few
decades.
Currently,
modern
agriculture
aims
improve
quantity
quality
crop
yield,
minimizing
negative
effects
treatments
on
environment.
Recently,
microalgae
have
found
extensive
application
as
a
valuable
biological
resource
across
multiple
industries,
including
sector,
biofuel
production,
pharmaceutical
industry.
In
agriculture,
been
seen
promising
sustainable
alternative
agrochemicals,
offering
range
benefits
soil
fertility,
optimize
nutrient
management,
reduce
reliance
synthetic
fertilizers.
general,
demonstrated
efficient
cycling
abilities,
assimilating
converting
essential
nutrients,
such
nitrogen,
phosphorus,
potassium,
into
forms
readily
available
plants.
Additionally,
they
produce
bioactive
substances,
phytohormones,
which
direct
impact
physiological
processes
plants
promote
their
growth.
Microalgae
can
also
establish
beneficial
interactions
with
other
microorganisms,
supporting
growth
bacteria
fungi,
thus
promoting
healthy
microbiome.
On
hand,
photosynthetic
harness
sunlight
convert
carbon
dioxide
(CO2)
organic
matter
through
photosynthesis.
This
ability
allows
them
sequester
contribute
by
reducing
greenhouse
gas
emissions.
present
work
provides
an
overview
potential
biofertilizers,
highlighting
unique
characteristics,
benefits,
main
limitations
effective
implementation
agriculturally
practices.
Agriculture,
Journal Year:
2023,
Volume and Issue:
13(2), P. 231 - 231
Published: Jan. 18, 2023
Global
issues
such
as
soil
deterioration,
pollution,
and
productivity
loss
induced
by
industrialization
intensive
agriculture
pose
a
serious
danger
to
agricultural
production
sustainability.
Numerous
technical
breakthroughs
have
been
applied
clean
up
or
boost
the
output
of
damaged
soils,
but
they
failed
restore
improve
health
desired
levels
owing
expense,
impossibility
in
practical
setting,
or,
lesser
extent,
high
labor
consumption.
Recent
nanotechnology
advancements
promise
quality
indicators
crop
yields
while
ensuring
environmental
As
previously
discovered,
inclusion
nanomaterials
(NMs)
soils
could
manipulate
rhizospheric
microbes
agriculturally
important
their
functionality,
facilitating
availability
nutrients
plants
improving
root
systems
growth
general,
opening
new
window
for
improvement.
A
viewpoint
on
difficulties
long-term
outcomes
applying
NMs
is
provided,
along
with
detailed
statistics
how
can
productivity.
Thus,
evaluating
may
be
valuable
gaining
insights
into
use
enhancement.
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.
