[1] [1] 武夕琳, 刘庆生, 刘高焕, 等. 高温热浪风险评估研究综述[J]. 地球信息科学学报, 2019,21(7):1029-1039. [ WuX L, LiuQ S, LiuG H, et al. Risk assessment of heat waves: A review[J]. Journal of Geo-information Science, 2019,21(7):1029-1039. ] [ Wu X L, Liu Q S, Liu G H, et al. Risk assessment of heat waves: A review[J]. Journal of Geo-information Science, 2019,21(7):1029-1039. ]

[2] [2] 杨若, 敖祖锐, 张晶, 等. 中小尺度下植被冠层对屋顶表面温度的调控效应分析[J]. 地球信息科学学报, 2019,21(7):1097-1108. [ YangR, AoZ R, ZhangJ, et al. Effect of vegetation canopy on rooftop surface temperature at city block and building scale[J]. Journal of Geo-information Science, 2019,21(7):1097-1108. ] [ Yang R, Ao Z R, Zhang J, et al. Effect of vegetation canopy on rooftop surface temperature at city block and building scale[J]. Journal of Geo-information Science, 2019,21(7):1097-1108. ]

[3] [3] 邹雨轩, 吴志峰, 曹峥. 耦合土地利用回归与人口加权模型的PM2.5暴露风险评估[J]. 地球信息科学学报, 2019,21(7):1018-1028. [ ZouY X, WuZ F, CaoZ, et al. Assessing PM2.5 exposure risk by coupling land use regression model and population weighted model[J]. Journal of Geo-information Science, 2019,21(7):1018-1028. ] 2.5暴露风险评估[J].地球信息科学学报,2019,21(7):1018-1028.[ Zou Y X, Wu Z F, Cao Z. Assessing PM2.5 exposure risk by coupling land use regression model and population weighted model[J]. Journal of Geo-information Science, 2019,21(7):1018-1028. ]

[4] GrimmondC S B, RothM, OkeT R et al. Climate and more sustainable cities: Climate information for improved planning and management of cities, producers/capabilities perspective[J]. Procedia Environmental Sciences, 1, 247-274(2010).

[5] WangW W, ZhouW, NgE et al. Urban heat islands in Hong Kong: Statistical modeling and trend detection[J]. Natural Hazards, 83, 885-907(2016).

[6] DaiJ N, WangX M, DaiW et al. The impact of inhomogeneous urban canopy parameters on meteorological conditions and implication for air quality in the Pearl River Delta region[J]. Urban Climate, 29, 100494(2019).

[7] OkeT R, MillsG, ChristenA et al[M]. Urban Climates(2017).

[8] RenC, YangR Z, ChengC et al. Creating breathing cities by adopting urban ventilation assessment and wind corridor plan: The implementation in Chinese cities[J]. Journal of Wind Engineering and Industrial Aerodynamics, 182, 170-188(2018).

[9] [9] 刘姝宇, 沈济黄. 基于局地环流的城市通风道规划方法——以德国斯图加特市为例[J]. 浙江大学学报(工学版), 2010,44(10):1985-1991. [ LiuS Y, ChenJ H. Urban ventilation channel planning method based on local circulation: A case study of Stuttgart, Germany[J]. Journal of Zhejiang University (Engineering Science), 2010,44(10):1985-1991. ] [ Liu S Y, Chen J H. Urban ventilation channel planning method based on local circulation: A case study of Stuttgart, Germany[J]. Journal of Zhejiang University (Engineering Science), 2010,44(10):1985-1991. ]

[10] [10] 任超, 袁超, 何正军, 等. 城市通风廊道研究及其规划应用[J]. 城市规划学刊, 2014(3):52-60. [ RenC, YuanC, HeC K, et al. A study of air path and its application in urban planning[J]. Urban Planning Forum, 2014(3):52-60. ] [ Ren C, Yuan C, He C K, et al. A study of air path and its application in urban planning[J]. Urban Planning Forum, 2014(3):52-60. ]

[11] NgE. Policies and technical guidelines for urban planning of high-density cities - air ventilation assessment (AVA) of Hong Kong[J]. Building and Environment, 44, 1478-1488(2009).

