[1] Voogt J A, Oke T R. Thermal remote sensing of urban climates[J]. Remote Sensing of Environment, 86, 370-384(2003).

[2] PengBaofa, ShiYishao, WangHefeng, et al. The impacting mechanism and laws of function of urban heat islands effect: A case study of Shanghai. Acta Geographica Sinica, 2013,68(11):1461-1471.

[3] Zhao L, Lee X, Smith R B et al. Strong contributions of local background climate to urban heat islands[J]. Nature, 511, 216-219(2014).

[4] Zhao S, Liu S, Zhou D. Prevalent vegetation growth enhancement in urban environment[C]. Proceedings of the National Academy of Sciences of USA, 113, 6313-6318(2016).

[5] Krayenhoff E S, Moustaoui M, Broadbent A M et al. Diurnal interaction between urban expansion, climate change and adaptation in US cities[J]. Nature Climate Change, 8, 1097-1103(2018).

[6] QiaoZhi, HuangNingyu, XuXinliang, et al. Spatio-temporal pattern and evolution of the urban thermal landscape in metropolitan Beijing between 2003 and 2017. Acta Geographica Sinica, 2019,74(3):475-489.

[7] Manoli G, Fatichi S, Schläpfer M et al. Magnitude of urban heat islands largely explained by climate and population[J]. Nature, 573, 55-60(2019).

[8] ZhouShuzhen, ZhengJingchun. The solar radiation at Shanghai city and its relation to the intensity of the urban heat island. Acta Geographica Sinica, 1991,46(2):207-212. [ 周淑贞, 郑景春. 上海城市太阳辐射与热岛强度. 地理学报, 1991,46(2):207-212.] [周淑贞, 郑景春. 上海城市太阳辐射与热岛强度. 地理学报, 1991, 46(2): 207-212.]

[9] XieZhiqing, DuYin, ZengYan, et al. Impact of urbanization on regional temperature change in the Yangtze River Delta. Acta Geographica Sinica, 2007,62(7):717-727.

[10] Peng S, Piao S, Ciais P et al. Surface urban heat island across 419 global big cities[J]. Environmental Science & Technology, 46, 696-703(2012).

[11] Stewart I D. A systematic review and scientific critique of methodology in modern urban heat island literature[J]. International Journal of Climatology, 31, 200-217(2011).

[12] Stewart I D, Oke T R. Local climate zones for urban temperature studies[J]. Bulletin of the American Meteorological Society, 93, 1879-1900(2012).

[13] Savić S, Milošević D, Lazić L et al. Classifying urban meteorological stations sites by local climate zones: Preliminary results for the city of Novi Sad (Serbia)[J]. Geographica Pannonica, 17, 60-68(2013).

[14] Siu L W, Hart M A. Quantifying urban heat island intensity in Hong Kong SAR, China[J]. Environmental Monitoring and Assessment, 185, 4383-4398(2013).

[15] Morris K I, Salleh S A, Chan A et al. Computational study of urban heat island of Putrajaya, Malaysia[J]. Sustainable Cities and Society, 19, 359-372(2015).

[16] Skarbit N, Gal T, Unger J. Airborne surface temperature differences of the different local climate zones in the urban area of a medium sized city[J]. Lausanne: 2015 Joint Urban Remote Sensing Event (JURSE), IEEE(2015).

[17] Geletič J, Lehnert M, Dobrovolný P. Land surface temperature differences within local climate zones, based on two central European cities[J]. Remote Sensing, 8, 788(2016). http://www.mdpi.com/2072-4292/8/10/788

[18] Yang J, Jin S, Xiao X et al. Local climate zone ventilation and urban land surface temperatures: Towards a performance-based and wind-sensitive planning proposal in megacities[J]. Sustainable Cities and Society, 47, 101487(2019). https://linkinghub.elsevier.com/retrieve/pii/S2210670718324569

[19] JinShanhe, ZhangYuqing, YangJun. The impact of urban local climate zone on land surface temperature: A case study of Dalian. Bulletin of Surveying and Mapping, 2019(4):87-90. [ 金珊合, 张育庆, 杨俊. 城市局部气候分区对地表温度的影响: 以大连市区为例. 测绘通报, 2019(4):87-90.] [金珊合, 张育庆, 杨俊. 城市局部气候分区对地表温度的影响: 以大连市区为例. 测绘通报, 2019(4): 87-90.]

