研究队伍
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姓    名:
张 凡 
性    别:
女 
学    历:
博士 
专家类别:
研究员  
电    话:
010-8409 7030 
传    真:
010-8409 7079 
电子邮件:
 zhangfan@itpcas.ac.cn
个人主页:
http://zhangfan.itpcas.ac.cn/ 
通讯地址:
北京市朝阳区林萃路16号院3号楼    100101

简历:
  • 2019年7月-至今 中国科学院青藏高原研究所 所长助理
  • 2016年5月-2018年7月 中国科学院青藏高原研究所 国际合作处处长
  • 2015年4月-至今 中国科学院大学 岗位教授
  • 2009年12月-至今 中国科学院青藏高原研究所 研究员
  • 2008年4月-2009年9月 美国橡树岭国家实验室环境科学所 Research Staff Scientist
  • 2005年5月-2008年3月 美国橡树岭国家实验室环境科学所 Research Associate
  • 2000年8月-2005年5月 美国中佛罗里达大学 研究助理 Research Assistant
  • 2000年8月-2005年5月 美国中佛罗里达大学土木工程专业(水资源方向) 博士
  • 1998年9月-2000年7月 清华大学 市政工程专业 硕士
  • 1994年9月-1998年7月 清华大学 环境工程专业 学士

研究方向:

水沙环境模拟


职务:

社会任职:
  • 2009-至今,SCI期刊Journal of Hydrological Engineering(美国土木工程师学会ASCE主办)副主编
  • 2011-至今,SCI期刊Journal of Mountain Science科学编辑
  • 2016-至今,学术期刊Water Security编委会成员
  • 2016-至今,学术期刊International Soil and Water Conservation编委会成员
  • 2011-至今,学术期刊Journal of Water Resource and Protection编委会成员
  • 2016-至今,中国土壤学会土壤物理专业委员会委员
  • 2017-至今,中国生态学学会生态水文专业委员会委员
  • 2018-至今,中国联合国教科文组织(UNESCO)全国委员会咨询专家

承担项目:
主持
  1. 国家自然科学基金面上项目“西藏羊卓雍错湖泊水量变化过程模拟研究”, 批准号41771090,执行期间:2018.1-2021.12。
  2. 国家自然科学基金国际(地区)合作与交流项目“柯西河流域水质变化机理及其环境效应”, 批准号41761144078,执行期间:2018.1-2020.12。
  3. 国家自然科学基金优秀青年科学基金项目“青藏高原水文与水环境模拟”,批准号41422101,执行期间:2015.1-2017.12。
  4. 国家自然科学基金面上项目“西藏纳木错曲嘎切流域冻融侵蚀水文泥沙过程观测与模拟研究”, 批准号41371087,执行期间:2014.1-2017.12。
  5. 国家自然科学基金青年项目“稳定同位素与水循环耦合模型的建立及在喜马拉雅山卡鲁雄曲-空莫错-沉错流域的应用”, 批准号:41001034,执行期间:2011.1-2013.12。
  6. 院知识创新工程重要方向项目“高寒地区流域水文与生物地球化学过程综合模拟平台及其在藏东南的应用”,批准号:KZCX2-EW-112, 执行期间:2011.1-2013.12。
  7. 美国国防部项目“军事操练区土壤非饱和层包气带中微粒及溶解性军火成分的运移研究”(Mobility of Particulate and Dissolved Munitions Constituents in the Vadose Zone at Operational Ranges)U.S. Dept. of Defense, Strategic Environmental Research and Development Program, 2009-2012, $1,114,675 (Co-PI)。
  8. 美国能源部项目“金属、放射性核物质与共存污染物在地下的固定化和自然净化的速率与机理的多尺度研究”(Multiscale Investigations on the Rates and Mechanisms of Targeted Immobilization and Natural Attenuation of Metal, Radionuclide and Co-Contaminants in the Subsurface)U.S. Dept. of Energy, Environmental Remediation Science Program, Oak Ridge Integrated Field Challenge, 2007-2012, $15,000,000 (Co-PI)。
参加 
  1. 科技部第二次青藏高原综合科学考察研究“亚洲水塔动态变化与影响”,批准号:2019QZKK0203,执行期间:2019.11-2022.10。
  2. 中国科学院战略性先导科技专项(A类)“泛第三极环境变化与绿色丝绸之路建设”,批准号:XDA20000000,执行期间:2018.1-2022.12。
  3. 中国科学院国际合作局一带一路专项泛第三极环境与“一带一路”协同发展,批准号:131C11KYSB20160061,执行期间:2016.9-2020.12。
  4. 中国科学院战略性先导科技专项(B类)“青藏高原多层圈相互作用及其资源环境效应”专项,批准号:XDB030303005,执行期间:2012.9-2016.12。
  5. 国家自然科学基金重大项目“第三极地球系统中水体的多相态转换及其影响”,批准号:41190082,执行期间:2012.1-2016.12。
  6. 全球变化研究国家重大科学研究计划项目“青藏高原气候系统变化及其对东亚区域的影响与机制研究”,批准号:2010CB951700,执行期间:2010.6-2014.12。 

