Ecological Indicators,
Journal Year:
2023,
Volume and Issue:
154, P. 110666 - 110666
Published: July 24, 2023
With
the
emphasis
of
modern
societal
development
on
ecological
environment,
urban
environmental
issues
have
been
lessened.
However,
green
space
occupies
a
significant
amount
land
resources,
leading
to
more
prominent
human-land
conflicts
in
some
areas,
thus
creating
serious
social
that
urgently
require
solutions.
As
result,
and
factors
must
be
integrated
into
sustainability
planning.
Using
Chinese
city
Fuzhou
as
an
example,
this
study
constructed
adaptive
cycle
model
framework
for
sustainable
based
theory
by
coordinating
three
core
characteristic
attributes
development:
potential
(urban
potential),
connectedness
(conflicting
use),
resilience
(suitability
development).
This
was
used
identify
stages
(exploitation,
conservation,
release,
reorganization)
different
areas
city.
Finally,
value
landscape
created
verified
through
multi-scenario
simulation.
The
results
were
follows:
1)
expansion
under
constraints
had
higher
could
effectively
mitigate
use
while
balancing
socio-ecological
contradictions
during
development;
2)
effects
varied
across
3)
our
proposed
planning
pathway
divided
eight
categories
targeted
measures
zoning
characteristics.
can
alleviate
contradiction
between
development.
It
policy
tool
managing
assessment
future
use.
Ecological Informatics,
Journal Year:
2024,
Volume and Issue:
80, P. 102460 - 102460
Published: Jan. 5, 2024
Spatial
reconstruction
and
scenario
simulation
of
historical
processes
future
trends
land
use/cover
change
(LUCC)
can
help
to
reveal
the
background
conversion
spatial
distribution
land.
Moreover,
there
is
a
close
relationship
between
spatiotemporal
dynamics
changes
in
different
ecosystem
services
(ESs).
Using
this
simulate
use
scenarios
important.
In
study,
an
LUCC
dynamic
analysis
framework
(LSTM-PLUS-FMOP)
was
constructed
based
on
deep
learning
time
series
forecasting
model
(LSTM),
parallelized
urban
(PLUS)
fuzzy
multiobjective
programming
(FMOP)
model.
The
PLUS
used
analyze
driving
mechanism
expansion
explore
pattern.
addition,
three
were
established:
natural
(NLE),
economic
development
priority
(EDP)
regional
sustainable
(RSD).
FMOP
ES
perform
conversion.
uncertainty
parameters
treated
by
intuitionistic
numbers
(IFSs).
This
study
applied
Yellow
River
Basin
Shaanxi
Province
(YRB-SX).
results
showed
that
(1)
from
2000
2020,
cropland
area
YRB-SX
continuously
decreased
12.67
×
104
ha,
while
built-up
increased
28.25
ha.
net
reduction
woodland
grassland
13.90
(2)
relative
error
range
prediction
using
LSTM
0.0003–
0.0042.
had
better
accuracy
than
Markov
chain
(3)
0.26%
0.85%
1.68%
(RSD)
under
scenarios.
25.01%,
32.76%
14.72%,
respectively.
RSD
followed
principles
ecological
protection
constraints,
which
mitigated
degradation
some
extent.
coupled
will
obtain
allocation
schemes
meet
requirements
provide
solutions
for
rational
management.
Ecological Indicators,
Journal Year:
2024,
Volume and Issue:
160, P. 111887 - 111887
Published: March 1, 2024
Building
an
ecological
security
pattern
(ESP)
can
safeguard
and
improve
the
structure,
functions
services
of
regional
ecosystems.
Furthermore,
it
is
also
one
significant
spatial
methods
to
mitigate
conflict
between
conservation
economic
growth.
Most
previous
researches
on
construction
ESP
have
directly
utilized
extensive
regions
forestland,
grassland,
water
area
or
nature
reserves
as
sources
(ESs)
without
weighing
habitat
quality
(HQ)
protection
red
line
(EPRL).
The
ES
Dawen
River
basin
(DRB)
was
identified
through
morphological
analysis
(MSPA)
landscape
connectivity
index.
By
employing
minimum
cumulative
resistance
model
(MCR),
potential
corridor
(EC)
identified,
its
importance
evaluated
by
gravity
model.
