Fan WANG

Associate Professor / Doctoral supervisor, Master's supervisor

Direction:Sustainability and restoration

Research Area:生物地球化学循环、稳定性同位素技术、碳达峰碳中和、滨海湿地修复

Email: wangfan25@mail.sysu.edu.cn

基本信息

姓名:王凡

性别:女

导师类型:硕士生导师

学历:博士

办公地点:中山大学深圳校区医学园二栋1503室

电子邮箱:wangfan25@mail.sysu.edu.cn

研究方向

生物地球化学循环、稳定性同位素技术、碳达峰碳中和、滨海湿地修复

教育经历

2009.08-2013.12  Purdue University(美国),地球科学,博士  

2006.09-2009.07  北京师范大学,环境科学,硕士  

2002.09-2006.07  北京师范大学,环境工程,学士

工作经历

2023.03-现在         中山大学,生态学院,副教授

2018.01-2023.03   中山大学,大气科学学院,副教授

2015.10-2018.01   北京大学深圳研究生院,环境与能源学院,博士后

2013.10-2015.06   Purdue University(美国),环境可持续发展中美绿色合作伙伴项目,项目助理

在研科研项目

广东省自然科学基金青年提升项目,2024-2026,主持

中国气象局气候变化专题项目,2023-2024,主持

广东省自然科学基金-面上项目,2021-2024,主持

国家重点研发计划项目,2024-2027,参与

国家自然科学基金委联合基金项目,2022-2025,参与

主要论著

  1. Liao X.L., Wang Y., Malghani S., Zhu X.D., Su J.Y., Qin Z.C., Wang F.*, 2024, “Methane and nitrous oxide emissions and related microbial communities from mangrove stems on Qi'ao Island, Pearl River Estuary in China”, Science of The Total Environment, 915:170062.
  2. Ding W.#, Wang F.#, Qin H.P.*, Xia C.X., 2023, “Source apportionment and controlling mechanisms of nitrogen leaching from bioretention systems”, Journal of Environmental Chemical Engineering, 11, 109819.
  3. Cai W.Q. #, Yu K.#, Yang W.T., Mu R., Lian C., Xie L.H., Yan Y., Liao S.B., Wang F.*, 2023, “Prokaryotic community structure, abundances and potential ecological functions in a Mars analog salt lake”, Astrobiology, 23(5), 550-562. 
  4. Wang Y., Zhang Z.M., He K., Qin Z., Xie L., Liu Y., Lin Y., Wei J., Wang F.*, 2022, “Differed adaptive strategies to nutrient status between native and exotic mangrove species”, Forests, 13, 804.
  5. Wang F.#, Wang C.S.#, Zheng Y.Y., Li X.Y., Qin H.P., Ding W., 2021, “Estimating nitrogen fates and gross transformations in bioretention systems with applications of 15N labeling methods”, Chemosphere, 270, 129462. (#equal contribution)
  6. Wang F., Werayawarangura W., Riha K., Raimann S., Gosney M.J., Mickelbart M.V.*, Michalski G.*, 2021, “Nitrate Δ17O tracer method for determining gross nitrification rates”, Agriculture, Ecosystems & Environment, 312, 107328.
  7. Liang H.B.#, Wang F.#, Mu R., Huang J., Zhao R.X., Li X.Y., Yu K.*, Li B.*, 2021, “Metagenomics analysis revealing the occurrence of antibiotic resistome in salt lakes”, Science of The Total Environment, 790, 148262. (#equal contribution)
  8. Wang F. and Michalski G., 2020, “Modern meteoric 36Cl deposition in the Atacama Desert, Chile”, Geophysical Research Letters, 47, e2020GL089982. DOI: 10.1029/2020GL089982
  9. Li J., Wang F.*, Michalski G. and Wilkins B., 2019, “Atmospheric deposition across the Atacama Desert, Chile: compositions, source distributions, and interannual comparisons”, Chemical Geology, 525:435-446.
  10. Wang F., Bowen B.B.*, Seo J., and Michalski G., 2018, “Laboratory and field characterization of visible to near infrared spectral reflectance of nitrate minerals from the Atacama Desert, Chile and implications for Mars”, American Mineralogist, 103:197-206.
  11. Wang F.*, Michalski G., Luo H., and Caffee M., 2017, “Role of biological soil crusts in affecting soil development and salt geochemistry in the Atacama Desert, Chile”, Geoderma, 307:54-64.
  12. Wang F., Ge W.S., Luo H., Seo J.H. and Michalski G.*, 2016, “Oxygen-17 anomaly in soil nitrate: A new precipitation proxy for desert landscapes”, Earth and Planetary Science Letters, 438:103-111.
  13. Wang F., Michalski G.*, Seo J.H., Granger D.E. and Caffee M., 2015, “Beryllium-10 dating of the hyper-arid soils in the Atacama Desert, Chile: Implications for soil formation mechanism and climatic change”, Geochimica et Cosmochimica Acta, 160:227-242.
  14. Wang F., Michalski G.*, Seo J.H. and Ge W.S., 2014, “Geochemical, isotopic, and mineralogical constraints on atmospheric deposition in the hyper-arid Atacama Desert, Chile”, Geochimica et Cosmochimica Acta, 135:29-48.
  15. Wang F., Bu Q., Xia X.H.* and Shen M., 2011, “Contrasting effects of black carbon amendments on PAH bioaccumulation by Chironomus plumosus larvae in two distinct sediments: Role of water absorption and particle ingestion”, Environmental Pollution, 159:1905-1913.
  16. Wang F., Xia X.H.* and Sha Y., 2008, “Distribution of phthalic acid esters in Wuhan section of the Yangtze River, China”, Journal of Hazardous Materials, 154:317-324. 
  17. Qin Z.C.*, Griscom B., Huang Y., Yuan W.P., Chen X.Z., Dong W.J., Li T.T., Sanderman J., Smith P., Wang F., Yang S., 2021. Delayed impact of natural climate solutions. Global Change Biology, 27:215-217.
  18. Huang S.N., Wang F., Elliott E.M., Zhu F.F., Zhu W.X., Koba K., Yu Z.J., Hobbie E.A., Michalski G., Kang R.H., Wang A.Z., Zhu J.J., Fu S.L., Fang Y.T.*, 2020, “Multiyear measurements on Δ17O of stream nitrate indicate high nitrate production in a temperate forest”, Environmental Science & Technology, 54:4231-4239.
  19. Yuan W.P.*, Zheng Y., Piao S.L., Ciais P., Lombardozzi D., Wang Y.P., Ryu Y., Chen G.X., Dong W.J., Hu Z.M., Jain A.K., Jiang C.Y., Kato E., Li S.H., Lienert S., Liu S.G., Nabel J.E.M.S., Qin Z.C., Quine T., Sitch S., Smith W.K., Wang F., Wu C.Y., Xiao Z.Q., Yang S., 2019, “Increased atmospheric vapor pressure deficit reduces global vegetation growth”, Science Advance, 5: eaax1396.
  20. Liu T., Wang F., Michalski G., Xia X.H.*, Liu S.D., 2013, “Using 15N, 17O, and 18O to determine nitrate sources in the Yellow River, China”, Environmental Science & Technology, 47:13412-13421.
  21. 王凡, 苏娟,2024, “第七章 CH4源汇与减排”. //袁文平等编著, 碳达峰和碳中和的科学基础. 北京:科学出版社. ISBN 978-7-03-077484-2.