Metabolites,
Journal Year:
2023,
Volume and Issue:
13(2), P. 247 - 247
Published: Feb. 9, 2023
There
are
many
reasons
for
the
increase
in
hydroponics/soil-free
systems
agriculture,
and
these
have
now
advanced
to
form
of
vertical
farming.
The
sustainable
use
space,
reduction
water
compared
soil-based
lack
pesticides,
ability
control
nutrient
inputs,
implementation
user-friendly
technology
environmental
harvesting
all
factors
that
made
global
market
farming
predicted
reach
more
than
USD
10.02
billion
by
2027.
By
comparison,
agriculture
consumes
20
times
water,
some
agricultural
practices
promote
soil
deterioration
cause
pollution.
Plant
growth-promoting
microorganisms
(PGPMs)
been
used
extensively
traditional
enhance
plant
growth,
stress
tolerance,
efficacy
phytoremediation
Due
controlled
atmosphere
hydroponics
farms,
there
is
strong
potential
maximize
PGPMs.
Here,
we
review
leveraging
microorganism
mechanisms
We
recommend
a
synchronized
PGPM
treatment
using
biostimulant
extract
added
hydroponic
medium
while
also
pre-treating
seeds
or
seedlings
with
microbial
suspension
aquaponic
aeroponic
systems.
Frontiers in Bioscience-Landmark,
Journal Year:
2023,
Volume and Issue:
28(8)
Published: Aug. 7, 2023
Deficits
in
the
mineral
Zn
are
responsible
for
a
sizable
proportion
of
world’s
disease
burden
and
child
mortality.
With
increasing
success
rate
biofortification
major
crops,
development
genotype
with
enhanced
bioavailability
will
be
an
efficient
sustainable
solution
to
nutrient
deficiency-related
problems.
Due
complex
chemistry
human
system,
absorption
from
cereals
is
lower.
This
complexity
alleviated
by
phytate,
phosphorus-storing
compound
cereal
legume
seeds,
which
negatively
affects
binding.
The
results
recent
studies
on
distribution
elements
micronutrient
speciation
seeds
provide
strong
evidence
presence
distinct
pools.
observation
supported
data
biofortified
transgenic
plant
research.
Several
identify
nicotinamide,
metal
chelator,
as
pivotal
molecule.
loading
into
grains
has
been
reported
increase
nicotinamide
levels,
crucial
finding.
Intestinal
can
greatly
improved
nicotinamide.
Furthermore,
tests
suggest
that
use
nano
Zn-enabled
devices
could
effective
strategy
enable
biofortification,
may
significantly
boost
content
various
crops.
review
comprehensively
evaluated
scientific
publications
indexed
WoS,
Scopus,
other
reliable
databases
explored
insights
how
nano-enabled
technology
enhancing
crops
combating
malnutrition
humans.
CABI Agriculture and Bioscience,
Journal Year:
2023,
Volume and Issue:
4(1)
Published: Aug. 14, 2023
Abstract
Background
Soil
microorganisms
including
rhizobacteria
and
fungi
play
a
key
role
in
soil
health,
biodiversity
productivity
of
natural
managed
ecosystems.
Plant
growth-promoting
(PGPR)
associated
with
plant
roots
enhance
the
uptake
nutrient
improve
productivity.
Similarly,
mycorrhizal
particularly,
arbuscular
(AMF),
form
mutualistic
association
plants
nutrients
consequently
promote
growth
Methods
Here
we
show
how
harnessing
beneficial
like
PGPR
AMF
their
positive
effect
on
development
can
contribute
to
green
clean
economic
strategy.
Results
Through
review
state-of
-art
knowledge
this
area
demonstrate
that
approach
nutrients,
growth,
yield
tolerance
biotic
abiotic
stress.
We
argue
reduce
need
for
agrochemicals
destabilizes
ecological
system.
Conclusions
This
provides
state-of-the-art
synthesis
generated
so
far
insight
into
multifunctional
strategies
employed
by
toward
ensuring
sustainable
agriculture.
