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赵天良,理学博士,教授,博士生导师。南京信息工程大学大气物理学学士和天气动力学理学硕士学位,德国慕尼黑大学自然科学(气象)博士学位,加拿大多伦多大学应用化学(大气化学)博士后。2004年到2011年在加拿大环境部从事空气质量研究工作。2011年6月作为海外引进高层次人才回南京信息工程大学工作。主要学术贡献及科研领域包括东亚季风气候分析与模拟、大气化学及气溶胶模式、空气质量观测分析及数值预测。曾参加多项国家及省部级科研项目, 同时开展多项国家科研合作。
教育背景: 2001年-2003年,加拿大多伦多大学,应用化学,博士后 1994年-1998年,德国慕尼黑大学,气象学,自然科学博士 1987年-1990年,南京气象学院,天气动力学,理学硕士 1979年-1983年,南京气象学院,大气物理学,理学学士
工作经历: 2011年-至今,教授,南京信息工程大学大气物理学院 2003年-2011年,助理研究员、研究员,加拿大环境部 1998年-2000年,研究员,德国卡尔斯鲁厄大学气象系 1992年-1993年,访问学者,德国慕尼黑大学气象系 1990年-1992年,工程师,贵州气象局 1983年-1987年,助理工程师,贵州气象局
学术兼职: 1,中国计算物理学会专业委员会副主任委员 2,中国颗粒物学会理事 3,江苏省颗粒物学会常务理事 4,中国气象学会大气成分委员会委员 5,中国气象科学研究院灾害天气国家重点实验室客座研究员 6,中国气象局成都高原气象研究所学术委员会委员 7,中国气象局乌鲁木齐沙漠气象研究所客座研究员 8,贵州省山地环境气候研究所学术委员会委员 研究领域: 大气环境,大气物理,空气质量模拟及预报,气候变化及亚洲季风 近期科研项目: 西风—季风协同作用下高原云降水物理机理和水资源影响因素研究(2019QZKK0105),科技部第二次青藏科考 异常气候现象对我国雾霾影响程度和机制的研究(91744209),国家自然科学基金重大研究计划培育项目 四川盆地、长江中下游及东北平原重污染过程大气污染物与低层气象要素垂直结构及其时空演变研究(2016YFC0203304),国家重点研发计划重点专项 长江中游“次盆地”大气气溶胶年际异常“凸增”及重污染过程气象影响机理研究(41830965),国家自然科学基金重点项目 我国大气重污染累积与天气气候过程的双向反馈机制研究(SQ2016ZY01002213) 四川盆地特殊地形背景下气溶胶污染时空分布与天气气候影响相关机理(91544109),国家自然科学基金重大研究计划培育项目 天气及气候模式中沙尘气溶胶大气边界层起沙过程参数化及其模拟研究(41175093) 绿色青奥南京区域大气污染监控预警及应急关键技术应用性研究(BE2012771) 大气复合污染区域联合预测预报关键技术研究(2014BAC22B04) 发表专利成果:
科学论文:
Sun, Chan; Xu, Xiangde; Zhao, T,et al.Distinct impacts of vapor transport from the tropical oceans on the regional glacier retreat over the Qinghai-Tibet Plateau.Science of the Total Environment, 2022, 823: 153545. Yang, Qingjian; Zhao, T; Tian, Zhijie; Kumar,et al.The Cross-Border Transport of PM2.5 from the Southeast Asian Biomass Burning Emissions and Its Impact on Air Pollution in Yunnan Plateau, Southwest China.Remote Sensing, 2022, 14(8): 1886. Zhang, Zexuan; Yan, Yingying*; Kong, Shaofei*; Deng, Qimin; Qin, Si; Yao, Liquan; Zhao,T; Qi, Shihua.Benefits of refined NH3 emission controls on PM2.5 mitigation in Central China.Science of the Total Environment, 2022, 814: 151957. Zhang Lei; He Jianjun; Gong Sunling; Guo Xiaomei; Zhao T; Zhou Chunhong,et al.Effect of vegetation seasonal cycle alterations to aerosol dry deposition on PM2.5 concentrations in China.Science of the Total Environment, 2022, 828. Hu, Jun; Zhao, T; Liu, Jane; Cao, Le; Xia,et al.Nocturnal surface radiation cooling modulated by cloud cover change reinforces PM2.5 accumulation: Observational study of heavy air pollution in the Sichuan Basin, Southwest China.Science of the Total Environment, 2021, 794: 148624. Xu, Xiangde; Cai, Wenyue*; Zhao, T; Qiu, Xinfa; Zhu,et al."Warm cover": precursory strong signals for haze pollution hidden in the middle troposphere.Atmospheric Chemistry