张干 (Gan Zhang)

gan

张干:1967年生。博士。现任中国科学院广州地球化学研究所研究员、有机地球化学国家重点实验室主任。本科和硕士期在南京大学地质系就读,于中国科学院广州地球化学研究所获有机地球化学博士学位。学科方向为环境有机地球化学。近期主要研究方向:(1)环境14C同位素技术与应用;(2)地球表层系统碳动态;(3)有机污染物的环境命运;(4)天体有机地球化学 等。在Nat Comm, PNAS, ES&T, JGR等学术期刊发表论文500余篇;论文被SCI引用>26,000余次,h指数为83 (Web of Science),连年入选Elsevier环境科学领域中国高被引科学家(2014-2022)。现任《地球化学》、《Carbon Research》副主编,《地球与环境》、《生态毒理学报》、《Emerging Contaminants》等学术期刊编委。

曾获国家杰出青年基金资助。获国务院政府特殊津贴、广东省“丁颖科技奖”(2012)、广东特支计划杰出人才(“南粤百杰”,2016)等荣誉。科研成果获国家自然科学二等奖(2006)、广东省自然科学一等奖(2004,2013)。

邮箱:zhanggan@gig.ac.cn

电话:020 8529 0171

 目前主持的部分科研项目:

  1. 国家自然科学基金重大项目,黑碳物质的地球化学行为与效应,No.42192510, 2022.01-2026.12,1500万元,项目负责人
  2. 国家自然 科学基金重点项目,大气颗粒物中多环芳香有机质(POM)化学组成与毒性的分布和演化,No.42030715, 2021.01-2025.12, 301万元,项目负责人
  3. 广东省“珠江人才计划”本土创新科研团队项目,环境地球化学团队,2017BT01Z134,2018-2020,1000万元,7名团队核心成员之一/负责人;
  4. 中国科学院重点部署项目课题,探查“嫦娥五号”月壤样品中的有机质,2021-2023,ANSO-CR-KP-2021-05,110万,负责人
  5. “一带一路”科学组织(ANSO)联合研究专项项目,空气毒害物的监测与风险评估(MORATOXA),ANSO-CR-KP-2021-05,2022-2024,130万元,负责人
  6. 广东国际合作基地项目,海上丝绸之路环境污染与健康联合研究中心,2021A0505020017,2021-2023, 100万元,负责人
  7. 中国科学院科技服务(STS)项目,广东科技禁毒关键技术研究, KFJ-STS-QYZX-091,2020-2022,125万

