杨元建

  • 教授 博士生导师 硕士生导师
  • 性别:男
  • 毕业院校:中国科学技术大学
  • 所在单位:党委教师工作部、人事处、院士工作办公室、博士后管理中心
  • 学科:大气遥感与大气探测
  • 联系方式:yyj1985@nuist.edu.cn
  • 2022-04-01曾获荣誉当选:安徽省科技进步三等奖(排名第二)
  • 2022-01-01曾获荣誉当选:江苏省333高层次人才培养工程第三层次
  • 2016曾获荣誉当选:谢义炳气象青年科技奖
  • 2016曾获荣誉当选:中国气象局气象青年英才
  • 2009曾获荣誉当选:中国科大优秀毕业生
  • 2011曾获荣誉当选:安徽省百篇优秀硕士论文
  • 2017曾获荣誉当选:安徽省重大气象服务先进个人
  • 2017曾获荣誉当选:安徽省直机关五一劳动奖章
  • 2019曾获荣誉当选:Advances in Climate Change Research期刊重要贡献论文奖
  • 2018曾获荣誉当选:Science of the Total Environment 杰出审稿人
  • 2020曾获荣誉当选:风云卫星算法大赛二等奖

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个人简介

热诚欢迎对本人研究方向感兴趣的本科生和研究生加入 大气边界层探测与城市气象研究团队,每年可招博士后若干名,博士生1-2名,硕士研究生3名3-5名本科生!

Many thanks for visiting my Chinese homepage! For international visitors, you can refer to my English homepage as the following linkage:https://www.researchgate.net/profile/Yuanjian_Yang

  

杨元建,男,1985年生,教授,博士生导师。2015年中国科学技术大学博士学位,2018-2020年香港中文大学博士后;2021年7月破格晋升为教授,2022年12月起任人事处副处长。 主要从事大气边界层理论、探测与模拟及其与气候环境变化研究。近年来尤其关注城市气候与环境变化,气溶胶-城市热岛-边界层相互作用,风廓线激光雷达边界层探测,人工智能与天气预报,气象大数据融合同化,卫星遥感云降水,气溶胶-云-降水相互作用,清洁能源预测,输电线路覆冰预报,林草火灾监测与预警、台风-海洋相互作用等方向。


  主持国家自然科学基金委优秀青年基金项目,面上项目,青年项目,国家重点研发计划项目专题、中德国际合作项目专题、中国气象局首批揭榜挂帅项目、中国气象局气候变化专项等项目10余项,多项成果在气象、林业、电网、港口等行业应用和推广。已在PNAS、Nature communications、Science advance, ERL、GRL、ACP、JGR等国内外期刊发表或接收学术论文180余篇 (含SCI 100余篇),其中第一作者或通讯作者论文90余篇(含SCI论文70余篇)四篇入选ESI全球TOP1%高被引论文。国家授权发明专利7项。


获奖情况:

   曾获谢义炳青年气象科技奖,中国气象局青年英才, 江苏省333高层次人才培养工程,安徽省科技进步三等奖(排名第2),风云卫星算法大赛二等奖, 南京信息工程大学“课程思政”优秀教学团队,南京信息工程大学研究生教学成果特等奖,第八届“共享杯”科技资源共享服务创新大赛优秀奖指导教师,Science of the Total Environment杰出审稿人, Advances in Climate Change Research期刊重要贡献论文奖,安徽省直机关五一劳动奖章, 安徽省重大气象服务先进个人、安徽省百篇优秀硕士论文、中国科大优秀毕业生等奖励或荣誉称号。

 

 社会兼职:

       中文核心期刊:《热带气象学报》编委;《高原气象》青年编委;《气候变化研究进展》青年编委;《光学学报》青年编委;《应用气象学报》青年编委;《环境生态学》青年编委

       国际SCI期刊(二区) Atmospheric Measurement Techniques》Associate Editor; 国际SCI期刊(三区) 《Earth and Space ScienceAssociate Editor; 国际SCI/SSCI期刊《Remote Sensing》、Land》编委国际期刊《 Frontiers in ClimateAssociate Editor

       中国气象学会城市气象学专业委员会委员;中国气象学会气象人工智能专业委员会委员;中国海洋学会人工智能学专业委员会常务委员;中国环境科学学会环境信息系统与遥感专业委员会委员;中国电力设备管理协会海上新能源专业委员会委员;水电能源气象联合创新中心技术委员会委员;江苏省气象学会大气物理与人工影响天气专委会主任委员;金砖国家遥感卫星星座专家组成员;温江国家气候观象台学术委员会委员;江苏省侨联青年委员会常务委员

       第一、二届全国大气边界层学术交流会“边界层与天气气候”专题共同主席和召集人;第七、八届青年地学论坛大气物理与大气探测专题共同召集人;第二届环境生态学术研讨会 “城市与区域气候环境变化及其健康效应”共同主席和专题召集人


     教学与研究:

1)讲授课程: 大气探测学(本科生);现代大气探测技术与应用(本科生);现代气象统计方法(研究生);现代大气探测学(研究生);边界层气象研究进展(研究生);气象大数据与人工智能(本科生,研究生)

2)  2022年南京信息工程大学本科毕业设计(论文)优秀指导教师

3)2021年南京信息工程大学“课程思政”优秀教学团队

4)  2021年南京信息工程大学研究生教学成果特等奖(排名第二)

5)教改论文:杨元建, 2020, 香港中文大学书院制的特色及优势, 教育学术月刊, 333(4):29-34(北大核心)

6)指导本科生省级大创项目4项,校级大创项目4项

7)  江苏省优秀本科毕业设计(论文)指导教师

8)省级一流本科课程(线上线下混合)-大气探测学

 

团队教师:

汪源教授,赖扬晨 副教授(本人博士后在站),万秉成博(本人博士后留校),张璐博士


学生培养

在读

博士生:

