张芳 - 哈尔滨工业大学（深圳） - 土木与环境工程学院

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张芳副教授博士生导师收藏完善纠错
哈尔滨工业大学（深圳）土木与环境工程学院
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个人简介

哈尔滨工业大学（深圳）土木与环境工程学院副教授、博士生导师。入选深圳市“鹏城孔雀计划”特聘岗位。主要通过外场观测、室内烟雾箱实验和模型模拟等，开展与区域环境和气候变化相关的研究，包括大气气溶胶吸湿增长及云活化特性（云凝结核），气溶胶形成老化，温室气体及其他痕量污染气体变化趋向、源汇及人类活动影响等。共发表学术期刊论文近90篇，主要发表在Proc. Natl. Acad. Sci. USA, Geophysical Research Letters, Atmospheric Chemistry and Physics, Journal of Geophysical Research-Atmosphere等期刊。所有发表论文SCI总引近4000次。作为主要起草人出版国家标准3项，气象行业标准2项。相关成果入选ESI高被引论文，被发表在Science, Nature Communications, PNAS等期刊论文多次正面引用，并被《科学》新闻（Science news）、美国化学会（Chemical & Engineering News, C&EN）及《中国科学报》等专题报道。先后主持或参加国家自然科学基金青年项目、面上项目、重点项目以及科技部全球气候变化重大专项子课题项目近20项。担任全国气候与气候变化标准化技术委员会大气成分观测预报预警服务分技术委员会委员。担任20余个期刊审稿人。工作经历 2021.9-至今, 哈尔滨工业大学（深圳）土木与环境工程学院，副教授 2011.08-2021.08，北京师范大学, 全球变化与地球系统科学研究院，讲师，副教授 2018.4-2018.5，美国德州农工大学，大气科学系，访问学者 2016.6-2017.6, 美国德州农工大学，大气科学系，访问学者 2006.8-2008.7, 中国气象科学研究院, 科研助理学习经历 2008.8–2011.7, 中国气象科学研究院, 气象学, 博士 2003.8–2006.7, 中科院广州地化所, 环境科学, 硕士 1999.8–2003.7, 陕西师范大学, 化学, 学士科研项目国家自然科学基金委员会，面上项目，复合污染区域成霾过程对CCN活化特性及其数浓度的影响研究，2020-01至2023-12，63万元（直接经费），在研，主持国家重点研发计划，超大城市边界层气溶胶垂直结构观测及试验研究，2018-01至2022-12，758万元，在研，骨干国家自然科学基金委员会，面上项目，华北区域大气细粒子混合态及老化对其核化效率的影响研究，2017-01至2020-12，68万元（直接经费），已结题，主持国家自然科学基金委员会，重大基础研究项目，“气溶胶与边界层相互作用及其对近地面大气污染的影响研究”， 2016-01至2019-12，260万元，已结题，骨干北京师范大学协同创新中心青年人才项目，基于外场气溶胶理化特性观测和实验室黑碳气溶胶老化实验的吸湿性参数及CCN闭合研究，2017-09至2018-08，20万元，已结题，主持中华人民共和国科技部，国家重大科学研究计划，云、气溶胶、降水过程及其相互作用机理的分析研究，1195万元，2013-01至2017-12，已结题，骨干中华人民共和国科技部，国家重大科学研究计划，气溶胶-云滴核化过程的综合观测研究，620万元，2013-01至2017-12，已结题，骨干国家自然科学基金委员会，面上课题，41575143，基于卫星和地面观测的中国东部地区气溶胶气候效应评估研究，80万元，2016-01至2019-12，已结题，参加国家自然科学基金委员会青年基金，基于多因子联合法的大气CO2源汇信息提取及其长期变化趋势分析-以青海瓦里关14年大气CO2观测资料为例，2014-01至2016-12，25万元，已结题，主持国家自然科学基金委员会，NSFC-TAMU合作交流项目，中国典型地区大气气溶胶吸湿性及CCN活化特性观测，2014-10至2015-09，5万元，已结题，主持中央高校自主科研基金项目，2013YB35，利用香河地面气溶胶数谱和化学组分资料的云凝结核反演研究， 2013-01至2015-12，10万元，已结题，主持国家高技术研究发展计划（863计划）课题，大气参数反演及地基验证，2012-01至2015-12，367万元，已结题，骨干国家自然科学基金委员会，面上项目，太湖地区云光学厚度和云滴有效半径的地基遥感研，80万元，2012-01至2015-12，已结题，参加

研究领域

大气气溶胶形成转化（老化）及其理化特性大气气溶胶吸湿增长和云活化特性（云凝结核）及其环境气候效应非二氧化碳温室效应物质（如黑碳）及其环境气候影响主要温室气体和其他痕量气体（O3、VOCs）及其人类活动影响

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Ren J., Lu Chen, Tianyi Fan, Jieyao Liu, Sihui Jiang, Zhang Fang*. The NPF effect on CCN number concentrations: a review and re-evaluation of observations from 35 sites worldwide, Geophysical Research Letters, 48, e2021GL095190. https://doi. org/10.1029/2021GL095190, 2021 Jiang S., Fang Zhang*, Jingye Ren, Lu Chen, Xing Yan, Jieyao Liu, Yele