Agriculture,
Год журнала:
2023,
Номер
13(10), С. 1987 - 1987
Опубликована: Окт. 13, 2023
Upland
rice
farming
plays
a
crucial
role
in
ensuring
food
security
Indonesia.
This
study
aimed
to
evaluate
the
impact
of
plant
growth-promoting
rhizobacteria
(PGPR)
isolates
on
growth
upland
rice.
The
bioassay
and
pot
experiments
were
conducted
select
capable
PGPR
investigate
effect
inoculant
N
fertilizer
efficiency
agronomic
traits
bacterial
identified
through
biochemical
analysis
tested
under
controlled
greenhouse
conditions.
selected
was
formulated
as
liquid
biofertilizer
(LB).
three
obtained
fix
nitrogen,
produce
indole-3-acetic
acid
(IAA),
organic
acid,
nitrogenase
activity
biomolecular
Delftia
tsuruhatensis
strain
D9,
sp.
MS2As2,
Bacillus
application
LB
into
soil
at
dose
10
L
ha−1
50
kg
resulted
grain
yield
29.81
g
pot−1
relative
effectiveness
(RAE)
value
235.08%,
signifying
significant
improvement
over
conventional
method.
Several
variables,
including
number
grains,
panicles,
root
length,
1000-grain
weight,
population
nitrogen-fixing
bacteria,
nitrogen
uptake
exhibited
strong
correlation
with
yield,
accounting
for
97.80%
observed
variation.
These
findings
show
enormous
potential
isolates,
specifically
sp.,
significantly
enhancing
output
Furthermore,
use
an
conjunction
fertilization
provides
viable
sustainable
way
increase
yields
enhance
overall
sustainability
region’s
systems.
Biology,
Год журнала:
2024,
Номер
13(3), С. 199 - 199
Опубликована: Март 21, 2024
Microalgae
have
commercial
potential
in
different
sectors
of
the
industry.
Specifically
modern
agriculture,
they
can
be
used
because
ability
to
supply
nutrients
soil
and
produce
plant
growth
hormones,
polysaccharides,
antimicrobial
compounds,
other
metabolites
that
improve
agricultural
productivity.
Therefore,
products
formulated
from
microalgae
as
biofertilizers
biostimulants
turn
out
beneficial
for
agriculture
are
positioned
a
novel
environmentally
friendly
strategy.
However,
these
bioproducts
present
challenges
preparation
affect
their
shelf
life
due
rapid
degradation
bioformulated
products.
this
work
aimed
provide
comprehensive
review
microalgae,
which
bibliometric
analysis
was
carried
establish
trends
using
scientometric
indicators,
technological
advances
were
identified
terms
formulation
methods,
global
market
analyzed.
Plants,
Год журнала:
2025,
Номер
14(2), С. 191 - 191
Опубликована: Янв. 11, 2025
The
rapid
growth
of
the
human
population
has
significantly
increased
demand
for
food,
leading
to
intensification
agricultural
practices
that
negatively
impact
environment.
Climate
change
poses
a
significant
threat
global
food
production,
as
it
can
disrupt
crop
yields
and
modify
lifecycle
stages
phytopathogens
pests.
To
address
these
challenges,
use
microbial
inoculants,
which
are
bioproducts
containing
beneficial
microorganisms
known
plant
promotion
(PGPMs),
emerged
an
innovative
approach
in
sustainable
agriculture.
This
review
covers
isolation
identification
strains,
screening
selection
process,
optimization
production
techniques,
importance
quality
control
field
testing.
It
also
discusses
key
points
development
formulation
high-quality
well
highlights
their
advancements,
current
future
directions
research
application.
Global Change Biology,
Год журнала:
2023,
Номер
29(8), С. 2050 - 2066
Опубликована: Янв. 20, 2023
Environmental
microbiome
engineering
is
emerging
as
a
potential
avenue
for
climate
change
mitigation.
In
this
process,
microbial
inocula
are
introduced
to
natural
communities
tune
activities
that
regulate
the
long-term
stabilization
of
carbon
in
ecosystems.
review,
we
outline
process
environmental
and
synthesize
key
considerations
about
ecosystem
functions
target,
means
sourcing
microorganisms,
strategies
designing
inocula,
methods
deliver
factors
enable
establish
within
resident
community
modify
an
function
target.
Recent
work,
enabled
by
high-throughput
technologies
modeling
approaches,
indicate
designed
from
top-down,
particularly
through
directed
evolution,
may
generally
have
higher
chance
establishing
existing
than
other
historical
approaches
engineering.
We
address
outstanding
questions
determinants
establishment
provide
suggestions
further
research
possibilities
challenges
tool
combat
change.
Horticulturae,
Год журнала:
2023,
Номер
9(12), С. 1306 - 1306
Опубликована: Дек. 5, 2023
Nowadays,
legal
regulations
and
social
environmental
concerns
are
converging
towards
the
promotion
of
more
sustainable
agriculture
based
on
organic
compounds
soil
preservation.
