郑一 zhengy at sustech.edu.cn

简历
科研
教学
发表论著
郑一博士于美国加州大学圣巴巴拉分校（University of California, Santa Barbara）获博士学位，现为南方科技大学环境科学与工程学院教授、副院长。曾任北京大学工学院能源与资源工程系特聘研究员、副教授、副系主任，及北京大学水资源研究中心副主任。2016年获国家优秀青年科学基金资助。
兼任中国自然资源学会青年工作委员会的副主任，中国地理学会水文地理专业委员会委员，中国水利学会青年科技工作委员会委员。曾任中国科协第297次青年科学家论坛的执行主席之一，主持“生态文明与水资源管理”论坛。2017年起，担任水文水资源领域顶尖学术期刊Water Resources Research（SCI期刊）的副主编，以及美国土木工程师学会（ASCE）主要学术刊物Journal of Hydrologic Engineering-ASCE（SCI期刊）的副主编。
2007年回国工作后，先后承担包括国家自然科学基金重大研究计划项目在内的十多项国家级科研项目，以及多项企事业单位和国际机构的委托项目。在干旱区地表水-地下水耦合模拟、复杂模型不确定性分析以及水资源管理优化决策等多个方向上获得一系列重要研究成果。已发表学术论文80多篇，其中第一或通讯作者SCI论文34篇。在水资源领域顶尖期刊Water Resources Research上发表论文8篇（第一作者或通讯作者），并获得封面论文、Editor’s Highlight、featured article等荣誉。其余SCI论文还发表在Environmental Modelling & Software, Advances in Water Resources, Journal of Hydrology，Environmental Pollution, Science of the Total Environment, Agricultural Water Management等环境、水资源领域一流学术期刊上。2015年和2016年各有一篇论文被评为年度ESI高引论文（highly cited paper, top 1%）。
目前任职:
南方科技大学环境科学与工程学院，教授、副院长
南方科技大学教授会，副会长
南方科技大学教学指导委员会委员
教育背景:
2002.09-2007.03 美国加州大学圣巴巴拉分校，环境科学与管理专业，博士
2000.09-2002.06 北京大学，环境科学专业，硕士
1996.09-2000.06 北京大学，环境科学专业，学士
1997.09-2000.06 北京大学，经济学专业，学士（双学位）
工作经历:
2018.01至今 南方科技大学环境科学与工程学院，教授、副院长
2016.01-2018.01 南方科技大学环境科学与工程学院，副教授、副院长
2007.07-2015.12 北京大学工学院能源与资源工程系，特聘研究员、副教授、系副主任
2007.01-2007.06 美国Systech Water Resources, Inc. 环境咨询公司，水资源工程师
代表性科研项目:
深圳市海外高层次人才创新创业专项资金项目（KQJSCX20**4270）“水体细菌在线监测、预警与智能管理的物联网系统”，项目负责人，2019-2021
中国科学院A类战略性先导科技专项课题（XDA**）“祁连山“山水林田湖草”系统优化调配”，项目骨干，2018-2022
深圳市环境物联网技术与应用工程实验室项目，项目负责人，2017-2020
国家自然科学基金优秀青年科学基金项目（**）“水资源模拟与管理”，项目负责人，2017-2019
国家自然科学基金重大研究计划重点项目（**）“西南河流源区供水-发电-环境互馈关系及系统弹性研究”，子课题负责人，2017-2020
深圳市科创委（JCYJ20**1804）“低影响开发的空间格局优化研究”，项目负责人，2017-2018
国家自然科学基金面上项目（**）“城市化地区多环芳烃非点源污染过程的机理与模拟方法研究”，项目负责人，2014-2017
国家自然科学基金重大研究计划集成项目（**）“黑河流域中下游生态水文过程的系统行为与调控研究”，子课题负责人，2013-2016
国家科技支撑计划课题（2012BAC03B02）“区域循环经济技术及发展模式的风险评估及决策支持研究”，子课题负责人，2012-2015
国家自然科学基金重大研究计划培育项目（**）“黑河流域地表－地下水耦合模拟的不确定性问题研究”，项目负责人，2012-2014
国家自然科学基金青年科学基金项目（**）“流域非点源污染分布式模拟的不确定性分析方法研究”，项目负责人，2010-2012
国家科技支撑计划课题（2009BAC64B02）“中国循环经济发展模式的系统评价与决策支持技术研究”，子课题负责人，2009-2011
国家自然科学基金课题（）“气候和土地利用变化条件下海岸带流域水资源的耦合模拟和不确定性分析”，项目骨干，2010-2012
国家“水体污染控制与治理科技重大专项”课题（2009ZX07632-001-05）“跨行政区水污染协调和管理机制及试点示范研究”，项目骨干，2009-2011
国家“水体污染控制与治理科技重大专项”课题（2009ZX07212－001－07）“湘江水环境重金属污染整治关键技术研究与综合示范课题”，项目骨干，2009-2011
美国能源基金会中国可持续能源项目（G-0911-11672），Barriers Assessment and Integrated Policy Development of Critical Energy-saving Technologies Promotion，项目负责人，2009-2010
海外科研经历:
美国明尼苏达州Duluth城市降雨径流污染防治综合规划（Duluth市政府项目，技术负责人），2007
美国Newport Bay流域有机磷农药的非点源污染模拟和不确定性分析（美国加州大学有毒物质教研基金项目，项目负责人），2005-2006
人口增长与城市化对南加州流域水环境的影响（美国加州交通部支持项目，项目骨干），2003-2004
Santa Clara River流域营养盐的TMDL规划（美国加州地区水质管理委员会支持项目，项目骨干），2002-2003
获奖情况及荣誉:
南方科技大学2018年年度杰出服务奖，2018
南方科技大学2017年年度杰出教学奖，2017
北京大学2013-2014年年度教学优秀奖，2014
北京大学2014年年度优秀党员，2014
北京大学“培养新型交叉工科创新人才-北京大学本科人才培养模式改革”校级教学成果一等奖，2013
北京大学2011年度方正奖教金教师优秀奖，2011
“概率配点法在流域非点源污染不确定性分析中的应用”一文被评为《农业环境科学学报》年度优秀论文，2010
北京大学第八届青年教师教学演示竞赛理科组二等奖，2009
University of California Graduate Division Dissertation Fellowship （加州大学博士论文奖学金），2006