and Physics, 2021, 21(18): 14131-14139. Khan, Rehana; Kumar, Kanike Raghavendra*; Zhao, T.Assessment of variations of air pollutant concentrations during the COVID-19 lockdown and impact on urban air quality in South Asia.Urban Climate, 2021, 38: 100908. Bai, Yongqing; Zhao, T; Zhou, Yue,et al.Aggravation effect of regional transport on wintertime PM2.5 over the middle reaches of the Yangtze River under China's air pollutant emission reduction process.Atmospheric Pollution Research, 2021, 12(7): 101111. Shu, Zhuozhi; Liu, Yubao; Zhao, T; Xia, Junrong; Wang,et al.Elevated 3D structures of PM2.5 and impact of complex terrain-forcing circulations on heavy haze pollution over Sichuan Basin, China.Atmospheric Chemistry and Physics, 2021, 21(11): 9253-9268. Khan, Rehana; Kumar, Kanike Raghavendra; Zhao, T.The Impact of Lockdown on Air Quality in Pakistan during the COVID-19 Pandemic Inferred from the Multi-sensor Remote Sensed Data.Aerosol and Air Quality Research, 2021, 21(6): 200597. Hu, Xiao-Ming*; Hu, Jun; Gao, Lan; Cai, Changjie; Jiang, Yujun; Xue, Ming; Zhao, T; Crowell, Sean M. R.Multisensor and Multimodel Monitoring and Investigation of a Wintertime Air Pollution Event Ahead of a Cold Front Over Eastern China.JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2021, 126(10): e2020JD033538. Shen, Lijuan; Wang, Honglei*; Zhu, Bin; Zhao, T; Liu, Ankang,et al.Impact of urbanization on air quality in the Yangtze River Delta during the COVID-19 lockdown in China.Journal of Cleaner Production, 2021, 296: 126561. Wang, Honglei*; Miao, Qing; Shen, Lijuan; Yang, Qian; Wu, Yezheng; Wei, Heng; Yin, Yan; Zhao, T; Zhu, Bin; Lu, Wen.Characterization of the aerosol chemical composition during the COVID-19 lockdown period in Suzhou in the Yangtze River Delta, China.Journal of Environmental Sciences, 2021, 102: 110-122. Hu, Jun; Hu, Xiao-Ming; Gao, Lan; Cai, Changjie; Zhao, T; Zhang, Xiaoyan.Impacts of Nocturnal Cloud Top Radiative Cooling on Surface O-3 in Sichuan Basin, Southwestern China.Earth and Space Science, 2021, 8(3): e2020EA001541. Ma, Xiaodan; Huang, Jianping; Zhao, T; Liu, Cheng; Zhao, Kaihui; Xing, Jia; Xiao, Wei.Rapid increase in summer surface ozone over the North China Plain during 2013-2019: a side effect of particulate matter reduction control?Atmospheric Chemistry and Physics, 2021, 21(1): 1-16. Li, Juan; Li, Yueqing; Zhao, T; Schiemann,et al.Northeastward propagation of nocturnal precipitation over the Sichuan Basin.International Journal of Climatology, 2021, 41: E2863-E2879. Han, Han; Wu, Yue; Liu, Jane; Zhao, T; Zhuang, Bingliang, et al.Impacts of atmospheric transport and biomass