近期代表性论著

  • 环境有机污染化学
  1. Zhao, S., L. Tian, Z. Zou, X. Liu, G. Zhong, Y. Mo, Y. Wang, Y. Tian, J. Li, H. Guo, and G. Zhang. 2021. Probing Legacy and Alternative Flame Retardants in the Air of Chinese Cities. Environmental Science & Technology 55:9450-9459.
  2. Tian, L., J. Li, S. Zhao, J. Tang, J. Li, H. Guo, X. Liu, G. Zhong, Y. Xu, T. Lin, X. Lyv, D. Chen, K. Li, J. Shen, and G. Zhang. 2021. DDT, Chlordane, and Hexachlorobenzene in the Air of the Pearl River Delta Revisited: A Tale of Source, History, and Monsoon. Environmental Science & Technology 55:9740-9749.
  3. Zhao, S., Jones, K.C., Li, J., Sweetman, A.J., Liu, X., Xu, Y., Wang, Y., Lin, T., Mao, S., Li, K., Tang, J. and Zhang, G. 2020. Evidence for Major Contributions of Unintentionally Produced PCBs in the Air of China: Implications for the National Source Inventory. Environmental Science & Technology 54, 2163-2171.
  4. Jiang, H.; Li, J.; Zhang, R.; Pansak, W.; Zhong, G.; Li, K.; Zhao, S.; Bualert, S.; Phewnil, O.; Zhang, G., Mapping the Contribution of Biomass Burning to Persistent Organic Pollutants in the Air of the Indo-China Peninsula Based on a Passive Air Monitoring Network. Environmental Science & Technology 2023, 57, (6), 2274-2285.
  5. 张干, 李军, 田崇国 等著,《持久性有机污染物的地球化学》, 2019年10月, 科学出版社. ISBN 978-7-03-062494-9.
  • 环境同位素技术(14C-δ13C)与应用
  1. Xu B, Zhang G, Gustafsson Ö, Kawamura K, Li J,  Andersson A, Bikkina S, Kunwar B, Pokhrel A, Zhong G, Zhao S, Li J, Huang C, Cheng Z, Zhu S, Peng P, Sheng G. 2022. Large contribution of fossil-derived components to aqueous secondary organic aerosols in China. Nature Communications, 13: 5115.
  2. Zhang Gan; Liu Junwen; Li Jing; Li Pingyang; Wei Nannan; Xu Buqing ; Radiocarbon isotope technique as a powerful tool in tracking anthropogenic emissions of carbonaceous air pollutants and greenhouse gases: A review, Fundamental Research, 2021, 1(3): 306-316
  3. Xu, B., Z. Cheng, O. Gustafsson, K. Kawamura, B. Jin, S. Zhu, T. Tang, B. Zhang, J. Li, and G. Zhang. 2021. Compound-Specific Radiocarbon Analysis of Low Molecular Weight Dicarboxylic Acids in Ambient Aerosols Using Preparative Gas Chromatography: Method Development. Environmental Science & Technology Letters 8:135-141.
  4. Tang, T., Cheng, Z., Xu, B., Zhang, B., Zhu, S., Cheng, H., Li, J., Chen, Y. and Zhang, G. (2020) Triple Isotopes (δ13C, δ2H, and Δ14C) Compositions and Source Apportionment of Atmospheric Naphthalene: A Key Surrogate of Intermediate-Volatility Organic Compounds (IVOCs). Environmental science & Technology 54, 5409-5418.
  5. Liu, J., M. Chang, Z. Cheng, S. Zhu, P. Ding, F. Liu, J. Li, and G. Zhang. 2021. High Contribution of South Asian Biomass Burning to Southeastern Tibetan Plateau Air: New Evidence from Radiocarbon Measurement. Environmental Science & Technology Letters 8:1026-1031.
  6. Mo, Y., J. Li, Z. Cheng, G. Zhong, S. Zhu, C. Tian, Y. Chen, and G. Zhang. 2021. Dual Carbon Isotope-Based Source Apportionment and Light Absorption Properties of Water-Soluble Organic Carbon in PM2.5 Over China. Journal of Geophysical Research-Atmospheres 126.
  7. Tang, T., Z. Cheng, B. Xu, B. Zhang, J. Li, W. Zhang, K. Wang, and G. Zhang. 2022. Source Diversity of Intermediate Volatility n-Alkanes Revealed by Compound-Specific δ13C-δD Isotopes. Environmental Science & Technology 56:14262-14271.
  8. Xu, B.;  Tang, J.;  Tang, T.;  Zhao, S.;  Zhong, G.;  Zhu, S.;  Li, J.; Zhang, G., 2022, Fates of secondary organic aerosols in the atmosphere identified from compound-specific dual-carbon isotope analysis of oxalic acid. Atmos. Chem. Phys. 1-32.
