闭建荣,男,1984年生,教授级高工、博士生导师、理学博士,半干旱气候变化教育部重点实验室副主任、中国气象学会/中国环境科学学会/国际空气与废弃物管理学会(AWMA)会员,是2018年全国首批高校黄大年式教师团队成员。主要从事大气气溶胶综合特性昼夜变化的观测反演、半干旱草地碳-氮-水循环过程、沙尘-云-降水互馈作用及其气候环境效应研究。曾赴日本国立环境研究所和千叶大学环境遥感学院进行学术访问。已发表学术论文60余篇,被SCI论文总引3400余次,授权实用新型专利6件;以第一/通讯作者发表SCI论文15篇,出版专著1部(排名第二),已培养硕士研究生6名。先后荣获2018年甘肃省科技进步一等奖(3/12)、2018年高等学校科学研究优秀成果奖自然科学奖二等奖(5/6)、2022年高等教育(研究生)国家级教学成果二等奖(11/15)、2016年yh1122银河国际青年五四奖章等。主持承担国家自然科学基金面上项目、青年基金项目和国防科工局重大项目专题等10余项,担任RSE、ACP、JGR、AE、中国环境科学等多个SCI(E)期刊杂志的审稿人。 联系方式:办公室:城关校区观云楼2202室地址:甘肃省兰州市天水南路222号邮编:730000电话:13919065063邮箱:bijr@lzu.edu.cn个人主页:http://climate.lzu.edu.cn/bijr/
学习经历:
2011.9-2014.12,yh1122银河国际大气物理学与大气环境专业,获博士学位
2006.9-2008.12,yh1122银河国际气象学专业,获硕士学位
2002.9 -2006.6,yh1122银河国际大气科学专业,获学士学位
2013.6-7、2014.1,日本千叶大学环境遥感学院(CEReS),学术访问,研究方向:光栅光谱仪资料反演和气溶胶辐射强迫模拟
2011.1,日本千叶大学环境遥感学院(CEReS),短期学术访问,研究方向:天空辐射计观测与气溶胶关键参数反演
2010.10-12,日本国立环境研究所大气遥感中心(NIES),学术访问,研究方向:双偏振激光雷达的观测与数据反演
工作经历:
2022.12-至今,yh1122银河国际,教授级高级工程师
2017.5 -2022.11,yh1122银河国际,高级工程师
2008.7 -2017.4,yh1122银河国际,助理工程师、工程师
教学情况:
[1] 讲授《大气探测学》课程,本科生
[2] 讲授《大气气溶胶》、《现代大气探测方法和技术》课程,研究生
研究生培养:
在读硕士生:
2022级:大气物理与大气环境:朱迪
2023级:大气物理与大气环境:王茜婷
2024级:大气物理与大气环境:孙群阁,气象学:张巳尧
已毕业
张琳焓(2019级,气象学专业,去向:江苏省气象局)
左大鹏(2019级,大气物理学与大气环境专业,去向:河北省气象局)
李正鹏(2020级,气象学专业,去向:yh1122银河国际攻读博士学位)
张雪腾(2021级,气象学专业,去向:西北农林科技大学攻读博士学位)
李博文(2021级,大气物理学与大气环境专业,去向:甘肃省气象局)
马俊洋(2021级,气象学专业,去向:甘肃省气象局)
论文专著:
[1] Bi, J.*, Li, B., Ma, J., Wang, X., Meng, Z., Shi, J., and Li, Z., 2024: Evaluation of nocturnal aerosol optical depth determining from a lunar photometry in Lanzhou of northwest China, J. Geophys. Res. Atmos., 129(12), e2023JD040387, doi:10.1029/2023JD040387.
[2] Ma, J., Bi, J.*, Li, B., Zhu, D., Wang, X., Meng, Z., and Shi, J., 2024: Aerosol vertical structure and optical properties during two dust and haze episodes in a typical valley basin city, Lanzhou of northwest China, Remote Sensing, 16, 929, doi:10.3390/rs16050929.
[3] Zhang, X., Bi, J.*, Zhu, D., and Meng Z., 2024: Seasonal variation of net ecosystem carbon exchange and GPP over a Loess Plateau semi-arid grassland of northwest China, Scientific Reports, 14(2916), doi:10.1038/s41598-024-52559-6.
[4] Zhu, D., Bi, J.*, Wang, X., Meng, Z., Shi, J., Li, Ou, 2024: Diurnal asymmetry of surface albedo in a semi-arid grassland over the China's Loess Plateau, Atmospheric Science Letters, e1271, doi:10.1002/asl.1271.