23级:罗    芙(硕博连读,以第一作者发表SCI论文3区1篇,1区1篇,第二作者中文核心1篇,国家公派伦敦大学学院联合培养)

24级:薛捷升(直博生, 以第一作者发表SCI二区论文1篇

硕士生:

22级:张敏轩 (以第一作者发表TOP1区SCI论文1篇,香港浸会大学访问研究生),王路瑶 (以第一作者发表SCI论文1篇),卢维肖 (以第一作者发表中文核心论文1篇)

23级:陈泽昌,孟    磊,蔡子瑞

24级:钱陈杰易雨荻阮昊津李嘉源


本科生:

21级:

气象工程:程敏婕,肖鑫,方舟(以第一作者发表SCI二区论文一篇),邢嘉艺

大气科学:孙齐悦

大气物理:陈志涛

22级:

气象技术与工程:张航 谢幸育 苏秋桐

23级:

气象技术与工程:单曦 ,唐一斐

龙山书院:郭佳,路梓妍 钟婷婷

大气拔尖班:周熹愉


毕业

博士生:

段泽霞(19级,以第一作者发表SCI论文1区1篇,2区1篇和3区1篇,硕博连读,获国家奖学金,就职于南通大学)

宗    莲(21级,以第一作者发表SCI论文1区3篇,2区2篇和3区1篇,硕博连读,获博士新生奖学金;国家公派意大利国家委员会环境方法分析研究所、意大利佛罗伦萨大学联合培养, 去向:香港科技大学博士后

硕士生:

李佳雯(17级,地信专业,毕业论文:基于多源卫星遥感的长三角PM2.5污染人口暴露度时空分布研究,优秀毕业生,以第一作者发表论文3篇,其中二区1篇,去向:世界500强企业)

张曼玉 (17级,3S与气象集成,毕业论文:长三角夏季地表热环境的昼夜和季节内变化及其对气温日较差的影响研究,以第一作者发表论文1篇,二作SCI论文1区一篇,去向:大型军工企业)

刘淑鸿(18级,校优秀硕士论文,获国家研究生奖学金,优秀毕业生,以第一作者发表SCI论文3篇,其中1一区1篇和二区2篇;去向:山东省临沂气象局)

周少辉(19级,以第一作者发表SCI论文2区1篇,与高志球教授,联合指导)

柴   灏(19级以第一作者发表核心论文1篇,与高志球教授,联合指导,去向:陕西省气象局)

郭   敏(20级,以第一作者发表SCI论文3区1篇,导师第一学生第二 SCI Top期刊2篇,获国家奖学金,优秀毕业生,去向:宁夏省气象局)

黄泽昊20级,以第一作者发表SCI论文3区1篇,去向:湖南省气象局

田伟守 (21级,以第一作者发表SCI论文2区1篇和3区1篇,去向:甘肃省气象局

本科生:

马    洁(16级,毕业论文:青海省夏季降水天气的客观分型研究,去向:气象部门)

宋    晨(16级,毕业论文:不同大气环流型对粤港湾大湾区夏季高温调节作用研究)

陈世涵(遥感,校级大创,地球实验课程项目,去向:武汉大学读研,香港理工大学读博,以第一作者发表权威核心论文1篇,二区SCI论文1篇,软著1项

廖芷鋆(17级,毕业论文:2019年1月一次弱冷空气过程对香港空气质量的影响,去向:英国University of Reading读研)

苏婧娴(17级,毕业论文:台风白鹿(2019)外围环流对香港空气质量的影响研究)

何    坤(17级,毕业论文:PM2.5污染背景下的北京城市热岛特征研究,去向:部队)

金    智(17级,毕业论文:东亚夏季不同类型降水云参数和降水强度关系研究,去向:本校读研)

胡雨杰(17级长望班,毕业论文:寿县农田上空气溶胶污染及光学特征,去向:兰州大学读研)

李欣艳(18级,大探,省级大创,导师,以第一作者发表二区SCI论文1篇,软著2项, 2022届本科优秀毕业生,香港 读博,Hong Kong Baptist University, 毕业论文:基于集成机器学习的风云四号静止卫星定量降水估计研究,校优秀毕业论文一等奖 ,江苏省优秀本科毕业论文)

陈绎冰(18级,大探,省级大创,导师,以第一作者北大核心论文1篇录用,已保送国防科技大学读研, 2022届本科优秀毕业生,毕业论文:基于机器学习和卫星遥感的台风云系微物理特征与地表降水强度关系研究,校优秀毕业论文二等奖

张敏轩(18级,大探,导师,以第一作者发表英文论文1篇,已考取本校研究生读研,毕业论文:天气环流型和城市化对广东夏季降水的协同影响研究 )

赵文川(18级,大探,省级大创,以共同第二作者发表北大核心论文1篇,已保送中国科学技术大学读研, 2022届本科优秀毕业生)

范荣峰(18级,大探,省级大创,以第一作者发表北大核心论文1篇, 已考取中国气象科学研究院读研)

李天依(18级,大物,省级大创,以第二作者发表北大核心论文1篇录用)

张衍灝(19级,地信,大研,以第一作者发表SCI二区论文1篇),

房润卓(19级,气象学,校级大创,国防科大读研),

陈奕林(19级,大探,导师,SCI论文2区一篇, 香港科技大学读博),  

陈昌泽(19级,大探,导师,本校读研),

罗   冲(19级,大探,导师,本校读研),

舒佳辉(19级,大探,导师,企业)

王亦凡(19级,气象学,自主大研,保送中山大学)

薛捷升(20级,导师,以第一作者发表SCI二区论文1篇,本校直博)

张龙瑞(20级,导师,发表SCI一区TOP期刊论文一篇,美国华盛顿大学PhD

贺哲雨(20级,导师,以第一作者发表SCI三区论文1篇,香港科技大学PhD

徐秋荻(20级,导师,兰州大学读研)

米佳芹(20级,导师,发表SCI论文四区一篇,兰州大学读研)