burning on the inter-annual variation in black carbon aerosols over the Tibetan Plateau.Atmospheric Chemistry and Physics, 2020, 20(21): 13591-13610. Xiong, Jie; Zhao, T; Bai, Yongqing; Liu, Yu,et al.Climate characteristics of dust aerosol and its transport in major global dust source regions.Journal of Atmospheric and Solar-Terrestrial Physics, 2020, 209: 105415. Khan, Rehana*; Kumar, Kanike Raghavendra; Zhao, T; Ali, Gohar.The contribution of different aerosol types to direct radiative forcing over distinct environments of Pakistan inferred from the AERONET data.Environmental Research Letters, 2020, 15(11): 114062. Hu, Weiyang; Zhao, T; Bai, Yongqing*; Shen, Lijuan; Sun, Xiaoyun; Gu, Yao.Contribution of Regional PM2.5 Transport to Air Pollution Enhanced by Sub-Basin Topography: A Modeling Case over Central China.Atmosphere, 2020, 11(11): 1258. Xie, Xiaoning*; Duan, Anmin; Shi, Zhengguo; Li, Xinzhou; Sun, Hui; Liu, Xiaodong; Cheng, Xugeng; Zhao, T; Che, Huizheng; Liu, Yangang.Modulation of springtime surface sensible heating over the Tibetan Plateau on the interannual variability of East Asian dust cycle.Atmospheric Chemistry and Physics, 2020, 20(18): 11143-11159. Shen, L.; Wang, H.; Zhao, T.; Liu, J.; Bai, Y.; Kong, S.; Shu, Z.: Characterizing regional aerosol pollution in central China based on 19 years of MODIS data: Spatiotemporal variation and aerosol type discrimination. Environmental Pollution, 2020, 263:114556. Meng, Lu; Yang, Xinghua; Zhao, T; He, Qing; Mamtimin,et al.Simulated regional transport structures and budgets of dust aerosols during a typical springtime dust storm in the Tarim Basin, Northwest China.Atmospheric Research, 2020, 238: UNSP 104892. Du, X. X.; Shi, G. M.*; Zhao, T. L.:Contribution of Secondary Particles to Wintertime PM2.5 During 2015-2018 in a Major Urban Area of the Sichuan Basin, Southwest China.Earth and Space Science, 2020, 7(6): UNSP e2020EA001194. Ma, Xiaodan; Xu, Xiangde; Cheng, Xinghong; Zhao, T:Association of Climate-related Total Atmospheric Energy Anomalies in the Tibetan Plateau with Haze in eastern China.Aerosol and Air Quality Research, 2020, 20(4): 810-819. Shen L, Zhao T, Wang H, et al. Importance of meteorology in air pollution events during the city lockdown for COVID-19 in Hubei Province, Central China[J]. Science of The Total Environment, 2020: 142227. You, Y.; Zhao, T.; Xie, Y.; Zheng, Y.; Zhu, J.; Xia, J.; Cao, L.; Wang, C.; Che, H.; Liao, Duan, J.; Zhou, J.; Zhou, X.: Variation of the aerosol optical properties and validation of MODIS AOD products over the eastern edge of the Tibetan Plateau based on ground-based remote sensing