获奖及荣誉:
  • “第十二届青藏高原青年科技奖”, 中国青藏高原研究会,2019
  • “优青”, 国家自然基金,2014
  • Best Paper Award, GeoShanghai 2010
  • Outstanding Student Paper Award, American Geophysical Union, 2003 

代表论著:
专著
  1. Zhang, F., G. T. Yeh, and J. C. Parker. 2012. Ground Water Reactive Transport Models. Bentham Science Publishers. eISBN: 978-1-60805-306-3, 2012. ISBN: 978-1-60805-525-8.
专著章节
  1. Christopher, A.S., F. Zhang, A. Mukherji, W.Immerzeel, D.Mustafa, L.Bharati, 2019. Water in the Hindu Kush Himalaya. In: Wester P., Mishra A., Mukherji A., Shrestha A. (eds) The Hindu Kush Himalaya Assessment. Springer, Cham.
  2. Yeh, G. T., G. B. Huang, H. P. Cheng, F. Zhang, H. C. Lin, E. Edris, D. Richards, 2005. “A First Principle, physics-based watershed model: WASH123D”. Chapter 9 in Watershed Models (V. P. Singh and D. K. Frevert, ed.), CRC Press LLC, 6000 Broken Sound Parkway, NW, (Suite 300) Boca Raton, FL 33487, USA. pp. 211-244.
  3. Yeh, G. T., V. S. Tripathi, J. P. Gwo, H. P. Cheng, J.R. C. Cheng, K. M. Salvage, M. H. Li, Y. Fang, Y. Li, J. T. Sun, F. Zhang, M. D. Siegel, 2012, “HYDROGEOCHEM: A Coupled Model of Variably Saturated Flow, Thermal Transport, and Reactive Biogeochemical Transport”. In: Zhang, F., G. T. Yeh, and J. C. Parker (eds) Ground Water Reactive Transport Models, Bentham Science Publishers Ltd. Oak Park, IL 60301-0446, USA. pp. 1-35. 
英文期刊
  1. Xiao, X., F. Zhang*, X. Li, G. Wang, C. Zeng, X. Shi. Hydrological functioning of thawing soil water in a permafrost-influenced alpine meadow hillslope: a comparison of two soil water extraction methods, Journal: Vadose Zone Journal. DOI: 10.1002/vzj2.20022.
  2. Chen, M., C. Zeng, F. Zhang, S. Kang, and C. Li*, Characteristics of Dissolved Organic Matter from a Transboundary Himalaya Watershed: relationships with Land Use, Elevation, and Hydrology. ACS Earth and Space Chemistry. https://dx.doi.org/10.1021/acsearthspacechem.9b00329.
  3. Shi, X.*, F. Zhang, L. Wang, M.D. Jagirani, C. Zeng, X. Xiao, G. Wang. Experimental study on the effects of multiple factors on spring meltwater erosion on alpine meadow slope. International Soil and Water Conservation Research, https://doi.org/10.1016/j.iswcr.2020.02.001.
  4. Adhikari, S., F. Zhang*, C. Zeng, L. Tripathee, N.P. Adhikari, J. Xu, G. Wang. Precipitation chemistry and stable isotopic characteristics at Wengguo in the northern slopes of the Himalayas. Journal of Atmospheric Chemistry. https://doi.org/10.1007/s10874-020-09399-1.
  5. Pant, R. R., F. Zhang*, F. U.Rehman, M. Koirala, K. Rijal, and R. Maskey. Spatiotemporal characterization of dissolved trace elements in the Gandaki River, Central Himalaya Nepal. Journal of Hazardous Materials. 2020, 389, 121913. 