Bren School’s Keller Water Quality Management Award（Bren学院水质管理研究奖励），University of California, Santa Barbara，2005
Bren School’s Dozier Fellowship（Bren学院一等全额奖学金），University of California, Santa Barbara，2002-2004
学术兼职:
2017-，SCI期刊Water Resources Research副主编
2017-，SCI期刊Journal of Hydrologic Engineering-ASCE副主编
2017-，中国地理学会水文地理专业委员会委员
2015-，中国自然资源学会青年工作委员会副主任
2015.11，中国科协第297次青年科学家论坛执行主席
2016至今，中国水利学会青年科技工作委员会委员
参加的国际学术团体:
美国土木工程师学会The American Society of Civil Engineers（ASCE）
美国地理学家协会The Association of American Geographers (AAG)
美国地球物理联合会American Geophysical Union (AGU)
美国水资源协会American Water Resources Association (AWRA)
主要学术论文：
1. Zhao X#, Qiu W*, Zheng Y*, Xiong J, Gao C, Hu S (2019). Occurrence, distribution, bioaccumulation, and ecological risk of bisphenol analogues, parabens and their metabolites in the Pearl River Estuary, South China, Ecotoxicology and environmental safety, 180: 43-52.
2. Jiang S#, Babovic V, Zheng Y*, Xiong J (2019). Advancing opportunistic sensing in hydrology: a novel approach to measuring rainfall with ordinary surveillance cameras, Water Resources Research, 55(4): 3004-3027. [Eos Research Spotlight]
3. Mao G, Liu J, Han F, Meng Y, Tian Y, Zheng Y, Zheng C (2019). Assessing the interlinkage of green and blue water in an arid catchment in Northwest China, Environmental geochemistry and health, 1-21.
4. Chen C, Tian Y, Zhang YK, He X, Yang X, Liang X, Zheng Y, Han F, Zheng C, Yang C (2019). Effects of agricultural activities on the temporal variations of streamflow: trends and long memory, Stoch Environ Res Risk Assess. https://doi.org/10.1007/s00477-019-01714-x.
5. Niu G#, Zheng Y*, Han F, Qin H (2019). The nexus of water, ecosystems and agriculture in arid areas: A multiobjective optimization study on system efficiencies, Agricultural Water Management, 223: 105697.
6. Yu C, Wei S#, Zhang Y, Zheng Y, Yu Z, Donahoe R, Wei H (2019). Quantifying colloid fate and transport through dense vegetation and soil systems using a particle-plugging tempered fractional-derivative model, Journal of contaminant hydrology, 224:103484.
7. Xu P#, Liao Y, Zheng Y*, Zhao C, Zhang X, Zheng Z, Luan S (2019). Northward shift of historical methane emission hotspots from the livestock sector in China and assessment of potential mitigation options, Agricultural and Forest Meteorology, 272: 1-11
8. Chen X, Xu B, Zheng Y*, Zhang C* (2019). Nexus of water, energy and ecosystems in the upper Mekong River: A system analysis of phosphorus transport through cascade reservoirs, Science of The Total Environment, 671: 1179-1191.
9. Li X, Gentine P, Lin C, Zhou S, Sun Z, Zheng Y, Liu J, Zheng C (2019). A simple and objective method to partition evapotranspiration into transpiration and evaporation at eddy-covariance sites, Agricultural and Forest Meteorology, 265: 171-182.
10. Feng L, Hou X, Zheng Y (2019). Monitoring and understanding the water transparency changes of fifty large lakes on the Yangtze Plain based on long-term MODIS observations, Remote Sensing of Environment, 221: 675-686.
