Land,
Journal Year:
2023,
Volume and Issue:
12(7), P. 1309 - 1309
Published: June 28, 2023
Ecological
challenges
resulting
from
soil
salinization
in
the
Tarim
River
Basin
(TRB),
exacerbated
by
climate
change
and
human
activities,
have
emphasized
need
for
a
quick
accurate
assessment
of
regional
ecological
environmental
quality
(EEQ)
driving
mechanisms.
To
address
this
issue,
study
has
developed
remote-sensing
index
with
salinity
adaptability
(RSEISI)
EEQ
integrating
comprehensive
(CSI)
into
(RSEI).
The
RSEISI
enhances
sensitivity
characterizes
surface
features
arid
regions,
thus
expanding
applicability.
Then,
we
used
time-series
analysis
methods
geodetector
to
quantify
spatial
temporal
trends
factors
TRB
2000
2022.
results
show
that
adaptation
effectively
monitors
TRB.
displayed
situation
oasis
expansion,
desert
deterioration,
glacier
melting,
multiyear
average
grades
were
dominated
medium
poor
saline
areas,
while
medium,
good,
excellent
concentrated
mountainous
areas.
Looking
at
trend
conjunction
land-use
types,
showed
mild
degradation
mainly
unused
land,
followed
improvement
cropland
grassland.
Hurst
indicated
most
areas
will
improve
future.
Soil
type,
land
use,
precipitation,
temperature
considered
be
key
affecting
across
TRB,
changes
found
interaction
multiple
factors.
This
may
provide
innovative
concepts
methodologies,
scientific
technological
support
management,
green
development
models
northwest
zone.
Open Geosciences,
Journal Year:
2025,
Volume and Issue:
17(1)
Published: Jan. 1, 2025
Abstract
By
simulating
the
layout
of
“Production–Living–Ecological
space”
under
various
scenarios
in
future
and
exploring
trend
land
use
changes,
it
is
great
significance
to
optimize
structure
ecological
environment
region.
Based
on
existing
data
combined
with
PLUS
model,
article
predicts
demand
distribution
PLES
2040
2060
then
studies
contribution
rate
area
changes
each
type
change
regional
quality.
The
results
show
that
(1)
agricultural
production
main
Anyang
City
from
1980
2020,
conversion
mainly
manifested
as
living
land.
(2)
In
all
three
scenarios,
between
2020
are
contraction
expansion
protection
scenario
smallest,
decrease
urban
development
largest.
(3)
2060,
varying
degrees
reduction
Ecological
quality
index
(EQI)
compared
2020.
At
same
time,
environmental
closely
related
(4)
result
multi-factors,
among
which
annual
precipitation
has
strongest
explanatory
power,
factors
synergistic
effects.
present
study
intended
provide
a
reference
for
optimizing
pattern
region
improving
Agriculture,
Journal Year:
2025,
Volume and Issue:
15(3), P. 349 - 349
Published: Feb. 6, 2025
The
Huaihe
River
Eco-Economic
Belt
(HREEB)
is
a
pivotal
region
in
China’s
national
strategic
planning.
Land
use
this
crucial
to
improving
ecological
quality
and
ensuring
food
security.
Using
the
PLUS
model
Geodetector,
we
evaluated
contribution
interaction
of
10
drivers
production–living–ecological
land
(PLEL)
performed
multi-scenario
simulations
PLEL.
results
show
that
following:
(1)
Ecological
mainly
affected
by
elevation
(contribution
value
>
0.16
for
forest,
grassland,
water).
Production
influenced
topographic
relief,
elevation,
GDP
per
capita
0.13).
Living
driven
capita,
population
density
Interaction
analysis
shows
nonlinear
or
two-factor
enhancement
among
factors.
(2)
HREEB
has
relatively
stable
spatial
pattern.
Simulation
indicate
will
not
exceed
12%
change
next
50
years.
(3)
By
2075,
under
various
scenarios
predict
significant
changes
area.
Compared
with
natural
development
scenario,
production
increased
14.8%
farmland
protection
living
14.3%
urban
scenario.
This
research
vital
managing
developing
PLEL
resources
within
HREEB.
Remote Sensing,
Journal Year:
2023,
Volume and Issue:
15(12), P. 3039 - 3039
Published: June 10, 2023
High-intensity
human
activities
have
caused
dramatic
transformations
of
land
function
in
China’s
coastal
zone,
putting
enormous
pressure
on
the
region’s
ecological
environment.
It
is
urgent
to
fully
understand
spatiotemporal
evolution
land-use
zone
promote
sustainable
development.
Therefore,
based
CNLUCC
data
for
2000,
2010,
and
2020,
this
study
quantitatively
explored
production–living–ecological
(PLEL)
its
eco-environmental
response
by
using
multiple
analysis
methods,
gradient
analysis,
quality
index.
The
results
showed
that
over
past
20
years,
production
(PL)
continued
decrease,
whereas
living
(LL)
blue
(BEL)
increased.