Sun, and Zhanqing Li. Evaluation of the contribution of new particle formation to cloud droplet number concentration in the urban atmosphere, Atmos. Chem. Phys., 21, 14293–14308, https://doi.org/10.5194/acp-21-14293-2021，2021 Jieyao Liu, Fang Zhang*, Weiqi Xu, Lu Chen, Jingye Ren, Sihui Jiang, Yele Sun, Zhanqing Li, A large impact of cooking organic aerosol (COA) on particle hygroscopicity and CCN activity in urban atmosphere, Journal of Geophysical Research: Atmospheres, 2021, 126, e2020JD033628,10.1029/2020JD033628 Liu Jieyao; Zhang Fang*; Xu Weiqi; Sun Yele*; Chen Lu; Li Shangze; Ren Jingye; Hu Bo; Wu Hao; Zhang Renyi*, Hygroscopicity of organic aerosols linked to formation mechanisms, Geophysical Research Letters, 2021, 48, e2020GL091683, DOI: 10.1029/2020GL091683 Yang, X.; Qian, W.; Gong, D.; Zhao, C.; Chan, P.-w.; Zhou, W.; Huang, Y.; Zhang, F.; Li, Z. Vertical Characteristics of Pollution Transport in Hong Kong and Beijing, China. Atmosphere 2021, 12, 457. https://doi.org/10.3390/ atmos12040457 Yixin Li, Yuemeng Ji,* Jiayun Zhao, Yuan Wang, Qiuju Shi, Jianfei Peng, Yuying Wang, Chunyu Wang, Fang Zhang, Yuxuan Wang, John H. Seinfeld, and Renyi Zhang*, Unexpected Oligomerization of Small α？Dicarbonyls for Secondary Organic Aerosol and Brown Carbon Formation,Environmental Science & Technology,Publication Date:March 15, 2021, https://doi.org/10.1021/acs.est.0c08066 Jianfei Peng, Min Hu, Dongjie Shang, Zhijun Wu, Zhuofei Du, Tianyi Tan, Yanan Wang, Fang Zhang, and Renyi Zhang，Explosive Secondary Aerosol Formation during Severe Haze in the North China Plain，Environmental Science & Technology 2021 55 (4), 2189-2207，DOI: 10.1021/acs.est.0c07204 Li Shangze; Fang Zhang*; X. Jin; Y. Sun; H. Wu; L. Xia; C. Xie; L. Chen; J. Liu; T.Wu; S. Jiang; M. C. Cribb; Z. Li, Characterizing the ratio of nitrate to sulfate in ambient fine particles of urban Beijing during 2018-2019, Atmospheric Environment , 2020, 237, 117662. https://doi.org/10.1016/j.atmosenv.2020.117662 Chen L., F. Zhang* P. Yan, X. Wang, L. Sun, Y. Li, X. Zhang, Y. Sun, and Z. Li, The large proportion and absorption enhancement of black carbon (BC)-containing aerosols in the urban atmosphere, Environmental Pollution, 2020, 263, 114507, doi10.1016/j.envpol.2020.114507 Guo M., S. Fang*, S. Liu, M. Liang, H. Wu, L.Yang, Z. Li, P. Liu, F. Zhang*. Comparison of atmospheric CO2, CH4 and CO at two stations in the Tibet Plateau of China, Earth and Space Science, 2020, 7 (5), DOI: 