  6. Xiao, X., F. Zhang*, X. Li, C. Zeng, X. Shi, H. Wu, M. D. Jagirani, T. Che. Using stable isotopes to identify major flow pathways in a permafrost influenced alpine meadow hillslope during summer rainfall period. Hydrological Processes. 2020, 34:1104–1116. 
  7. Zhang, F., X. Shi*, C. Zeng, L. Wang, X. Xiao, G. Wang, Y. Chen, H. Zhang, X. Lu, W. Immerzeel. Recent stepwise sediment flux increase with climate change in the Tuotuo River in the Central Tibetan Plateau. Science Bulletin. 2020, 65 (2020) 410–418.
  8. Wang, L., F. Zhang*, S. Fu, X. Shi, Y. Chen, M. D. Jagirani, C. Zeng. Assessment of Soil Erosion Risk and Its Response to Climate Change in the Mid-Yarlung Tsangpo River Region. Environmental Science and Pollution Research. 2020, 27, 607–621. 
  9. Li, M., Zhang, Q.*, Sun, X., Karki, K., Zeng, C., Pandey, A., Rawat, B., Zhang, F. Heavy metals in surface sediments in the trans-Himalayan Koshi River catchment: Distribution, source identification and pollution assessment. Chemosphere, 2020, 244(125410): 1-10.
  10. Zhang, F., F. U. R. Qaiser, C. Zeng*, R. R. Pant, G. X. Wang, H. B. Zhang, D. L. Chen. Meltwater hydrochemistry at four glacial catchments in the headwater of Indus River. Environmental Science and Pollution Research, 2019, 26(23): 23645–23660.
  11. Zhang, F., S. Thapa, W. Immerzeel, H. B. Zhang*, A. Lutz. Water Availability on the Third Pole: A Review. Water Security, 2019, 7: 100033.
  12. Zhang, H. B., F. Zhang*, G. Q. Zhang, T. Che, W. Yan, M. Ye, N. Ma. Ground-based evaluation of MODIS snow cover product V6 across China: implications for the selection of NDSI threshold. Science of the Total Environment, 2019, 651(2): 2712-2726. 
  13. Bahram, C., S. Khalighi-Sigaroodi*, A. Mishra, M. Goodarzi, S. Shamshirband*, E. Ghaljaee, F. Zhang. A novel bias correction framework of TMPA 3B42 daily precipitation data using similarity matrix/homogeneous conditions. Science of the total environment, 2019, 694: 133680. 
  14. Namita, P. A., Y. Q. Liu*, K. S. Liu, F. Zhang, S. Adhikari, Y. Y. Chen, X. B. Liu. Bacterial community composition and diversity in Koshi River, the largest river of Nepal. Ecological Indicators, 2019, 104: 501–511. 
  15. Chen, M. L.*, C. L. Li*, C. Zeng, F. Zhang, P. A. Raymond, J. Hur*. Immobilization of relic anthropogenic dissolved organic matter from alpine rivers in the Himalayan-Tibetan Plateau in winter. Water Research, 2019, 160 (1): 97-106.
  16. Pepin, N. *, H. J. Deng, H. B. Zhang, F. Zhang, S. C. Kang, T. D. Yao. An examination of temperature trends at high elevations across the Tibetan Plateau: The use of MODIS LST to understand patterns of elevation-dependent warming. Journal of Geophysical Research: Atmospheres, 2019, 124(11): 5738-5756. 
  17. Yao, T., Y. K. Xue*, D. L. Chen, F. H. Chen, P. Cui, T. Koike, W. Lau, D. Lettenmaire, V. Mosbrugger, L. Thompson, R. H. Zhang, T. Gillespie, Y. Gu, S. C. Kang, S. L. Piao, S. Sugminoto, K. Ueno, L. Wang, F. Zhang, Y.W. Sheng, J. Dozier, W. D. Guo, W.C. Wang, Ailikun, Yaomin Ma, Sam Shen, Bob Su, Fei Chen, Shunlin Liang, Yimin Liu, Vijay P. Singh, Kun Yang, Daqing Yang, Xinquan Zhao, Yu Zhang. Recent Third Pole’s rapid warming accompanies cryospheric melt and water cycle intensification and interactions between monsoon and environment: multi-disciplinary approach with observation, modeling and analysis. Bulletin of the American Meteorological Society, 2019, 100(3): 423-444.