周传如(20级,导师,以第一作者发表SCI三区论文1篇, 物理教育,本校读研)



第一作者或通讯作者论文列表:

  1. Chen, F., Yang, Y.*, Yu, L., Li, Y., Liu, W., Liu, Y., and Lolli, S.(2025). Distinct effects of Fine and Coarse Aerosols on Microphysical Processes of Shallow Precipitation Systems in Summer over Southern China, Atmospheric Chemistry and Physics, accepted

  2. Wang, Y.#, Yang, Y.#, Yuan, Q., Li, T., Zhou Y., Zong, L., Wang, M., Xie, Z., Ho, D., Gao, M., Tong, S., Lolli, S., & Zhang, L. (2025). Substantially underestimated global health risks of current ozone pollution. Nature communications,  doi: 10.1038/s41467-024-55450-0

  3. Ho Hung Chak, Shilu Tong, Yi Zhou, Yuanjian Yang*,(2025),Heat vulnerability mapping as a tool for neighborhood health risk management in high-density urban environment: Challenges and opportunities, Current Environmental Health Reports, Accepted.

  4. Cheng Minjie, Guicai Ning, Jiayi Xing, Shuang Zhou, Yuanjian Yang*, Simone Lolli (2025), The 3D evolution of spatiotemporally contiguous summer heatwaves in China: tracking and underlying mechanism associated with compound typhoon and high-pressure systems , Journal of Geophysical Research-Atmospheres, Under review

  5. Shi T. , Yuanjian Yang* , Lian Zong , Min Guo , Ping Qi , and Simone Lolli (2025), The Modulation of Synoptic Weather Patterns and Human Activities on the Diurnal Cycle of Summertime Canopy Urban Heat Island in Yangtze River Delta Urban Agglomeration, China, Atmospheric Chemistry and Physics, Under review

  6. Shi, T., Yang, Y. *, Lu, G., Zheng, Z., Zi, Y., Tian, Y., Liu, L., and Lolli, S.(2025): Urban morphology modulates thunderstorm process and associatied cloud-to-ground lightning activity over Beijing metropolitan region, Atmospheric Chemistry and Physics, Under review

  7.  Lu WeixiaoXiong xiongYuanjian Yang*(2025), Improving multi-modal wind speed prediction of short and medium term with a bi-clustered machine learning method, Renewable Energy, Under review

  8. Yang Y., Minxuan Zhang, Chenchao Zhan, Pak Wai Chan, Xueyan Bi, Meng Gao, Simone Lolli (2025).Three-dimensional transport of ozone pollution affected by the peripheral circulation of tropical cyclones over the Guangdong-Hong Kong-Macao Greater Bay Area, China, Journal of Geophysical Research-Atmospheres, Under review

  9. Wang Linlin, Bingcheng Wan, Yuanjian Yang*, Sihui Fan, Yi Jing, Xueling Cheng, Zhiqiu Gao, Shiguang Miao, Han Zou (2024), Dynamic and thermal drivers of urban atmospheric boundary layer stability in Beijing, China, Remote Sensing, 16(22):4246, doi:10.3390/rs16224246.

  10. Shi, T., Yang, Y. *, Qi, P., and Lolli, S. (2024). Diurnal variation of amplified canopy urban heat island in Beijing megacity during heat wave periods: Roles of mountain-valley circulation and urban morphology, Atmospheric Chemistry and Physics,  24(22):12807-12822, doi:10.5194/acp-24-12807-2024

  11. Zong Lian #, Jean Paul Ngarukiyimana#, Yuanjian Yang*, Steve Y. L. Yim, Yi Zhou, Mengya Wang, Pauline Uwamahoro, Zunyi Xie, Derrick Ho, Meng Gao, Shilu Tong, Simone Lolli (2024): Malaria transmission risk is projected to increase in the highlands of Western and Northern Rwanda, Communications Earth & Environment,  doi:10.1038/s43247-024-01717-9

  12. Zheng Z., Yang Y.*, Li N. (2024). Impacts of Various Local Climate Zones on Canopy Urban Heat Island and Dry Island: Spatial Heterogeneity and Relative Contributions in Beijing, Journal of Metereological Research,  doi:10.1007/s13351-024-3081-6 (关键词:城市热岛、城市干岛,空间异质性,局部气候区、日变化、北京)

  13. Shi T., Yang Y.*, Qi P., Ren G.,Wen X.,Guf C. (2024). Adjustment of the urbanization bias in surface air temperature series based on urban spatial morphologies and using machine learning,Urban Climate, https://doi.org/10.1016/j.uclim.2024.101991

  14. Mi J., Yang Y*, Zhou S., et al. (2024), Exploring impacts of aerosol on convective cloud using satellite remote sensing and machine learning, J. Appl. Remote Sens. 18(1), 012007 (2024), doi: 10.1117/1.JRS.18.012007. (关键词:中尺度对流极端降水,机器学习,随机森林,气溶胶-云降水相互作用)

  15. Ø  Zhang M., Y. Yang*, C. Zhan, L. Zong, C. Gul, M. Wang,(2024), Tropical cyclone-related heatwave episodes in the Greater Bay Area, China: synoptic patterns and urban-rural disparities, Weather and Climate Extremes, doi:10.1016/j.wace.2024.100656 (关键词:高温热浪、台风、大湾区、天气环流分型、城乡差异)

  16. Zhang, L., Luo, F., Pan, G., Zhang, W., Ren, G., Zhheng, Z., & Yang, Y.* (2024)., Elucidating the multi-timescale variability of a canopy urban heat island by using the short-time Fourier transform, Geophysical Research Letters, 51(1), doi: 10.1029/2023GL106221 (关键词:城市热岛、短时傅里叶变换、日变化、年际变化,高温热浪、寒潮、北京)