[12] [12] 中华人民共和国国家发展和改革委员会, 中华人民共和国住房和城乡建设部. 国家发展改革委住房城乡建设部关于印发城市适应气候变化行动方案的通知[J]. 建筑节能, 2016(3):5. [ National Development and Reform Commission of the People's Republic of China, Ministry of Housing and Urban-Rural Development of the People's Republic of China. Notice of National Development and Reform Commission and Ministry of Housing and Urban-Rural Development on publishing plans for urban adapting to climate change[J]. Building Energy Efficiency, 2016(3):5. ] [ National Development and Reform Commission of the People's Republic of China, Ministry of Housing and Urban-Rural Development of the People's Republic of China. Notice of National Development and Reform Commission and Ministry of Housing and Urban-Rural Development on publishing plans for urban adapting to climate change[J]. Building Energy Efficiency, 2016(3):5. ]

[13] [13] 赵红斌, 刘晖. 盆地城市通风廊道营建方法研究——以西安市为例[J]. 中国园林, 2014(11):32-35. [ ZhaoH B, LiuH. Research on the methods of building ventilation corridors among basin cities: Taking the city of Xi'an as the example[J]. Chinese Landscape Architecture, 2014(11):32-35. ] [ Zhao H B, Liu H. Research on the methods of building ventilation corridors among basin cities: Taking the city of Xi'an as the example[J]. Chinese Landscape Architecture, 2014(11):32-35. ]

[14] [14] 党冰, 房小怡, 吕红亮, 等. 基于气象研究的城市通风廊道构建初探——以南京江北新区为例[J]. 气象, 2017,43(9):1130-1137. [ DangB, FangX Y, LuH L, et al. Preliminary study on building urban ventilation corridors based on meteorological research: Taking Nanjing Jiangbei New Region as the example[J]. Meteorological Monthly, 2017,43(9):1130-1137. ] [ Dang B, Fang X Y, Lu H L, et al. Preliminary study on building urban ventilation corridors based on meteorological research: Taking Nanjing Jiangbei New Region as the example[J]. Meteorological Monthly,2017,43(9):1130-1137. ]

[15] [15] 尹杰, 詹庆明. 武汉市城市通风廊道挖掘研究[J]. 现代城市研究, 2017(10):58-63. [ YinJ, ZhanQ M. The divided method of urban ventilation path: A case study in Wuhan[J]. Modern Urban Research, 2017(10):58-63. ] [ Yin J, Zhan Q M. The divided method of urban ventilation path: A case study in Wuhan[J]. Modern Urban Research, 2017(10):58-63. ]

[16] [16] 张云路, 李雄. 基于城市绿地系统空间布局优化的城市通风廊道规划探索——以晋中市为例[J]. 城市发展研究, 2017,24(5):35-41. [ ZhangY L, LiX. Study on urban ventilation channels planning based on optimization of the spatial layout in urban green space: A case study of Jinzhong[J]. Urban Development Studies, 2017,24(5):35-41. ] [ Zhang Y L, Li X. Study on urban ventilation channels planning based on optimization of the spatial layout in urban green space: A case study of Jinzhong[J]. Urban Development Studies, 2017,24(5):35-41. ]

[17] [17] 刘姝宇, 余波, 宋代风, 等. 基于气候分析的城市通风系统构建方法初探——以厦门市为例[J]. 城市建筑, 2019,16(13):61-66. [ LiuS Y, YuB, SongF, et al. Preliminary study on construction method of urban ventilation system based on climate analysis: A case of Xiamen[J]. Urbanism and Architecture, 2019,16(13):61-66. ] [ Liu S Y,Yu B, Song F, et al. Preliminary study on construction method of urban ventilation system based on climate analysis: A case of Xiamen[J]. Urbanism and Architecture, 2019,16(13):61-66. ]

