Advances in public policy and administration (APPA) book series,
Год журнала:
2024,
Номер
unknown, С. 327 - 346
Опубликована: Дек. 5, 2024
Innovative
technology
leadership
is
crucial
for
driving
the
development
and
implementation
of
AI-powered
solutions
in
blue-green
infrastructure
(BGI).
This
chapter
explores
how
AI
emerging
technologies
can
enhance
management
water
green
spaces
to
create
sustainable,
resilient
urban
environments.
By
integrating
into
planning,
monitoring,
optimization
BGI,
cities
better
manage
stormwater,
reduce
flooding,
improve
biodiversity,
public
spaces.
The
role
managing
cross-disciplinary
teams,
fostering
collaboration,
ensuring
alignment
technological
innovation
with
environmental
goals
highlighted.
Case
studies
best
practices
are
provided
demonstrate
successful
deployment
BGI
solutions.
Chapter
also
addresses
challenges
scaling
these
need
effective
program
ensure
sustainability,
community
engagement,
policy
alignment.
Agronomy,
Год журнала:
2025,
Номер
15(5), С. 1131 - 1131
Опубликована: Май 4, 2025
Nanotechnology
is
rapidly
emerging
as
a
transformative
force
in
agriculture,
offering
innovative
solutions
to
support
sustainable
crop
production.
This
review
examines
the
interactions
between
nanoparticles
(NPs)
and
plants,
elucidating
underlying
mechanisms
that
govern
NP
uptake,
translocation,
at
cellular
level.
We
explore
how
NPs
influence
key
physiological
processes
modulate
plant
defense
responses
both
biotic
abiotic
stresses,
highlighting
their
potential
for
enhancing
stress
resistance.
The
diverse
applications
of
agriculture
are
also
comprehensively
surveyed,
encompassing
targeted
delivery
nutrients,
enhanced
biocontrol
phytopathogens,
engineering
improved
tolerance
environmental
extremes.
address
broader
socioeconomic
implications
widespread
use
critically
evaluating
ecotoxicity,
impacts
on
biodiversity,
associated
economic
costs
benefits.
Finally,
we
offer
perspective
future
directions
research,
including
trends
synthesis
characterization,
challenges
implementation,
prospects
large-scale
deployment
nanotechnology-enabled
agricultural
solutions.
provides
rigorous
balanced
assessment
nanotechnology
revolutionize
practices
while
acknowledging
need
responsible
innovation
risk
mitigation.
Sustainable
agriculture
is
crucial
for
meeting
the
growing
global
food
demand.
With
pressure
of
climate
change,
resource
depletion,
and
need
increased
agricultural
productivity,
innovative
approaches
are
essential.
Nanotechnology
an
emerging
technology
in
achieving
sustainable
development
goals
(SDGs).
Despite
its
promising
benefits,
safe
implementation
nanotechnology
requires
careful
consideration
potential
health
environmental
risks.
However,
there
a
lack
comprehensive
documentation
on
application,
limitations
field
agriculture.
To
address
this
gap,
desk
research
approach
was
used
by
utilizing
peer-reviewed
electronic
databases
like
PubMed,
Scopus,
Google
Scholar,
Web
Science,
Science
Direct
relevant
articles.
Out
157
initially
identified
articles,
85
were
deemed
pertinent,
focusing
primarily
smart
systems.
Taking
into
account
findings
worldwide,
we
found
significant
improvements
with
over
traditional
methods
which
underscores
practical
benefits
nanotechnology,
including
crop
yields,
efficient
use,
reduced
footprint.
The
objective
systematic
review
to
explore
nexus
between
systems,
highlighting
enhance
sustainability,
resilience
inform
researchers,
practitioners,
policymakers
about
transformative
impact
further
safety
concerns
maximize
advancement.
Advanced Biology,
Год журнала:
2025,
Номер
unknown
Опубликована: Фев. 12, 2025
Abstract
Plants
are
vital
to
ecosystems
and
human
survival,
possessing
intricate
internal
inter‐plant
signaling
networks
that
allow
them
adapt
quickly
changing
environments
maintain
ecological
balance.
The
integration
of
engineered
nanomaterials
(ENMs)
with
plant
systems
has
led
the
emergence
nanobionics,
a
field
holds
potential
enhance
capabilities
significantly.
This
may
result
in
improved
photosynthesis,
increased
nutrient
uptake,
accelerated
growth
development.
treated
ENMs
can
be
stress
mitigators,
pollutant
detectors,
environmental
sensors,
even
light
emitters.
review
explores
recent
advancements
focusing
on
nanoparticle
(NP)
synthesis,
adhesion,
transport,
fate,
application
enhancing
physiological
functioning,
mitigation,
health
monitoring,
energy
production,
sensing,
overall
productivity.
Potential
research
directions
challenges
nanobionics
highlighted,
how
material
optimization
innovation
propelling
smart
agriculture,
pollution
remediation,
energy/biomass
production
discussed.
Frontiers in Plant Science,
Год журнала:
2025,
Номер
16
Опубликована: Фев. 17, 2025
Introduction
The
rapid
global
population
growth
and
limitations
of
traditional
agricultural
practices
have
resulted
in
inadequate
nutrient
supply.
Nano-agricultural
technology
presents
significant
potential
for
enhancing
crop
resistance,
reducing
stresses,
providing
economic
benefits
with
lower
environmental
risks.
Methods
In
this
study,
a
bibliometric
analysis
nano-agricultural
applications
was
conducted
using
the
Web
Science
Core
Collection,
2,626
publications
from
2000
to
2023
were
identified,
an
exponential
increase
both
citations.
Results
discussion
European
Asian
countries
institutions
are
more
actively
involved,
although
USA
produces
highest-quality
papers.
Additionally,
field
has
evolved
through
two
stages:
first
stage
(2000-2016)
focused
on
toxicology
nanomaterials
(NMs),
while
second
(2017-present)
emphasizes
NMs
as
nanofertilizers
promote
growth,
nanoregulators
or
nanopesticides
enhance
resistance
against
biotic
stress
abiotic
stress.
Finally,
future
research
perspectives
also
proposed,
including
optimalizations
NMs,
investigations
behavior
bioavailability
driven
by
rhizosphere
phyllosphere
process,
interdisciplinary
collaboration
across
various
fields,
application
laboratory
field,
long-term
behaviors
assessments
diverse
ecosystems.
Overall,
study
provides
valuable
reference
understanding
development
pinpointing
frontiers.