in 2017. Atmospheric Environment, 2020, 223, 117257. Sun, X.; Zhao, T.; Liu, D.; Gong, S.; Xu, J.; Ma, X.: Quantifying the Influences of PM2.5 and Relative Humidity on Change of Atmospheric Visibility over Recent Winters in an Urban Area of East China. Atmosphere, 2020, 11, 461. Ma, X.; Xu, X.; Cheng, X.; Zhao, T.; Dong, L.; Zhao, Y.; Sun, X.: Association of Climate-Related Total Atmospheric Energy Anomalies in the Tibetan Plateau with Haze in Eastern China. Aerosol and Air Quality Research, 2020, 20, 810-819. Yu, C., Zhao, T., Bai, Y., Zhang, L., Kong, S., Yu, X., He, J., Cui, C., Yang, J., You, Y., Ma, G., Wu, M., and Chang, J.: Heavy air pollution with a unique “non-stagnant” atmospheric boundary layer in the Yangtze River middle basin aggravated by regional transport of PM2.5 over China, Atmos. Chem. Phys., 2020, 20, 7217–7230. Xiong, Jie; Zhao, T; Bai, Yongqing; Liu, Yu; Han, Yongxiang.Simulation and Analyses of the Potential Impacts of Different Particle-Size Dust Aerosols Caused by the Qinghai-Tibet Plateau Desertification on East Asia.Sustainability, 2020, 12(8): 3231. Jia M, Cheng X, Zhao X, ...Zhao T et al. Regional Air Quality Forecast Using a Machine Learning Method and the WRF Model over the Yangtze River Delta, East China[J]. Aerosol and Air Quality Research, 2019, 19(7): 1602-1613. Zhai S, Jacob D J, Wang X, ...Zhao T et al. Fine particulate matter (PM2. 5) trends in China, 2013–2018: separating contributions from anthropogenic emissions and meteorology[J]. Atmospheric Chemistry & Physics, 2019, 19(16). Cheng X, Boiyo R, Zhao T, et al. Climate modulation of Niño3. 4 SST-anomalies on air quality change in southern China: application to seasonal forecast of haze pollution[J]. Atmospheric Research, 2019, 225: 157-164. Ding H, Kumar K R, Boiyo R, Zhao T,et al. The relationships between surface-column aerosol concentrations and meteorological factors observed at major cities in the Yangtze River Delta, China[J]. Environmental Science and Pollution Research, 2019, 26(36): 36568-36588. Khan R, Kumar K R, Zhao T. The climatology of aerosol optical thickness and radiative effects in Southeast Asia from 18-years of ground-based observations[J]. Environmental Pollution, 2019, 254: 113025. Ma G, Zhao T, Kong S, et al. Variations in FINN emissions of particulate matters and associated carbonaceous aerosols from remote sensing of open biomass burning over Northeast China during 2002–2016[J]. Sustainability, 2018, 10(9): 3353. Hu J, Li Y, Zhao T, et al. An important mechanism of regional O3 transport for summer smog over the Yangtze River Delta in eastern China[J]. Atmos. Chem. Phys, 2018, 