10.1029/2019EA001051. Zhang, F.; Wang, Y.; Peng, J.; Chen, L.; Sun, Y.; Duan, L.; Ge, X.; Li, Y.; Zhao, J.; Liu, C.; Zhang, X.; Zhang, G.; Pan, Y.; Wang, Y.; Zhang, A. L.; Ji, Y.; Wang, G.; Hu, M.; Molina, M. J.; Zhang, R. An unexpected catalyst dominates formation and radiative forcing of regional haze. PNAS 2020, 117(8), 3960-3966, https://doi.org/10.1073/pnas.1919343117. Fan, X., Liu, J., Zhang, F*., Chen, L., Collins, D., Xu, W., Jin, X., Ren, J., Wang, Y., Wu, H., Li, S., Sun, Y., and Li, Z.: Contrasting size-resolved hygroscopicity of fine particles derived by HTDMA and HR-ToF-AMS measurements between summer and winter in Beijing: the impacts of aerosol aging and local emissions, Atmos. Chem. Phys., 20, 915–929, https://doi.org/10.5194/acp-20-915-2020, 2020. Benish, S. E., He, H., Ren, X., Roberts, S. J., Salawitch, R. J., Li, Z., Wang, F., Wang, Y., Zhang, F., Shao, M., Lu, S., and Dickerson, R. R.: Measurement report: Aircraft observations of ozone, nitrogen oxides, and volatile organic compounds over Hebei Province, China, Atmos. Chem. Phys., 20, 14523–14545, https://doi.org/10.5194/acp-20-14523-2020, 2020. Ji Yuemeng, Shi Qiuju, Li Yixin, An Taicheng, Zheng Jun, Peng Jianfei, Gao Yanpeng, Chen Jiangyao, Li Guiying, Wang Yuan, Zhang Fang, Zhang Annie L., Zhao Jiayun, Molina Mario J., Zhang Renyi. Carbenium ion-mediated oligomerization of methylglyoxal for secondary organic aerosol formation. P. Natl. Acad. Sci. USA, 2020, 6, 201912235; DOI: 10.1073/pnas.1912235117. Wu, H., Li, Z., Li, H., Luo, K., Wang, Y., Yan, P., Hu, F., Zhang, F., Sun, Y., Shang, D. and Liang, C., 2020. The impact of the atmospheric turbulence development tendency on new particle formation: a common finding on three continents. National Science Review. 10.1093/nsr/nwaa157, 2020(7). Zhang G, L. Xia, K. Zang, W. Xu, F. Zhang, L. Liang, B. Yao, W. Lin, Y. Mu. The abundance and inter-relationship of atmospheric peroxyacetyl nitrate (PAN), peroxypropionyl nitrate (PPN), O3, and NOy during the wintertime in Beijing, China, Science of The Total Environment, 2020, 718, 137388 Mai, B. R., X. J. Deng, F. Zhang, H. He, T. Luan, F. Li, and X. Liu, 2020: Background characteristics ofatmospheric CO2 and the potential source regions in the Pearl River Delta region of China. Adv. Atmos. Sci., 37(6),https://doi.org/10.1007/s00376-020-9238-z. (in press) Guo S., M. Hu, J. Peng, Z. Wu, M. L. Zamora, D. Shang, Z. Du, J. Zheng, X.Fang, R. Tang, Y. Wu, L. Zeng, S. Shuai, W. Zhang, Y. Wang, Y. Ji, Y. Li, A. L. Zhang, W. Wang, F. Zhang, J. Zhao, X.Gong, C. Wang, M. J. Molina, and R. Zhang, Remarkable nucleation and growth of ultrafine particles from vehicular exhaust, PNAS, 2020, doi:10.1073/pnas.1916366117 Jin, X., Wang, Y., Li, Z., Zhang, F., Xu, W., Sun, Y., Fan, X., Chen, G., Wu, H., Ren, J., Wang, Q., and Cribb, M.: Significant contribution of organics to aerosol liquid water content in winter in Beijing, China, Atmos. Chem. Phys., 20, 901–914, https://doi.org/10.5194/acp-20-901-2020, 2020. Zhang, F.