  18. Ahmad, I.*, F. Zhang, M. Tayyab, A. M. Naveed, M. Zaman, J.G. Liu, H. U. Farid, Q. Saddique. Spatiotemporal analysis of precipitation variability in annual, seasonal and extreme values over upper indus river basin. Atmospheric Research, 2018, 213: 346-360.
  19. Elshall, A. S., M. Ye*, Y. Z. Pei, F. Zhang, G.Y. Niu, G. A. Barron-Gafford. Relative model score: a scoring rule for evaluating ensemble simulations with application to microbial soil respiration modeling.  Stochastic Environmental Research and Risk Assessment, 2018, 32(10): 2809-2819. 
  20. Zhang, H.B., F. Zhang*, G. Zhang, T. Che, W. Yan. How accurately can the air temperature lapse rate over the Tibetan Plateau be estimated from MODIS LSTs? Journal of Geophysical Research: Atmospheres, 2018, 123(8): 3943-3960. 
  21. Ahsan, M., A.S. Shakir, F. Zhang, S. Zafar, G. Nabi, I. Ahmad*. Spatiotemporal variability in hydro-meteorological time series data using Non-Parametric Tests over Hindu Kush, Himalayan and Karakoram Ranges in Pakistan. Fresenius Environmental Bulletin, 2018, 27(5A): 3666-3677. 
  22. Qaiser, F., F. Zhang*, R. Pant, G. Wang, S. Khan, C. Zeng. Spatial variation, source identification, and quality assessment of surface water geochemical composition in the Indus River Basin, Pakistan. Environmental Science and Pollution Research, 2018, 25(13): 12749-12763. 
  23. Ahmad, I.*, F. Zhang, J. Liu, M. N. Anjum, M. Zaman, M. Tayyab. A linear bi-level multi-objective program for optimal allocation of water resources. Plos One, 2018, 13(2): 1-25. 
  24. Sayemuzzaman, M., M. Ye*, F. Zhang, M. Zhu. Multivariate statistical and trend analyses of surface water quality in the central Indian River Lagoon area, Florida. Environmental Earth Sciences, 2018, 77(4): 127-140. 
  25. Zhang, H.B., F. Zhang*, G. Zhang, Y. Ma, K. Yang, M. Ye. Daily air temperature estimation on glacier surfaces in the Tibetan Plateau using MODIS LST data. Journal of Glaciology, 2018, 64(243): 132-147. 
  26. Pant, R. R., F. Zhang*, F.-R. Qaiser, G.X. Wang, M. Ye, Z. Chen, H.D. Tang. Spatiotemporal variations of hydrogeochemistry and its controlling factors in the Gandaki River Basin, Central Himalaya Nepal. Science of the Total Environment, 2018, 622-623: 770-782. 
  27. Guo, B. X., Y.Q. Liu*, F. Zhang, J. Hou, H. B. Zhang, C. L. Li. Heavy metals in the surface sediments of lakes on the Tibetan Plateau, China. Environmental Science and Pollution Research, 2018, 25(4): 3695-3707. 
  28. Wang, L., F. Zhang*, H. B. Zhang, C. A. Scott, C. Zeng, X. N. Shi. Intensive precipitation observation greatly improves hydrological modelling of the poorly gauged high mountain Mabengnong catchment in the Tibetan Plateau. Journal of Hydrology, 2018, 556: 500-509. 
  29. Shi X. N., F. Zhang*, X. Lu, Z. Wang, T. Gong, G. X. Wang, H.B. Zhang. Spatiotemporal variations of suspended sediment transport in the upstream and midstream of the Yarlung Tsangpo River (the upper Brahmaputra), China. Earth Surface Processes and Landforms, 2018, 43(2): 432-443. 
  30. Zeng, C., F. Zhang*, X. Lu, G.X. Wang, T. Gong. Improving sediment load estimations: The case of the Yarlung Zangbo River (the upper Brahmaputra, Tibet Plateau). Catena, 2018, 160: 201-211. 
  31. Samania S., M. Ye*, F. Zhang, Y. Pei, G. Tang, A. Elshall, A. A. Moghaddam. Impacts of prior parameter distributions on Bayesian evaluation of groundwater model complexity. Water Science and Engineering, 2018, 11(2): 89-100. 
