Grasses,
Год журнала:
2024,
Номер
3(4), С. 369 - 392
Опубликована: Дек. 20, 2024
Agrivoltaics
(AV)
are
expanding
worldwide,
but
knowledge
about
the
perception
and
acceptance
of
this
approach
is
far
from
complete.
The
aim
present
study
was
to
investigate
visual
AV
systems,
focussing
on
central
research
question
whether
type
grassland
use
influences
vertical
interspace
AV.
For
purpose,
three
photo-based
pictures
a
plant
were
used
in
laboratory
experiment
with
29
participants:
original
photo
showing
only;
an
edited
cattle
added
silage
bales
added.
eye-tracking
results
showed
that
additional
picture
elements
(i.e.,
bales)
at
least
partially
attracted
attention,
did
not
distract
technical
depicted
systems.
analysis
ratings
indicated
relatively
stable
attitudes
towards
AV,
which
could
be
easily
modulated
by
depicting
different
types
within
Short-term
limited
changes
appeared
result
provision
information
mental
engagement
topic.
We
recommend
carrying
out
further
based
larger,
representative
samples
more
realistic
stimuli
systems
would
provide
better
understanding
than
photos
alone,
such
as
on-site
visits
or
VR
visualisations,
enhance
external
validity
results.
also
suggest
conducting
longitudinal
studies
explore
possible
long-term
effects
public
Agronomy,
Год журнала:
2024,
Номер
14(8), С. 1824 - 1824
Опубликована: Авг. 19, 2024
This
review
article
focuses
on
agrivoltaic
production
systems
(AV).
The
transition
towards
renewable
energy
sources,
driven
by
the
need
to
respond
climate
change,
competition
for
land
use,
and
scarcity
of
fossil
fuels,
has
led
consideration
new
ways
optimise
use
while
producing
clean
energy.
AV
not
only
generate
but
also
allow
agricultural
livestock
yields
be
maintained
or
even
increased
under
PV
structures,
offering
a
sustainable
strategy
that
may
more
acceptable
local
communities
than
traditional
installations.
assesses
technical
feasibility
systems,
environmental,
economic
social
benefits,
as
well
challenges
faced
legal
framework
regulating
their
implementation.
It
is
highlighted
despite
advantages
in
efficiency
dual
food
production,
there
are
important
related
initial
investment
required,
technological
adaptation,
regulatory
obstacles,
effects
shading
production.
paper
underlines
importance
further
research
development
these
overcome
constraints
maximise
potential
benefits.
concluded
although
they
present
significant
challenges,
management
offers
promising
opportunities
improve
contribute
several
goals.
Land Use Policy,
Год журнала:
2024,
Номер
140, С. 107099 - 107099
Опубликована: Фев. 24, 2024
The
need
to
advance
energy
transition
has
arisen
from
the
global
challenge
of
climate
change.
Shifts
renewable
sources,
such
as
solar
energy,
are
crucial
for
reducing
carbon
emissions
and
mitigating
use
agrivoltaics—the
combination
food
production
with
photovoltaic
technology—is
gaining
scientific
attention.
Agrivoltaics
is
a
type
multifunctional
landscape
thus
reduces
land
conflicts
between
production.
However,
while
agrivoltaics
begun
proliferate
at
scale,
associated
changes
have
so
far
received
little
This
knowledge
gap
critical,
there
clear
evidence
that
change
often
contributes
low
levels
acceptance
power
installations.
To
address
this
gap,
study
examines
brought
by
agrivoltaic
installations
in
Netherlands.
Four
representative
built
cases
were
examined
making
key
indicators
extracted
literature
fieldwork.
revealed
varying
degrees
across
cases.
Changes
agricultural
pattern
openness
emerged
prominent
changes.
crop
historical
linear
structures—often
implementation
conventional
plants—were
not
identified.
Policy
attention
siting
design
systems
needed
positively
influence
social
relatively
novel
solution
thereby
transition.
Environmental Research Infrastructure and Sustainability,
Год журнала:
2024,
Номер
4(4), С. 042002 - 042002
Опубликована: Ноя. 4, 2024
Abstract
Renewable
energy
sources,
such
as
floating
photovoltaic
systems
(FPVs),
are
crucial
to
mitigating
the
climate
crisis.
FPV
deployments
on
freshwater
bodies
rapidly
growing,
they
avert
land-use
change,
operate
with
increased
efficiency,
and
potentially
improve
water
availability
by
reducing
evaporation
frequency
of
algal
blooms.
However,
understanding
ecological
consequences
for
is
very
limited
despite
variable
far-reaching
range
potential
impacts.
Here,
we
bring
novel
insight
combining
an
established
theoretical
approach—techno-ecological
synergies
(TES)—with
robust
body
functioning,
direct
sustainable
deployments.
Specifically,
show
integrate
consideration
both
deployment
decisions
based
current
evidence
fundamental
states
processes.
Based
422
pieces
from
a
systematic
review
known
physical
(
n
=
283),
chemical
96)
biological
43)
effects
systems,
outline
eight
TES
that
could
be
realised
through
location,
design,
operation
decisions.
There
was
most
114)
Water
Use
Efficiency
TES,
which
all
reported
decreased
rates,
or
savings,
due
panel
shading.
We
highlight
lack
hosting
bodies,
well
need
comprehensive
studies
in
physical,
chemical,
aspects
dynamics
integrated.
Finally,
detail
research
priorities
ensure
future
benefit
bodies.
Ultimately,
integrated
system
knowledge,
mitigate
emergencies,
notable
benefits
society.