*, Ren, J., Fan, T., Chen, L., Xu, W., Sun, Y., et al. (2019). Signi？cantly enhanced aerosol CCN activity and number concentrations by nucleation‐initiated haze events: A case study in urban Beijing. Journal of Geophysical Research: Atmospheres, 124, 14,102–14,113. https://doi.org/10.1029/2019JD031457. Yan, X., Li, Z.*, Luo, N., Shi, W., Zhao, W., Yang, X., Liang, C., Zhang, F. & Cribb, M. (2019). An improved algorithm for retrieving the fine-mode fraction of aerosol optical thickness. Part 2: Application and validation in Asia. Remote Sensing of Environment, 222, 90-103. Y. Wang, Z. Li, R. Zhang, X. Jin, W. Xu, X. Fan, H. Wu, F. Zhang, Y. Sun, Q. Wang, M. Cribb, D. Hu, 2019, Distinct Ultrafine‐and Accumulation‐Mode Particle Properties in Clean and Polluted Urban Environments. Geophysical Research Letters, 46, 10,918–10,925.https://doi.org/10.1029/2019GL084047 Z. Li,Y. Wang,J. Guo, M.C. Cribb, X.Dong, J. Fan, D. Gong, J. Huang, M. Jiang, Y. Jiang, S.‐S. Lee, H. Li, J. Li, J. Liu, Y. Qian, D. Rosenfeld, S. Shan, Y. Sun, H. Wang, J. Xin, X. Yan, X. Yang, X. Yang, C. Zhao, F. Zhang, Y. Zheng, East Asian Study of Tropospheric Aerosols and their Impact on RegionalClouds, Precipitation, and Climate (EAST‐AIRCPC), Journal of Geophysical Research: Atmospheres, 2019,doi:10.1029/2019JD030758. Ren, J., Zhang, Fang*., Wang, Y., Collins, D., Fan, X., Jin, X., Xu, W., Sun, Y., Cribb, M., and Li, Z.: Using different assumptions of aerosol mixing state and chemical composition to predict CCN concentrations based on field measurements in urban Beijing, Atmos. Chem. Phys., 2018，18, 6907-6921, https://doi.org/10.5194/acp-18-6907-2018. Wang GH, F. Zhang, J. Peng et al., 2018. Particle acidity and sulfate production during severe haze events in China cannot be reliably inferred by assuming a mixture of inorganic salts Atmos. Chem. Phys., 18, 10123-10132, 2018. https://doi.org/10.5194/acp-18-10123-2018 Wang, Y., Z. Li, Y. Zhang, W. Du, F. Zhang, H. Tan, H. Xu, T. Fan, X. Jin, X. Fan, Z. Dong, Q. Wang, and Y. Sun, 2018: Characterization of aerosol hygroscopicity, mixing state, and CCN activity at a suburban site in the central North China Plain, Atmos. Chem. Phys., 18, 11,739-11,752, doi:10.5194/acp-18-11739-2018. Zhang, Y., Du, W., Wang, Y., Wang, Q., Wang, H., Zheng, H., Zhang, F., Shi, H., Bian, Y., Han, Y., Fu, P., Canonaco, F., Prév？