Long‒term trends in surface thermal environment and its potential drivers along the urban development gradients in rapidly urbanizing regions of China
Sustainable Cities and Society,
Год журнала:
2024,
Номер
105, С. 105324 - 105324
Опубликована: Март 8, 2024
Язык: Английский
MSPA-based green space morphological pattern and its spatiotemporal influence on land surface temperature
Heliyon,
Год журнала:
2024,
Номер
10(11), С. e31363 - e31363
Опубликована: Май 18, 2024
The
frequent
occurrence
of
extreme
heat
events
has
notably
affected
human's
living
environment,
and
a
considerable
number
studies
have
reported
that
green
space
is
an
efficient
measure
by
investigating
the
correlation
between
land
surface
temperature
(LST).
However,
spatiotemporal
effects
on
LST
still
remain
unclear.
In
this
study,
patterns
(e.g.,
core,
islet,
perforation,
edge,
loop,
bridge,
branch)
were
identified
through
morphological
spatial
pattern
analysis
(MSPA).
Moreover,
in
three
periods
investigated
kinds
models.
As
indicated
results:
(1)
geographically
temporally
weighted
regression
model
exhibited
optimal
performance
compared
with
other
two
(2)
general,
branch
significantly
contributed
to
cooling,
islet
hindered
cooling.
perforation
loop
exerted
significant
dual
nature
similar
quantity
negative
positive
coefficients,
showing
relatively
complex
impact
mechanism.
(3)
intensity
effect
respective
MSPA
class
varied
across
study
area.
core
had
most
substantial
effect,
which
distributed
cooling
located
south
middle
corners
(4)
result
suggested
neighborhood
scale
China,
was
960
m
served
as
basic
unit
management.
non-stationarity
provided
important
insights
into
urban
thermal
environment
improvement
planning
design.
Язык: Английский
Exploring the influence of block environmental characteristics on land surface temperature and its spatial heterogeneity for a high-density city
Sustainable Cities and Society,
Год журнала:
2024,
Номер
118, С. 105973 - 105973
Опубликована: Ноя. 9, 2024
Язык: Английский
Impacts of forest cover change on local temperature in Yangtze River Delta and Pearl River Delta urban agglomerations of China
Agricultural and Forest Meteorology,
Год журнала:
2024,
Номер
357, С. 110205 - 110205
Опубликована: Авг. 29, 2024
Язык: Английский
Quantifying the Combined and Individual Impacts of Climate and Human Activity on the Urban Green Space Carbon Sink Capacity in Beijing
Sustainable Cities and Society,
Год журнала:
2025,
Номер
unknown, С. 106253 - 106253
Опубликована: Фев. 1, 2025
Язык: Английский
Spatial Configuration and Layout Optimization of the Ecological Networks in a High-Population-Density Urban Agglomeration: A Case Study of the Central Plains Urban Agglomeration
Land,
Год журнала:
2025,
Номер
14(4), С. 768 - 768
Опубликована: Апрель 3, 2025
The
construction
of
ecological
networks
and
the
optimization
spatial
layouts
are
essential
for
maintaining
regional
security
promoting
sustainable
development,
especially
in
high-population-density
urban
agglomerations.
This
study
employs
Central
Plains
Urban
Agglomeration
(CPUA)
as
a
case
to
establish
an
network
through
quantitative
assessments
land
use/cover
change
(LUCC)
ecosystem
service
value
(ESV),
utilizing
morphological
pattern
analysis
(MSPA)
methods
tools
such
Linkage
Mapper
further
optimize
layouts.
findings
reveal
following:
(1)
use
structure
within
CPUA
experienced
notable
shifts.
magnitude
changes
ranked
follows:
>
cultivated
grassland
waterbody
forest
bare
land.
(2)
southwestern
mountainous
hilly
regions,
designated
high
ESV
areas,
primarily
rely
on
water
conservation
soil
retention
functions.
In
contrast,
central
western
characterized
by
low
ESVs,
dominated
land,
significantly
influenced
urbanization
agricultural
activities.
(3)
An
system
was
developed
based
region’s
natural
geographic
features,
incorporating
20
sources
covering
approximately
21,434.70
km2,
36
corridors
with
combined
length
around
2795.19
km.
extends
north–south
direction
parts
CPUA.