[20] Bechtel B, Demuzere M, Mills G et al. SUHI analysis using local climate zones: comparison of 50 cities[J]. Urban Climate, 28, 100451(2019). https://linkinghub.elsevier.com/retrieve/pii/S2212095519300239

[21] Auer J A H. Correlation of land use and cover with meteorological anomalies[J]. Journal of Applied Meteorology, 17, 636-643(1978).

[22] Ren C, Ng E Y, Katzschner L. Urban climatic map studies: A review[J]. International Journal of Climatology, 31, 2213-2233(2011).

[23] Ellefsen R. Mapping and measuring buildings in the canopy boundary layer in ten US cities[J]. Energy and Buildings, 16, 1025-1049(1991).

[24] Scherer D, Fehrenbach U, Beha H D et al. Improved concepts and methods in analysis and evaluation of the urban climate for optimizing urban planning processes[J]. Atmospheric Environment, 33, 4185-4193(1999).

[25] Grimmond C S B, Oke T R. Aerodynamic properties of urban areas derived from analysis of surface form[J]. Journal of Applied Meteorology, 38, 1262-1292(1999).

[26] Oke T R. Initial guidance to obtain representative meteorological observations at urban sites[J]. World Meteorological Organization (WMO), 81, 1-47(2004).

[27] Oke T R. Urban observations: Guide to meteorological instruments and methods of observation[J]. World Meteorological Organization (WMO)(2008).

[28] Stewart I D, Oke T R. Newly developed thermal climate zones for defining and measuring urban heat island magnitude in the canopy layer[C]. Phoenix: 8th Symposium on Urban Environment(2009).

[29] Krayenhoff S, Stewart I D, Oke T R. Estimating thermal responsiveness of local-scale climate zones with a numerical modeling approach[C]. Phoenix: 8th Symposium on Urban Environment(2009).

[30] Stewart I D, Oke T R. Classifying urban climate field sites by local climate zones: The case of Nagano, Japan[J]. Yokohama: 7th International Conference on Urban Climate (ICUC)(2009).

[31] Stewart I D, Oke T R. Thermal differentiation of local climate zones using temperature observations from urban and rural field sites[C]. Keystone: 9th Symposium on Urban Environment, 2-6(2010).

[32] Bechtel B, Keramitsoglou I, Kotthaus S et al. Special issue "The application of thermal urban remote sensing to understand and monitor urban climates"[J]. Remote Sensing(2015). https://www.ncbi.nlm.nih.gov/pubmed/30147945

[33] [J]. International Conference on Urban Climate (ICUC)(2018). https://ams.confex.com/ams/ICUC10/meetingapp.cgi/Home/0

[34] [J]. Passive and Low Energy Architecture (PLEA)(2018). http://www.plea2018.org

[35] [J]. Joint Urban Remote Sensing Events (JURSE)(2019). http://jurse2019.org/?page_id=455

[36] Mills G, Bechtel B, Ching J et al. An introduction to the WUDAPT project[J]. Toulouse: 9th International Conference on Urban Climate (ICUC)(2015).

[37] Unger J, Savić S, Gál T et al. Urban climate monitoring networks based on LCZ concept[J]. Toulouse: 9th International Conference on Urban Climate (ICUC)(2015).

[38] Masson V, Hidalgo J, Amossé A et al. Urban climate, human behavior & energy consumption: From LCZ mapping to simulation and urban planning (the MapUCE project)[J]. Toulouse: 9th International Conference on Urban Climate (ICUC)(2015).

[39] Chrysoulakis N, Heldens W, Gastellu-Etchegorry J P et al. A novel approach for anthropogenic heat flux estimation from space[C]. Beijing: 2016 International Geoscience and Remote Sensing Symposium (IGARSS), IEEE, 6774-6777(2016).

[40] Bechtel B, Alexander P, Böhner J et al. Mapping local climate zones for a worldwide database of the form and function of cities[J]. ISPRS International Journal of Geo-Information, 4, 199-219(2015).

[41] Fenner D, Meier F, Scherer D et al. Spatial and temporal air temperature variability in Berlin, Germany, during the years 2001-2010[J]. Urban Climate, 10, 308-331(2014).

[42] Hong J W, Hong J, Kwon E E et al. Temporal dynamics of urban heat island correlated with the socio-economic development over the past half-century in Seoul, Korea[J]. Environmental Pollution, 254, 112934(2019). https://www.ncbi.nlm.nih.gov/pubmed/31376601

[43] Zhang X, Steeneveld G J, Zhou D et al. A diagnostic equation for the maximum urban heat island effect of a typical Chinese city: A case study for Xi'an[J]. Building and Environment, 158, 39-50(2019).