  9. Yi, X.; Geng, X.; Mo, Y.; Zhong, G.; Tang, J.; Zhu, S.; Cheng, Z.; Zhao, S.; Li, J.; Gustafsson, O.; Peng, P. a.; Zhang, G., 2023, Compound-specific radiocarbon analysis of benzene polycarboxylic acids for source apportionment of polyaromatic organic matter in ambient aerosols. Atmospheric Environment 307.
  • 环境中稠环芳香有机质/黑碳(BC)/棕碳(BrC)物质的地球化学
  1. Junjie Cai, Hongxing Jiang, Yingjun Chen, Zeyu Liu, Yong Han, Huizhong Shen, Jianzhong Song, Jun Li, Yanlin Zhang, Rong Wang, Jianmin Chen & Gan Zhang. Char dominates black carbon aerosol emission and its historic reduction in China. Nature Communications 14, 6444 (2023).  https://doi.org/10.1038/s41467-023-42192-8
  2. Geng, X.; Haig, J.; Lin, B.; Tian, C.; Zhu, S.; Cheng, Z.; Yuan, Y.; Zhang, Y.; Liu, J.; Zheng, M.; Li, J.; Zhong, G.; Zhao, S.; Bird, M. I.; Zhang, G., Provenance of Aerosol Black Carbon over Northeast Indian Ocean and South China Sea and Implications for Oceanic Black Carbon Cycling. Environmental Science & Technology 2023.
  3. Sun, Y., J. Tang, Y. Mo, X. Geng, G. Zhong, X. Yi, C. Yan, J. Li, and G. Zhang. 2021. Polycyclic Aromatic Carbon: A Key Fraction Determining the Light Absorption Properties of Methanol-Soluble Brown Carbon of Open Biomass Burning Aerosols. Environmental Science & Technology 55:15724-15733.
  4. Geng, X., G. Zhong, J. Liu, Y. Sun, X. Yi, C. W. Bong, M. P. Zakaria, O. Gustafsson, Y. Ouyang, and G. Zhang. 2021. Year-Round Measurements of Dissolved Black Carbon in Coastal Southeast Asia Aerosols: Rethinking Its Atmospheric Deposition in the Ocean. Journal of Geophysical Research-Atmospheres 126.
  5.  Mo, Y., G. Zhong, J. Li, X. Liu, H. Jiang, J. Tang, B. Jiang, Y. Liao, Z. Cheng, and G. Zhang. 2022. The Sources, Molecular Compositions, and Light Absorption Properties of Water-Soluble Organic Carbon in Marine Aerosols from South China Sea to the Eastern Indian Ocean. Journal of Geophysical Research-Atmospheres 127.
  6. Zhong, G., Sun, Y., Geng, X., Yi, X. and Zhang, G. 2019. Benzene polycarboxylic acid characterisation of polyaromatics in ambient aerosol: Method development. Atmospheric Environment 211, 55-62.
  7. Zhang, X., Li, J., Mo, Y., Shen, C., Ding, P., Wang, N., Zhu, S., Cheng, Z., He, J., Tian, Y., Gao, S., Zhou, Q., Tian, C., Chen, Y. and Zhang, G. 2019. Isolation and radiocarbon analysis of elemental carbon in atmospheric aerosols using hydropyrolysis. Atmospheric Environment 198, 381-386.
  8. Jiang, H., J. Li, J. Wang, H. Jiang, Y. Mo, J. Tang, R. Zhang, W. Pansak, G. Zhong, S. Zhao, J. Ning, C. Tian, and G. Zhang. 2022. Regional monitoring of biomass burning using passive air sampling technique reveals the importance of MODIS unresolved fires. Environment International 170:107582-107582.
  9. Zhang, X.; Li, J.; Zhu, S.; Liu, J.; Ding, P.; Gao, S.; Tian, C.; Chen, Y.; Peng, P. a.; Zhang, G., Technical note: Intercomparison study of the elemental carbon radiocarbon analysis methods using synthetic known samples. Atmospheric Chemistry and Physics 2023, 23, (13), 7495-7502.
  10. Tang, J.Xu, B.Zhao, S.Li, J.Tian, L.Geng, X., et al. (2024). Long-emission-wavelength humic-like component (L-HULIS) as a secondary source tracer of brown carbon in the atmosphereJournal of Geophysical Research: Atmospheres129, e2023JD040144.

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