[5] Li, Z., Bi, J.*, Hu, Z., Ma, J., and Li, B., 2023: Regional transportation and influence of atmospheric aerosols triggered by Tonga volcanic eruption, Environmental Pollution, 325(121429), doi:10.1016/j.envpol.2023.121429.
[6] 黄建平,闭建荣,王国印,等. 干旱气候系统的观测原理 [M]. 北京:科学出版社,2022年1月,ISBN 978-7-03-071156-4.(本人负责两章内容的撰写,共7.8万字)
[7] Bi, J.*, Li, Z., Zuo, D., Yang, F., Li, B., Ma, J., Huang, Z., and He, Q., 2022: Dust aerosol vertical profiles in the hinterland of Taklimakan Desert during summer 2019, Frontiers in Environmental Science, 10(851915), doi:10.3389/fenvs.2022.851915.
[8] Bi, J.*, Zuo, D., Yang, F., Zhang, L., Huang, Z., and Wang, T., 2022: Surface radiation characteristics and downward cloud radiative forcing in southern Xinjiang during summer 2019, Meteorol. Atmos. Phys., 134(11), doi:10.1007/s00703-021-00847-5.
[9] Bi, J., Huang, J.*, Shi, J., Hu, Z., Zhou, T., Zhang, G., Huang, Z., Wang, X., and Jin, H., 2017: Measurement of scattering and absorption properties of dust aerosol in a Gobi farmland region of northwestern China—a potential anthropogenic influence, Atmos. Chem. Phys., 17, 7775-7792, doi:10.5194/acp-17-7775-2017.
[10] Bi, J., Huang, J.*, Holben, B., and Zhang, G., 2016: Comparison of key absorption and optical properties between pure and transported anthropogenic dust over East and Central Asia, Atmos. Chem. Phys., 16, 15501-15516, doi:10.5194/acp-16-15501-2016.
[11] Bi, J.*, J. Shi, Y. Xie, Y. Liu, T. Takamura, and P. Khatri, 2014: Dust aerosol characteristics and shortwave radiative impact at a Gobi Desert of Northwest China during the spring of 2012. J. Meteo. Soc. Jp, 92A, 33-56, DOI:10.2151/jmsj.2014-A03.
[12] Bi, J., J. Huang*, Z. Hu, B. N. Holben, and Z. Guo, 2014: Investigating the aerosol optical and radiative characteristics of heavy haze episodes in Beijing during January of 2013, J. Geophys. Res. Atmos., 119(16), 9884-9900, doi:10.1002/2014JD021757.
[13] Bi, J., J. Huang*, Q. Fu, J. Ge, J. Shi, T. Zhou, and W. Zhang, 2013: Field measurement of clear-sky solar irradiance in Badain Jaran Desert of Northwestern China, J. Quant. Spectroc. Radiat. Transf., 122, 194-207, doi:10.1016/j.jqsrt.2012.07.025.
[14] Bi, J., J. Huang*, Q. Fu, X. Wang, J. Shi, W. Zhang, Z. Huang, and B. Zhang, 2011: Toward characterization of the aerosol optical properties over Loess Plateau of Northwestern China, J. Quant. Spectroc. Radiat. Transf., 112(2), 346-360,doi:10.1016/j.jqsrt.2010.09.006.
[15] Huang, Z., Li, M., Bi, J.*, Shen, X., Zhang, S., and Liu, Q., 2023: Small lidar ratio of dust aerosol observed by Raman-polarization lidar near desert sources, Optics Express, 31(10), 16909, doi:10.1364/OE.484501.
[16] Tang, H.*, Haugvaldstad, O.W., Stordal, F., Bi, J., Groot Zwaaftink, C.D., Grythe, H., Wang, B., Rao, Z., Zhang, Z., Berntsen, T., and Kaakinen, A., 2023: Modelling the 2021 East Asia super dust storm using FLEXPART and FLEXDUST and its comparison with reanalyses and observations, Front. Environ. Sci., 10:1013875, doi:10.3389/fenvs.2022.1013875.
[17] Tan, Z., Liu, Y.* Zhu, Q., and Bi, J., 2022: Effect of dust aerosols on the heat exchange over the Taklimakan desert, Atmospheric Environment, 276, 119058, oi:10.1016/j.atmosenv.2022.119058.
