BMC Plant Biology,
Journal Year:
2024,
Volume and Issue:
24(1)
Published: Sept. 17, 2024
Vermicompost
contains
humic
acids,
nutrients,
earthworm
excretions,
beneficial
microbes,
growth
hormones,
and
enzymes,
which
help
plants
to
tolerate
a
variety
of
abiotic
stresses.
Effective
microorganisms
(EM)
include
wide
range
microorganisms'
e.g.
photosynthetic
bacteria,
lactic
acid
yeasts,
actinomycetes,
fermenting
fungi
that
can
stimulate
plant
improve
soil
fertility.
To
our
knowledge,
no
study
has
yet
investigated
the
possible
role
vermicompost
EM
dual
application
in
enhancing
tolerance
water
scarcity.
Plants,
Journal Year:
2025,
Volume and Issue:
14(4), P. 544 - 544
Published: Feb. 10, 2025
This
study
investigated
the
combined
effects
of
zinc
oxide
nanoparticles
(Nano-Zn)
and
moringa
leaf
extract
(MLE)
on
squash
plants
grown
under
water
stress
conditions
in
saline
soil
during
2021-2022.
The
research
compared
full
irrigation
(100%
ETc)
with
deficit
(60%
ETc).
While
negatively
impacted
plant
growth,
yield,
various
physiological
parameters,
sequential
application
Nano-Zn
(at
50
or
100
mg
L-1)
MLE
(3%)
significantly
mitigated
these
adverse
effects.
treatment
proved
more
effective
than
individual
applications,
enhancing
growth
photosynthetic
efficiency,
antioxidant
systems.
particularly
improved
tolerance
by
increasing
protective
compounds
like
soluble
sugars
amino
acids
while
reducing
harmful
H2O2
levels.
concluded
that
L-1
was
optimal
for
performance
drought
stress,
plus
as
second-best
option.
Plants,
Journal Year:
2022,
Volume and Issue:
11(18), P. 2392 - 2392
Published: Sept. 14, 2022
Soil
is
a
real
treasure
that
humans
cannot
live
without.
Therefore,
it
very
important
to
sustain
and
conserve
soils
guarantee
food,
fiber,
fuel,
other
human
necessities.
Healthy
or
high-quality
include
adequate
fertility,
diverse
ecosystems,
good
physical
properties
are
allow
soil
produce
healthy
food
in
support
of
health.
When
suffers
from
degradation,
the
soil's
productivity
decreases.
restoration
refers
reversal
degradational
processes.
This
study
pictorial
review
on
nano-restoration
return
its
fertility.
Restoring
fertility
for
zero
hunger
degraded
also
discussed.
Sustainable
production
nanoparticles
using
plants
microbes
part
process
nano-restoration.
The
nexus
nanoparticle-plant-microbe
(NPM)
crucial
issue
itself
has
several
internal
interactions
relationships,
which
control
bioavailability
nutrients,
agrochemicals,
pollutants
cultivated
plants.
NPM
controlled
by
many
factors
related
restoration.
first
photographic
However,
additional
open
questions
need
be
answered
will
discussed
this
work.
Scientific Reports,
Journal Year:
2023,
Volume and Issue:
13(1)
Published: Nov. 14, 2023
The
impact
of
bio-organic
amendments
on
crop
production
is
poorly
understood
in
saline
calcareous
soils.
aim
the
present
study
was
to
determine
effects
application
organic
manure
along
with
lactic
acid
bacteria
(LAB)
soil
quality,
and
morpho-physio-biochemical
responses,
seed
yield
(SY)
essential
oil
(EOY)
fennel
plants
(Foeniculum
vulgare
Mill.)
grown
Eight
treatments
farmyard
(FM)
or
poultry
(PM)
individually
combined
Lactobacillus
plantarum
(Lp)
and/or
Lactococcus
lactis
(Ll)
were
applied
two
growing
seasons.
Either
FM
PM
LAB
had
beneficial
lowering
ECe,
pH
bulk
density
increasing
total
porosity,
matter,
water
nutrient
retention
capacities
addition
bacterial
population
soil.
Growth,
uptake,
SY
EOY
also
enhanced
when
seeds
inoculated
Lp
Ll
amended
any
manures
under
unfavorable
conditions.
Compared
control
(no
amendments),
+
Lt
treatment
signficantlly
(P
≤
0.05)
increased
plant
height
by
86.2
65.0%,
chlorophyll
73
50%,
proline
35
45%,
glutathione
100
138%,
625
463%
300
335%,
respectively,
plants.
Co-application
naturally
occurring
microorganisms
(i.e.,
LAB)
organically-derived,
nutrient-rich
fertilizer
PM)
recommended
improve
Plants,
Journal Year:
2023,
Volume and Issue:
12(17), P. 3141 - 3141
Published: Aug. 31, 2023
Water
management
techniques
are
improving
at
the
farm
level,
but
they
not
enough
to
deal
with
limited
availability
of
water
and
increased
crop
yields.
Soil
microbes
play
a
vital
role
in
nitrogen
fixation,
soil
fertility
enhancing
plant
growth
hormones
under
drought
conditions.
Therefore,
this
study
was
conducted
investigate
impact
combined
Azospirillum
brasilense
Rhizobium
pisi
on
wheat
productivity
properties
dry
regions.
Three
were
compared,
normal
irrigation
as
control
(C),
deficit
(DI),
partial
root
drying
(PRD),
together
interaction
plant-growth-promoting
rhizobacteria
(PGPR).
Experiments
six
treatments
total:
T1
=
C
+
No
PGPR,
T2
T3
DI
T4
T5
PRD
T6
PGPR.
The
highest
grain
yield
achieved
treatment
using
seeds
inoculated
rhizobacteria,
followed
by
without
any
inoculation,
lowest
recorded
seeds.
However,
resulted
significantly
higher
than
treatment.
PGPR
inoculation
22%
20%
number
grains
per
spike,
19%
21%
yield,
25%
rate
compared
system
2021-22
2022-23,
respectively.
This
increase
due
production
leaf
area
index
water-limited
A
greater
leads
chlorophyll
content
food
for
growth.
