Egyptian Journal of Botany,
Год журнала:
2024,
Номер
0(0), С. 0 - 0
Опубликована: Апрель 20, 2024
Utilizing
every
square
inch
of
arable
land
for
crop
production
is
essential
ensuring
the
food
and
nutritional
security
world's
growing
population,
given
limited
amount
water
resources
available.
Microorganisms
possess
many
bioactive
metabolites,
but
not
all
microorganisms
exhibit
this
characteristic.
Marine
live
in
a
very
complicated
habitat
are
exposed
to
extreme
conditions;
adapt,
they
manage
possess,
among
others,
diverse
array
unique
secondary
including
alkaloids,
terpenoids,
polyketides,
quinones.
These
metabolites
anti-inflammatory,
antimicrobial,
anti-tumor
properties.
Moreover,
marine
bacteria
metal
tolerance
contribute
significantly
remediation
soil
polluted
with
heavy
metals.
Biotechnologies
can
optimize
output
by
taking
advantage
these
soil-plant
dynamics,
which
could
help
establish
new
sustainable
agriculture
framework.
In
situation,
much
research
has
focused
on
complex
relationships
between
plants
soil-dwelling
symbiotic
microbes.
play
pivotal
role
enhancing
ecological
prosperity
inside
their
indigenous
environments.
This
lead
improved
survival
performance
field
conditions.
Plant
growth-promoting
(PGPMs)
crucial
augmenting
synthesis
have
ability
modulate
plant
metabolome
under
environmental
stress
Therefore,
review
aims
present
influence
microbes,
especially
marine-derived
promoting
growth
altering
its
response
different
stressors.
Horticulturae,
Год журнала:
2025,
Номер
11(6), С. 592 - 592
Опубликована: Май 26, 2025
Grapevines
(Vitis
vinifera
L.)
face
significant
challenges
from
abiotic
stresses
caused
by
climate
change,
including
drought,
salinity,
and
temperature
extremes.
This
comprehensive
review
examined
the
role
of
beneficial
microorganisms
in
enhancing
grapevine
tolerance
to
these
stresses,
focusing
on
arbuscular
mycorrhizal
fungi
(AMF),
plant
growth-promoting
rhizobacteria
(PGPR),
endophytes.
The
study
analyzes
species-specific
effects
their
molecular
mechanisms,
highlighting
how
single
consortium
inoculations
improve
resilience.
AMF
species,
particularly
Funneliformis
mosseae
Rhizophagus
irregularis,
demonstrated
enhancement
drought
salinity
through
improved
nutrient
uptake
stress
response
modulation.
PGPRs,
Bacillus
Pseudomonas
show
remarkable
abilities
mitigate
various
mechanisms
phytohormone
production
antioxidant
defense
enhancement.
Endophytic
such
as
fluorescens
RG11
Serendipita
indica
play
crucial
roles
mitigation
melatonin
water
retention,
respectively.
synergistic
combined
AMF,
PGPR,
PGPF
applications
led
a
increase
tolerance,
improving
uptake,
photosynthesis
rates,
mechanisms.
Molecular
analysis
revealed
that
microbial
consortia
regulate
expression
stress-responsive
genes,
VvNCED
VvP5CS,
resilience
osmotic
adjustment,
ROS
scavenging,
hormonal
regulation.
These
findings
provide
valuable
insights
into
pathways
underlying
offering
promising
strategies
for
sustainable
viticulture
under
change.
Nanomaterials,
Год журнала:
2024,
Номер
14(15), С. 1253 - 1253
Опубликована: Июль 26, 2024
Climate
change
is
a
global
problem
facing
all
aspects
of
the
agricultural
sector.
Heat
stress
due
to
increasing
atmospheric
temperature
one
most
common
climate
impacts
on
agriculture.
has
direct
effects
crop
production,
along
with
indirect
through
associated
problems
such
as
drought,
salinity,
and
pathogenic
stresses.
Approaches
reported
be
effective
mitigate
heat
include
nano-management.
Nano-agrochemicals
nanofertilizers
nanopesticides
are
emerging
approaches
that
have
shown
promise
against
stress,
particularly
biogenic
nano-sources.
Nanomaterials
favorable
for
production
their
low
toxicity
eco-friendly
action.
This
review
focuses
different
stresses
production.
Nano-management
crops
under
including
application
nanopesticides,
discussed.
The
potential
limitations
these
nano-agrochemicals
reviewed.
Potential
nanotoxicity
need
more
investigation
at
local,
national,
levels,
well
additional
studies
into
soil,
plant,
microbial
properties
processes.
Frontiers in Sustainable Food Systems,
Год журнала:
2024,
Номер
8
Опубликована: Март 13, 2024
Regenerative
agriculture
offers
important
solutions
to
the
enormous
challenges
that
climate
crisis
poses
on
food
production.
However,
there
are
doubts
about
possibility
of
implementing
many
these
in
a
particularly
sector:
large
scale.
This
paper
addresses
issue,
presenting
examples
large-scale
vineyard
soil
microbiome
manipulation
Chile.
The
South
American
country
has
strongly
faced
effects
change
during
last
decade
and
organic
viticulture
sector
is
actively
seeking
strategies
adapt
new
climatic
reality.
Here
results
4
experiments
under
real
production
conditions
shown.
were
designed
assess
adding
various
microbial
consortia
key
agronomic
parameters.
Successful
as
well
unsuccessful
cases
presented,
allowing
discussion
some
which
can
be
expected
have
positive
effects.
It
was
found
good
management
conditions,
incorporating
effective
microorganisms
parameters
(yield,
root
vegetative
growth).
when
fields
yields
trending
downward
for
prolonged
periods,
incorporation
(e.g.,
antagonistic
fungi,
nutrient-fixing
nutrient-solubilizing
bacteria)
does
not
effect
trend
immediately.
Similarly,
even
favorable
cannot
expressed
short
term
(i.e.,
just
few
months).
Therefore,
its
use
should
conceived
long-term
strategy,
an
immediate
solution
urgent
problems.
Egyptian Journal of Botany,
Год журнала:
2024,
Номер
0(0), С. 0 - 0
Опубликована: Апрель 20, 2024
Utilizing
every
square
inch
of
arable
land
for
crop
production
is
essential
ensuring
the
food
and
nutritional
security
world's
growing
population,
given
limited
amount
water
resources
available.
Microorganisms
possess
many
bioactive
metabolites,
but
not
all
microorganisms
exhibit
this
characteristic.
Marine
live
in
a
very
complicated
habitat
are
exposed
to
extreme
conditions;
adapt,
they
manage
possess,
among
others,
diverse
array
unique
secondary
including
alkaloids,
terpenoids,
polyketides,
quinones.
These
metabolites
anti-inflammatory,
antimicrobial,
anti-tumor
properties.
Moreover,
marine
bacteria
metal
tolerance
contribute
significantly
remediation
soil
polluted
with
heavy
metals.
Biotechnologies
can
optimize
output
by
taking
advantage
these
soil-plant
dynamics,
which
could
help
establish
new
sustainable
agriculture
framework.
In
situation,
much
research
has
focused
on
complex
relationships
between
plants
soil-dwelling
symbiotic
microbes.
play
pivotal
role
enhancing
ecological
prosperity
inside
their
indigenous
environments.
This
lead
improved
survival
performance
field
conditions.
Plant
growth-promoting
(PGPMs)
crucial
augmenting
synthesis
have
ability
modulate
plant
metabolome
under
environmental
stress
Therefore,
review
aims
present
influence
microbes,
especially
marine-derived
promoting
growth
altering
its
response
different
stressors.
