Frontiers in Sustainable Food Systems,
Год журнала:
2024,
Номер
8
Опубликована: Ноя. 28, 2024
Ecological
product
value
realization
(EPVR)
and
rural
revitalization
(RR)
are
essential
guarantees
for
ensuring
human
well-being
a
better
life.
They
also
crucial
components
of
promising
vision
the
future
world
play
significant
role
in
promoting
sustainable
management
ecological
restoration.
The
chain-driven
mechanism
EPVR—ecological
industry
(EI)—RR
karst
desertification
control
(KDC)
area
has
already
become
key
scientific
issue
that
urgently
needs
to
be
solved
during
process
industrial
green
transformation
consolidating
results
poverty
alleviation
region,
however,
there
is
currently
no
clear
synthesis
this
issue.
To
address
shortfall,
we
have
adopted
systematic
literature
review
(SLR)
framework.
Based
on
Web
Science
(WOS)
China
National
Knowledge
Infrastructure
(CNKI)
databases,
conducted
comprehensive
search
rigorous
evaluation,
obtaining
321
documents
published
between
1997
2023.
These
were
systematically
integrated
analyzed
depth
through
process,
aiming
provide
holistic
perspective.
indicate
(1)
an
overall
fluctuating
upward
trend
number
literatures
issued
time
series,
study
categorized
into
accumulation,
development,
expansion
periods;
(2)
research
mainly
concentrated
China’s
EPVR
RR
pilot
areas.
There
overlap
hotspot
institutions,
their
areas
specialization,
foundations,
geographical
locations.
content
includes
EPVR,
EI,
relationship
EI
RR,
models
pathways;
(3)
main
progress
landmark
summarized
based
content.
A
series
related
issues
technical
needs,
such
as
eco-product
(EP)
accounting,
mechanisms,
formation,
them,
explored
research.
While
summarizing
general
laws,
it
provides
targeted
insights
revelations
subsequent
KDC
ecosystem.
Land,
Год журнала:
2025,
Номер
14(3), С. 444 - 444
Опубликована: Фев. 20, 2025
Identifying
ecological
functional
areas
by
clarifying
the
trade-off
synergies
of
multiple
ecosystem
services
to
meet
practical
needs
coordinating
different
in
a
specific
region
is
highly
important.
Based
on
InVEST,
RUSLE
and
other
models,
this
study
analyzed
tradeoff
five
typical
Wanjiang
Urban
Belt
from
1990
2020
using
Pearson
correlation
analysis,
self-organizing
map
(SOM)
carried
out
zoning.
The
PLUS
model
was
used
simulate
evolution
zones
2030.
results
revealed
that
(1)
2020,
water
yield
(WY),
soil
reservation
(SR),
food
production
(FP)
increased,
whereas
carbon
storage
(CS)
habitat
quality
(HQ)
decreased.
value
showed
pattern
“high
south
low
north”.
(2)
WY–SR,
WY–HQ,
HQ–CS,
HQ–SR
were
synergistic,
synergistic
relationship
weakening
trend.
There
trade-offs
WY–CS,
WY–FP,
SR–FP,
effects
increased
with
time.
(3)
area
divided
into
an
transition
area,
conservation
urban
development
restoration
agroecological
functions
structures
each
cluster
significantly
differed.
(4)
Under
natural
scenario,
scales
transition,
conservation,
increased.
cropland
protection
began
transform
areas.
transfer
restoration,
In
conclusion,
are
dominated
effects,
but
there
potential
risk
shifting
relationships.
future,
targeted
regional
optimization
measures
according
status
zone
urgently
needed
provide
references
for
territorial
space
management
control
region.
Frontiers in Environmental Science,
Год журнала:
2025,
Номер
12
Опубликована: Янв. 9, 2025
Ecosystems
worldwide
are
facing
significant
challenges
resulting
from
the
dual
pressures
of
global
climate
change
and
human
activities,
particularly
in
terms
biodiversity
loss
associated
with
land-use
change.
Focusing
on
Yangtze
River
Economic
Belt
(YREB),
this
study
uses
System
Dynamics
(SD)
-
Patch-generating
Land
Use
Simulation
(PLUS)
model
to
simulate
development
under
different
scenarios
shared
socio-economic
pathways
(SSPs)
representative
concentration
(RCPs)
2030
2050.
Furthermore,
InVEST
is
applied
evaluate
changes
habitat
quality
(HQ)
over
period
2000
A
hotspot
analysis
further
highlights
spatial
heterogeneity
HQ
within
YREB.