  32. Zhang, Q.G.*, F. Zhang, S. Kang, Z. Cong. Melting glaciers: Hidden hazards, Science, 2017, 356(6337): 495.
  33. G, X. Wang, C. Zeng, F. Zhang*, Y. Zhang, C. Scott, X. Yan. Traffic-Related Trace Elements in Soils along Six Highway Segments on the Tibetan Plateau: Influence Factors and Spatial Variation. Science of the Total Environment, 2017, 581-582: 811-821.
  34. Zhang, H. B.*, F. Zhang, G. Q. Zhang , He, X. B., L. D. Tian. Evaluation of cloud effects on air temperature estimation using MODIS LST based on ground measurements over the Tibetan Plateau, Atmospheric Chemistry and Physics, 2016, 16(21): 13681-13696.
  35. Zhang, H. B., F. Zhang*, M. Ye, T. Che, G.Q. Zhang. Estimating daily air temperatures over the Tibetan Plateau by dynamically integrating MODIS LST data, Journal of Geophysical Research - Atmospheres, 2016, 121(19): 11425-11441.
  36. Zhang, F.*, H. B. Zhang, S. C. Hagen, M. Ye, D. Wang, D. Gui, C. Zeng, L. Tian, J. Liu. Snow cover and runoff modeling in a high mountain catchment with scarce data: effects of temperature and precipitation parameters. Hydrological Processes, 2015, 29: 52-65.
  37. Shi, X. N.*, T. Lei, F. Zhang, and Y. Yan. Velocity measurement of water flow within gravel layer with electrolyte tracer method under virtual boundary condition. Journal of Hydrology, 2015, 527: 387-393. 
  38. Kim, Y. J., S. C. Brooks*, F. Zhang, J. C. Parker, J. W. Moon, Y. Roh. Fate and transport of uranium (vi) in weathered saprolite. Journal of Environmental Radioactivity, 2015, 139: 154-162.
  39. Shi X. N., F. Zhang*, L. D. Tian, D. R. Joswiak, C. Zeng, D. Qu. Tracing contributions to hydro-isotopic differences between two adjacent lakes in the southern Tibetan Plateau. Hydrological Processes, 2014, 28, 5503-5512.
  40. Zhang, H. B., F. Zhang*, X. N. Shi, C. Zeng, D.-S. Shih, G.-T. Yeh, D.R. Joswiak. Influence of River Channel Geometry in Stream Flow Modeling and Guidelines for Field Investigation. Hydrological Processes, 28: 2630-2638.  
  41. Wang, G. X., X. D. Yan*, F. Zhang, C. Zeng, D. Gao. Traffic-Related Trace Element Accumulation in Roadside Soils and Wild Grasses in the Qinghai-Tibet Plateau. China. International Journal of Environmental Research and Public Health, 2014, 11: 456-472.
  42. Yan, X. D., F. Zhang*, D. Gao, C. Zeng, W. Xiang, M. Zhang. Accumulations of Heavy Metals in Roadside Soils Close to Zhaling, Eling and Nam Co Lakes in the Tibetan Plateau. International Journal of Environmental Research and Public Health, 2013, 10(6): 2384-2400.
  43. Zeng, C.*, F. Zhang, Y. Chen, D. R. Joswiak. Impact of alpine meadow degradation on soil hydraulic properties over the Qinghai-Tibetan Plateau. Journal of Hydrology, 2013, 478: 148-156.
  44. Zeng, C., Q. Wang*, F. Zhang, J. Zhang. Temporal changes in soil hydraulic conductivity with different soil types and irrigation methods. Geoderma,2013, 193: 290-299.
  45. Yan, X. D.*, D. Gao, F. Zhang, C. Zeng, W. Xiang, M. Zhang. Relationships between Heavy Metal Concentrations in Roadside Topsoil and Distance to Road Edge Based on Field Observations in the Qinghai-Tibet Plateau, China. International Journal of Environmental Research and Public Health, 2013, 10(3): 762-775.
  46. Yeh, G.T.*, J.-P. Gwo, M. D. Siegel, M.-H. Li, Y. Fang, F. Zhang, W. Luo, S. B. Yabusaki. Innovative mathematical modeling in environmental remediation. Journal of Environmental Radioactivity, 2013, 119: 26-38 .