[18] [18] 王伟武, 黎菲楠, 王頔, 等. 基于通风潜力及风特征量化分析的城市风道构建[J]. 浙江大学学报(工学版), 2019,53(3):470-481. [ WangW W, LiF N, WangD, et al. Urban ventilation corridor construction based on ventilation potential and quantitative analysis of wind characteristics[J]. Journal of Zhejiang University (Engineering Science), 2019,53(3):470-481. ] [ Wang W W, Li F N, Wang D, et al. Urban ventilation corridor construction based on ventilation potential and quantitative analysis of wind characteristics[J]. Journal of Zhejiang University (Engineering Science), 2019,53(3):470-481. ]

[19] [19] 林定, 申小云, 朱勇兵, 等. 典型深街谷内树木空间配置对行人呼吸高度处气流的影响[J]. 地球信息科学学报, 2018,20(9):1235-1243. [ LinD, ShenX Y, ZhuY B, et al. Effect of spatial distribution of trees on the airflow pedestrian breath in the Tipical deep street canyon[J]. Journal of Geo-information Science, 2018,20(9):1235-1243. ] [ Lin D, Shen X Y, Zhu Y B, et al. Effect of spatial distribution of trees on the airflow pedestrian breath in the Tipical deep street canyon[J]. Journal of Geo-information Science, 2018,20(9):1235-1243. ]

[20] WangW W, XuY, NgE et al. Evaluation of satellite-derived building height extraction by CFD simulations: A case study of neighborhood-scale ventilation in Hong Kong[J]. Landscape and Urban Planning, 170, 90-102(2018).

[21] [21] 陆麟, 李丹, 王子月, 等. 城市通风廊道数值模拟与优化设置研究[J]. 浙江建筑, 2015,32(3):49-54. [ LuL, LiD, WangZ Y, et al. Study on the numerical simulation and optimization setting for the city ventilation corridors[J]. Zhejiang Construction, 2015,32(3):49-54. ] [ Lu L, Li D, Wang Z Y, et al. Study on the numerical simulation and optimization setting for the city ventilation corridors[J]. Zhejiang Construction, 2015,32(3):49-54. ]

[22] [22] 李磊, 吴迪, 张立杰, 等. 基于数值模拟的城市街区详细规划通风评估研究[J]. 环境科学学报, 2012,32(4):946-953[ LiL, WuD, ZhangL J, et al. Ventilation assessment on urban-block detailed planning based on numerical simulation[J]. Acta Scientiae Circumstantiae, 2012,32(4):946-953. ] [ Li L,Wu D, Zhang L J, et al. Ventilation assessment on urban-block detailed planning based on numerical simulation[J]. Acta Scientiae Circumstantiae, 2012,32(4):946-953. ]

[23] BlockenB, StathopoulosT, vanBeeck JPAJ. Pedestrian-level wind conditions around buildings: Review of wind-tunnel and CFD techniques and their accuracy for wind comfort assessment[J]. Building and Environment, 100, 50-81(2016).

[24] DingC, LamK. P. Data-driven model for cross ventilation potential in high-density cities based on coupled CFD simulation and machine learning[J]. Building and Environment, 165, 106394(2019).

[25] [25] 张亦洲, 苗世光, 戴永久, 等. 北京夏季晴天边界层特征及城市下垫面对海风影响的数值模拟[J]. 地球物理学报, 2013,56(8):2558-2573. [ ZhangY Z, MiaoS G, DaiY J, et al. Numerical simulation of characteristics of summer clear day boundary layer in Beijing and the impact of urban underlying surface on sea breeze[J]. Chinese Journal of Geophysics, 2013,56(8):2558-2573. ] [ Zhang Y Z, Miao S G, Dai Y J, et al. Numerical simulation of characteristics of summer clear day boundary layer in Beijing and the impact of urban underlying surface on sea breeze[J]. Chinese Journal of Geophysics, 2013,56(8):2558-2573. ]