[18] Zhang, L., L. Yang, J. Bi, Y. Liu, A. Toriba, K. Hayakawa, S. Nagao, and N. Tang*, 2021: Characteristics and unique sources of polycyclic aromatic hydrocarbons and nitro-polycyclic aromatic hydrocarbons in PM2.5 at a highland background site in northwestern China, Environmental Pollution, 274, 116527, doi:10.1016/j.envpol.2021.116527.
[19] Zhang, L., X. Zhang, W. Xing, Q. Zhou, L. Yang, R. Nakatsubo, Y. Wei, J. Bi, M. Shima, A. Toriba, K. Hayakawa, and N. Tang*, 2020: Natural aeolian dust particles have no substantial effect on atmospheric polycyclic aromatic hydrocarbons (PAHs): A laboratory study based on naphthalene, Environmental Pollution, 263, 11454, doi:10.1016/j.envpol.2020.114454.
[20] Hu, Z., Huang, J.*, Zhao, C., Bi, J., Jin, Q., Qian, Y., Leung, L. Ruby, Feng, T., Chen, S., Ma, J., 2019: Modeling the contributions of Northern Hemisphere dust sources to dust outflow from East Asia, Atmospheric Environment, 202, 234–243, doi:10.1016/j.atmosenv.2019.01.022.
[21] Hu, Z., Huang, J.*, Zhao, C., Ma, Y., Jin, Q., Qian, Y., Leung, L. Ruby, Bi, J.,, and Ma, J., 2019: Trans-Pacific transport and evolution of aerosols: spatiotemporal characteristics and source contributions, Atmos. Chem. Phys., 19, 12709–12730, doi:10.5194/acp-19-12709-2019.
[22] Ge, J. *, J. Huang, J. Su, J. Bi, and Q. Fu, 2011: Shortwave radiative closure experiment and direct forcing of dust aerosol over northwestern China, Geophys. Res. Lett., 38, L24803, doi:10.1029/2011GL049571.
[23] Xie, J., J. Huang*, G. Wang, K. Higuchi, J. Bi, Y. Sun, H. Yu, and T. Wang, 2010: The effects of clouds and aerosols on net ecosystem CO2 exchange over semi-arid Loess Plateau of Northwest China, Atmos. Chem. Phys., 10, 8205-8218.
[24] Huang, Z., J. Huang*, J. Bi, G. Wang, W. Wang, Q. Fu, Z. Li, S.-C. Tsay, and J. Shi, 2010: Dust aerosol vertical structure measurements using three MPL lidars during 2008 China-U.S. joint dust field experiment, J. Geophys. Res., 115, D00K15, doi:10.1029/2009JD013273.
[25] Huang, J.*, W. Zhang, J. Zuo, J. Bi, J. Shi, X. Wang, Z. Chang, Z. Huang, S. Yang, B. Zhang, G. Wang, G. Feng, J. Yuan, L. Zhang, H. Zuo, S. Wang, C. Fu and J. Chou, 2008: An overview of the Semi-Arid Climate and Environment Research Observatory over the Loess Plateau, Advances in Atmospheric Sciences, 25(6), 906-921.
[26] 张雪腾,闭建荣*,张琳焓. LI-8100A型土壤碳通量仪的数据质量控制分析[J]. yh1122银河国际学报(自然科学版),2023,59(4): 546-554,doi:10.13885/j.issn.0455-2059.2023.04.016.
[27] 张琳焓,闭建荣*,张雪腾,等.黄土高原半干旱区2020年生长季草地土壤呼吸特征及影响因素[J].干旱气象,2022,40(3): 354-363,doi:10.11755/j.issn.1006-7639(2022)-03-0354.
[28] 李正鹏,闭建荣*,左大鹏,等. 2019年夏季西北干旱区塔克拉玛干沙漠腹地云的宏观参量探测[J]. 干旱气象,2022,40(4): 567-576,doi:10.11755/j.issn.1006-7639(2022)-04-0567.
[29] 闭建荣*,黄建平,高中明,史晋森,马越界,张武. 民勤地区紫外辐射的观测与模拟研究[J]. 高原气象,2014,33(2):413-422.
[30] 高中明*,闭建荣,黄建平. 基于AERONET和SKYNET网观测的中国北方地区气溶胶光学特征分析[J]. 高原气象,2013,32(5):1293-1307.
[31] 胡志远,闭建荣*,黄建平,史晋森,刘玉芝. 一种利用天空辐射计反演大气总水汽量的算法研究[J]. 高原气象,2014,33(1):232-240.
[32] 闭建荣,黄建平,刘玉芝,张武*,史晋森,黄忠伟. 黄土高原半干旱区地表辐射特征. yh1122银河国际学报(自然科学版),2008,44(3):33-38.