In
vertical
direction,
PL
(EL)
dominated
northern
southern
respectively.
horizontal
with
increasing
distance
from
coastline,
green
(GEL)
increased,
it
was
opposite
BEL.
PLEL
were
high
low
frequency
north
south,
From
2000
slightly
degraded,
conditions
“excellent
south
poor
north”.
qualities
each
sub-coastal
gradually
improved
coastline.
main
transformation
types
led
improvement
degradation
other
lands
(OPL)
BEL
OPL,
findings
will
guide
planning,
protection,
science-based
usage.
Land,
Journal Year:
2024,
Volume and Issue:
13(5), P. 604 - 604
Published: April 30, 2024
This
study
utilizes
provincial
panel
data
from
China
spanning
the
period
2011
to
2020
assess
coupled
and
coordinated
development
of
spatial
functions
related
production,
life,
ecology
(PLE)
in
rural
areas.
The
assessment
is
based
on
quantifying
function
indices
for
PLE
China’s
regions.
Additionally,
it
examines
characteristics
their
temporal
evolution,
correlation,
driving
factors.
findings
indicate
a
modest
upward
trend
coupling
coordination
levels
these
across
China,
although
significant
proportion
provinces
still
exhibit
near-disordered
decline.
Exploratory
analysis
reveals
geographical
disparity,
with
higher
observed
eastern
regions,
lower
west,
noticeable
clustering.
By
employing
Durbin
model
investigate
determinants
degrees,
we
discovered
that
factors
such
as
regional
economic
development,
urbanization,
urban–rural
income
gap,
financial
support
agriculture,
science
technology
investment
level,
agricultural
structural
adjustments
significantly
influence
functions.
Furthermore,
using
geographic
detector
model,
identifies
agriculture
key
drivers
influencing
These
provide
valuable
reference
points
policies
strategies
management.
Sustainability,
Journal Year:
2023,
Volume and Issue:
15(13), P. 10445 - 10445
Published: July 3, 2023
The
rapid
development
of
industrialization
and
urbanization
aggravates
the
tension
human–land
relationships,
leading
to
increasingly
prominent
contradictions
a
serious
imbalance
in
relationship
among
production–living–ecological
space
(PLES).
study
county
PLES
is
important
for
guiding
spatial
layout
optimization
national
land
as
well
promoting
integrated
urban
rural
areas.
This
can
be
made
more
accurate,
comprehensive,
visualized
by
using
transfer
matrix,
use
dynamic
attitude,
barycenter
migration
model.
Research
results
have
shown
that
type
Changfeng
County
was
dominated
production
living
from
2000
2020.
area
decreased
most,
16.3044
km2,
ecological
increased
50.175
within
which
single
attitude
first
positive
then
negative,
with
drastic
changes
fastest
expansion
rate.
mainly
based
on
out
in;
longest
distance
most
obvious
change
center
gravity
10
years
period,
showing
trend
toward
southeastern
town
Xiatang.
In
addition,
population,
increase
proportion
tertiary
industry
structures,
policy
regulation
are
dominant
factors
county.
provides
basis
support
rational
resources
balanced
coordinated
people
County,
currently
implementing
unbalanced
development.
PeerJ,
Journal Year:
2024,
Volume and Issue:
12, P. e18368 - e18368
Published: Oct. 28, 2024
Changes
in
the
ecological
environment
quality
(EEQ)
main
inland
Tarim
River
Basin
China
substantially
impact
regional
development.
Indeed,
comprehensive
measures
have
been
implemented
since
2000.
In
this
context,
objective
of
present
study
was
to
investigate
spatiotemporal
evolution
EEQ
and
monitor
effectiveness
restoration
over
2000-2020
period
using
remote
sensing
data.
First,
a
Remote
Sensing
Ecological
Index
(RSEI)
constructed
based
on
Moderate
Resolution
Imaging
Spectroradiometer
Second,
spatial
distributions
factors
RSEI
were
analyzed
by
Moran's
Geodetector.
The
results
indicated
that
overall
values
for
increased
from
0.22
2000
0.25
2020.
Moreover,
areas
with
poor
decreased
50.7%
44.73%,
while
those
moderate
11.45%
16.91%.
Therefore,
demonstrated
slight
improvement
area
period.
On
other
hand,
exhibited
significant
autocorrelation
period,
relatively
stable
distribution.
Areas
high-high
aggregation
distributed
high-elevation
mountainous
western,
northern,
southern
parts
area.
contrast,
low-low
observed
central
eastern
low-elevation
desert
areas.
driven
interactions
several
factors,
including
normalized
difference
vegetation
index,
land
surface
moisture,
temperature,
differential
build-up
bare
soil
elevation.
particular,
heat
driving
factor
severely
impacted
increase
could
directly
enhance
meltwater
runoff
glaciers
basin,
thereby
resulting
short-term
basin
EEQ.
Furthermore,
rapid
urbanization
2015
2020
resulted
decrease
average
value
0.1
consequently,
level
slightly.
Briefly,
showed
an
increasing
trend
2020,
further
demonstrating
series
