Page 40 - 《华中农业大学学报》2026年第1期

P. 40

34 华中农业大学学报第 45 卷

［7］ ISLAM M R，SHAHFAHAD，TALUKDAR S，et al.Evalu‐ & urban greening，2020，55：126838［2025-10-14］. https：//
ating cooling effect of blue-green infrastructure on urban ther‐ doi.org/10.1016/j.ufug.2020.126838.
mal environment in a metropolitan city：using geospatial and ［18］ CHEN X，WANG H，YANG J C.Effect of green blue spaces
machine learning techniques［J/OL］.Sustainable cities and so‐ on the urban thermal environment：a field study in Hong Kong
ciety，2024，113：105666［2025-10-14］. https：//doi. org/ ［J/OL］. Urban climate，2024，55：101912［2025-10-14］.
10.1016/j.scs.2024.105666. https：//doi.org/10.1016/j.uclim.2024.101912.
［8］ HWANG Y H，LUM Q J G，CHAN Y K D.Micro-scale ther‐ ［19］ TOMINAGA Y，SATO Y，SADOHARA S. CFD simula‐
mal performance of tropical urban parks in Singapore［J］.Build‐ tions of the effect of evaporative cooling from water bodies in a
ing and environment，2015，94：467-476. micro-scale urban environment：validation and application stud‐
［9］ AFLAKI A，MIRNEZHAD M，GHAFFARIANHOSEINI ies［J］.Sustainable cities and society，2015，19：259-270.
A，et al.Urban heat island mitigation strategies：a state-of-the- ［20］ XIE Q J，REN L，YANG C Z.Regulation of water bodies to
art review on Kuala Lumpur，Singapore and Hong Kong［J］. urban thermal environment：evidence from Wuhan，China［J/
Cities，2017，62：131-145. OL］. Frontiers in ecology and evolution，2023，11：983567
［10］ BARTESAGHI KOC C，OSMOND P，PETERS A.Evaluat‐ ［2025-10-14］.https：//doi.org/10.3389/fevo.2023.983567.
ing the cooling effects of green infrastructure：a systematic re‐ ［21］余兆武，郭青海，孙然好 .基于景观尺度的城市冷岛效应研究
view of methods，indicators and data sources［J］.Solar energy，综述［J］. 应用生态学报，2015，26（2）：636-642. YU Z W，
2018，166：486-508. GUO Q H，SUN R H.Impacts of urban cooling effect based
［11］ SHAH A，GARG A，MISHRA V.Quantifying the local cooling on landscape scale：a review［J］. Chinese journal of applied
effects of urban green spaces：evidence from Bengaluru，India［J/ ecology，2015，26（2）：636-642 （in Chinese with English ab‐
OL］.Landscape and urban planning，2021，209：104043［2025- stract）.

10-14］.https：//doi.org/10.1016/j.landurbplan.2021.104043. ［22］ ZHOU W，CAO W，WU T，et al.The win-win interaction be‐
［12］杨朝斌，张亭，胡长涛，等 . 蓝绿空间冷岛效应时空变化及其 tween integrated blue and green space on urban cooling［J/OL］.
影响因素：以苏州市为例［J］. 长江流域资源与环境，2021，30 The science of the total environment，2023，863：160712［2025-
（3）：677-688. YANG C B，ZHANG T，HU C T，et al.Spa‐ 10-14］. https：//doi.org/10.1016/j.scitotenv.2022.160712.
tial-temporal characteristics of the cooling island for blue- ［23］李建春，Chen Y Wendy，袁文华 . 城市蓝绿空间降温绩效评
green space and its driving factors in Suzhou，China［J］. Re‐ 估及提升策略：以北京市为例［J］. 地理科学，2024，44（8）：
sources and environment in the Yangtze Basin，2021，30（3）： 1376-1386. LI J C，CHEN Y W，YUAN W H.Evaluation and
677-688 （in Chinese with English abstract）. improvement strategies for cooling performance in urban blue-
［13］ CHEUNG P K，JIM C Y.Differential cooling effects of land‐ green spaces［J］. Scientia geographica sinica，2024，44（8）：
scape parameters in humid-subtropical urban parks［J/OL］. 1376-1386 （in Chinese with English abstract）.
Landscape and urban planning，2019，192：103651［2025-10- ［24］沈中健，王金岩，李少星 .济南市不同地理单元下蓝绿景观格
14］.https：//doi.org/10.1016/j.landurbplan.2019.103651. 局对地表温度的影响及分异规律［J］. 地理科学，2025，45
［14］ SUN F H，ZHANG J H，TAKEDA S，et al.Assessing the mit‐ （5）：1143-1156. SHEN Z J，WANG J Y，LI S X.Effects of
igating effects of clustered small green spaces on urban canyon blue-green landscape patterns on land surface temperature in
heatwaves：a case study of the Tsukiji-Gawa，Tokyo［J/OL］. different geographic units of Jinan City［J］.Scientia geographi‐
Building and environment，2025，283：113373［2025-10-14］. ca sinica，2025，45（5）：1143-1156 （in Chinese with English ab‐
https：//doi.org/10.1016/j.buildenv.2025.113373. stract）.
［15］ XIANG Y，YUAN C，CEN Q Y，et al.Heat risk assessment and ［25］谢启姣，杨晨哲，任陆 .武汉城市水体热环境调节机制的尺度
response to green infrastructure based on local climate zones［J/ 效应［J］. 生态学杂志，2024，43（8）：2325-2333. XIE Q J，
OL］. Building and environment，2024，248：111040［2025-10- YANG C Z，REN L.Scale effect of regulating mechanism of
14］.https：//doi.org/10.1016/j.buildenv.2023.111040. urban water bodies in improving thermal environment in Wu‐
［16］ ARZBERGER S，EGERER M，SUDA M，et al.Thermal reg‐ han，China［J］.Chinese journal of ecology，2024，43（8）：2325-
ulation potential of urban green spaces in a changing climate： 2333 （in Chinese with English abstract）.
winter insights［J/OL］. Urban forestry & urban greening，［26］ HE M W，YUAN C，ZHANG X，et al.Impacts of green-blue-
2024，100：128488［2025-10-14］. https：//doi. org/10.1016/j. grey infrastructures on high-density urban thermal environ‐
ufug.2024.128488. ment at multiple spatial scales：a case study in Wuhan［J/OL］.
［17］ SUN X，TAN X Y，CHEN K L，et al.Quantifying landscape- Urban climate，2023，52：101714［2025-10-14］. https：//doi.
metrics impacts on urban green-spaces and water-bodies cool‐ org/10.1016/j.uclim.2023.101714.
ing effect：the study of Nanjing，China［J/OL］.Urban forestry ［27］沈中健，曾坚，梁晨 .闽南三市绿地景观格局与地表温度的空

35 36 37 38 39 40 41 42 43 44 45