18(22): 16239-16251. Zhang, L., Guo, X., Zhao, T., Gong, S., Xu, X., Li, Y., … Yin, X., 2018. A modelling study of the terrain effects on haze pollution in the Sichuan Basin. Atmospheric Environment. doi:10.1016/j.atmosenv.2018.10.007. You Y, Cheng X, Zhao T, et al. Variations of haze pollution in China modulated by thermal forcing of the Western Pacific Warm Pool[J]. Atmosphere, 2018, 9(8): 314. Xu, Xiangde(#),Guo, Xueliang(*),Zhao, Tianliang(*),An, Xingqin,Zhao, Yang,Quan, Jiannong,Mao, Fei,Gao, Yang,Cheng, Xinghong,Zhu, Wenhui,Wang, Yinjun,Are precipitation anomalies associated with aerosol variations over eastern China?,Atmospheric Chemistry and Physics,2017.6.30,17(12):8011~8019 Boiyo, Richard(#),Kumar, K. Raghavendra,Zhao, Tianliang(*),Bao, Yansong,Climatological analysis of aerosol optical properties over East Africa observed from space-borne sensors during 2001-2015,Atmospheric Environment,2017.3.01,152:298~313 Jia, Mengwei(#),Zhao, Tianliang(*),Cheng, Xinghong(*),Gong, Sunling,Zhang, Xiangzhi,Tang, Lili,Liu, Duanyang,Wu, Xianghua,Wang, Liming,Chen, Yusheng,Inverse Relations of PM2.5 and O-3 in Air Compound Pollution between Cold and Hot Seasons over an Urban Area of East China,Atmosphere,2017.3.01,8(3) Zhaopeng Luan(#),Yongxiang Han,Tianliang Zhao(*),Feng Liu,Chong Liu,Dust opacities inside the dust devil column in the Taklimakan Desert ,Atmospheric Measurement Techniques,2017.1.24,10(1):273~279 Xu X D(#),Zhao TL(*),Lu C,Guo Y,Chen B,Liu R,Li Y,Shi X,An important mechanism sustaining the atmospheric "water tower" over the Tibetan Plateau,Atmos. Chem. Phys.,2014.10.27,14(1):11287~11295 Jiang Y. C(#),Zhao T.L(*),Liu J,Why does surface ozone peak before a typhoon landing in southeast China?,Atmospheric Chemistry & Physics,2015.01.01,15(17):24623~24642 C Tan(#),T Zhao(*),X Xu,J Liu,L Zhang,L Tang,Climatic analysis of satellite aerosol data on variations of submicron aerosols over East China,Atmospheric Environment,2015.3.25,1(1):1~7 Liu, Chong(#),Zhao, Tianliang(*),Yang, Xinghua,Liu, Feng,Han, Yongxiang,Luan, Zhaopeng,He, Qing,Rood, Mark,Yuen, Wangki,Observational study of formation mechanism, vertical structure, and dust emission of dust devils over the Taklimakan Desert, China,JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES,2016.4.16,121(7):3608~3618 Zheng, Yu(#),Zhao, Tianliang(*),Che, Huizheng(*),Liu, Yu,Han, Yongxiang,Liu, Chong,Xiong, Jie,Liu, Jianhui,Zhou, Yike,A 20-year simulated climatology of global dust aerosol deposition,Science of the Total Environment,2016.7.1,557:861~868 Yuxiang Luo(#),Xiaobo Zheng,Tian Liang Zhao(*),Juan Chen,A climatology of aerosol optical