Land,
Journal Year:
2024,
Volume and Issue:
13(6), P. 892 - 892
Published: June 20, 2024
The
rational
allocation
of
land
use
space
is
crucial
to
carbon
emissions
reductions
and
economic
development.
However,
previous
studies
have
either
examined
inter-objective
trade-offs
or
intra-objective
within
a
single
objective
lacked
multilevel
comprehensive
studies.
Therefore,
this
paper
integrates
inter-
mitigation
efficiency
comprehensively
study
the
interaction
between
pattern
demand
due
policies.
research
methods
were
mainly
multi-objective
planning,
gray
model,
patch-generating
simulation
area
was
less-developed
urban
agglomeration—the
Tianshan
north
slope
agglomeration.
results
show
that
total
change
from
2000
2020
5767.94
km2,
grassland
transferred
out
most,
3582.59
accounting
for
62.11%,
cultivated
in
3741.01
km2.
Compared
with
2020,
simulated
obtained
2030
has
significantly
changed.
In
addition,
benefits
under
low-carbon
objectives
changed
opposite
direction.
four
landscape
patterns
three
scenarios
same
direction,
degree
fragmentation,
agglomeration,
regularity
better
than
objective.
are
essential
references
future
resource
management,
mitigation,
sustainable
development
agglomerations.
Sustainability,
Journal Year:
2024,
Volume and Issue:
16(11), P. 4461 - 4461
Published: May 24, 2024
Resource
exploitation
markedly
alters
land
use
and
ecological
carbon
storage,
posing
risks
to
sinks
food
security.
This
study
analyzes
land-use
change
from
1990
2020
in
the
resource-based
province
of
Shanxi,
China.
By
introducing
a
mineral
resource
driver,
PLUS
model
was
used
predict
four
scenarios:
natural
development
(ND),
cropland
protection
(CP),
(EP),
dual
ecology
(DP).
The
spatial
temporal
evolutions
storage
were
then
analyzed
using
InVEST
model.
Forests
predominantly
distributed
mountainous
areas,
with
croplands
southerly
central
flat
construction
lands
around
cities,
mining
sporadically
across
Shanxi.
From
2020,
grasslands
decreased,
while
forest,
construction,
increased.
Carbon
decreased
continuously,
total
loss
15.1
×
106
t.
High-value
areas
Lüliang,
Taihang,
Taiyue
Mountains,
low-value
more
populous
southern
regions.
predicted
decline
by
2035
under
ND
CP
scenarios
exceed
that
EP
DP
scenarios.
scenario
projected
an
increase
4.93
t
2035.
realizes
maintains
security,
providing
theoretical
reference
for
achieving
neutrality
high-quality
sustainable
Shanxi
Province.
Land,
Journal Year:
2024,
Volume and Issue:
13(8), P. 1335 - 1335
Published: Aug. 22, 2024
Reasonable
land
use
planning
and
management
efficiently
allocates
resources,
promotes
socio-economic
development,
protects
the
ecological
environment,
fosters
sustainable
development.
It
is
a
crucial
foundation
for
achieving
harmonious
coexistence
between
humans
nature.
Optimizing
key
to
management.
Four
scenarios
are
established:
an
economic
development
scenario
(EDS),
protection
(EPS),
natural
(NDS),
coordinated
(CDS).
This
study
simulates
patterns
under
these
through
coupling
of
GMOP
PLUS
models.
analyzes
efficiency
transformation
index,
landscape
comprehensive
benefits,
ecosystem
service
value
(ESV)
each
pattern.
The
optimal
pattern
determined
by
balancing
factors.
results
indicated
that
CDS,
areas
wasteland,
grassland,
forest
land,
water
bodies,
construction
unused
in
Lvliang
City
were
6724.29
km2,
6664.74
6581.84
126.94
1017.33
0.42
respectively.
represented
plan
City.
minimized
human
interference
with
pattern,
achieved
highest
reached
reasonable
balance
benefits
ESV.
research
findings
provide
valuable
insights
decision
support
regional
planning,
territorial
space
related
policy
formulation.
Landscape Ecology,
Journal Year:
2024,
Volume and Issue:
39(8)
Published: Aug. 13, 2024
In
the
context
of
urbanization
and
climate
change,
optimizing
land
use
patterns
is
fundamental
for
sustainable
regional
development
low-carbon
transition.
However,
achieving
that
support
a
transition
while
maintaining
economic
prosperity
remains
challenging.
Our
goals
are
to
develop
model
explore
strategies
given
future
constraints.
We
propose
multi-objective
optimization
approach
transitions
towards
low
carbon
by
considering
emissions
reduction,
ecological
protection,
development,
taking
Yangtze
River
Economic
Belt
China
was
selected
as
case
study
area
empirical
research.
research
on
from
2000
2020
reveals
refined
strategies,
aiming
at
2035,
have
capacity
substantially
reduce
emissions.
Simultaneously,
these
ensure
preservation
higher
ecosystem
service
value
enhance
advantages.
optimized
emission
growth
nearly
5%
compared
baseline.
Meanwhile,
our
demonstrate
7%
rate
in
benefits
also
shows
slight
improvement.
Recognizing
variations
patterns,
we
recommend
customized
local
guidance
aligning
with
optimal
outcomes.
offers
valuable
policy
insights
facilitate
transition,
which
can
contribute
navigating
trade-offs
between
prosperity.
Land,
Journal Year:
2025,
Volume and Issue:
14(3), P. 601 - 601
Published: March 13, 2025
Analyzing
the
complex
dynamics
of
land
use,
accurately
assessing
ecosystem
service
values
(ESVs),
and
predicting
future
trends
in
use
ESVs
alterations
within
spatial
constraints
policies
are
essential
for
policymaking
advancing
sustainable
development
objectives.
This
study
analyzed
use/land
cover
(LULC)
changes
Yunnan
Province
from
2005
to
2020.
Policy
were
incorporated
into
scenario
simulations,
an
improved
equivalent
factor
method,
Markov-PLUS
model,
global
autocorrelation,
Getis-Ord
Gi*
method
applied
predict
analyze
LULC
under
different
scenarios
2030.
The
findings
revealed
following:
(1)
Forests
grasslands
dominant
categories
YNP,
with
notable
patterns
recorded
between
(2)
total
area
increased
by
CNY
8.152
billion
during
this
period,
exhibiting
initial
decline
followed
gradual
recovery.
(3)
Simulations
2030
indicated
that
natural
would
lead
most
extensive
urbanization,
while
ecological
conservation
yield
greatest
increase
ESVs.
In
contrast,
only
farmland
led
food
production-related
ESVs,
but
resulted
lowest
among
three
scenarios.
These
results
contribute
understanding
impacts
on
provide
insights
formulating
scientifically
sound
effective
protection
policies.