Agronomy,
Journal Year:
2023,
Volume and Issue:
13(2), P. 550 - 550
Published: Feb. 14, 2023
Rice
(Oryza
sativa
L.)
is
an
important
crop
that
grown
worldwide
to
supply
the
world’s
expanding
food
demand.
In
current
study,
effects
of
plant
growth-promoting
rhizobacteria
(PGPR)
and
Arbuscular
mycorrhizal
fungi
(AMF)
on
soil
fertility
rice
growth
were
explored.
plants
inoculated
evaluate
how
AMF
PGPR
affect
various
aspects
plants,
implicating
abiotic
stress
tolerances.
The
experiment
was
carried
out
in
a
completely
randomized
design
with
three
replicates
under
controlled
conditions.
Results
depicted
mixture
had
better
yields
nutritional
concentrations,
while
both
lowered
pH
organic
matter
differently.
Similarly,
treatments
significantly
increased
amount
N,
P,
K,
B
post-harvest
soil.
PGPR-inoculated
10–40%
higher
buildup
N
their
tissues.
when
they
compared
non-infected
AMF-inoculated
demonstrated
greater
accumulation
tissue.
maximum
P
content
tissues
0.149%
PGPR5-infected
either
alone
or
combination
AMF.
T12,
+
PGPR5
K
uptake
1.98%,
which
54%
than
control
treatment.
sole
application
raised
by
38%
improved
productivity
(especially
PGPR5)
attributed
availability
nutrients
As
result,
growth,
yield,
essential
element
uptakes
boosted
significantly.
present
study’s
results
suggested
using
combined
for
improving
yield
sustaining
health.
Journal of Plant Nutrition,
Journal Year:
2023,
Volume and Issue:
46(13), P. 3247 - 3272
Published: April 20, 2023
Mycorrhizae
improve
the
efficiency
of
mineral
intake
in
soils
where
such
minerals
may
be
poor
or
otherwise
less
accessible.
In
particular,
immobile
elements
like
phosphorus,
zinc,
and
copper
are
supported
by
symbiotic
relationship
between
plant
roots
mycorrhizal
fungi,
but
under
certain
conditions,
more
mobile
ions
sulfur,
calcium,
sodium,
potassium,
iron,
magnesium,
manganese,
chloride,
nitrogen
also
taken
up
from
soil.
promotes
growth,
development,
stress
tolerance,
soil
remediation,
carbon
sequestration,
food
safety,
agricultural
sustainability.
Our
findings
revealed
that
AMF
significantly
improved
growth
mediated
drought
other
environmental
factors
enhancing
photosynthesis,
nutrients,
glomalin
content
soil,
essential
oils,
chemical
composition,
addition
to
upregulating
antioxidant
systems
enzymatic
activity
phenylalanine
ammonia-lyase
lipoxygenase.
enhanced
quality
crop
production,
which
was
particularly
evident
increase
biomass
nutrients
availability.
The
present
outcomes
suggested
association
plants
help
strengthen
fabrication
defensive
compounds
ultimately
relieve
abiotic
biotic
stresses
act
as
biological
control
production
constraints.
Mycorrhizal
inoculation
greatly
improves
root's
ability
absorb
water
changing
environments.
Consequently,
this
work,
role
nutrient
absorption,
well
its
important
contribution
greater
security,
discussed
relation
symbiosis.
Plants,
Journal Year:
2023,
Volume and Issue:
12(20), P. 3550 - 3550
Published: Oct. 12, 2023
Microbial
compost
plays
a
crucial
role
in
improving
soil
health,
fertility,
and
plant
biomass.
These
biofertilizers,
based
on
microorganisms,
offer
numerous
benefits
such
as
enhanced
nutrient
acquisition
(N,
P,
K),
production
of
hydrogen
cyanide
(HCN),
control
pathogens
through
induced
systematic
resistance.