depth over China from recent 10 years of MODIS remote sensing data,International Journal of Climatology,2013.6.13,34:863~870 Wang, Haoliang(*),Guo, Fengxia,Zhao, Tianliang(#),Qin, Meiou,Zhang, Lei,A numerical study of the positive cloud-to-ground flash from the forward flank of normal polarity thunderstorm,Atmospheric Research,2016.3.1,169:183~190 Cheng X(#),Zhao T(*),Gong S,Implications of East Asian summer and winter monsoons for interannual aerosol variations over central-eastern China,Atmospheric Environment,2016.01.01,129:218~228 Xu X(#),Zhao T(*),Liu F,Climate modulation of the Tibetan Plateau on haze in China,Atmospheric Chemistry & Physics,2016.01.01,16(3):28915~28937 Tianliang Zhao(#)(*),Di Liu,Xiaobo Zheng,Revealed variations of air quality in industrial development over a remote plateau of Southwest China: an application of atmospheric visibility data,Meteorology & Atmospheric Physics,2016.01.01,1~9 Tian Liang Zhao(#),S. L. Gong(*),P. Huang,D. Lavou´,Hemispheric transport and influence of meteorology on global aerosol climatology,Atmospheric Chemistry Physics,2012.8.22,12:7609~7624 卢硕, 赵天良, 李晓岚, 等. 2015—2019年保定市O_3变化及其周边源区分析[J]. 环境科学学报. 2022:1-10. 孟露; 赵天良; 何清; 杨兴华; **提艾力·近30年塔里木盆地浮尘天气及持续浮尘滞空的气候特征.气象学报, 2022, 80(02): 322-333. 熊一帆; 丁秋冀; 舒卓智; 刘玉宝; 赵天良, 基于数值模拟与资料同化探究长三角地区冬季PM_(2.5)污染过程的气象影响, 环境科学学报, 2022, 42(04): 293-303. 王红磊; 裴宇儇; 沈利娟; 赵德龙; 白永清; 赵天良, 2008~2018年武汉市BC气溶胶时间演变特征及其来源分析, 地球与环境, 2021, 1-13. 栾兆鹏; 卢慧超; 李恬; 崔向前; 赵天良; 朱庆瑞, 降水和风对泰安地区PM_(2.5)浓度的影响及区域传输研究, 气象与环境学报, 2021, 37(03): 33-39. 陆汇丞, 马翠平, 赵天良, 等. 基于PCT方法的京津冀冬季PM_(2.5)重污染天气型分析[J]. 环境科学学报. 2021,41,(03):898-904. 史俊南, 陆岳, 赵天良, 等. 江苏北部地区冬季PM_(2.5)污染天气形势分型研究[J]. 环境污染与防治. 2021,43,(07):858-863. 朱燕, 赵天良, 白永清, 等. 两湖盆地冬季区域大气颗粒物污染特征及独特的风场和下垫面影响[J]. 环境科学. 2021,42,(10):4669-4677. 杨婕, 赵天良, 程叙耕, 等. 2000—2019年中国北方地区沙尘暴时空变化及其相关影响因素[J]. 环境科学学报. 2021,41,(08):2966-2975. 罗悦函, 赵天良, 孟凯, 等. 华北平原和山区城市PM_(2.5)和O_3变化关系比较分析[J]. 中国环境科学. 2021,41,(09):3981-3989. 顾尧, 白永清, 赵天良, 等. 荆州市大气污染物周边源影响域的气候模拟研究[J]. 环境科学学报. 2021,41,(06):2241-2249. 张宸赫, 王东东, 赵天良, 等. 基于WRF-Chem和EMI指数的新冠肺炎疫情期间沈阳市大气污染物浓度变化原因分析[J]. 环境科学学报. 2021,41,(09):3709-3716. 张成虎; 吴丹; 郑小波; 赵天良; 夏俊荣; 王红磊; 吴明, 青藏高原东缘冬季PM_(2.5)中碳组分特征和来源解析, 生态环境学报, 2021, 30(02): 351-358. 史俊南, 陆岳, 赵天良, 等. 江苏北部地区冬季PM_(2.5)污染天气形势分型研究[J]. 环境污染与防治. 2021,43,(07):858-863. 朱燕, 赵天良, 白永清, 等. 两湖盆地冬季区域大气颗粒物污染特征及独特的风场和下垫面影响[J]. 环境科学. 2021,42,(10):4669-4677. 张宸赫, 赵天良, 陆忠艳, 等. 沈阳地区一次颗粒物重污染天气过程的气象成因分析[J]. 环境保护科学. 2021,47,(01):97-103. 曹蔚, 郑小波, 赵天良, 等. 贵州省2015~2019年空气质量及大气污染物时空分布特征研究[J]. 高原山地气象研究. 2020,(02):63-69. 朱彬; 王媛敏; 高晋徽; 赵天良; 王伶瑞, “两湖盆地”秋季黑碳气溶胶的分布及来源特征, 大气科学学报, 2020, (04): 592-602. 路佩瑶, 赵天良, 牛涛, 等. 云南高原清洁大气环境背景下蒙自市PM_(2.5)和O_3相关性分析[J]. 