Frontiers in Plant Science,
Год журнала:
2022,
Номер
13
Опубликована: Март 31, 2022
Vegetable
production
under
plastic
sheds
severely
threatens
regional
eco-sustainability
via
anthropogenic
activities
(excessive
use
of
agrochemicals,
pesticides)
and
problems
associated
with
replanting.
Long-term
successive
cropping
across
growing
seasons
induces
continuous
stress,
whose
effects
manifest
as
diminished
plant
growth.
Therefore,
it
is
imperative
that
we
develop
environmentally
sustainable
approaches,
such
replacing
agrochemicals
vegetable
waste
like
dry
raw
garlic
stalk
(DRGS)
or
biofertilizers
arbuscular
mycorrhizal
fungi
(AMF)
(e.g.,
Diversispora
epigaea).
In
this
study,
the
influence
AMF
on
growth,
biochemical
attributes,
antioxidant
defense
system,
phytohormones,
accumulation
osmolytes,
phenols,
mineral
elements
in
eggplant
grown
DRGS-amended
soils
monocropping
(CMC)
was
studied.
The
results
showed
inoculation
DRGS
amendment
could
improve
pigments'
content,
photosynthesis,
system;
augmented
phytohormones
synthesis
(except
for
ABA),
increased
leaves'
nutrients.
These
parameters
were
enhanced
most
by
combined
application
DRGS,
which
also
concentration
including
proline,
sugars,
free
amino
acids
when
compared
control.
Furthermore,
either
alone,
combination,
ameliorated
induced
stress
from
reducing
incidence
Fusarium
wilt
ROS
(reactive
oxygen
species);
lipid
peroxidation
underwent
maximal
reduction
plants
treatments.
AMF,
+
exhibited
a
lower
disease
severity
index
(33.46,
36.42,
43.01%),
respectively,
over
Hence,
coupled
alters
photosynthetic
attributes
through
upregulation
its
system
greater
led
to
improved
growth
yield
eggplant.
Frontiers in Sustainable Food Systems,
Год журнала:
2021,
Номер
5
Опубликована: Май 7, 2021
Soil
microbiota
plays
an
important
role
in
the
sustainable
production
of
different
types
agrosystems.
Among
members
plant
microbiota,
mycorrhizal
fungi
(MF)
and
growth-promoting
bacteria
(PGPB)
interact
rhizospheric
environments
leading
to
additive
and/or
synergistic
effects
on
growth
heath.
In
this
manuscript,
main
mechanisms
used
by
MF
PGPB
facilitate
are
reviewed,
including
improvement
nutrient
uptake,
reduction
ethylene
levels
or
biocontrol
potential
pathogens,
under
both
normal
stressful
conditions
due
abiotic
biotic
factors.
Finally,
it
is
necessary
expand
research
field
use
bioinoculants
based
these
components
take
advantage
their
beneficial
interactions
with
plants
alleviate
stress
improve
satisfy
demand
for
food
ever-increasing
human
population.
Horticulturae,
Год журнала:
2022,
Номер
8(3), С. 241 - 241
Опубликована: Март 10, 2022
Gibberellins
are
amongst
the
main
plant
growth
regulators.
Discovered
over
a
century
ago,
interest
in
gibberellins
research
is
growing
due
to
their
current
and
potential
applications
crop
production
role
responses
environmental
stresses.
In
present
review,
knowledge
on
gibberellins’
homeostasis
modes
of
action
outlined.
Besides
this,
complex
interrelations
between
other
regulators
also
described,
providing
an
intricate
network
interactions
that
ultimately
drives
towards
precise
specific
gene
expression.
Thus,
genes
proteins
identified
as
being
involved
gibberellin
model
non-model
species
highlighted.
Furthermore,
molecular
mechanisms
governing
relation
stress
depicted.
This
review
aims
provide
comprehensive
picture
state-of-the-art
perceptions
with
phytohormones,
stresses,
thus
allowing
for
identification
involved.
will
help
us
improve
our
understanding
biology,
might
increase
biotechnological
toolbox
needed
refine
resilience,
particularly
under
climate
change
scenario.
PeerJ,
Год журнала:
2022,
Номер
10, С. e13405 - e13405
Опубликована: Май 31, 2022
Food
safety
is
a
significant
challenge
worldwide,
from
plantation
to
cultivation,
especially
for
perishable
products
such
as
tomatoes.
New
eco-friendly
strategies
are
needed,
and
beneficial
microorganisms
might
be
sustainable
solution.
This
study
demonstrates
bacteria
activity
in
the
tomato
plant
rhizosphere.
Further,
it
investigates
rhizobacteria’s
structure,
function,
diversity
soil.
Rhizobacteria
that
promote
growth
development
of
plants
referred
growth-promoting
(PGPR).
They
form
series
associations
with
other
organisms
soil
through
mutualistic
relationship
where
both
parties
benefit
living
together.
It
implies
antagonistic
activities
rhizobacteria
deter
pathogens
invading
their
roots.
Some
PGPR
regarded
biological
control
agents
hinder
spoilage
can
act
an
alternative
agricultural
chemicals
may
detrimental
health
humans,
animals,
some
microbes
rhizosphere
These
also
help
acquire
essential
nutrients
like
potassium
(K),
magnesium
(Mg),
phosphorus
(P),
nitrogen
(N).
offer
solution
low
production
tackle
food
insecurity
farming
problems.
In
this
review,
overview
soil-inhabiting
focused
on
improving
Solanum
lycopersicum
.
Foods,
Год журнала:
2022,
Номер
11(17), С. 2656 - 2656
Опубликована: Сен. 1, 2022
The
use
of
microbial
biostimulants
such
as
plant
growth-promoting
rhizobacteria
(PGPB)
and
arbuscular
mycorrhizal
fungi
(AMF)
has
gained
popularity
in
recent
years
a
sustainable
approach
to
boost
yield
well
the
quality
produce.
beneficial
effects
have
been
reported
numerous
times.
However,
information
is
missing
concerning
quantitative
assessment
overall
impact
on
vegetable
crops.
Here
we
provide
for
first
time
comprehensive,
semi-systematic
review
allowed
by
Regulation
(EU)
2019/1009,
including
microorganisms
belonging
AMF
(phylum
Glomeromycota),
or