  17. Ø  Zong L., Y. Yang*, H.Xia, J. Yuan, M. Guo, (2023), Elucidating the impacts of various atmospheric ventilation conditions on local and transboundary ozone pollution patterns: A case study of Beijing, China, Journal of Geophysical Research-Atmospheres, doi: 10.1029/2023JD039141(关键词:边界层过程、通风条件、机器学习、空气质量、传输模型)

  18. Ø  Yang Y., Guo M., Wang L,  Zong L., et al. (2023), gacity, China: Roles of geophysical environment, ventilation and sea breezesUnevenly spatiotemporal distribution of urban excess warming in coastal Shanghai me, Building and Environment, https://doi.org/10.1016/j.buildenv.2023.110180. (关键词:城市热岛、热浪、边界层过程、通风条件、海陆风)

  19. Ø  Chen, Y., Yang, Y.*, and Gao, M.(2023),Typhoon-associated air quality over the Guangdong–Hong Kong–Macao Greater Bay Area, China: machine-learning-based prediction and assessment, Atmos. Meas. Tech., 16, 1279–1294, https://doi.org/10.5194/amt-16-1279-2023, 2023. (关键词:机器学习、空气质量、台风、大湾区、预报预测模型)

  20. Ø  Li, Y., Wu, Y., Tang, J., Zhu, P., Gao, Z., & Yang, Y*. (2023). Quantitative evaluation of wavelet analysis method for turbulent flux calculation of non-stationary series. Geophysical Research Letters, 50, e2022GL101591. https://doi.org/10.1029/2022GL101591 (关键词:湍流通量、平稳、非平稳、小波分析)

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  32. Ø    Zhou, S., Yang, Y*., Gao, Z., Xi, X., Duan, Z., and Li, Y.(2022): Estimating vertical wind power density by using tower observation and empirical models over varied desert steppe terrain in northern China, Atmospheric Measurement Techniques, 15, 757–773, https://doi.org/10.5194/amt-15-757-2022.    (关键词:风功率密度,粗糙度,塔观测,经验模型,沙漠草原)

  33. Ø  Zong, L., Yang, Y.*, Xia, H.*, Gao, M., Sun, Z., Zheng, Z., Li, X., Ning, G., Li, Y., and Lolli, S.(2022): Joint Occurrence of Heatwaves and Ozone Pollution and Increased Health Risks in Beijing, China: Roles of Synoptic Weather Pattern and Urbanization, Atmos. Chem. Phys. 22(10):6523-6538 , DOI: 10.5194/acp-22-6523-2022.   (关键词:高温热浪、臭氧、城市热岛、城市化、天气型、日变化、年际变化、北京)

  34. Ø    Tao Shi,  Yang Y.*, Dabing Sun, Yong Huang and Chune Shi (2022), Influence of changes in meteorological observational environment on urbanization bias in surface air temperature: a review, Frontiers in Climate, DOI: 10.3389/fclim.2021.781999    (关键词:探测环境代表性,卫星遥感,热岛、城市化、台站搬迁,资料均一性、连续性、代表性,人为热,城市局部气候区)

  35. Ø  Zheng X.,Yang Y. *,Y. Yuan ,Y. Cao, J. Gao (2022), Comparison of Macro- and Microphysical Properties in Precipitating and Non-precipitating Clouds over Central-eastern China During Warm Season, Remote Sensing, 14(1), 152; https://doi.org/10.3390/rs14010152   (关键词:降水云,非降水云,云水含量、雨滴有效半径,云量,云高,cloudsat)

  36. Ø  Chen, S., Yang, Y.*, Deng, F., Zhang, Y., Liu, D., Liu, C., and Gao, Z.(2022): A High-Resolution Monitoring Approach of Canopy Urban Heat Island using Random Forest Model and Multi-platform Observations, Atmospheric Measurement Techniques.,15, 735–756, https://doi.org/10.5194/amt-15-735-2022  (关键词:城市热岛, 高时空分辨率, 机器学习,随机森林,模型重建,卫星遥感)

  37. Ø  Duan, Z.; Yang Y*; Zhou, S.; Gao, Z.; Zong, L.; Fan, S.; Yin, J.(2021),  Estimating Gross Primary Productivity (GPP) over  Rice–Wheat-Rotation Croplands by Using the Random Forest Model and Eddy Covariance Measurements: Upscaling and Comparison with the MODIS Product. Remote Sensing 13,DOI:10.3390/rs13214229     (关键词:涡度相关,CO2通量,初级生产力,稻麦轮作,MODIS, 高时空分辨率, 机器学习,随机森林,模型重建,卫星遥感)

  38. Ø  Li, X., Yang, Y.*, Mi, J., Bi, X., Zhao, Y., Huang, Z., Liu, C., Zong, L., and Li, W.,(2021),: Leveraging machine learning for quantitative precipitation estimation from Fengyun-4 geostationary observations and ground meteorological measurements, Atmospheric Measurement Techniques, 14, 7007–7023, https://doi.org/10.5194/amt-14-7007-2021.    (关键词:定量降水估计,风云四号静止卫星,华南暴雨, 机器学习,高时空分辨率, 随机森林,模型重建,卫星遥感)

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  40. Ø  Zong Lian,Yang Y.*, Hong Wang, Guicai Ning, Yubin Li, Zhiqiu Gao, Chao Liu, Linlin Wang,  (2021) , Large-scale synoptic drivers of co-occurring summertime ozone and PM2.5 pollution in eastern China, Atmospheric Chemistry and Physics, 21(11):9105-9124 (关键词:PM2.5、臭氧、天气型、中国东部,边界层、日变化)

  41. Ø  Zong Lian, Shuhong Liu, Y Yang*, Guoyu Ren, Miao Yu, Yanhao Zhang, Yubin Li (2021), Synergistic influence of local climate zones and wind speeds on urban heat island and heat waves in Beijing. Frontiers in Earth Science, doi: 10.3389/feart.2021.673786(关键词:城市热岛、热浪、局部气候区、边界层、能量平衡、风速)

