[1] Acero JA, Koh EJY, Ruefenacht LA, et al. Modelling the influence of high-rise urban geometry on outdoor thermal comfort in Singapore. Urban Climate, 2021, 36: 100775 [2] Arshad M, Khedher KM, Eid EM, et al. Evaluation of the urban heat island over Abha-Khamis Mushait tourist resort due to rapid urbanisation in Asir, Saudi Arabia. Urban Climate, 2021, 36: 100772 [3] Ma X, Fukuda H, Zhou D, et al. The study on outdoor pedestrian thermal comfort in blocks: A case study of the Dao He Old Block in hot-summer and cold-winter area of southern China. Solar Energy, 2019, 179: 210-225 [4] Peng S, Zhou K, Ye Y, et al. Progress of urban heat island effect. Ecology and Environmental Sciences, 2005, 14: 574-579 [5] 吴志丰, 陈利顶. 热舒适度评价与城市热环境研究:现状、特点与展望. 生态学杂志, 2016, 35(5): 1364-1371 [6] 马丽君, 孙根年, 谢越法, 等. 50年来东部典型城市旅游气候舒适度变化分析. 资源科学, 2010, 32(10): 1963-1970 [7] Allegrini J, Carmeliet J. Simulations of local heat islands in Zürich with coupled CFD and building energy models. Urban Climate, 2018, 24: 340-359 [8] Liu J, Ma F, Li F. Analysis of heat island intensity in urban blocks using coupled simulation. Applied Mecha-nics and Materials, 2011, 71-78: 1669-1672 [9] 陈一溥, 郑伯红. 长株潭城市群人为热排放对城市热环境影响研究. 长江流域资源与环境, 2021, 30(7): 1625-1637 [10] Nasir DSNM, Hughes BR, Calautit JK. A study of the impact of building geometry on the thermal performance of road pavement solar collectors. Energy, 2015, 93: 2614-2630 [11] Song Y, Li F, Wang X, et al. The effects of urban impervious surfaces on eco-physiological characteristics of Ginkgo biloba: A case study from Beijing, China. Urban Forestry & Urban Greening, 2015, 14: 1102-1109 [12] Connors JP, Galletti CS, Chow WTL. Landscape confi-guration and urban heat island effects: Assessing the relationship between landscape characteristics and land surface temperature in Phoenix, Arizona. Landscape Ecology, 2013, 28: 271-283 [13] Scalenghe R, Marsan FA. The anthropogenic sealing of soils in urban areas. Landscape and Urban Planning, 2009, 90: 1-10 [14] Federer CA. Solar radiation absorption by leafless hardwood forests. Agricultural Meteorology, 1971, 9: 3-20 [15] Yan H, Wu F, Dong L. Influence of a large urban park on the local urban thermal environment. Science of the Total Environment, 2018, 622-623: 882-891 [16] Isa NA, Wan Mohd WMN, Salleh SA, et al. The effects of green areas on air surface temperature of the Kuala Lumpur City using WRF-ARW modelling and remote sensing technique. IOP Conference Series: Earth and Environmental Science, 2018, 117: 012012 [17] 孔繁花, 尹海伟, 刘金勇, 等. 城市绿地降温效应研究进展与展望. 自然资源学报, 2013, 28(1): 171-181 [18] Estoque RC, Murayama Y, Myint SW. Effects of landscape composition and pattern on land surface temperature: An urban heat island study in the megacities of Southeast Asia. Science of the Total Environment, 2017, 577: 349-359 [19] Yu Z, Yang G, Zuo S, et al. Critical review on the coo-ling effect of urban blue-green space: A threshold-size perspective. Urban Forestry & Urban Greening, 2020, 49: 126630 [20] Liang H, Li W, Zhang Q, et al. Using unmanned aerial vehicle data to assess the three-dimension green quantity of urban green space: A case study in Shanghai, China. Landscape and Urban Planning, 2017, 164: 81-90 [21] 周宏轩, 陶贵鑫, 炎欣烨, 等. 绿量的城市热环境效应研究现状与展望. 应用生态学报, 2020, 31(8): 2804-2816 [22] 陈爱莲, 孙然好, 陈利顶. 传统景观格局指数在城市热岛效应评价中的适用性. 应用生态学报, 2012, 23(8): 2077-2086 [23] Peng J, Xie P, Liu Y, et al. Urban thermal environment dynamics and associated landscape pattern factors: A case study in the Beijing metropolitan region. Remote Sensing of Environment, 2016, 173: 145-155 [24] 陈利顶, 孙然好, 刘海莲. 城市景观格局演变的生态环境效应研究进展. 生态学报, 2013, 33(4): 1042-1050 [25] 于晓雨, 许刚, 刘樾, 等. 长三角地区城市建筑三维形态对地表热环境的影响. 中国环境科学, 2021, 41(12): 5806-5816 [26] Tian Y, Zhou W, Qian Y, et al. The effect of urban 2D and 3D morphology on air temperature in residential neighborhoods. Landscape Ecology, 2019, 34: 1161-1178 [27] 陈明, 戴菲, 李文佩, 等. 基于绿视率的城市绿化评估——以武汉江汉区为例. 中国城市林业, 2019, 17(3): 1-6 [28] Chen J, Zhou C, Li F. Quantifying the green view indicator for assessing urban greening quality: An analysis based on internet-crawling street view data. Ecological Indicators, 2020, 113: 106192 [29] 王洋洋, 黄锦楼. 基于绿视率的城市生态舒适度评价模型构建. 生态学报, 2021, 41(6): 2170-2179 [30] Zhou H, Chang J, Sun J, et al. Spatial variation of temperature of surface soil layer adjacent to constructions: A theoretical framework for atmosphere-building-soil energy flow systems. Building and Environment, 2017, 124: 143-152 [31] Nally R, Walsh C. Hierarchical partitioning public-domain software. Biodiversity and Conservation, 2004, 13: 659-660 [32] Zhou H, Wang XL, Li YZ, et al. Horizontal heat flux between urban buildings and soil and its influencing factors. Sains Malaysiana, 2016, 45: 689-697 [33] Zhou W, Qian Y, Li X, et al. Relationships between land cover and the surface urban heat island: Seasonal variability and effects of spatial and thematic resolution of land cover data on predicting land surface temperatures. Landscape Ecology, 2014, 29: 153-167 [34] Xiao XD, Dong L, Yan H, et al. The influence of the spatial characteristics of urban green space on the urban heat island effect in Suzhou Industrial Park. Sustainable Cities and Society, 2018, 40: 428-439 [35] Lokoshchenko MA. Urban heat island and urban dry island in Moscow and their centennial changes. Journal of Applied Meteorology and Climatology, 2017, 56: 2729-2745 [36] Stojakovic V, Bajsanski I, Savic S, et al. The influence of changing location of trees in urban green spaces on insolation mitigation. Urban Forestry & Urban Greening, 2020, 53: 126721 [37] Li T, Zheng X, Wu J, et al. Spatial relationship between green view index and normalized differential vegetation index within the Sixth Ring Road of Beijing. Urban Forestry & Urban Greening, 2021, 62: 127153 [38] Yu X, Liu Y, Zhang Z, et al. Influences of buildings on urban heat island based on 3D landscape metrics: An investigation of China's 30 megacities at micro grid-cell scale and macro city scale. Landscape Ecology, 2021, 36: 2743-2762 |