Simultaneously,
properties
HQ
(ER)
were
analyzed.
Finally,
this
paper
proposed
optimization
strategy
for
in
accordance
with
EPRL.
results
indicate
that:
(1)
DRB
contained
15
important
ESs,
mainly
concentrated
mountain
forest
areas.
(2)
105
ECs
extracted
MCR
model,
including
35
level
1
corridors
70
2
corridors,
which
primarily
eastern
region
basin.
(3)
Based
characteristics
ER,
well
EPRL
research,
"one
axis,
two
belts
five
zones"
constructed
control
strategies
proposed.
This
research
offers
some
reference
environment
restoration
sustainable
development
Yellow
Ecological Indicators,
Journal Year:
2024,
Volume and Issue:
158, P. 111467 - 111467
Published: Jan. 1, 2024
Urbanisation
affects
the
health
and
stability
of
ecosystem
significantly.
Constructing
a
scientific
ecological
security
pattern
(ESP)
is
paramount
importance
for
safeguarding
ecosystems
within
region,
optimising
spaces,
ensuring
sustainability.
To
investigate
effect
urbanisation
on
ESP,
we
utilised
Vigour–Organisation–Resilience-Services
(VORS)
model
to
analyse
changes
in
(EH)
identify
degraded
areas
city
Chengdu.
In
this
case
study.
We
used
Patch-generating
Land
Use
Simulation
(PLUS)
Model
predict
urban
expansion
trends
2035
evaluate
changing
ESP.
Additionally,
minimum
cumulative
resistance
(MCR)
circuit
theory
construct
an
network
facilitate
multilayer
planning
identified
source
area
approximately
4484.29
km2
recovery
zone
1608.35
managing
EH
degradation
source.
An
conservation
987.48
with
restricted
development
outside
source,
restoration
71.66
mitigate
impact
were
also
identified.
Seven
stable
corridors
consistent
spatial
patterns
pressure
levels
six
potential
await
restoration.
Based
analysis
dynamic
ESPs,
different
scenarios
simulated
2035.
The
findings
suggested
significant
variations
ESP
around
2010
despite
rapid
environment
was
partially
restored
by
increasing
land
controlling
its
contraction.
Therefore,
limiting
boundaries
expansion,
accurately
assessing
are
crucial
security.
Global Ecology and Conservation,
Journal Year:
2024,
Volume and Issue:
49, P. e02796 - e02796
Published: Jan. 1, 2024
Ecosystem
services
are
an
essential
foundation
for
sustainable
human
development.
In
view
of
the
severe
soil
erosion
on
Loess
Plateau
(LP),
it
is
important
to
explore
spatial
and
temporal
characteristics
supply-demand
balance
conservation
(SCSs).
this
study,
ecosystem
service
ratio
was
innovatively
proposed
quantitatively
assess
supply
demand
conservation.
First,
InVEST
model
used
spatially
quantify
(soil
retention)
erosion)
(SCS)
in
LP
from
2005
2020.
Meanwhile,
variation
matching
were
analyzed.
Second,
predict
future,
InVEST-PLUS
simulate
under
multiple
scenarios
2030.
The
natural
development
(NDS),
ecological
protection
(EPS)
economic
(EDS)
coupled
with
shared
socioeconomic
pathways
(SSPs)
representative
concentration
(RCPs).
results
showed
that:
(1)
2020,
annual
average
modulus
increased
by
60.58
(t/(hm²·a));
retention
per
unit
area
12.89
t/hm2;
both
northwest
southeast,
pattern
mainly
low-low
shifted
low-high
each
year;
(2)
based
LULC
simulated
PLUS
model,
kappa
coefficient
overall
accuracy
86.29%
91.14%,
respectively.
A
total
19.8%
22.97%
built-up
land
expanded
NDS
EDS
scenarios,
respectively,
a
17,515.65
km2
forestland
grassland
EPS
scenario;
(3)
2030.NDS-SSP245,
2030.EPS-SSP126
2030.EDS-SSP585
moderate
high
surpluses
accounted
11.40%,
14.34%
10.80%
surplus
area,
respectively;
compared
deficit
49.67%,
43.29%
56.65%
study
provided
innovations
coupling
degree
future
model.
