Nanomaterials–plants–microbes interaction: plant growth promotion and stress mitigation
Frontiers in Microbiology,
Год журнала:
2025,
Номер
15
Опубликована: Янв. 15, 2025
Soil
salinization,
extreme
climate
conditions,
and
phytopathogens
are
abiotic
biotic
stressors
that
remarkably
reduce
agricultural
productivity.
Recently,
nanomaterials
have
gained
attention
as
effective
agents
for
applications
to
mitigate
such
stresses.
This
review
aims
critically
appraise
the
available
literature
on
interactions
involving
nanomaterials,
plants,
microorganisms.
explores
role
of
in
enhancing
plant
growth
mitigating
These
materials
can
be
synthesized
by
microbes,
algae,
they
applied
fertilizers
stress
amelioration
agents.
Nanomaterials
facilitate
nutrient
uptake,
improve
water
retention,
enhance
efficiency
active
ingredient
delivery.
strengthen
antioxidant
systems,
regulate
photosynthesis,
stabilize
hormonal
pathways.
Concurrently,
their
antimicrobial
protective
properties
provide
resilience
against
stressors,
including
pathogens
pests,
promoting
immune
responses
optimizing
microbial-plant
symbiosis.
The
synergistic
with
beneficial
microorganisms
optimize
under
conditions.
also
serve
carriers
nutrients,
regulators,
pesticides,
thus
acting
like
"smart
fertilizers.
While
nanotechnology
offers
great
promise,
addressing
potential
environmental
ecotoxicological
risks
associated
use
is
necessary.
outlines
pathways
leveraging
achieve
resilient,
sustainable,
climate-smart
systems
integrating
molecular
insights
practical
applications.
Язык: Английский
Integrating irrigation management and soil remediation practices for sustainable agricultural production: advances, challenges, and future directions
Agroecology and Sustainable Food Systems,
Год журнала:
2024,
Номер
unknown, С. 1 - 27
Опубликована: Ноя. 16, 2024
Agriculture's
important
role
in
human
survival
and
its
significant
impact
on
the
Earth's
ecosystem
imply
need
for
sustainable
practices.
This
study
focuses
critical
components
of
irrigation
management
soil
remediation,
essential
maintaining
health
productivity.
By
integrating
these
components,
assessed
feasible
remediation
practices
explored
various
strategies
different
contexts.
It
was
observed
that
with
suitable
techniques
scheduling
can
improve
crop
yield,
conserve
water,
enhance
long-term
marginal
soils,
addressing
challenges
climate
change,
hunger,
environmental
sustainability.
The
also
advocates
incorporating
indigenous
knowledge
physical,
chemical,
biological
techniques,
integrated
review
serves
as
a
valuable
resource
researchers,
policymakers,
practitioners,
offering
insights
paving
way
future
research
development
agriculture.
making
link
between
explicit,
this
illustrates
practical
cases
address
complex
faced
by
lands,
global
food
security,
Язык: Английский