荣誉奖励:
[1] 国家自然科学基金面上项目“结合主被动遥感方法反演西北地区夜间气溶胶光学厚度并估算地面颗粒物浓度”(编号:42075126,2021.01-2024.12,主持)
[2] 国防科工局XXX科研专项项目子课题专题“xxx典型区域大气颗粒物粒径分布和质量浓度变化规律” (编号:KY22283,2023.01-2025.12,主持)
[3] 国家自然科学基金青年基金项目“利用高光谱分光辐射仪反演西北地区气溶胶单次散射反照率及辐射闭合研究”(编号:41305025,2014.01-2016.12,主持,完成)
[4] 企事业单位委托项目“多波段太阳光度计对比实验分析技术服务” (2023.01-2023.12,主持,完成)
[5] 企事业单位委托项目“激光雷达气溶胶产品可靠性地基对比验证技术服务” (2022.01-2022.12,主持,完成)
[6] 企事业单位委托技术项目“大气含尘量及粒径分布统计”(2018.12-2019.12,主持,完成)
[7] 企事业单位委托项目“中国气象局气象探测中心技术服务”(2019.05-2019.12,主持,完成)
[8] 国家重大科学研究计划项目“全球典型干旱半干旱地区气候变化及其影响”(编号:2012CB955302,2012.01-2016.12,参与,完成)
[9] 中央高校基本科研业务费专项资金面上项目“结合主被动遥感方法确定西北地区典型气溶胶激光雷达比关键参数”(编号:lzujbky-2015-4,2015.01-12,主持,完成)
[10] 中国科学院大气成分与光学重点实验室开放课题基金项目“中国西北和东部两个典型地区气溶胶光学及辐射特性的对比研究”(编号:2012JJ02,2012.01-2013.12,主持,完成)
发明专利:
[1] 发明人:黄建平, 史晋森, 闭建荣, 邓俭, 黄忠伟, 张北斗, 周天名称:地面气溶胶移动集成观测系统申请号:ZL201310613670.6.
[2] 发明人:史晋森, 黄建平, 张北斗, 邓俭, 黄忠伟, 闭建荣, 周天名称:地面气溶胶移动观测集装箱申请号:ZL201310612017.8.
实用新型专利:
[1] 发明人:闭建荣,黄建平,史晋森,黄忠伟,张北斗,张武 名称:气候灾害移动监测系统专利号:ZL201520469325.4
[2] 发明人:闭建荣,张蓓,黄建平,王国印名称:一种便携式气象数据采集设备及系统专利号:ZL201520527646.5
[3] 发明人:史晋森,闭建荣,张北斗,黄建平,黄忠伟;葛觐铭名称:积分浊度仪串联观测系统专利号:ZL201320069825.X.
参加学术会议:
[1] Bi, J., J. Huang, Huang Z., Sabur F. Abdullaev, X. Wang, B. Li, J. Ma, Dilovar Nozirov, and T. Wang, April 15, 2024. Monitoring of dust aerosol properties in a source region of southern Tajikistan-Ayvaj station. The Second Central Asian Dust Conference (CADUC-2), Karakalpak State University, Uzbekistan, April 15-22, 2024. (Oral)
[2] Bi, J., B. Li, J. Ma, Z. Huang, and J. Huang, June 29, 2023. Nocturnal aerosol optical parameters in Lanzhou obtained from new sun-sky-lunar photometer. The 7th International SKYNET Workshop 2023, Chiba University, Japan, June 29, 2023. (Oral, online)
[3] Bi, J., Z. Li, D. Zuo, F. Yang, Z. Huang, and J. Huang, November 11, 2021. Dust aerosol vertical profile in the hinterland of Taklimakan Desert. The 6th International SKYNET Workshop 2021, Chiba University, Japan, November 10-12, 2021. (Oral, online)
[4] Bi, J., J. Huang, and Brent N. Holben, November 30, 2020. Study of absorption and optical properties between pure and transported anthropogenic dust over East and Central Asia. The Joint International Symposium on the Integrated Environmental Studies 2020, Kanazawa University, Kanazawa, Japan, November 30-December 3, 2020. (Oral, online)
[5] Bi, J., J. Huang, and Brent N. Holben, August 9, 2016. Comparison of absorption between pure and transported anthropogenic dust over East and Central Asia. The Third JSPS Seminar, Puma Imperial Hotel, Ulaanbaatar, Mongolia, August 8-12, 2016. (Oral)
[6] Bi, J., J. Huang, L. Zhang, W. Zhang, and Brent N. Holben, June 25, 2015. Aerosol microphysical and optical features in urban and rural Lanzhou during heating period-implications for local emissions. The 9th Asian Aerosol Conference (AAC2015), Kanazawa Tokyu Hotel, Kanazawa, Japan, June 24-27, 2015. (Oral)