[26] [26] 张丽英, 裴韬, 陈宜金, 等. 基于街景图像的城市环境评价研究综述[J]. 地球信息科学学报, 2019,21(1):46-58. [ ZhangLY, PeiT, ChenY J, et al. A review of urban environmental assessment based on street view images[J]. Journal of Geo-information Science, 2019,21(1):46-58. ] [ Zhang LY, Pei T, Chen Y J, et al. A review of urban environmental assessment based on street view images[J]. Journal of Geo-information Science, 2019,21(1):46-58. ]

[27] [27] 任庆昌, 魏冀明, 戴维. 区域风环境研究与通风廊道建设实施建议——以珠三角为例[J]. 热带地理, 2016,36(5):887-894. [ RenQ C, WeiJ M, DaiW. Characteristics of regional wind environment and construction of ventilation corridors: A case study of the Pearl River Delta[J]. Tropical Geography, 2016,36(5):887-894. ] [ Ren Q C, Wei J M, Dai W. Characteristics of regional wind environment and construction of ventilation corridors: A case study of the Pearl River Delta[J]. Tropical Geography, 2016,36(5):887-894. ]

[28] LiuY S, ZhouY, LiY R. Ventilating Beijing cannot fix pollution[J]. Nature, 53, 441-441(2016).

[29] ChenY, ZhangN, ZhuY. High-resolution simulations of the urban thermal climate in Suzhou City, China[J]. Atmosphere, 10, 118(2019).

[30] [30] 俞布, 贺晓冬, 危良华, 等. 杭州城市多级通风廊道体系构建初探[J]. 气象科学, 2018,38(5):625-636. [ YuB, HeX D, WeiL H, et al. Primary exploration for construction of urban multilevel ventilation corridors system in Hangzhou[J]. Journal of the Meteorological Sciences, 2018,38(5):625-636. ] [ Yu B, He X D, Wei L H, et al. Primary exploration for construction of urban multilevel ventilation corridors system in Hangzhou[J]. Journal of the Meteorological Sciences, 2018,38(5):625-636. ]

[31] [31] 刘红年, 贺晓冬, 苗世光, 等. 基于高分辨率数值模拟的杭州市通风廊道气象效应研究[J]. 气候与环境研究, 2019,24(1):22-36. [ LiuH, HeX D, MiaoS G, et al. A study on meteorological effect of the Hangzhou ventilation corridors based on high resolution numerical simulation[J]. Climatic and Environmental Research, 2019,24(1):22-36. ] [ Liu H, He X D, Miao S G, et al. A study on meteorological effect of the Hangzhou ventilation corridors based on high resolution numerical simulation[J]. Climatic and Environmental Research, 2019,24(1):22-36. ]

[32] GuK, FangY, QianZ et al. Spatial planning for urban ventilation corridors by urban climatology[J]. Ecosystem Health and Sustainability, 6, 1747946(2020).

[33] [33] 李璐, 潘文卓, 孙凯, 等. 基于大气环境分析的常州通风廊道研究[J]. 环境工程, 2019(37):511-515. [ LiL, PanW Z, SunK, et al. Study on Changzhou ventilated corridor planning based on atmospheric environment analysis[J]. Environmental Engineering, 2019(37):511-515. ] [ Li L, Pan W Z, Sun K, et al. Study on Changzhou ventilated corridor planning based on atmospheric environment analysis[J]. Environmental Engineering, 2019(37):511-515. ]

[34] [34] 申鑫杰, 赵芮, 何瑞珍, 等. 郑州市市区风环境模拟研究[J]. 地球信息科学学报, 2020,22(6):1349-1356. [ ShenX J, ZhaoR, HeR Z, et al. Research on Urban Wind Environment Simulation: A Case Study of Zhengzhou Central Area[J]. Journal of Geo-information Science, 2020,22(6):1349-1356. ] [ Shen X J, Zhao R, He R Z, et al. Research on Urban Wind Environment Simulation: A Case Study of Zhengzhou Central Area[J]. Journal of Geo-information Science, 2020,22(6):1349-1356. ]

[35] XieP, YangJ, WangH et al. A New method of simulating urban ventilation corridors using circuit theory[J]. Sustainable Cities and Society, 59, 102162(2020).