[44] Senciales-González J M, Rodrigo-Comino J, Smith P. Surveying topographical changes and climate variations to detect the urban heat island in the city of Málaga (Spain)[J]. Cuadernos de Investigación Geográfica, 46(2020).

[45] Savić S, Lužanin Z, Milošević D et al. Intra-urban analysis of air temperature in central-European city[J]. New York: 10th International Conference on Urban Climate(2018).

[46] Leconte F, Bouyer J, Claverie R et al. Estimation of spatial air temperature distribution at sub-mesoclimatic scale using the LCZ scheme and mobile measurements[J]. Toulouse: 9th International Conference on Urban Climate (ICUC)(2015).

[47] Chen F, Huang Y. A new comparative analysis of local urban morphology based on local climate zones: A study using mobile surveys in Chengdu tested[J]. Krasnoyarsk: 25th International Seminar on Urban Form (ISUF)(2018).

[48] Bokwa A, Dobrovolny P, Gal T et al. Modelling the impact of climate change on heat load increase in Central European cities[J]. Toulouse: 9th International Conference on Urban Climate (ICUC)(2015).

[49] Skarbit N, Gál T. Projection of intra-urban modification of night-time climate indices during the 21st century[J]. Hungarian Geographical Bulletin, 65, 181-193(2016).

[50] Sharma R, Hooyberghs H, Lauwaet D et al. Urban heat island and future climate change-implications for Delhi's heat[J]. Journal of Urban Health, 96, 235-251(2018).

[51] Grunwald L, Kossmann M, Weber S. Mapping urban cold-air paths in a Central European city using numerical modelling and geospatial analysis[J]. Urban Climate, 29, 100503(2019). https://linkinghub.elsevier.com/retrieve/pii/S2212095519300665

[52] Yang X, Yao L, Peng L L et al. Evaluation of a diagnostic equation for the daily maximum urban heat island intensity and its application to building energy simulations[J]. Energy and Buildings, 193, 160-173(2019).

[53] Oke T R, Mills G, Christen A et al. Urban Climate(2017).

[54] Middel A, Häb K, Brazel A J et al. Impact of urban form and design on mid-afternoon microclimate in Phoenix local climate zones[J]. Landscape and Urban Planning, 122, 16-28(2014).

[55] Chatterjee S, Khan A, Dinda A et al. Simulating micro-scale thermal interactions in different building environments for mitigating urban heat islands[J]. Science of the Total Environment, 663, 610-631(2019).

[56] Long N, Gardes T, Hidalgo J et al. Influence of the urban morphology on the urban heat island intensity: An approach based on the local climate zone classification[J]. PeerJ Preprints, 6(2018).

[57] Geletič J, Lehnert M, Dobrovolný P. Modelled spatio-temporal variability of air temperature in an urban climate and its validation: A case study of Brno, Czech Republic[J]. Hungarian Geographical Bulletin, 65, 169-180(2016).

[58] Gál T, Skarbit N, Molnár G et al. Weather and climate modeling possibilities using local climate zone concept and observation network in Szeged, Hungary[J]. New York: 10th International Conference on Urban Climate (ICUC)(2018).

[59] Verdonck M L, Demuzere M, Hooyberghs H et al. The potential of local climate zones maps as a heat stress assessment tool, supported by simulated air temperature data[J]. Landscape and Urban Planning, 178, 183-197(2018).

[60] Brousse O, Martilli A, Foley M et al. WUDAPT, an efficient land use producing data tool for mesoscale models? Integration of urban LCZ in WRF over Madrid[J]. Urban Climate, 17, 116-134(2016).

[61] Ren C, Fung J C H, Tse J W P et al. Implementing WUDAPT product into urban development impact analysis by using WRF simulation result: A case study of the Pearl River Delta Region (1980-2010)[C]. Seattle: 13th Symposium of the Urban Environment(2017).

[62] Hammerberg K, Brousse O, Martilli A et al. Implications of employing detailed urban canopy parameters for mesoscale climate modelling: A comparison between WUDAPT and GIS databases over Vienna, Austria[J]. International Journal of Climatology, 38, 1241-1257(2018).