  42. Ø  Zhang Y, Ning G, Chen S, Yang Y*. Impact of Rapid Urban Sprawl on the Local Meteorological Observational Environment Based on Remote Sensing Images and GIS Technology. Remote Sensing. 2021; 13(13):2624. https://doi.org/10.3390/rs13132624(第一作者为本人指导的19级本科生)(关键词:城市化、城市热岛、偏差订正、台站搬迁,人为热

  43. Ø  Liu, S.; Tang, D.; Yan, H.;Ning, G; Liu, C; Yang, Y* (2021),. Potential Associations between Low-Level Jets and Intraseasonal and Semi-Diurnal Variations in Coastal Chlorophyll—A over the Beibuwan Gulf, South China Sea. Remote Sensing,13, 1194. https://doi.org/10.3390/rs13061194 (关键词:H8静止卫星,叶绿素,海温,台风,上升流、混合、低空急流,北部湾,南海)

  44. Ø  Jean P. Ngarukiyimana, Yunfei Fu*, Bob A. Ogwang, Celestin Sindikubwabo, Idrissa Nkurunziza, FaustinKatchele Ogou, and  Yuanjian Yang* (2021), Climate Change in Rwanda: The Observed Changes in Daily Maximum and Minimum Surface Air Temperatures during 1961−2014 ,Frontiers in Earth Science, doi: 10.3389/feart.2021.619512 (关键词:最高气温,最低气温,卢旺达,气候变化,地形影响)

  45. Ø  Tao Shi, Dabing Sun, Yong Huang, Gaopeng Lu, Yuanjian Yang* (2021) , A new method for correcting urbanization-induced bias in surface air temperature observations: Insights from comparative site-relocation data, Frontiers in Environmental Science, doi: 10.3389/fenvs.2021.625418 (关键词:热岛、城市化、台站搬迁,资料均一性,LANDSAT)

  46. Ø  Huang Tao# , Yang Y.#,  Jim Haywood, Martin Osborne, Jack C.H. Cheng, Jianping Guo,Steve H.L. Yim (2021),Influence of A Weak Typhoon on the Vertical Distribution of Air Pollution in Hong Kong: A Perspective from Doppler LiDAR Network Observations, Environmental Pollutionhttps://doi.org/10.1016/j.envpol.2021.116534 (关键词: 多普勒激光雷达,风廓线,台风天气型与空气污染、边界层、风切变)

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  50. Ø  Shuhong Liu, Jiagen Li, Lang Sun, Guihua Wang,Dangling Tan, Ping Huang, Hong Yan, Si Gao, Chao Liu, Zhiqiu Gao,Yubin Li, Y. Yang* (2020)Basin-Wide Impacts of Super Typhoon Mangkhut (2018) on the Upper Ocean Environment in the South China Sea: A Perspective from Multi Satellite Observations, Science of the Total Environment,DOI: 10.1016/j.scitotenv.2020.139093(第一作者为本人指导的硕士生)(关键词:H8静止卫星,叶绿素,海温,台风,上升流、混合、南海)

  51. Ø  Zheng Zuofang, Chun Zhao, Simone Lolli, Xiaodong Wang, Yaoting Wang, Xiaoyan Ma, Qingchun Li, Yuanjian Yang*,(2020), Diurnal Variation of Summer Precipitation Modulated by Air Pollution: Observational Evidences in the Beijing Metropolitan Area, Environmental Research Letters, https://dx.doi.org/10.1088/1748-9326/ab99fc (关键词:PM2.5污染,降水日变化,降水峰值,山谷风环流,热岛环流,气溶胶辐射效应,气溶胶微物理效应)

  52. Ø  Wang Linlin, Sihui Fan, Fei Hu, ShiguangMiao, Aqiang Yang, Yubin Li, Junkai Liu, Changwei Liu, Shenshen Chen, HungChark Ho, Zhiqiu Gao*, Yuanjian Yang* (2020), Vertical Gradient Variations in Radiation Budget and Heat Fluxes in the Urban Boundary Layer: A Comparison Study between Polluted and Clean Air Episodes in Beijing during Winter, Journal of Geophysical Research -Atmospheres, https://doi.org/10.1029/2020JD032478 (关键词: 多普勒激光雷达,风廓线,空气污染与城市边界层、风切变,铁塔、通量,辐射平衡,垂直观测)

  53. Ø  Hong Wang, Jiawen Li, Meng Gao, Ta-Chien Chan, Zhiqiu Gao, Manyu Zhang, Yubin Li, Yefu Gu, Aibo Chen, Hung Chak Ho*,Yuanjian Yang*(2020), Spatiotemporal variability in long-term population exposure and lung cancer mortality attributable to PM2.5 across the Yangtze River Delta (YRD) Region over 2010 - 2016: A multistage approach, Chemosphere, https://doi.org/10.1016/j.chemosphere.2020.127153 (关键词:城市化、PM2.5卫星反演,空气污染健康效应,机器学习,随机森林,人口建模,夜间灯光)

  54. Ø  Yang Y., Zheng Z., Yim S.H.L., Roth M., Ren G., Gao Z., Wang T., Li Q., Shi C., Ning G., Li Y.B. (2020). PM2.5 Pollution Modulates Wintertime Urban-Heat-Island Intensity in the Beijing-Tianjin-Hebei Megalopolis, China. Geophysical Research Letters, 47(1). doi:10.1029/2019gl084288 (关键词:热岛、城市化、PM2.5气溶胶直接和间接效应,ESI高被引论文)

  55. Ø  Yu Lu, YunFei Fu*, Yuanjian Yang*, Xiao Pan, Ruiting Tan (2020). Trumpet-shaped Topography Modulation of the Frequency, Vertical Structures and Water Path of Cloud Systems in the Summertime over the Southeastern Tibetan Plateau: A Perspective of Daytime–nighttime Differences, Journal of Geophysical Research -Atmospheres, 125,doi:10.1029/2019JD031803 (关键词:青藏高原,云参数,喇叭口地形,日夜差异,CloudsatCALIPSO)

