Research on the cooling island effects of water body: A case study of Shanghai, China

The water cooling island (WCI) is important to the mitigation of urban heat island (UHI) effects. In this study, the three aspects: WCI range (Lmax), amplitude of temperature drop (ΔTmax) and temperature gradient (Gtemp) are used to investigate the WCI effects of the water bodies in Shanghai, China...

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Bibliographic Details
Published inEcological indicators Vol. 67; pp. 31 - 38
Main Authors Du, Hongyu, Song, Xuejun, Jiang, Hong, Kan, Zenghui, Wang, Zhibao, Cai, Yongli
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.08.2016
Subjects
case studies
China
cooling
Gtemp
heat island
lakes
Land surface temperature
Lmax
LSI
LST
remote sensing
rivers
RTE
surface water
temperature
UCI
UHI
Urban heat island
vegetation
Water body
Water cooling island
WCI
ΔTmax
China
China, People's Rep., Shanghai
China, People's Rep
RTE
LSI
Gtemp
Water cooling island
WA
Land surface temperature
LST
Urban heat island
Water body
UHI
ΔTmax
PG
PI
UCI
WCI
Lmax
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Abstract The water cooling island (WCI) is important to the mitigation of urban heat island (UHI) effects. In this study, the three aspects: WCI range (Lmax), amplitude of temperature drop (ΔTmax) and temperature gradient (Gtemp) are used to investigate the WCI effects of the water bodies in Shanghai, China based on the high resolution Google Earth and Landsat-8 satellite image data of the eighteen lakes and three rivers within the outer ring road of the city. The results show that the water bodies have mean Lmax of 0.74km, ΔTmax of 3.32°C and Gtemp of 5.15°C/km. The WCI effects of the lakes are significantly stronger than that of rivers. In addition, geometry, proportion of vegetation and impervious surfaces are important impact factors on the WCI effects of water bodies. In particular, Lmax and ΔTmax of water bodies are negatively correlated to their geometry and the proportion of impervious surfaces, but positively correlated to the proportion of vegetation around them. The results suggest that with a fixed area of water body, the geometry of the water body should be relatively simple, the proportion of vegetation should be increased and the proportion of impervious surfaces should be reduced to realize good WCI effects. This provides useful implications for urban planners and designers to mitigate UHI effects.
AbstractList The water cooling island (WCI) is important to the mitigation of urban heat island (UHI) effects. In this study, the three aspects: WCI range (Lmax), amplitude of temperature drop (ΔTmax) and temperature gradient (Gtemp) are used to investigate the WCI effects of the water bodies in Shanghai, China based on the high resolution Google Earth and Landsat-8 satellite image data of the eighteen lakes and three rivers within the outer ring road of the city. The results show that the water bodies have mean Lmax of 0.74km, ΔTmax of 3.32°C and Gtemp of 5.15°C/km. The WCI effects of the lakes are significantly stronger than that of rivers. In addition, geometry, proportion of vegetation and impervious surfaces are important impact factors on the WCI effects of water bodies. In particular, Lmax and ΔTmax of water bodies are negatively correlated to their geometry and the proportion of impervious surfaces, but positively correlated to the proportion of vegetation around them. The results suggest that with a fixed area of water body, the geometry of the water body should be relatively simple, the proportion of vegetation should be increased and the proportion of impervious surfaces should be reduced to realize good WCI effects. This provides useful implications for urban planners and designers to mitigate UHI effects.
The water cooling island (WCI) is important to the mitigation of urban heat island (UHI) effects. In this study, the three aspects: WCI range (Lmax), amplitude of temperature drop (ΔTmax) and temperature gradient (Gtemp) are used to investigate the WCI effects of the water bodies in Shanghai, China based on the high resolution Google Earth and Landsat-8 satellite image data of the eighteen lakes and three rivers within the outer ring road of the city. The results show that the water bodies have mean Lmax of 0.74km, ΔTmax of 3.32°C and Gtemp of 5.15°C/km. The WCI effects of the lakes are significantly stronger than that of rivers. In addition, geometry, proportion of vegetation and impervious surfaces are important impact factors on the WCI effects of water bodies. In particular, Lmax and ΔTmax of water bodies are negatively correlated to their geometry and the proportion of impervious surfaces, but positively correlated to the proportion of vegetation around them. The results suggest that with a fixed area of water body, the geometry of the water body should be relatively simple, the proportion of vegetation should be increased and the proportion of impervious surfaces should be reduced to realize good WCI effects. This provides useful implications for urban planners and designers to mitigate UHI effects.