[63] Bansal P[J]. Issues with using Landsat based surface temperature for investigating linkage between local climate zones and surface urban heat island in different seasons: A case study of Manhattan, N.Y(2019). https://hal.archives-ouvertes.fr/hal-02267159

[64] Cai M, Ren C, Xu Y et al. Investigating the relationship between local climate zone and land surface temperature using an improved WUDAPT methodology: A case study of Yangtze River Delta, China[J]. Urban Climate, 24, 485-502(2018).

[65] Arellano B, Roca J, Biere R. Planning and urban climate: The example of the metropolitan area of Barcelona[J]. Berlin:International Society of Photo-Optical Instrumentation Engineers (SPIE)(2018).

[66] Chen X, Xu Y, Yang J et al. Remote sensing of urban thermal environments within local climate zones: A case study of two high-density subtropical Chinese cities[J]. Urban Climate, 31, 100568(2020). https://linkinghub.elsevier.com/retrieve/pii/S2212095519302639

[67] Feng J, Cai X, Chapman L. Impact of atmospheric conditions and levels of urbanization on the relationship between nocturnal surface and urban canopy heat islands[J]. Quarterly Journal of the Royal Meteorological Society, 145, 3284-3299(2019).

[68] Lelovics E, Unger J, Savić S et al. Intra-urban temperature observations in two Central European cities, a summer study[J]. Időjárás, 120, 283-300(2016).

[69] Dian C, Pongrácz R, Dezső Z et al. Annual and monthly analysis of surface urban heat island intensity with respect to the local climate zones in Budapest[J]. Urban Climate, 31, 100573(2020). https://linkinghub.elsevier.com/retrieve/pii/S2212095518300658

[70] YangXiaoshan, YaoLingye, JinTao, et al. Temporal and spatial variations of local temperatures in the summer of Nanjing. Journal of Civil and Environmental Engineering, 2019,41(1):160-167. [ 杨小山, 姚灵烨, 金涛, 等. 南京夏季城市局地气温时空变化特征. 土木与环境工程学报, 2019,41(1):160-167.] [杨小山, 姚灵烨, 金涛, 等. 南京夏季城市局地气温时空变化特征. 土木与环境工程学报, 2019, 41(1): 160-167.]

[71] Coseo P, Larsen L. How local climate zones predict urban heat islands in eight Chicago neighborhoods[C]. Philadelphia: Proceedings of the Association of Collegiate Schools of Planning(2014).

[72] Verdonck M L, Van Coillie F, De Wulf R et al. Thermal evaluation of the local climate zone scheme in Belgium[J]. Dubai: 2017 Joint Urban Remote Sensing Event (JURSE), IEEE(2017).

[73] Lehnert A M, Kubeček J, Geletič J et al. Identifying hot and cool spots in the city centre based on bicycle measurements: The case of Olomouc, Czech Republic[J]. Geographica Pannonica, 22, 230-240(2018).

[74] Fenner D, Meier F, Bechtel B et al. Intra and inter local climate zone variability of air temperature as observed by crowdsourced citizen weather stations in Berlin, Germany[J]. Meteorologische Zeitschrift, 26, 525-547(2017).

[75] Gonçalves A, Ornellas G, Castro R A et al. Urban cold and heat island in the city of Bragança (Portugal)[J]. Climate, 6, 70(2018). http://www.mdpi.com/2225-1154/6/3/70

[76] Richard Y, Emery J, Dudek J et al. How relevant are local climate zones and urban climate zones for urban climate research? Dijon (France) as a case study[J]. Urban Climate, 26, 258-274(2018).

[77] Leconte F, Bouyer J, Claverie R et al. Using local climate zone scheme for UHI assessment: Evaluation of the method using mobile measurements[J]. Building and Environment, 83, 39-49(2015).

[78] Alexander P, Mills G. Local climate classification and Dublin's urban heat island[J]. Atmosphere, 5, 755-774(2014).

[79] Emmanuel R, Krüger E. Urban heat island and its impact on climate change resilience in a shrinking city: The case of Glasgow, UK[J]. Building and Environment, 53, 137-149(2012).

[80] Oxoli D, Ronchetti G, Minghini M et al. Measuring urban land cover influence on air temperature through multiple geo-data: The case of Milan, Italy[J]. ISPRS International Journal of Geo-Information, 7, 421(2018). http://www.mdpi.com/2220-9964/7/11/421

[81] Skarbit N, Stewart I D, Unger J et al. Employing an urban meteorological network to monitor air temperature conditions in the local climate zones of Szeged, Hungary[J]. International Journal of Climatology, 37, 582-596(2017).