The
showed
that
pattern
YREB
2020
2050
will
be
dominated
by
cropland
eastern
region,
grassland
north-west,
forest
land
central
southern
regions,
a
steady
increase
built-up
east.
index
exhibits
gradual
east
west,
ultimately
declining
0.726
SSP585
scenario
for
This
trend
reflects
moderate
degradation
(HD),
degree
shifting
towards
lower
higher
proportions
HQ.
Spatial
reveals
region
identified
as
cold
spot,
categorized
non-significant,
while
western
emerges
hot
where
exceeds
40%.
These
findings
offer
scientific
foundation
promoting
high-quality
enhancing
conservation
Land,
Год журнала:
2025,
Номер
14(3), С. 441 - 441
Опубликована: Фев. 20, 2025
Under
climate
change
and
human
activities,
ecosystem
service
(ES)
research
lacks
systematic
approaches
scientific
depth.
This
study
develops
a
comprehensive
framework
integrating
advanced
models
to
predict
ESs,
analyze
interactions,
identify
key
drivers,
assess
spatial
effects
on
the
Zoigê
Plateau.
The
results
indicate
following:
(1)
From
2000
2020
across
three
2040
scenarios,
water
conservation
(WC)
improves,
while
carbon
storage
(CS)
habitat
quality
(HQ)
decline,
leading
overall
ES
degradation.
Core
areas
face
rising
degradation
risks
from
9%
29%
under
increasing
environmental
stress
(SSP119
SSP585).
(2)
importance
follows
HQ
>
CS
SC
WC,
with
bivariate
interactions
outperforming
single-factor
effects.
Future
scenarios
show
weakened
correlating
higher
ecological
stress,
indicating
stability
risks.
(3)
Land
use
(>40%
explanatory
power)
is
primary
driver,
urban
expansion,
slope,
evapotranspiration,
precipitation
contribute
(6–12%).
(4)
drivers
showed
weak
patterns
but
became
more
stable
future
suggesting
stronger
control.
provides
methodological
paradigm
for
analysis
supports
planning
in
alpine
wetland–grassland
regions.
Land,
Год журнала:
2024,
Номер
13(11), С. 1728 - 1728
Опубликована: Окт. 22, 2024
Accurate
estimation
of
terrestrial
ecosystem
carbon
storage
and
the
scientific
formulation
ecological
conservation
land
use
policies
are
essential
for
promoting
regional
low-carbon
sustainable
development
achieving
goal
“carbon
neutrality.”
In
this
study,
FLUS–InVEST
model
was
used
to
evaluate
stocks
Jiangsu
coastal
zone
in
China
from
1995
2020
scientifically
forecast
changes
2030
under
three
scenarios:
natural
exploitation,
protection,
economic
development.
The
results
as
follows:
(1)
From
2020,
initially
remained
stable
before
declining,
a
trend
closely
linked
accelerated
urbanization
growth
Province.
(2)
By
2030,
scenarios
exhibits
pattern
“S1
decrease–S2
increase–S3
decrease,”
with
more
significant
increase
construction
compared
protection
scenario.
(3)
sensitivity
varies
across
scenarios.
scenario,
is
most
affected
by
forest
reduction
expansion.
it
responsive
increases
non-construction
land.
expansion
leads
decrease
storage.
Therefore,
when
formulating
future
territorial
spatial
planning
urban
strategies,
consider
comprehensively,
taking
into
account
sequestration
capabilities.
This
approach
will
ensure
effective
restoration
damaged
ecosystems
while
safeguarding
robust
economies
societies.
PLoS ONE,
Год журнала:
2025,
Номер
20(1), С. e0316255 - e0316255
Опубликована: Янв. 24, 2025
Influenced
by
urban
expansion,
population
growth,
and
various
socio-economic
activities,
land
use
in
the
Yangtze
River
Delta
(YRD)
area
has
undergone
prominent
changes.
Modifications
have
resulted
adjustments
to
ecological
structures,
leading
subsequent
fluctuations
carbon
storage.
This
study
focuses
on
YRD
region
analyzes
characteristics
of
changes
using
data
from
2000
2020,
with
a
10-year
interval.
Utilizing
InVEST
Model’s
Carbon
Storage
module
combination
PLUS
model
(patch-generating
simulation),
we
simulated
projected
future
patterns
storage
across
under
five
scenarios
including
natural
development
(ND),
(UD),
protection
(EP),
cropland
(CP),
balanced
(BD).
Upon
comparing
levels
predicted
for
2030
those
stocks
decrease
initial
four
then
increase
fifth
scenario.
In
declining
scenarios,
CP
scenario
had
least
reduction
storage,
followed
EP
The
implementation
policies
aimed
at
safeguarding
preserving
integrity
can
efficaciously
curtail
expansion
developed
into
woodland
cropland,
enhance
structure
use,
mitigate
loss