  56. Ø  Zeng Zhaoliang, Zemin Wang*, Ke Gui, Xiaoyu Yan, Meng Gao, Ming Luo, Hong Geng, Tingting Liao, Xiao Li, Jiachun An, Haizhi Liu, Chao He, Guicai Ning, Yuanjian Yang* (2020). Daily Global Solar Radiation in China Estimated from High-density Meteorological Observations: A Random Forest Model Framework, Earth and Space Science, doi:10.1029/2019EA001058 (关键词:地面太阳辐射, 机器学习,随机森林,模型重建)

  57. Ø  Wang H., J. Li, Z. Gao, S. H.Yim, H. Shen, H. C. Ho, Z. Li, Z. Zeng, C. Liu, Y.Li, G. Ning, Y. Yang*, (2019). High-Spatial-Resolution Population Exposure to PM2.5 Pollution Based on Multi-Satellite Retrievals: A Case Study of Seasonal Variation in the Yangtze River Delta, China in 2013. Remote Sensing,11, DOI:10.3390/rs11232724 (关键词:城市化、PM2.5卫星反演,空气污染健康效应,机器学习,随机森林,人口建模,夜间灯光)

  58. Ø  Yang Y., S.Yim, J. Haywood, M.Osborne, J. Chan, Z. Zeng, J. Cheng (2019), Characteristics of Heavy Particulate Matter Pollution Events over Hong Kong and Their Relationships with Vertical Wind Profiles Using High-Time-Resolution Doppler Lidar Measurements, Journal of Geophysical Research -Atmospheres, 124(16), 9609-9623. doi: 10.1029/2019JD031140(关键词: 多普勒激光雷达,风廓线,天气型与空气污染、边界层、风切变)

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  61. Ø  Yu L., Y. Fu, Y. Yang*R. Li, X. Qiu, H. Cai, (2018), Assessment of Longwave Radiative Forcing of Nighttime Cirrus based on CloudSat and CALIPSO Measurements and Single column Radiative Transfer Simulations, Journal of Quantitative Spectroscopy and Radiative Transfer, DOI: 10.1016/j.jqsrt.2018.09.019 (关键词:卷云,云参数(云滴有效半径,光学厚度、液态水路径),SBDART,云的辐射效应,cloudsatCALIPSO)

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  72. Ø  Shi T., Y. Huang, H. Wang, C. Shi, Y. Yang*, 2015. Influence of Urbanization on the Thermal Environment of Meteorological Stations: Satellite-observational Evidence, Advances in Climate Change Research, doi:10.1016/j.accre.2015.07.001(Great contribution Paper in this journal) (关键词:热岛、城市化、台站搬迁,资料均一性,LANDSAT)

  73. Ø  Yang Y., T. Xian, L. Sun and Y. Fu, 2012, Summer Monsoon Impacts on Chlorophyll-a Concentration in Middle of the South China Sea: Climatological Mean and Annual Variability. Atmos. Ocean. Sci. Letts. 5(1):15-19(关键词:叶绿素,海温,海表高度,台风,上升流、混合、南海、seawifsmodis)

  74. Ø  Yang Y., Y. Fu, F. Chen, et al., 2014. Spectral characteristics of precipitating clouds during the Meiyu over the Yangtze Huaihe River Valley from merged TRMM precipitation radar and visible/infrared scanner data, Proc. of SPIE, 9259, 92591K1-12, doi:10.1117/12.2069118. (关键词:梅雨,光谱,降水云, TRMM)

  75. 杨元建, 罗芙, 薛捷升, 宗莲, 田伟守, & 石涛. (2024). 城市热浪与冠层热岛协同作用研究进展与展望. 地球科学进展, 39(4), 331-346.

  76. Ø  凌新锋,侯灿,黄勇,倪婷,杨元建*2022),淮河流域典型农田区气溶胶散射特性的日变化和季节变化研究,大气与环境光学学报,接收

  77. Ø  王奇,张厚荣,宗莲,苏浩辉,杨元建*,高志球,2021,2015年广西北部超高压输电线路一次连续覆冰事件的天气学特征,热带气象学报37(4)579-589.

  78. Ø  陈绎冰,李天依,李欣艳,赵文川,范荣峰,陈凤娇,杨元建*2022,基于随机森林和遥感的台风降水云光谱与降水关系研究,遥感技术与应用37(5):1277-1288.

  79. Ø  范荣峰,赵文川, 李欣艳, 陈绎冰,李天依,赵幽,刘超,杨元建*(2021),江淮梅雨降水云顶光谱信息与降水强度关系研究 光学学报41(22): 2201001

  80. Ø  王雅正, 杨元建*, 刘超, 师春香. 风云三号卫星微波遥感土壤水分产品在山东地区的适用性分析[J]. 中国农业气象, 2021, 42(04): 318-329.

  81. Ø  石涛,杨太明,黄勇,李翔,刘琪,杨元建*.无人机多光谱遥感监测水稻高温胁迫的关键技术[J].中国农业气象,2020,41(9):597-604.

  82. Ø  陈世涵,李玲,蒋弘凡,居伟杰,张曼玉,刘端阳,杨元建*, 基于高空间分辨率卫星遥感数据的探测环境变化对气温影响研究,光学学报,40(10),1028001 (前四作者均为本人指导大创项目的2017级本科生)

  83. Ø  熊守权,杨元建*,吴 ,刘懿枢,张曼玉, 李佳雯, 李煜斌, 2020. 长江中游地区霾日的年际和年代际变化及其城乡差异成因研究:以湖北和安徽为例,气象与环境科学20202

  84. Ø  石涛,张安伟,杨太明,叶树青,李佳雯,杨元建*2020.基于高分卫星的一季稻面积遥感估算,气象与环境学报20202

  85. Ø  陈凤娇,王体健,邱康俊,温华洋,刘惠兰,陆明明,石春娥,杨元建*2018.安徽省霾污染的季节变化特征及其主导气象因子研究,中国科学技术大学学报, 48(7):567-579

  86. Ø  杨元建,孔俊松,吴必文,等2017. 面向乡镇区域的生态环境气象指标初探,气象科技, 45(3):544-549

  87. Ø  杨元建,汪腊宝,黄勇等,2017,城市化进程对气象探测环境代表性及气温和风的影响:以寿县国家气候观象台为例,气象科技45(1):7-14.