The water cooling island (WCI) is important to the mitigation of urban heat island (UHI) effects. In this study, the three aspects: WCI range (L max ), amplitude of temperature drop ( Delta T max ) and temperature gradient (G temp ) are used to investigate the WCI effects of the water bodies in Shanghai, China based on the high resolution Google Earth and Landsat-8 satellite image data of the eighteen lakes and three rivers within the outer ring road of the city. The results show that the water bodies have mean L max of 0.74km, Delta T max of 3.32 degree C and G temp of 5.15 degree C/km. The WCI effects of the lakes are significantly stronger than that of rivers. In addition, geometry, proportion of vegetation and impervious surfaces are important impact factors on the WCI effects of water bodies. In particular, L max and Delta T max of water bodies are negatively correlated to their geometry and the proportion of impervious surfaces, but positively correlated to the proportion of vegetation around them. The results suggest that with a fixed area of water body, the geometry of the water body should be relatively simple, the proportion of vegetation should be increased and the proportion of impervious surfaces should be reduced to realize good WCI effects. This provides useful implications for urban planners and designers to mitigate UHI effects.
Author Du, Hongyu
Cai, Yongli
Jiang, Hong
Song, Xuejun
Wang, Zhibao
Kan, Zenghui
Author_xml – sequence: 1
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  organization: School of Geographic Sciences, East China Normal University, Shanghai 200241, China
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  fullname: Kan, Zenghui
  organization: School of Geographic Sciences, East China Normal University, Shanghai 200241, China
– sequence: 5
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  organization: School of Geographic Sciences, East China Normal University, Shanghai 200241, China
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  surname: Cai
  fullname: Cai, Yongli
  email: ylcai@geo.ecnu.edu.cn
  organization: School of Geographic Sciences, East China Normal University, Shanghai 200241, China
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FDB
FEDTE
FGOYB
FIRID
FNPLU
FYGXN
G-Q
GBLVA
GROUPED_DOAJ
HVGLF
HZ~
IHE
J1W
KCYFY
KOM
M41
MO0
N9A
O-L
O9-
OAUVE
OK1
OZT
P-8
P-9
P2P
PC.
Q38
R2-
RIG
ROL
RPZ
SDF
SDG
SES
SEW
SPCBC
SSA
SSJ
SSZ
T5K
~02
~G-
AAHBH
AATTM
AAXKI
ABWVN
ACRPL
ADNMO
ADVLN
AEIPS
AFJKZ
AKRWK
ANKPU
BNPGV
FBQ
SSH
AAYWO
AAYXX
ACVFH
ADCNI
AEUPX
AFPUW
AGCQF
AGQPQ
AGRNS
AIGII
AIIUN
AKBMS
AKYEP
APXCP
CITATION
7SN
7ST
C1K
SOI
7S9
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Thu Apr 24 23:04:59 EDT 2025
Thu Apr 03 09:44:43 EDT 2025
Fri Feb 23 02:33:22 EST 2024
IsPeerReviewed true
IsScholarly true
Keywords RTE
LSI
Gtemp
Water cooling island
WA
Land surface temperature
LST
Urban heat island
Water body
UHI
ΔTmax
PG
PI
UCI
WCI
Lmax
Language English
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Snippet The water cooling island (WCI) is important to the mitigation of urban heat island (UHI) effects. In this study, the three aspects: WCI range (Lmax), amplitude...
The water cooling island (WCI) is important to the mitigation of urban heat island (UHI) effects. In this study, the three aspects: WCI range (L max ),...
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SubjectTerms case studies
China
cooling
Gtemp
heat island
lakes
Land surface temperature
Lmax
LSI
LST
remote sensing
rivers
RTE
surface water
temperature
UCI
UHI
Urban heat island
vegetation
Water body
Water cooling island
WCI
ΔTmax
Title Research on the cooling island effects of water body: A case study of Shanghai, China
URI https://dx.doi.org/10.1016/j.ecolind.2016.02.040
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