[82] Stewart I D, Oke T R, Krayenhoff E S. Evaluation of the local climate zone scheme using temperature observations and model simulations[J]. International Journal of Climatology, 34, 1062-1080(2014).

[83] HuangYuan, LiuJing, ChenFangli, et al. A study on the urban form and its heat island magnitude based on local climate zones scheme. New Architecture, 2019(4):126-131. [ 黄媛, 刘敬, 陈方丽, 等. 基于局地气候分区理论的城市形态及其热岛量级研究. 新建筑, 2019(4):126-131.] [黄媛, 刘敬, 陈方丽, 等. 基于局地气候分区理论的城市形态及其热岛量级研究. 新建筑, 2019(4): 126-131.]

[84] Wang Z, Xing W, Huang Y et al. Studying the urban heat island using a local climate zone scheme[J]. Polish Journal of Environmental Studies, 25, 2609-2616(2016).

[85] Yang X, Yao L, Jin T et al. Assessing the thermal behavior of different local climate zones in the Nanjing metropolis, China[J]. Building and Environment, 137, 171-184(2018).

[86] Chen Y, Lo T W, Shih W Y et al. Interpreting air temperature generated from urban climatic map by urban morphology in Taipei[J]. Theoretical and Applied Climatology, 137, 2657-2662(2019).

[87] Shi Y, Lau K K L, Ren C et al. Evaluating the local climate zone classification in high-density heterogeneous urban environment using mobile measurement[J]. Urban Climate, 25, 167-186(2018).

[88] Mughal M O, Li X X, Yin T et al. High-resolution, multilayer modeling of Singapore's urban climate incorporating local climate zones[J]. Journal of Geophysical Research: Atmospheres, 124, 7764-7785(2019).

[89] Ng Y X Y. A study of urban heat island using local climate zones: The case of Singapore[J]. International Journal of Environment and Climate Change, 5, 116-133(2015).

[90] Thomas G, Sherin A P, Ansar S et al. Analysis of urban heat island in Kochi, India, using a modified local climate zone classification[J]. Procedia Environmental Sciences, 21, 3-13(2014).

[91] Kotharkar R, Bagade A. Evaluating urban heat island in the critical local climate zones of an Indian city[J]. Landscape and Urban Planning, 169, 92-104(2018).

[92] Chieppa J, Bush A, Mitra C. Using local climate zones to detect urban heat island on two small cities in Alabama[J]. Earth Interactions, 22, 1-22(2018).

[93] Colunga M L, Cambrón-Sandoval V H, Suzán-Azpiri H et al. The role of urban vegetation in temperature and heat island effects in Querétaro city, Mexico[J]. Atmósfera, 28, 205-218(2015).

[94] Cardoso R S, Amorim M C C T. Urban heat island analysis using the local climate zone scheme in Presidente Prudente, Brazil[J]. Investigaciones Geográficas, 69, 107-118(2018).

[95] Lotfian M, Ingensand J, Composto S et al. The relationship between land surface temperature and local climate zone classification: A case study of the canton Geneva, Switzerland[J]. Limassol: Association of Geographic Information Laboratories for Europe (AGILE)(2019).

[96] Gémes O, Tobak Z, Van Leeuwen B. Satellite based analysis of surface urban heat island intensity[J]. Journal of Environmental Geography, 9, 23-30(2016).

[97] Cai Z, Tang Y, Chen K et al. Assessing the heat vulnerability of different local climate zones in the old areas of a Chinese megacity[J]. Sustainability, 11, 2032(2019). https://www.mdpi.com/2071-1050/11/7/2032

[98] Lin Z, Xu H. A study of urban heat island intensity based on local climate zones: A case study in Fuzhou, China[J]. Guangzhou: 4th International Workshop on Earth Observation and Remote Sensing Applications (EORSA), IEEE, 250-254(2016).

[99] Hu J, Yang Y, Pan X et al. Analysis of the spatial and temporal variations of land surface temperature based on local climate zones: A case study in Nanjing, China[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing(2019). https://www.ncbi.nlm.nih.gov/pubmed/30057659

[100] Cai M, Ren C, Xu Y. Investigating the relationship between local climate zone and land surface temperature[J]. Dubai: 2017 Joint Urban Remote Sensing Event (JURSE), IEEE(2017).