  47. Zhang, F.*, G. T. Yeh, J.C. Parker, H. Zhang, X. N. Shi, C. Wang, R. C. Gu. A reaction-based river/stream water quality model, reaction network decomposition and model application. Terrestrial, Atmospheric and Oceanic Sciences,2012, 23(5): 605-620.
  48. Zhang, F., X. Yan*, C. Zeng, M. Zhang, S. Shrestha, L. P. Devkota, T. D. Yao. Influence of Traffic Activity on Heavy Metal Concentration of Roadside Farmland Soil in Mountainous Areas. International Journal of Environmental Research and Public Health,2012, 9(5), 1715-1731.
  49. Yan, X., F. Zhang*, C. Zeng, M. Zhang, L.P. Devkota, T. D. Yao. Relationship between Heavy Metal Concentrations in Soils and Grasses of Roadside Farmland in Nepal. International Journal of Environmental Research and Public Health, 2012, 9(9): 3209-3226.
  50. Shi, X. N., F. Zhang, T. Lei*, R. Chuo, S. Zhou, Y. Yan. Measuring Shallow Water Flow Velocity with Virtual Boundary Condition Signal in the Electrolyte Tracer Method. Journal of Hydrology, 2012, 452: 172-179.
  51. Shi, X. N.*, F. Zhang. A preliminary study on measurement of sediment concentration in hill-slope runoff with electrolyte tracer. Terrestrial, Atmospheric and Oceanic Sciences, 2012, 23(5): 597-604.
  52. Zeng, C., Q. Wang*, F. Zhang. Evaluation of hydraulic parameters obtained by different measurement methods for heterogeneous gravel soil. Terrestrial, Atmospheric and Oceanic Sciences, 2012, 23(5): 585-596.
  53. Shi, X. N., W. Chen, F. Zhang, L. Wu*. Simulating Bromide transport from soil to overland flow, application and evaluation of interfacial diffusion-controlled model. Journal of Hydrologic Engineering, 2012, 17(5): 628-634. 
  54. Yao, T.D.*, L.G.Thompson, V. Mosbrugger, F. Zhang, Y. Ma, T. Luo, B. Xu, X.Yang, D.R. Joswiak, W.Wang, M.E. Joswiak, L.P. Devkota, S. Tayal, R. Jilani, R. Fayziev. Third Pole Environment (TPE). Environmental Development, 2012, 3: 52-64. 
  55. Zhang, F.*, W. Luo, J.C. Parker, S.C. Brooks, D. B. Watson, P. M. Jardine, B. Gu. Modeling uranium transport in acidic contaminated groundwater with base addition. Journal of Hazardous Materials, 2011, 190: 863-868.
  56. Zhang, F.*, W.-M. Wu, J. C. Parker, M. Tonia, S. D. Kelly, K. M. Kemner, G. X. Zhang, C. Schadt, S. C. Brooks, C. S. Criddle, D. B. Watson, P. M. Jardine. Kinetic analysis and modeling of oleate and ethanol stimulated uranium (VI) bio-reduction in contaminated sediments under sulfate reduction conditions. Journal of Hazardous Materials, 2010, 183: 482-489.
  57. Zhang, F.*, J. C. Parker, S. C. Brooks, D. B. Watson, P. M. Jardine, B. Gu. Prediction of uranium and technetium sorption during titration of contaminated acidic groundwater. Journal of Hazardous Materials, 2010, 178: 42-48.
  58. Zhang, F.*, J. C. Parker. An Efficient Modeling Approach to Simulate Heat Transfer rate between Fracture and Matrix Regions for Oil Shale Retorting. Transport in porous media, 2010, 84: 229-240.
  59. Tang, G. P.*, E. F. D’Azevedo, F. Zhang, J. C. Parker, D. B. Watson, P. M. Jardine. Application of A Hybrid MPI/OpenMP Approach for Parallel Groundwater Model Calibration on Multi-Core Computers. Computers and geosciences, 2010, 36: 1451-1460.
  60. Yeh, G. T.*, Y. Fang, F. Zhang, J. Sun, Y. Li, M. H. Li, M. D. Siegel. “Numerical Modeling of Coupled Fluid Flow and Thermal and Reactive Biogeochemical Transport in Porous and Fractured Media”. Computational Geosciences, 2010, 14(1): 149-170.