t, A. S. H., Zhu, T., Wang, P., Li, Z., and Sun, Y.: Aerosol chemistry and particle growth events at an urban downwind site in North China Plain, Atmos. Chem. Phys., 18, 14637-14651, https://doi.org/10.5194/acp-18-14637-2018, 2018. Min Lv, Zhien Wang, Zhanqing Li, Tao Luo, Richard Ferrare, Dong Liu, Decheng Wu, Jietai Mao, Bingcheng Wan, Fang Zhang, and Yuying Wang (2018). Retrieval of cloud condensation nuclei number concentration pro？les from lidar extinction and backscatter data. Journal of Geophysical Research: Atmospheres, 123,11, 6082-6098, https://doi.org/ 10.1029/2017JD028102 Fan, T., Liu, X., Ma, P.-L., Zhang, Q., Li, Z., Jiang, Y., Zhang, F., Zhao, C., Yang, X., Wu, F., and Wang, Y.: Emission or atmospheric processes? An attempt to attribute the source of large bias of aerosols in eastern China simulated by global climate models, Atmos. Chem. Phys., 18, 1395-1417, https://doi.org/10.5194/acp-18-1395-2018, 2018 Fan T., C. Zhao, X. Dong, X. Liu, F. Zhang, X.Yang, C.Shi, Quantify contribution of aerosol errors to cloud fraction biases in CMIP5 AMIP simulations, Intl. J. of Climate, 2018, 38,7, 3140-3156, DIO：10.1002/joc.5490 L. Liu, P. Tans, L. Xia, L. Zhou and F. Zhang, Analysis of patterns in the concentrations of atmospheric greenhouse gases measured in two typical city clusters in China, Atmospheric Environment, DOI: 10.1016/j.atmosenv.2017.11.023，2018 (Jan.), 173, 343-354 C. Zhao, Y. Li, F. Zhang, et al. Growth Rates of Fine Aerosol Particles at a Site near Beijing in June 2013. Adv. Atmos. Sci., 10.1007/s00376-017-7069-3, 2017/2018，2018，35（2）, 209-217 Zhang, F., Wang, Y., Peng, J., Ren, J., Collins, D., Zhang, R., ... & Li, Z. (2017). Uncertainty in predicting CCN activity of aged and primary aerosols. Journal of Geophysical Research: Atmospheres. 122(21), 11,723–11,736, 10.1002/2017JD027058 Wang Y., Zhang F*., Li Z., Tan H., Xu H., Ren J., Zhao J., Du W. and Sun Y.: Enhanced hydrophobicity and volatility of submicron aerosols under severe emission control conditions in Beijing, Atmos. Chem. Phys., 17, 5239-5251, 10.5194/acp-17-5239-2017, 2017. Li Y., Zhang F*., Li Z., Sun L., Wang Z., Li P., Sun Y., Ren J., Wang Y. and Cribb M.: Influences of aerosol physiochemical properties and new particle formation on CCN activity from observation at a suburban site of China, Atmos. Res., 188, 80-89, 