生态环境学报. 2020,(07):1387-1394. 金希, 赵天良, 陈翱章, 等. 一种PM2.5和低空臭氧大气污染数据实时检测装置:CN201910911454.7[P]. 2019-9-25. 李嘉鼎, 孟凯, 赵天良, 等. 基于 CMAQ 模式的自适应 “nudging” 源反演方法的中国主要污染区排放特征分析[J]. 环境科学学报, 2020, 40(3): 754-762 张宸赫, 赵天良, 王东东, 等. 不同黑碳减排情景对北京霾污染过程的影响评估研究[J]. 环境科学与管理, 2020, 5. 郑珂,赵天良,张磊,曾宁,郑小波,杨清健.2001—2017年中国3个典型城市硫酸盐和硝酸盐湿沉降特征[J].生态环境学报,2019,28(12):2390-2397. 胡未央,赵天良,郑小波,顾尧,杜欣欣,史俊南.中国中东部典型大城市近地面O_3浓度对比分析[J].环境科学与技术,2019,42(S2):173-179. 张宇静,赵天良,殷翀之,王自发,葛宝珠,刘端阳,杜欣欣.徐州市大气PM_(2.5)与O_3作用关系的季节变化[J].中国环境科学,2019,39(06):2267-2272. 陈煜升,张宇静,赵天良,刘端阳,殷翀之,杜欣欣.近5年徐州市大气污染变化及相关气象作用[J].环境科学与技术,2019,42(S1):152-158. 杨清健,赵天良,郑小波,史建武,张朝能,常嘉成,张凯,钟曜谦,于超.亚洲季风强弱年蒙自市大气环境容量差异估算[J].中国环境科学,2019,39(10):4054-4064. 王闰芳,马晓丹,赵天良,王红磊,丁涵,郑小波.利用地面观测资料和AIRS卫星资料评估MACC再分析臭氧数据中国地区的适用性[J].环境科学,2019,40(10):4412-4422. 张凯,赵天良,曹乐,胡小明,郑小波,杨清健,于超.街道峡谷对近地层风场影响的观测和模拟分析[J].环境科学学报,2019,39(12):4187-4195. 刘建慧(#),赵天良(*),韩永翔,Gong S L,熊洁,全球沙尘气溶胶源汇分布及其变化特征的模拟分析,中国环境科学,2013.01.01,(10):1741~1750 熊洁(#),赵天良(*),韩永翔,Gong S L,1995-2004年东亚沙尘气溶胶的模拟源汇分布及垂直结构,中国环境科学,2013.6.20,33(6):961~968 常炉予(#),赵天良(*),何金海,汤莉莉,于红霞,单云鹏,周边气象条件对南京城区大气污染物浓度的影响,气象与环境学报,2013.01.01,(06):95~101 郭晓梅(#),陈娟,赵天良(*),郑小波,1961—2010年四川盆地霾气候特征及其影响因子,气象与环境学报,2014.01.01,(06):100~107 谭成好(#),陈昕,赵天良(*),单云鹏,空气质量数值模型的构建及应用研究进展,环境监控与预警,2014.12.1,6(6):1~7 徐祥德(#),赵天良(*),Lu Chungu,施晓晖,青藏高原大气水分循环特征,气象学报,2014.01.01,(06):1079~1095 李恬(#),赵天良(*),杨晓霞,王宏,李长军,近53年山东省霾季节性特征的年代际变异,生态环境学报,2014.9.1,23(9):1432~1437 郭晓梅(#),周成霞,赵天良(*),陈娟,郑小波,四川盆地1961—2010年大气干能见度变化趋势及其影响因素,中国科学院大学学报,2014.01.01,(03):418~425 刘建慧(#),赵天良(*),刘煜,韩永翔,熊洁,沙尘气溶胶的跨亚欧大陆传输对东亚地区大气环境的影响,环境科学学报,2014.4.01,(12):3102~3111 刘冲(#),赵天良(*),熊洁,刘煜,韩永翔,Feng Liu,1991—2010年全球沙尘气溶胶排放量气候特征及其大气环流影响因子,中国沙漠,2015.8.1,35(4):959~970 谭成好(#),赵天良(*),崔春光,罗伯良,张磊,白永清,近50年华中地区霾污染的特征,中国环境科学,2015.8.20,(08):2272~2280 张英杰(#),赵天良(*),韩永翔,孔少飞,汤莉莉,于红霞,大气污染物周边源对2014南京青奥会空气质量影响的预估分析,中国粉体技术,2015.3.01,(01):16~21 蒋永成(#),赵天良(*),王宏,王琼,常炉予,谭成好,福州市PM2.5污染过程中大气边界层和区域传输研究,中国环境科学,2015.2.1,35(2):347~355 徐祥德(#),赵天良(*),施晓晖,LU Chungu,青藏高原热力强迫对中国东部降水和水汽输送的调制作用,气象学报,2015.01.01,(01):20~35 杨乐心(#),谷晓平,赵天良(*),贵州农业气候资源配置系数研究,贵州农业科学,2015.5.15,(05):223~226 栾兆鹏(#),赵天良(*),韩永翔,杨兴华,LIU Feng,何清,刘冲,干旱半干旱地区尘卷风研究进展,沙漠与绿洲气象,2016.4.28,(02):1~8 贾梦唯(#),赵天良(*),张祥志,吴香华,汤莉莉,王黎明,陈煜升,南京主要大气污染物季节变化及相关气象分析,中国环境科学,2016.9.20,(09):2567~2577 熊洁(#),赵天良(*),刘煜,韩永翔,Liu Feng,李德俊,青藏高原沙漠化对东亚沙尘气溶胶的敏感性模拟分析,高原气象,2016.6.28,(03):590~596 王健颖(#),郑小波,赵天良(*),马晓燕,郭晓梅,李跃清,罗磊,四川盆地气溶胶变化对弱降水的影响:基于干能见度的气候分析,生态环境学报,2016.4.18,(04):621~628 张宸赫(#),赵天良(*),王富,徐祥德,苏航,2003~2014年东北三省气溶胶光学厚度变化分析,环境科学,2017.01.01,(02):476~484 赵天良(#)(*),柳笛,李恬,黄建平,徐祥德,周晨虹,汤莉莉,刘寿东,农业活动大气污染物排放及其大气环境效应研究进展,科学技术与工程,2016.10.8,(28):144~152
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