Additionally,
they
promote
the
phytohormones,
siderophore,
vitamins,
protective
enzymes,
antibiotics,
further
contributing
to
sustainability
optimal
agricultural
productivity.
The
escalating
generation
organic
waste
from
farm
operations
poses
significant
threats
environment
fertility.
Simultaneously,
excessive
utilization
chemical
fertilizers
achieve
high
crop
yields
results
detrimental
impacts
structure
To
address
these
challenges,
sustainable
agriculture
system
that
ensures
fertility
minimal
ecological
impact
is
imperative.
composts,
developed
by
incorporating
characterized
plant-growth-promoting
bacteria
or
fungal
strains
into
derived
waste,
promising
solution.
with
selected
microbial
capable
thriving
compost,
an
eco-friendly,
cost-effective,
alternative
for
practices.
In
this
review
article,
we
explore
potential
composts
viable
strategy
growth
environmental
safety.
By
harnessing
microorganisms
can
pave
way
foster
healthier
relationship
between
soil,
plants,
environment.
Sustainability,
Journal Year:
2023,
Volume and Issue:
15(3), P. 2243 - 2243
Published: Jan. 25, 2023
The
excessive
application
of
mineral
fertilizers
in
maize
cultivation
leads
to
progressive
soil
contamination
the
long
term
and
increases
cost
production.
An
alternative
reduce
over-fertilization
is
perform
a
partial
replacement
with
microbes
that
promote
nutrition
growth,
such
as
Arbuscular
Mycorrhizal
Fungi
(AMF).
A
pot
experiment
which
was
followed
by
two
field
experiments
performed
without
indigenous
AMF
combination
five
nitrogen–phosphorus–potassium
(NPK)
fertilization
rates
(100%
NPK
=
N120P60K60;
75%
N90P45K45;
50%
N60P30K30;
25%
N30P15K15;
control
N0P0K0).
objective
investigate
whether
mycorrhizal
fungi
inoculum
combined
can
provide
higher
yields
soil-available
N,
P,
K
than
chemical
alone.
greenhouse
results
showed
treatment
significantly
increased
plant’s
root
colonization,
leaf
chlorophyll
content,
tissue
content.
from
conditions
there
highly
significant
yield
after
+
NPK.
study
also
revealed
inoculation
available
N
P
concentrations
when
it
dose.
This
suggests
fields
AM
fertilizer
half,
while
improving
chemistry.
suggested
be
used
integrated
fertility
management
strategies.
Sustainability,
Journal Year:
2023,
Volume and Issue:
15(7), P. 5982 - 5982
Published: March 30, 2023
Salinity
is
one
of
the
outstanding
abiotic
stress
conditions
that
a
significant
part
world
faces.
In
recent
years,
beneficial
microorganisms
started
to
be
utilized
in
plants
overcome
several
factors,
including
salinity.
The
effects
arbuscular
mycorrhizal
fungi
(AMF)
mixture
on
growth
and
enzymatic
responses
basil
under
salt
were
investigated
using
saline
doses
0
mM
(Control),
150
mM,
300
mM.
Results
showed
AMF
enhanced
all
parameters,
but
only
leaf
number
was
statistically
significant.
However,
antioxidant
enzymes,
such
as
ascorbate
peroxidase
(APX)
by
25%,
catalase
(CAT)
superoxide
dismutase
(SOD)
5%,
significantly
enhanced.
At
same
time,
accumulation
oxidative
like
hydrogen
peroxide
(H2O2)
malondialdehyde
(MDA),
reduced,
from
12.05
μmol
g−1
fw
(control)
11.17
14.29
10.74
fw,
respectively.
also
alleviated
chlorophyll
loss
caused
increasing
doses.
Multivariate
analyses
revealed
co-occurrence
metabolism
enzymes
well
proximate
effect
inoculation
yield
activity.
As
result,
considered
an
appropriate
tool
for
reducing
both
stress-free
conditions.