2017. Y. Ji, J. Zhao, H. Terazono, K. Misawa, N. P. Levitt, Y. Li, Y. Lin, J. Peng, Y. Wang, L. Duan, B. Pan, F. Zhang, X. Feng, T. An, W. Marrero-Ortiz, J. Secrest, A. L. Zhang, K. Shibuya, M. J. Molina, and R. Zhang, Reassessing the atmospheric oxidation mechanism of toluene, Proc Natl Acad Sci USA, 2017, 114，31:8169–8174. https://doi.org/10.1073/pnas.1705463114 Du, W., Zhao, J., Wang, Y., Zhang, Y., Wang, Q., Xu, W., Chen, C., Han, T., Zhang, F., Li, Z., Fu, P., Li, J., Wang, Z., and Sun, Y.: Simultaneous measurements of particle number size distributions at ground level and 260？m on a meteorological tower in urban Beijing, China, Atmos. Chem. Phys., 17, 6797-6811, https://doi.org/10.5194/acp-17-6797-2017, 2017. F. Zhang，Z. Li，Y. Li, Y. Sun, et al., Impacts of organic aerosols and its oxidation level on CCN activity from measurement at a suburban site in China Atmos. Chem. Phys, 15, 16141-16174, 2016. Yang, X., Li, Z., Liu, L., Zhou, L., Cribb, M. and Zhang, F., 2016. Distinct weekly cycles of thunderstorms and a potential connection with aerosol type in China. Geophys. Res. Lett., 43(16), 8760-8768. Wang Q, Zhao J, Du W, Ana G, Wang Z, Sun L, Wang Y, Zhang F, Li Z, Ye X, Sun Y. Characterization of submicron aerosols at a suburban site in central China. Atmospheric Environment. 2016, 131:115-23. Li, Z., Lau, W.M., Ramanathan, V., Wu, G., Ding, Y., Manoj, M.G., Liu, J., Qian, Y., Li, J., Zhou, T., Fan, J., D. Rosenfeld, Y. Ming, Y. Wang, J. Huang, B. Wang, X. Xu, S.-S. Lee, M. Cribb, F. Zhang, X. Yang, C. Zhao, T. Takemura, K. Wang, X. Xia, Y. Yin,, Aerosol and Monsoon Climate Interactions over Asia. Reviews of Geophysics. 54 (1-4). 2016. G. Wang, R. Zhang, M. E Gomez, L. Yang, M. Zamora, M. Hu, Y. Lin, J. Peng, S. Guo, J. Meng, J. Li, C. Cheng, T. Hu, Y. Ren, Y. Wang, J. Gao, J. Cao, Z. An, W. Zhou, G. Li, J. Wang, P. Tian, W. Marrero-Ortiz, J. Secrest, Z. Du, J. Zheng, D. Shang, L. Zeng, M. Shao, W. Wang, Y. Huang, Y. Wang, Y. Zhu, Y. Li, J. Hu, B. Pan, L. Cai, Y. Cheng, Y. Ji, F. Zhang, D. Rosenfeld, P. S Liss, R. A Duce, C. E Kolb, M. J Molina, Persistent sulfate formation from London Fog to Chinese Haze, Proc Natl Acad Sci USA, 2016, 113, 13630–13635 F. Zhang, P. Li, Y. Fukuyama, S. Fang et al., Detection and attribution of regional CO2 anomalies using surface observations. Atmos. Envion, 123, 88-101, 2015 F. Zhang, X. Wang et al., Soil organic and inorganic carbon in the Loess profiles of Lanzhou area: implications of deep soils. CATENA, 2015,126:68-74. J Li, Y Yin, P Li, Z Li, R Li, M Cribb, Z Dong, F. Zhang, J Li, G Ren, L Jin, Y Li，Aircraft measurements of the vertical distribution and activation property of aerosol particles over the Loess Plateau in China，Atmospheric Research, 155: 73–86，2015 张芳, 周凌晞, 王玉诏. 