  88. Ø  吴蓉,孙怡,杨元建*等,2016.城市化对安徽省极端气温事件的影响, 气候变化研究进展12 (6): 527-537

  89. Ø  杨元建,冼桃,孙亮,傅云飞,荀尚培. 连续台风对海表温度和海表高度的影响,海洋学报, 2012,34(1):71-78

  90. Ø  杨元建,傅云飞,吴必文,等,秸秆焚烧对中国东部气溶胶时空格局的影响, 大气与环境光学学报2013,8 (4): 241-252

  91. Ø  石涛,杨元建*,马菊,.基于MODIS的安徽省代表城市热岛效应时空特征研究,应用气象学报2013,24(4):484-49

  92. Ø  杨元建,石涛,荀尚培,.基于遥感资料研究合肥城市化对气温的影响[J],气象,2011,37(11): 1423-1430

  93. Ø  杨元建,石涛,张宏群,,基于遥感的合肥土地利用动态变化及其成因分析,中国农学通报,2011,27(8):454-459

  94. Ø  杨元建,石涛,唐为安,,气象台站环境的卫星遥感调查与评估-以安徽代表气象站为例[J],遥感技术与应用,2011,26(6):791-797. 【本期的封面文章】

  95. Ø  张宏群,杨元建*,荀尚培,.安徽省植被和地表温度季节变化及空间分布特征[J].应用气象学报,2011,22(2):232~240.

  96. Ø  荀尚培,杨元建*,何彬方等,春季巢湖水温和水体叶绿素a浓度的变化关系,湖泊科学, 2011,23(5):767-772

  97. Ø  石涛,杨元建*,蒋跃林,荀尚培,张爱民.城市热岛强度变化对安徽省气温序列的影响[J].气候与环境研究, 2011,16(6):779-788,

  98. Ø  杨元建,傅云飞,孙亮,,基于多卫星和Argo浮标观测海洋上层对台风婷婷的响应,中国科学技术大学学报, 2010,40(1):1-12

 

专著章节(Book Chapters)

Yang Yuanjian, Shuai Wang, Wenjian Zheng, Shaohui Zhou, Zexia Duan, Mengya Wang , 2023, Chapter 16: Numerical Weather Forecast and Multi-Meteorological Data Fusion Based on Artificial Intelligence, In book: 3S Technology Applications in Meteorology, Taylor & Francis, pp398-423, DOI: 10.1201/9781003363118-16


TOP综合期刊

 1. Yan, Hong,  Liu, Chengcheng, An, Zhisheng, Yang, Wei, Yang, Yuanjian, Huang,  Ping, Qiu, Shican, Zhou, Pengchao, Zhao, Nanyu, Fei, Haobai, Ma,  Xiaolin, Shi, Ge, Dodson, John, Hao, Jialong, Yu, Kefu, Wei, Gangjian,   Yang, Yanan, Jin, Zhangdong, Zhou, Weijian, Extreme weather events  recorded by daily to hourly resolution biogeochemical proxies of marine  giant clam shells, Proceedings of the National Academy of Sciences of   the  United States of America, 2020, 117(13): 7038-7043.

2. Fu Yunfei, Yaomin Ma, Lei Zhong, Yuanjian Yang, Xueliang Guo, Chenghai Wang, Xiaofeng Xu, Kun Yang, Xiangde Xu, Liping Liu, Guangzhou Fan, Yueqing Li, DonghaiWang,, (2020). Land Surface Processes and Summer Cloud-Precipitation Characteristics in the Tibetan Plateau and Their Effects on Downstream Weather: A Review and Perspective, National Science Review,nwz226, https://doi.org/10.1093/nsr/nwz226

3. Ming Luo*#, Sijia Wu#, Gabriel Ngar-Cheung Lau, Tao Pei*, Zhen Liu, Xiaoyu Wang, Guicai Ning, Ting On Chan, Yuanjian Yang, Wei Zhang*, 2024. Anthropogenic forcing has increased the risk of longer-traveling and slower-moving large contiguous heatwaves. Science Advances, 10, eadl1598. https://doi.org/10.1126/sciadv.adl1598

4. Wang, F. ,  Xu, Y. , & Piyushkumar N. PatelRitesh Gautam,Meng Gao,Cheng Liu,Yihui Ding,Haishan Chen,Yuanjian Yang, Yuyu Zhou,Gregory R. CarmichaelMichael B. McElroy. (2024). Arctic amplification-induced decline in west and south asia dust warrants stronger antidesertif ication toward carbon neutrality. Proceedings of the National Academy of Sciences of the United States of America., 121(14), e2317444121-e2317444121.