[101] Chen Y, Lin T, Shih W Y. Modeling the urban thermal environment distributions in Taipei Basin using local climate zone (LCZ)[J]. Dubai: 2017 Joint Urban Remote Sensing Event (JURSE), IEEE(2017).

[102] Wang Y, Zhan Q, Ouyang W. Impact of urban climate landscape patterns on land surface temperature in Wuhan, China[J]. Sustainability, 9, 1700(2017). http://www.mdpi.com/2071-1050/9/10/1700

[103] Wang R, Cai M, Ren C et al. Detecting multi-temporal land cover change and land surface temperature in Pearl River Delta by adopting local climate zone[J]. Urban Climate, 28, 100455(2019). https://linkinghub.elsevier.com/retrieve/pii/S2212095519300938

[104] Gupta K, Pushplata T R, Nekkla S et al. Investigating the relationship of urban form and function with surface temperature patterns: A case study of Chandigarh[J]. Delhi: 38th Asian Conference on Remote Sensing: Space Applications: Touching Human Lives(2017).

[105] Nassar A K, Blackburn G A, Whyatt J D. Dynamics and controls of urban heat sink and island phenomena in a desert city: Development of a local climate zone scheme using remotely-sensed inputs[J]. International Journal of Applied Earth Observation and Geoinformation, 51, 76-90(2016).

[106] Khamchiangta D, Dhakal S. Physical and non-physical factors driving urban heat island: Case of Bangkok Metropolitan Administration, Thailand[J]. Journal of Environmental Management, 248, 109285(2019). https://www.ncbi.nlm.nih.gov/pubmed/31466183

[107] Pradhesta Y F, Nurjani E, Arijuddin B I. Local climate zone classification for climate-based urban planning using Landsat 8 Imagery (A case study in Yogyakarta Urban Area)[J]. IOP Conference Series: Earth and Environmental Science., 303, 012022(2019). https://iopscience.iop.org/article/10.1088/1755-1315/303/1/012022

[108] Simanjuntak R M, Kuffer M, Reckien D. Object-based image analysis to map local climate zones: The case of Bandung, Indonesia[J]. Applied Geography, 106, 108-121(2019).

[109] Wang C, Middel A, Myint S W et al. Assessing local climate zones in arid cities: The case of Phoenix, Arizona and Las Vegas, Nevada[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 141, 59-71(2018).

[110] Ferreira L S, Duarte D H S. Exploring the relationship between urban form, land surface temperature and vegetation indices in a subtropical megacity[J]. Urban Climate, 27, 105-123(2019).

[111] Mushore T D, Dube T, Manjowe M et al. Remotely sensed retrieval of local climate zones and their linkages to land surface temperature in Harare metropolitan city, Zimbabwe[J]. Urban Climate, 27, 259-271(2019).

[112] Koc C B, Osmond P, Peters A et al. Understanding land surface temperature differences of local climate zones based on airborne remote sensing data[J]. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, 11, 2724-2730(2018).

[113] Zheng Y, Ren C, Shi Y et al. Applying local climate zone (LCZ) into a high-density high-rise cities: A pilot study in Hong Kong[J]. Toulouse: 9th International Conference on Urban Climate (ICUC)(2015).

[114] Quanz J, Ulrich S, Fenner D et al. Micro-scale variability of air temperature within a local climate zone in Berlin, Germany, during summer[J]. Climate, 6, 5(2018). http://www.mdpi.com/2225-1154/6/1/5

[115] Geletič J, Lehnert M, Savić S et al. Inter-/intra-zonal seasonal variability of the surface urban heat island based on local climate zones in three Central European cities[J]. Building and Environment, 156, 21-32(2019).

[116] Kwok Y T, Schoetter R, Lau K K L et al. How well does the local climate zone scheme discern the thermal environment of Toulouse (France)? An analysis using numerical simulation data[J]. International Journal of Climatology, 39, 5292-5315(2019).

[117] Lau K K L, Chung S C, Ren C. Outdoor thermal comfort in different urban settings of sub-tropical high-density cities: An approach of adopting local climate zone (LCZ) classification[J]. Building and Environment, 154, 227-238(2019).

[118] Kaloustian N, Bechtel B. Local climatic zoning and urban heat island in Beirut[J]. Procedia Engineering, 169, 216-223(2016).