These
trends
fuelling
growth
biofertilizers,
which
beneficial
preparations
containing
microorganisms
able
to
enhance
a
plant’s
ability
uptake
essential
nutrients.
Their
production
commercialization
encompass
multitude
critical
steps
deeply
reviewed
in
this
manuscript
through
an
exhaustive
overview
key
stages,
such
as
microorganism
selection,
new
sources,
upscaling
field
trials,
encapsulation,
current
application
systems
regulatory
considerations.
However,
although
economical
expectations
promising,
several
methodological,
environmental,
undermining
their
advancement.
The
redefinition
international
frameworks,
enhancement
trending
technologies,
fostering
multidisciplinary
collaboration
across
sectors
players
promote
biofertilizers
eco-friendly
cost-effective
alternatives
chemical
fertilizers.
Environmental Pollution and Management,
Год журнала:
2024,
Номер
1, С. 32 - 48
Опубликована: Июль 27, 2024
The
application
of
fertilizers
is
necessary
for
continuous
replenishment
plants
nutrients,
sustaining
the
productivity
soils.
Inorganic
are
very
simple,
chemically
defined,
water
soluble,
and
easily
absorbed
immediate
reproducible
responses
in
plants.
In
excess
needs
however,
they
do
not
only
scorch
plants,
but
also
lost
to
atmosphere
as
greenhouse
gases.
Prolonged
usage
leads
reduced
soil
quality,
acidification
(accompanied
by
dissolution
carbonate
gases
emission),
contamination
underground
water.
Increasing
nutrients
use
efficiency
ameliorates
these
problems
ensuring
a
better
synchronization
availability
with
uptake.
Without
increasing
frequency
fertilization
associated
labor
cost
(encountered
split-fertilization),
enhanced
(EEFs)
gradually
make
available
over
long
period
time,
that
met
after
single
seasonal
fertilization,
without
compromising
integrity
soil.
EEFs
benefits
environment
retarding
availability;
some
materials
used
formulation
impact
beneficial
qualities
(e.g.,
improved
structure,
erosion)
production
EEFs,
such
coated
fertilizers,
depending
on
nature
coat,
completely
environmentally
friendly;
effects
certain
due
variability
between
fertilizer
batches
conditions.
These
challenges
development
different
potential
solutions,
their
formulation,
addition
advantages
discussed.
information
contained
herein
expected
arouse
more
research
sustainable
assist
farmers
selecting
best
kind
condition,
crops
production,
while
health.
Sustainability,
Год журнала:
2024,
Номер
16(19), С. 8720 - 8720
Опубликована: Окт. 9, 2024
Agriculture
is
essential
for
nutrition
and
the
global
economy,
becoming
increasingly
important
due
to
population
growth
higher
food
demand.
This
situation
boosts
interest
in
creating
bioproducts
that
enhance
productivity
sustainably
while
reducing
environmental
issues
strain
on
natural
resources.
Bioinoculants
are
innovations
use
beneficial
microorganisms
boost
crop
resilience.
They
interaction
between
soil
plants
by
solubilizing
nutrients
producing
phytohormones.
not
only
agricultural
but
also
promotes
environmentally
sustainable
practices
decreasing
reliance
chemical
fertilizers.
Considering
relevance
of
this
subject
advances
agro-industrial
biotechnology,
review
analyzes
recent
studies
patent
production
bioinoculants,
as
well
their
integration
into
plant
development.
It
explores
dynamics
downstream
processes
an
industrial
scale,
regulations
different
countries,
growing
market
demands,
which
feature
review.
Furthermore,
future
perspectives
application
bioinoculants
biotechnology
discussed,
emphasizing
critical
role
these
biological
agents
play
advancing
sustainability.
Advanced
plant
rearing
operations
and
reasonable
developments
are
required
to
boost
crop
production
support
better
innovative
techniques.
To
achieve
these
goals,
it
is
necessary
acquire
deep
understanding
onto
soil
microbial
communities,
plant-microbiome
collaboration,
their
steadiness
during
the
natural
transformation.
Individual
microorganisms
known
as
vital
controllers
of
communities.
Microbial
networks,
having
beneficial
characteristics
go
about,
a
robust
tool
host
supportable
agronomics
by
diminishing
fertilizers
use
fighting
disorders
for
improvement.
The
capability
microflora
inspire
development,
mitigate
stresses,
further
develop
robustness.
Different
inoculants
generated
make
field
progress
reality;
this
possible
via
planning
an
effective
consortium
or
design
with
useful
attributes.
Purposely,
present
chapter
summarizes
effect
on
yields,
disease
resistance,
nutrient
cycle.
investigation
new
approaches
designing
attain
sustainable
cultivation
also
denoted
in
chapter.