专利和软件著作权

1. CN202010878327.4, 一种输电线覆冰发生概率预报方法(发明专利)

2. 2021SR0885631, 中国华南区域的葵花8号卫星光谱资料再分析软件V1.0

3. 2020SR1256990, 气象探测环境的高分辨率卫星遥感评估软件V1.0 

4.     一种基于集成学习的对台风灾害预报方法及系统(发明专利)

   主持或参与的科研项目

  • 国家自然科学基金优秀青年科学基金项目(42222503):“城市边界层过程及其气候环境效应,2023.01-2025.12 ,主持

  • 国家自然科学基金面上项目(42175098):“台风外围环流影响下的粤港澳大湾区大气边界层垂直观测研究”,2022.01-2025.12,主持;

  • 国家自然科学基金青年项目(41205126):“气象探测环境代表性的高分辨率卫星遥感评估方法研究”,2013.01-2016.03,主持;

  • 中德国际合作项目“近几十年中国地区气溶胶上升和下降期云响应变化研究:区域和全球尺度数值模拟和观测分析”2021.01-2023.12,骨干

  • 中国气象局“揭榜挂帅”项目(CMAJBGS202210):基于保险气象服务的分类强对流临近客观预报,2023.01-2023.12 ,主持

  • 业委托项目:特高压输电线路工程微地形微气象形成机理和模拟研究,2023.01-2023.12,主持

  • 业委托项目:港口大风及强对流短临预报研发,2022.03-2022.06,主持

  • 企业委托项目:长三角地区激光雷达边界层关键参数指标研发,2022.06-2022.12,主持

  • 中国气象科学研究院委托项目:风廓线雷达资料的暴雨前兆信号指标研发,2021.01-2021.09,主持

  • 中科院地球环境研究所委托项目:南海海气相互作用关键参数反演与研发,2020.01-2020.12,主持

  • 山西省重点研发计划:龙翔智能森林防火信息服务系统——一种基于气象数据数值差分运算的综合服务平台,2020.01-2021.12,主持

  • 西电东送主网架综合气象服务平台研究与应用:气象数据分析技术服务。中国南方电网,2020-2021,骨干

  • 微地形条件下输电线路覆冰数值预测技术研究项目。中国南方电网,2019-2020,骨干

  • 国家重点研发计划项目“全球气象卫星遥感动态监测、分析技术及定量应用方法及平台研究”课题二(2018YFC1506502)“高时空分辨率多源卫星遥感气象灾害产品融合技术”2018.12-2021.12,骨干

  • 黄土与第四纪地质国家重点实验室开放基金课题(SKLLQG2020): 砗磲地球化学指标对天气环流型的响应研究,2021.01-2022.12, 主持

  • 黄土与第四纪地质国家重点实验室开放基金课题(SKLLQG1842): 基于卫星遥感的海洋上层环境对台风响应机制研究及其在砗磲地球化学指标中的应用,2019.01-2020.12, 主持

  • 中国气象局气候变化专项(CCSF201726):“气候变化对长江中下游霾污染的贡献评估”,2017.01-2017.12, 主持

  • 中国气象局人才专项:“城市化对气象观测要素影响及其订正研究”,2017.01-2019.12,主持

  • 安徽省地方标准计划项目“气象探测环境代表性的综合遥感监测与评估指标”2016.01-2017.12,主持;

  • 淮河流域气象开放研究基金“夏季淮河流域降水的卫星光谱及云参数研究”2016.04-2017.12,主持;

  • 中国科学院大气成分与光学重点实验室开放课题基金(JJ1102):“中国东部地区气溶胶时空变化及其对降水的影响”,2012.01-2013.12,主持;

  •   大气科学和地球流体力学数值模拟国家重点实验室开放课题基金“GRAPES_OMLM模式 模拟台风Hagibis(2007)对海洋的影响”,2011.01-2012.12,主持;

  •   安徽省气象局硕博科研启动基金:“安徽省城市热岛效应对区域平均气温序列的影响研究”,2009.12-2010.12,主持;

  •   国家自然科学基金面上项目(41376017):“海洋中尺度涡的识别、合成与理论模型”,2014.01-2017.12, 第2参加人/共5人,骨干;

  •   国家自然科学基金青年项目:“陆面近地层湍流通量参数化方法研究”,2016.01-2018.12,第3参加人/共7人,骨干;

  •   国家自然科学基金面上项目(41675009):热带气旋边界层结构的精细化模拟研究,2017.01-2020.12, 第5参加人/共9人,骨干

  •   公益性行业(气象)科研专项“长江三角洲区域霾天气成因和预报技术研究”子课题(201206021-05):“安徽城市污染气溶胶理化特征及其与气象条件关系研究”2012.01-2014.12,第3参加人/共5人,骨干;

  •   安徽省自然科学基金:“城市霾天气下气溶胶特性研究-以合肥为例” ,2013.01-2015.12,第3参加人/共5人,骨干;

  •   安徽省2015年省级环保科研项目(合肥市大气能见度与相对湿度、PM10及PM2.5的关系)2015.06-2016.06,      骨干;

  •   华东区域协同项目“华东区域重污染天气预报预警和数值模式关键技术研究”2015.01-2016.12,骨干;

  •   卫星海洋环境动力学国家重点实验室开放研究基金课题(SOED1209):“台风对海洋中尺度涡的水平和垂向影响”,2012.01-2013.12,第4参加人/共4人,骨干;

  •   安徽省气象科研基金(KM201109Z):“ 地市遥感服务系统推广应用”,2011.01-2011.12,第6参加人/共6人,骨干;

  •   卫星海洋环境动力学国家重点实验室开放研究基金课题(SOED0902):“基于多观测平台研究西北太平洋海洋上层对台风的响应和反馈”,2009.01-2010.12,第2参加人/共4人,骨干;

  •   国家自然科学基金(40805007):“热带地区降水云与非降水云云属性差异的研究”,2008.12-2011.12,第3参加人/共5人,骨干;

  •   安徽省国际科技合作计划项目(07080703005)“基于遥感和模式技术的安徽气象观测参量订正及响应研究”,2007.01-2009.12,第5参加人/共16人,骨干;






研究方向

  • 从事卫星遥感及其在天气、气候与环境变化中的应用研究,,近年来尤其关注卫星遥感云降水,气溶胶-城市热岛-边界层相互作用,风廓线激光雷达,台风海洋相互作用,城市化与区域气候环境变化等方...

  • 团队成员

    团队名称:大气边界层探测与城市气候环境研究组
    团队介绍:当前城市气候环境问题的认识和应对需要高度的学科交叉大气物理、应用气象、气候变化、大气探测、天气学、大气环境等,研究目标契合我国城市群防灾减灾、应对气候变化和空气污染恶化的迫切需求