[7] Bi, J., J. Huang, T. Takamura, G. Shi, P. Khatri, B. Chen, H. Che, and SACOL team, September 10, 2014. SKYNET activities in Lanzhou and future plan over Northwest China. The 2014 International Workshop on SKYNET and Asian Lidar Network, Hefei, China, September 10-12, 2014. (Oral)
[8] Bi, J., J. Huang, T. Takamura, P. Khatri, and SACOL team, 2014. Field experiment of dust aerosol and its shortwave radiative effect over northwest China during the spring of 2012. Monsoon Asia Integrated Regional Study (MAIRS) Open Science Conference—Future Earth in Asia from April 7-10, Beijing, China. (Oral)
[9] Bi, J., J. Huang, T. Takamura, P. Khatri, and SACOL team, Dust aerosol features and shortwave radiative impact at Dunhuang of northwest China during the spring of 2012. 8th Bioaerosol Symposium from Jan. 21-22, Osaka, Japan. (Oral)
[10] Bi, J., J. Huang, T. Takamura, P. Khatri, and SACOL team, 5th July, 2013. Investigate the Single Scattering Albedo of dust aerosols and their impact on climate in Northwest China. 19th CEReS International Symposium/SKYNET Workshop from Jul. 4-5, 2013, Chiba, Japan. (Oral)
[11] Bi, J., J. Huang, and J. Shi, et al., 17th Aug., 2012. Ground-Based Observation and Field Campaign of Dust Aerosol and Their Regional Climate Effect over Northwest China. 9th Asian Dust and Air Pollution of AOGS-AGU (WPGM) Joint Assembly in Singapore from August 13 to 17 at Resorts World Convention Centre, 2012. (Oral)
[12] Bi, J., J. Huang, T. Takemura, and SACOL Team, 5th Oct., 2011. Optical properties and radiative forcing of aerosol over Loess Plateau region in Northwestern China-Intercomparison between observations and AeroCom simulations. 10th AeroCom Workshop from October 3-6, 2011, Kyushu, Japan. (Oral)
[13] Bi, J., J. Huang, Y. Liu, T. Takamura, and SACOL Team, 21th June, 2011. Aerosol Characteristics and Shortwave radiative effects over a China-Loess Plateau Region during the spring of 2009. 2th of the International Symposium on Atmospheric Light Scattering and Remote Sensing 2011 (ISALSaRS’11) from June 20-22, 2011, Lanzhou, China. (Oral)
[14] Bi, J., J. Huang, and W. Zhang, et al., Nov. 14, 2008. 2008 Dust Field Experiments over Northwest China. 15th CEReS International Symposium from Nov. 13-14, 2008, Chiba, Japan. (Poster)
国内会议:
[1] 闭建荣,李博文,马俊洋,黄忠伟,黄建平,2023年5月11日。新型太阳/月亮光度计反演兰州地区夜间气溶胶光学厚度。第三届大气环境遥感与协同分析学术会议-气溶胶遥感与应用专题会场,兰州,中国,2023年5月11日-12日。(口头报告)
[2] 闭建荣,李正鹏,杨帆,左大鹏,王天河,黄忠伟,黄建平,2021年6月28日。塔克拉玛干沙漠腹地沙尘气溶胶结构的探测分析。第五届全国定量遥感学术论坛-大气遥感分会场,武汉,中国,2021年6月26日-28日。(口头报告)
[3] 闭建荣,车慧正,陈洪滨,李正强,2014年9月5日。2013年1月北京严重雾霾污染过程中气溶胶光学与辐射特征分析。中国科协第280次青年科学家论坛—雾霾成因与PM2.5污染治理,西安,中国,2014年9月4日-6日。(口头报告)
[4] 闭建荣,黄建平,黄忠伟,张武,史晋森。yh1122银河国际气候灾害移动监测系统,第28届中国气象学会年会,厦门,2011年10月2-4日。(海报)
[5] 闭建荣,黄建平,张武。陇中黄土高原地表辐射平衡变化规律,中国气象学会2007年年会气候变化分会场论文集,广州,2007年11月23-25日。(口头报告)