[119] Emmanuel R, Loconsole A. Green infrastructure as an adaptation approach to tackling urban overheating in the Glasgow Clyde Valley Region, UK[J]. Landscape and Urban Planning, 138, 71-86(2015).

[120] Shih W. The impact of urban development patterns on thermal distribution in Taipei[J]. Dubai: 2017 Joint Urban Remote Sensing Event (JURSE), IEEE(2017).

[121] Leconte F, Bouyer J, Claverie R et al. Analysis of nocturnal air temperature in districts using mobile measurements and a cooling indicator[J]. Theoretical and Applied Climatology, 130, 365-376(2017).

[122] Geletič J, Lehnert M, Jurek M. Spatiotemporal variability of air temperature during a heat wave in real and modified landcover conditions: Prague and Brno (Czech Republic)[J]. Urban Climate, 31, 100588(2020). https://linkinghub.elsevier.com/retrieve/pii/S2212095519301282

[123] Theeuwes N E, Steeneveld G J, Ronda R J et al. Cool city mornings by urban heat[J]. Environmental Research Letters, 10, 114022(2015). https://iopscience.iop.org/article/10.1088/1748-9326/10/11/114022

[124] Kotharkar R, Bagade A, Ramesh A. Assessing urban drivers of canopy layer urban heat island: A numerical modeling approach[J]. Landscape and Urban Planning, 190, 103586(2019). https://linkinghub.elsevier.com/retrieve/pii/S0169204619301240

[125] Zhou D, Zhao S, Liu S et al. Surface urban heat island in China's 32 major cities: Spatial patterns and drivers[J]. Remote Sensing of Environment, 152, 51-61(2014).

[126] Yang X, Jin T, Yao L et al. Assessing the impact of urban heat island effect on building cooling load based on the local climate zone scheme[J]. Procedia Engineering, 205, 2839-2846(2017).

[127] Xiang L, Ren C. Effects of the building typology on PET value in different local climate zones: A case study in Beijing, China[J]. Edinburgh: Passive and Low Energy Architecture (PLEA)(2017).

[128] Jiang L, Zhan W, Voogt J et al. Remote estimation of complete urban surface temperature using only directional radiometric temperatures[J]. Building and Environment, 135, 224-236(2018).

[129] Beck C, Straub A, Breitner S et al. Air temperature characteristics of local climate zones in the Augsburg urban area (Bavaria, southern Germany) under varying synoptic conditions[J]. Urban Climate, 25, 152-166(2018).

[130] Skarbit N, Gál T, Unger J. Evaluation of spatial and temporal distribution of air temperature in local climate zones based on long-term database in Szeged, Hungary[J]. New York: 10th International Conference on Urban Climate (ICUC)(2018).

[131] Shi L, Luo Z, Matthews W et al. Impacts of urban microclimate on summertime sensible and latent energy demand for cooling in residential buildings of Hong Kong[J]. Energy, 189, 116208(2019). https://linkinghub.elsevier.com/retrieve/pii/S0360544219319036

[132] Zhou X, Okaze T, Ren C et al. Evaluation of urban heat islands using local climate zones under the influences of sea-land breeze[J]. Sustainable Cities and Society, 55, 102060(2020). https://linkinghub.elsevier.com/retrieve/pii/S2210670720300470

[133] Kloog I, Nordio F, Coull B A et al. Predicting spatiotemporal mean air temperature using MODIS satellite surface temperature measurements across the northeastern USA[J]. Remote Sensing of Environment, 150, 132-139(2014).

[134] Kato S, Kouyama T, Nakamura R et al. Simultaneous retrieval of temperature and area according to sub-pixel hotspots from nighttime Landsat 8 OLI data[J]. Remote Sensing of Environment, 204, 276-286(2018).

[135] Yamamoto Y, Ishikawa H, Oku Y et al. An algorithm for land surface temperature retrieval using three thermal infrared bands of Himawari-8[J]. Journal of the Meteorological Society of Japan, Ser. II., 96B, 59-76(2018). https://www.jstage.jst.go.jp/article/jmsj/96B/0/96B_2018-005/_article

[136] Kaloustian N, Tamminga M, Bechtel B. Local climate zones and annual surface thermal response in a Mediterranean city[J]. Dubai: 2017 Joint Urban Remote Sensing Event (JURSE), IEEE(2017).

[137] Hong F, Zhan W, Göttsche F M et al. Comprehensive assessment of four-parameter diurnal land surface temperature cycle models under clear-sky[J]. ISPRS Journal of Photogrammetry and Remote Sensing, 142, 190-204(2018).