(4)
Considering
optimized
layout
“five
belts,
six
zones,
multiple
clusters,
corridors”
proposed,
along
differentiated
restoration
strategies
tailored
address
specific
issues
different
regions.
aims
harmonize
protection
economic
providing
scientific
foundation
valuable
reference
planning
policies.
Язык: Английский
Revealing the impacts of different urban development on habitat quality: A case study of the Changchun–Jilin region of China
Journal of Cleaner Production,
Год журнала:
2025,
Номер
unknown, С. 145661 - 145661
Опубликована: Май 1, 2025
Язык: Английский
Integrated Assessment of the Runoff and Heat Mitigation Effects of Vegetation in an Urban Residential Area
Sustainability,
Год журнала:
2024,
Номер
16(12), С. 5201 - 5201
Опубликована: Июнь 19, 2024
Urban
vegetation
has
an
essential
role
in
maintaining
the
hydrological
and
energy
balance.
These
processes
urban
areas
have
been
long
overlooked
due
to
fragmentation
uneven
feature
of
land
use
distribution.
Recent
advances
remote
sensing
ease
data
acquisition
allowed
a
more
precise
mapping
cover,
making
it
possible
simulate
above
at
micro
scales.
This
research
selects
small
typical
residential
catchment
Japan
as
study
area
purpose
this
is
investigate
impact
on
mitigating
runoff
heat
island
effect.
The
remote-sensed
Normalized
Difference
Vegetation
Index
(NDVI)
were
used
represent
spatial
distribution
seasonal
variation.
A
single
layer
canopy
model
Storm
Water
Management
Model
coupled
interception,
evapotranspiration,
generation
processes.
effects
amount
landscape
patterns
also
considered.
results
showed
that
had
satisfactory
performance
modeling
these
When
was
set
1.4
times
its
original
value,
summer
total
10.7%
reduction
average
surface
temperature
2.5
°C
reduction.
While
0.8
increased
by
6%,
1.5
°C.
combination
green
roof
dense
street
trees
best
mitigation
among
different
patterns.
could
be
reference
for
future
infrastructure
development
with
similar
climate
characteristics.
Язык: Английский
Identification of Spatial Distribution of Afforestation, Reforestation, and Deforestation and Their Impacts on Local Land Surface Temperature in Yangtze River Delta and Pearl River Delta Urban Agglomerations of China
Remote Sensing,
Год журнала:
2024,
Номер
16(18), С. 3528 - 3528
Опубликована: Сен. 23, 2024
Forest
change
affects
local
and
global
climate
by
altering
the
physical
properties
of
land
surface.
Accurately
assessing
urban
forest
changes
in
surface
temperature
(LST)
is
a
scientific
crucial
strategy
for
mitigating
regional
change.
Despite
this,
few
studies
have
attempted
to
accurately
characterize
spatial
temporal
pattern
afforestation,
reforestation,
deforestation
optimize
their
effects
on
temperature.
We
used
China
Land
Cover
Dataset
knowledge
criterion-based
analysis
model
map
forestation
(e.g.,
afforestation
reforestation)
deforestation.
then
analyzed
impacts
these
activities
LST
from
2010
2020
based
moving
window
spatial–temporal
method
agglomerations
Yangtze
River
Delta
(YRD)
Pearl
(PRD),
China.
The
results
showed
that
areas
declined
both
regions.
Most
years,
annual
area
greater
than
yearly
areas.
Afforestation
reforestation
had
cooling
−0.24
±
0.19
°C
−0.47
0.15
YRD
−0.46
0.10
−0.86
0.11
PRD.
Deforestation
conversion
non-forests
led
warming
1.08
0.08
0.43
effect
forests
more
evident
PRD
YRD,
it
predominantly
caused
reforestation.
Moreover,
demonstrated
significant
seasonal
effect,
except
December
YRD.
Two
exhibited
PRD,
mainly
induced
deforestation,
while
there
were
inconsistent
Overall,
this
study
provides
practical
data
decision-making
support
rational
management
benefit
maximization,
empowering
policymakers
planners
make
informed
decisions
communities.
Язык: Английский