[36] WangW W, NgE. Air ventilation assessment under unstable atmospheric stratification - A comparative study for Hong Kong[J]. Building and environment, 130, 1-13(2018).

[37] WeiR, SongD, WongN H et al. Impact of urban morphology parameters on microclimate[J]. Procedia Engineering, 169, 142-149(2016).

[38] [38] 贺文慧, 杨昕, 汤国安, 等. 毅基于数字高程模型的城市地表开阔度研究——以南京老城区为例[J]. 地球信息科学学报, 2012,14(1):94-100.

[39] StewartI D, OkeT R. Local climate zones for urban temperature studies[J]. Bulletin of the American Meteorological Society, 93, 1879-1897(2012).

[40] RenC, NgE, KatzschnerL. Urban climatic map studies: A review[J]. International Journal of Climatology, 31, 2213-2233(2011).

[41] HeX D, ShenSH, MiaoS G et al. Quantitative detection of urban climate resources and the establishment of an urban climate map (UCMap) system in Beijing[J]. Building and environment, 92, 668-678(2015).

[42] MiaoS G, LiP Y, WangX Y. Building morphological characteristics and their effect on the wind in Beijing[J]. Advances in Atmospheric Sciences, 26, 1115-1124(2009).

[43] MiaoY C, LiuS H, ChenB C et al. Simulating Urban flow and dispersion in Beijing by coupling a CFD model with the WRF model[J]. Advances in Atmospheric Sciences, 30, 1663-1678(2013).

[44] HeX D, LiY H, WangX R et al. High-resolution dataset of urban canopy parameters for Beijing and its application to the integrated WRF_Urban modelling system[J]. Journal of Cleaner Production, 208, 373-383(2018).

[45] QiaoZ, XuX L, WuF et al. Urban ventilation network model: A case study of the core zone of capital function in Beijing metropolitan area[J]. Journal of cleaner production, 168, 526-535(2017).

[46] MiaoS G, ChenF, LeMoneM A et al. An observational and modeling study of characteristics of urban heat island and boundary layer structures in Beijing[J]. Journal of Applied Meteorology and Climatology, 48, 484-501(2009).

[47] WD, RenG Y, YangP. Spatial and temporal characteristics of Beijing urban heat island intensity[J]. Journal of Applied Meteorology and Climatology, 52, 1803-1816(2013).

[48] LiZ, YanZ W, KaiT et al. Changes in wind speed and extremes in Beijing during 1960-2008 based on homogenized observations[J]. Advancesin Atmospheric Sciences, 28, 408-420(2011).

[49] [49] 杜吴鹏, 房小怡, 刘勇洪, 等. 基于气象和GIS技术的北京中心城区通风廊道构建初探[J]. 城市规划学刊, 2016(5):79-85. [ DuW P, FangX Y, LiuY H, et al. Construction of ventilation corridors in the Beijing central urban area based on meteorology and GIS technology[J]. Urban Planning Forum, 2016(5):79-85. ] [ Du W P, Fang X Y, Liu Y H, et al. Construction of ventilation corridors in the Beijing central urban area based on meteorology and GIS technology[J]. Urban Planning Forum, 2016(5):79-85. ]

[50] [50] 曾忠忠, 袁靖智. 北京市通风廊道的模拟研究[J]. 华中建筑, 2017,35(11):36-41. [ ZengZ Z, YuanJ Z. Simulation research on Beijing ventilation corridor[J]. Huazhong Architecture, 2017,35(11):36-41. ] [ Zeng Z Z,Yuan J Z. Simulation research on Beijing ventilation corridor[J]. Huazhong Architecture, 2017,35(11):36-41. ]

[51] DuW P, ZhuR, FangX Y. Construction of ventilation corridors and smog control in Beijing[J]. Chinese Journal of Urban and Environmental Studies, 5, 1750016(2017).