[138] Wu P, Yin Z, Zeng C et al[J]. Spatially continuous and high-resolution land surface temperature: A review of reconstruction and spatiotemporal fusion techniques(2019). https://arxiv.org/abs/1909.09316

[139] Zhan W, Chen Y, Zhou J et al. Disaggregation of remotely sensed land surface temperature: Literature survey, taxonomy, issues, and caveats[J]. Remote Sensing of Environment, 131, 119-139(2013).

[140] Mussetti G, Brunner D, Allegrini J et al. Simulating urban climate at sub-kilometre scale for representing the intra-urban variability of Zurich, Switzerland[J]. International Journal of Climatology, 1-19(2019).

[141] Quan J. Multi-temporal effects of urban forms and functions on urban heat islands based on local climate zone classification[J]. International Journal of Environmental Research and Public Health, 16, 2140(2019). https://www.mdpi.com/1660-4601/16/12/2140

[142] Demuzere M, Bechtel B, Middel A et al. Mapping Europe into local climate zones[J]. PloS One, 14, e0214474(2019). https://www.ncbi.nlm.nih.gov/pubmed/31017939

[143] HuangYuan, LiuJingyi, JasonChing. Research progress of WUDAPT project: Crowdsourcing solutions based on urban form, function information and its applications. South Architecture, 2018(4):26-33. [ 黄媛, 刘静怡, JasonChing. WUDAPT项目: 城市形式与功能信息的众包解决方案及其应用. 南方建筑, 2018(4):26-33.] [黄媛, 刘静怡, Jason Ching. WUDAPT项目: 城市形式与功能信息的众包解决方案及其应用. 南方建筑, 2018(4): 26-33.]

[144] Tse J W P, Yeung P S, Fung J C H et al. Investigation of the meteorological effects of urbanization in recent decades: A case study of major cities in Pearl River Delta[J]. Urban Climate, 26, 174-187(2018).

[145] Ziaul S, Pal S. Analyzing control of respiratory particulate matter on land surface temperature in local climatic zones of English Bazar Municipality and surroundings[J]. Urban Climate, 24, 34-50(2018).

[146] Knerr I, Dienst M, Lindén J et al. Addressing the relocation bias in a long temperature record by means of land cover assessment[J]. Theoretical and Applied Climatology, 137, 2853-2863(2019).

[147] Lau K K L, Ren C, Shi Y et al. Determining the optimal size of local climate zones for spatial mapping in high-density cities[J]. Toulouse: 9th International Conference on Urban Climate (ICUC)(2015).

[148] Pacifici M, Rama F, de Castro Marins K R. Analysis of temperature variability within outdoor urban spaces at multiple scales[J]. Urban Climate, 27, 90-104(2019).

[149] Masiero E, Souza L C L. Mapping humidity plume over local climate zones in a high-altitude tropical climate city, Brazil[J]. Ambiente Construído, 18, 177-197(2018).

[150] Wang Y, Zhan Q, Ouyang W. How to quantify the relationship between spatial distribution of urban waterbodies and land surface temperature?[J]. Science of The Total Environment, 671, 1-9(2019).

[151] Wang J, Huang B, Fu D et al. Spatiotemporal variation in surface urban heat island intensity and associated determinants across major Chinese cities[J]. Remote Sensing, 7, 3670-3689(2015).

[152] YueYafei, ZhanQingming, WangJiong. Optimizing the urban thermal environment: A case study in Wuhan, China. Resources and Environment in the Yangtze Basin, 2018,27(2):286-295. [ 岳亚飞, 詹庆明, 王炯. 城市热环境的规划改善策略研究: 以武汉市为例. 长江流域资源与环境, 2018,27(2):286-295.] [岳亚飞, 詹庆明, 王炯. 城市热环境的规划改善策略研究: 以武汉市为例. 长江流域资源与环境, 2018, 27(2): 286-295.]

[153] Lyu T, Buccolieri R, Gao Z. A numerical study on the correlation between sky view factor and summer microclimate of local climate zones[J]. Atmosphere, 10, 438(2019). https://www.mdpi.com/2073-4433/10/8/438

[154] Shi Y, Xiang Y, Zhang Y. Urban design factors influencing surface urban heat island in the humid subtropical region based on local climate zone[J]. Sensors, 19, 3459(2019). https://www.mdpi.com/1424-8220/19/16/3459