不同源汇信息提取方法对区域CO2源汇估算及其季节变化的影响评估. 环境科学, 2015, 36(7): 2405-2413 Y. Yang, X Liu, Y Qu, J Wang, J An, Y Zhang, F. Zhang，Formation mechanism of continuous extreme haze episodes in the megacity Beijing, China, in January Atmospheric Research, 2015, 155: 192–203 T Han, L Qiao, M Zhou, Y Qu, J Du, X Liu, S Lou, C Chen, H Wang, F. Zhang, Q Yu, Q Wu，Chemical and optical properties of aerosols and their interrelationship in winter in the megacity Shanghai of China，Journal of Environmental Sciences, 27: 59-69，2015 Liu, X.G, Sun, K. Qu, Y., Hu, M., Sun, Y.L., Zhang, F., Zhang, Y.H. Secondary Formation of Sulfate and Nitrate during a Haze Episode in Megacity Beijing, China，Aerosol and Air Quality Research，DOI:10.4209/aaqr.2014.12.0321, 2015. Sun, K., Liu, X, Gu, J, Li, Y, Qu, Y., Wang, J, Zhang, Y, Hu, M., F. Zhang, Chemical characterization of size resolved aerosols in four seasons and hazy days in the Megacity Beijing of China. Journal of Environmental Sciences, 32, 155–167 2015. Y. Yang, X. Liu, Y. Qu, J. An, R. Jiang, Y. Zhang, Y. Sun, Z. Wu, F. Zhang, W. Q. Xu, and X. Ma，Characteristics and formation mechanism of continuous extreme hazes in China: a case study in autumn of 2014 in the North China Plain，Atmos. Chem. Phys., 15, 8165-8178, 2015. F. Zhang, Y. N. Li, Z. Li, R. J. Li, L. Sun, C. Zhao, P. C. Wang, Y. L. Sun, X. G. Liu, J. X. Li, P. R. Li, G. Ren, and T. Y. Fan., Aerosol hygroscopicity and cloud condensation nuclei activity during the AC3Exp campaign: implications for cloud condensation nuclei parameterization. Atmos. Chem. Phys., 14, 13423–13437, 2014 F. Zhang, L.X. Zhou, et al., Implications for CO2 sources and sinks changes during 1995-2008 under climate change: observed CO2 mixing ratios analysis at Waliguan, China., Tellus B, 65, 19576, http://dx.doi.org/10.3402/tellusb.v65i0.19576，2013 F. Zhang, L.X. Zhou, Thomas J. Conway et al., Short-term variations of atmospheric CO2 and dominant causes: analysis of 14-year continuous observational data at Waliguan, China. Atmos. Envion., 77,140-148. 2013 F. Zhang, L.X. Zhou, et al. Temporal variation and potential source region distribution of methane at Mount Waliguan, China. Science in China Series D: Earth Sciences. 56,727-736, 2013 F. Zhang, L.X. Zhou, P. C. Novelli et al. Evaluation of in situ measurements of atmospheric carbon monoxide at Mount Waliguan, China. Atmos. Chem. Phys., 11, 5195–5206, 2011 F. Zhang, L.X. Zhou, B. Yao et al. In-situ measurement of CFC-11 at Shangdianzi GAW regional station. Science in China Series D: Earth Sciences. 