  61. Zhang, F.*, J. C. Parker, S. C. Brooks, Y.-J. Kim, P. M. Jardine and D. B. Watson. Comparison of Approaches to Calibrate a Surface Complexation Model for U(VI) Sorption to Weathered Saprolite. Transport in Porous Media Journal, 2009, 78 (2): 185-197.
  62. Mayes, M. A.*, G. Tang, P. M. Jardine, L. D. McKay, X. L. Yin, M. N. Pace, J. C. Parker, F. Zhang, T. L. Melhorn, R. Dansby-Sparks. Influence of Sedimentary Bedding on Reactive Transport Parameters under Unsaturated Conditions. Soil Science Society of America Journal, 2009, 73, 1938-1946.
  63. Zhang, F.*, W. Luo, J. C. Parker, B. P. Spalding, S. C. Brooks, D. B. Watson, P. M. Jardine, B. H. Gu. Geochemical Modeling of Reactions and Partitioning of Trace Metals and Radionuclides during Titration of Contaminated Acidic Sediments. Environmental Science and Technology, 2008, 42 (21): 8007-8013. 
  64. Zhang, F.*, G. T. Yeh, J. C. Parker, P. M. Jardine. “A reaction-based river/stream water quality model, Model development and numerical schemes”. Journal of Hydrology, 2008, 348: 496-509.
  65. Zhang, F.*, L. Jiang, G. T. Yeh, J. C. Parker. “An Adaptive Local Grid Refinement and Peak/Valley Capture Algorithm to Solve Nonlinear Transport Problems with Moving Sharp-Fronts”. Transport in Porous Media Journal, 2008, 72: 53-69.
  66. Yan, X.*, E. Radwan, F. Zhang, J. C. Parker. Evaluation of Dynamic Passing Sight Distance Problem Using a Finite Element Model. Journal of Transportation Engineering, 2008, 134: 225-235. 
  67. Zhang, F.*, G. T. Yeh, J. C. Parker, S. C. Brooks, M. N. Pace, Y.-J. Kim, P. M. Jardine, D. B. Watson. “A reaction-based paradigm to model reactive chemical transport in groundwater with general kinetic and equilibrium reactions”. Journal of Contaminant Hydrology, 2007, 92: 10-32.
中文期刊
  1. 张凡, 史晓楠, 曾辰, 王冠星, 陈瑶, 王莉, 张宏波, 余钟波. 青藏高原河流输沙量变化与趋势及影响[J], 中国科学院院刊, 2019, 34(11), 1274-1284.
  2. 闫崇宇, 曾辰*, 史晓楠, 王冠星, 张凡. 慕士塔格山卡尔塔马克冰川补给径流与非冰川补给径流水化学特征及主控因素研究. 干旱区地理, 2018,41(6): 1214-1224
  3. 王利杰, 曾辰, 王冠星,史晓楠*,张凡.西藏山南地区沉错湖泊与径流水化学特征及主控因素初探.  干旱区地理, 2017, 40(4): 737-745. 
  4. 姚檀栋*, 陈发虎, 崔鹏, 马耀明, 徐柏青, 朱立平, 张凡, 王伟财, 艾丽坤, 杨晓新. 从青藏高原到第三极和泛第三极, 中国科学院院刊, 2017, 09: 924-931. 
  5. 郭泌汐, 刘勇勤*, 张凡, 侯居峙, 张宏波. 西藏湖泊沉积物重金属元素特征及生态风险评估. 环境科学, 2016, 02: 490-498.
  6. 张湘潭, 曾辰, 张凡*, 央宗. 藏东南典型小流域土壤饱和导水率和土壤容重空间分布. 水土保持学报, 2014, 28(1): 69-72.
  7. 王冠星, 闫学东*, 张凡, 曾辰, 高丹. 青藏高原路侧土壤重金属含量分布规律及影响因素研究. 环境科学学报, 2014, 34(2): 431-438.
  8. 马耀明*, 胡泽勇, 田立德, 张凡, 段安民, 阳坤, 张镱锂, 杨永平. 青藏高原气候系统变化及其对  东亚区域的影响与机制研究进展. 地球科学进, 2014, 02: 207-215.
  9. 张满, 闫学东, 张凡*. 交通活动对道路两侧土壤中重金属含量的影响. 上海公路, 2012, 01: 70-74.
  10. 张凡, 刘翔*. KDF金属滤料去除水中苯酚的试验研究. 中国给水排水, 2001, 25 (9): 35-38.
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