[52] HansenM, SongX P. Vegetation Continuous Fields (VCF) yearly global 0.05 deg[J]. NASA EOSDIS Land Processes DAAC. Accessed 2020-02-18 from. https://doi.org/10.5067/MEaSUREs/VCF/VCF5KYR.001

[53] [53] 常鸣, 樊少芬, 王雪梅. 珠三角土地覆被资料优选及在WRF模式中的初步应用[J]. 环境科学学报, 2014,34(8):1922-1933.

[54] ChenS H, SunW Y. A one-dimensional timedependentcloud model[J]. Journal of the Meteorological Society of Japan, 80, 99-118(2002).

[55] IaconoM J, DelamereJ S, MlawerE J et al. Radiative forcing by long-lived greenhouse gases: Calculations with the AER radiative transfer models[J]. Journal of Geophysical Research Atmosphere, 113, D13103(2008).

[56] ChouM D, SuarezM J. A solar radiation parameterization (CLIRAD-SW) for atmospheric studies[R]. NASA Tech[report]. Memo, 10460, 1-42(1999).

[57] MatsuiY, ZhangY F, PaulsonR F et al. Dual role of a C-terminallytruncatedisoform of largetumorsuppressorkinase 1 in the regulation of hipposignaling and tissue growth[J]. DNA and Cell Biology, 38, 91-106(2019).

[58] ChenF, DudhiaJ. Coupling an advanced land-surface: Hydrology model with the Penn State/NCAR MM5 modeling system. Part I: Model implementation and sensitivity[J]. Monthly weather review, 129, 569-604(2001).

[59] HongS Y, NohY, DudhiaJ. A new vertical diffusion package with an explicit treatment of entrainment processes[J]. Monthly weather review, 134, 2318-2341(2006).

[60] Department of Commerce (2000):NCEP FNL Operational Model Global Tropospheric Analyses, continuing from July 1999[J]. Research Data Archive at the National Center for Atmospheric Research, Computational and Information Systems Laboratory. https://doi.org/10.5065/D6M043C6

[61] SmithF B, CarsonD J. Some thoughts on the specification of the boundary-layer relevant to numerical modelling[J]. Boundary Layer Meteorology, 12, 307-330(1977).

[62] EkM B, MitchellK E, LinY et al. Implementation of Noah land surface model advances in the National Centers for Environmental Prediction operational mesoscale Eta model[J]. Journal of Geophysical Research, 108, 8851(2003).

[63] [63] 王梓茜, 程宸, 杨袁慧, 等. 基于多元数据分析的城市通风廊道规划策略研究——以北京副中心为例[J]. 城市发展研究, 2018,25(1):87-96. [ WangZ X, ChenC, YangY H, et al. Research on urban ventilation channel planning strategy which based on multivariate data analysis: Take Beijing sub center as an example[J]. Urban Development Studies, 2018,25(1):87-96. ] [ Wang Z X, Chen C,Yang Y H, et al. Research on urban ventilation channel planning strategy which based on multivariate data analysis: Take Beijing sub center as an example[J]. Urban Development Studies, 2018,25(1):87-96. ]

[64] [64] 徐一丁, 杨子蕾, 李运远. 北京市城市边缘区通风廊道型林地营建方法研究——以黑庄户地区为例[J]. 北京林业大学学报, 2020,42(2):135-148. [ XuY D, YangZ L, LiYY, et al. Construction method of ventilation corridor woodland in urban fringe area of Beijing: Taking the Heizhuanghu District as an example[J]. Journal of Beijing Forestry University, 2020,42(2):135-148. ] [ Xu Y D, Yang Z L, Li YY. Construction method of ventilation corridor woodland in urban fringe area of Beijing: Taking the Heizhuanghu District as an example[J]. Journal of Beijing Forestry University, 2020,42(2):135-148. ]