54 (2) ，298-304, 2011. Zhi G., Zhang X., Cheng H., Jin J., F. Zhang, Wang T., Zhang X. Practical paths towards lowering black carbon emissions. Advances in Climate Chang Research, 2(1): 12-22, 2011 F. Zhang, L.X. Zhou, B. Yao et al. Analysis of 3-year observations of CFC-11, CFC-12 and CFC-113 from a semi-rural site in China. Atmos. Envion., 44: 4454-4462, 2010. 张芳，周凌晞，刘立新等。瓦里关大气二氧化碳和甲烷在线观测数据处理与分析。环境科学，2010(10). 31, 2267-2272 M. K.Vollmer, L. X.Zhou, B. R.Greally, S.Henne, B.Yao,S.Reimann, F.Stordal, D. M.Cunnold, X. C. Zhang, M.Maione, F. Zhang, J. Huang, P. G. Simmonds. Emissions of ozone-depleting halocarbons from China. Geophys. Res. Lett., 36, L15823, doi:10.1029/2009GL038659. 2009. Liu, L., Zhou L., Zhang X., Wen, M., Zhang, F., Yao, B. and Fang, S. Characteristics of Atmospheric CO2 Concentration Variation about Four National Background Stations in China. Science in China Series D: Earth Sciences. 52(11):1857-1863, 2009. 张芳,王新明, 李龙凤; 易志刚; 周凌晞; Donald R Blake; 盛国英; 傅家谟. 近年来珠三角地区大气中痕量氟氯烃(CFCs)的浓度水平与变化特征.地球与环境，2007，34（4）：19-24 张芳; 陈泽雄; 王新明; 周凌晞; 李龙凤; 何秋生; 盛国英; 傅家谟，广州城区大气中的HCFC-22的变化特征及其与常规大气污染物的比较。地球化学，2007，36（2）: 222~226 张芳；王新明; 易志刚; 李龙凤; 陈尊裕; 陈鲁言; Donald R.Blake. 珠三角地区大气中HCFC-22的浓度特征和变化趋势初步观测. 环境科学学报,2006，26(6):987-991 张芳, 周凌晞, 许林。瓦里关大气CH4浓度变化及其潜在源区分析，中国科学:地球科学，2013, 43(4): 536-546。张芳，周凌晞，姚波等.北京上甸子区域本底站大气CFC-11浓度在线观测。中国科学D辑，2010, 40 (12) ,1752-1758 刘立新, 周凌晞, 温民, 张芳, 方双喜, 姚波,中国4个国家级野外站大气CH4本底浓度变化特征。气候变化研究进展，2009，5（5），285-290 刘立新，周凌晞，夏玲君，张芳，顾帅。气体稳定同位素比质谱法分析本底大气CO2的δ13C和δ18O。环境科学学报，2012,32(6):1299-1305 方双喜, 周凌晞, 张芳, 姚波，张晓春, 臧昆鹏, 许林，刘立新, 温民，顾帅。双通道气相色谱法观测本底大气中CH4、CO、N2O和SF6. 环境科学学报, 2010, 30(1):52-59 周凌晞, 刘立新, 张晓春, 张芳, 姚波, 温民, 许林, 方双喜。我国温室气体本底浓度网络化观测的初步结果。应用气象学报, 2008,19(6): 641~645. 姚波, 周凌晞, 张芳等.利用GC-ECD在线观测大气中14种卤代温室气体. 环境化学，2010，29(6):1159-1163 姚波, 周凌晞, 张芳等.北京上甸子区域大气本底站HCFC-22浓度连续观测研究.环境科学, 2010，31(8):1749-1754 姚波, 周凌晞, 张芳等.北京上甸子区域本底站四氯化碳在线观测. 环境科学学报，2010，30(11):1-6 臧昆鹏，周凌晞，方双喜，温玉璞，姚波，张芳，刘立新。新型CO2和CH4混合标气标校流程及方法。环境化学，2011, 30（2）：511-516 汪巍; 周凌晞; 方双喜; 张芳; 姚波; 刘立新, 北京上甸子站气相色谱法大气CH4和CO在线观测方法研究, 环境科学, 01, 8-12, 2012. 臧昆鹏; 方双喜; 周凌晞; 姚波; 张芳; 刘立新, 水汽对光腔衰荡光谱系统(CRDS)法测定CH4的影响, 环境化学, 11, 1816-1820, 2012. 方双喜; 周凌晞; 汪巍; 张芳; 姚波; 许林; 刘立新; 温民, 气相色谱法检测本底大气N2O的单一标气定量方法, 环境化学, 05, 1030-1033, 2011. 方双喜; 周凌晞; 臧昆鹏; 汪巍; 许林; 张芳; 姚波; 刘立新; 温民, 光腔衰荡光谱(CRDS)法观测我国4个本底站大气CO2, 环境科学学报, 03, 624-629, 2011. 刘立新，周凌晞，张晓春，温民，张芳等。我国4个国家级本底站大气CO2浓度变化特征. 中国科学D辑, 2009 39(2):222-228

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