11. Qiu W, Zheng M, Sun J, Tian Y, Fang M, Zheng Y, Zhang T, Zheng C (2019). Photolysis of enrofloxacin, pefloxacin and sulfaquinoxaline in aqueous solution by UV/H2O2, UV/Fe (II), and UV/H2O2/Fe (II) and the toxicity of the final reaction solutions on zebrafish embryos, Science of The Total Environment, 651: 1457-1468.
12. Joo J, Tian Y, Zheng C, Zheng Y, Sun Z, Zhang A, Chang H (2018). An Integrated Modeling Approach to Study the Surface Water-Groundwater Interactions and Influence of Temporal Damping Effects on the Hydrological Cycle in the Miho Catchment in South Korea, Water, 10(11): 1529.
13. Jiang S#, Zheng Y*, Babovic V, Tian Y, Han F (2018). A computer vision-based approach to fusing spatiotemporal data for hydrological modeling, Journal of Hydrology, 567: 25-40.
14. Sun Z#, Zheng Y*, Li X, Tian Y, Han F, Zhong Y, Liu J, Zheng C (2018). The Nexus of Water, Ecosystems, and Agriculture in Endorheic River Basins: A System Analysis Based on Integrated Ecohydrological Modeling, Water Resources Research, 54. https://doi.org/10.1029/2018WR023364.
15. Tian Y, Xiong J, He X, Pi X, Jiang S, Han F, Zheng Y* (2018). Joint operation of surface water and groundwater reservoirs to address water conflicts in arid regions: An integrated modeling study, Water, 10(8), 1105.
16. Yao Y, Tian Y, Andrews C, Li X, Zheng Y, Zheng C (2018). Role of Groundwater in the Dryland Ecohydrological System: A Case Study of the Heihe River Basin, Journal of Geophysical Research: Atmospheres, 123(13): 6760-6776.
17. Jiang J, Han F, Zheng Y, Wang N, Yuan Y (2018). Inverse uncertainty characteristics of pollution source identification for river chemical spill incidents by stochastic analysis, Frontiers of Environmental Science & Engineering, 12(5): 6.
18. Mo J, Yang Q, Zhang N, Zhang W, Zheng Y, Zhang Z (2018). A review on agro-industrial waste (AIW) derived adsorbents for water and wastewater treatment, Journal of environmental management, 227:395-405.
19. Feng L, Hou X, Li J, Zheng Y (2018). Exploring the potential of Rayleigh-corrected reflectance in coastal and inland water applications: A simple aerosol correction method and its merits, ISPRS Journal of Photogrammetry and Remote Sensing, 146: 52-64.
20. Li X, Cheng G, Ge Y, Li H, Han F, Hu X, Tian W, Tian Y, Pan X, Nian Y, Zhang Y, Ran Y, Zheng Y, Gao B, Yang D, Zheng C, Wang S, Liu S, Cai X (2018). Hydrological cycle in the Heihe River Basin and its implication for water resource management in endorheic basins, Journal of Geophysical Research: Atmospheres, 123:890–914.
21. Tian Y, Zheng Y*, Han F, Zheng C, Li X (2018). A comprehensive graphical modeling platform designed for integrated hydrological simulation, Environmental Modelling & Software, 108: 154–173.
22. Han F#, Zheng Y* (2018). Joint analysis of input and parametric uncertainties in watershed water quality modeling: A formal Bayesian approach, Advances in Water Resources, 116: 77-94.
23. Feng D#, Zheng Y*, Mao Y, Zhang A, Wu B, Li J, Tian Y, Wu X (2018). An integrated hydrological modeling approach for detection and attribution of climatic and human impacts on coastal water resources, Journal of Hydrology, 557: 305-320.
24. Qiu W, Shao H, Lei P, Zheng C, Qiu C, Yang M*, Zheng Y* (2018). Immunotoxicity of bisphenol S and F are similar to that of bisphenol A during zebrafish early development, Chemosphere, 194: 1-8.
25. Shi B, Jiang J, Sivakumar B, Zheng Y, Wang P (2018). Quantitative design of emergency monitoring network for river chemical spills based on discrete entropy theory, Water Research, 134: 140-152.
26. Zheng Y, Zhang W, Tang B, Bin L, Ding J, Zheng Y, Zhang Z (2018). Membrane fouling mechanism of biofilm-membrane bioreactor (BF-MBR): Pore blocking model and membrane cleaning, Bioresource Technology, 250: 398-405.
27. Wang L, Liang W, Chen W, Zhang W, Mo J, Liang K, Tang B, Zheng Y, Jiang F (2018). Integrated aerobic granular sludge and membrane process for enabling municipal wastewater treatment and reuse water production, Chemical Engineering Journal, 337: 300-311.
28. Khan A, Jiang J, Wang P, Zheng Y (2017). Influence of topographic and socio-economic attributes on the climate sensitivity of global river water quality, Environmental Research Letters, 12: 104012.
29. Yao Y, Zheng C, Andrews C, Zheng Y, Zhang A, Liu J (2017). What controls the partitioning between baseflow and mountain block recharge in the Qinghai-Tibet Plateau? Geophysical Research Letters, 44: 8352-8358. [GRL’s issue cover article]
30. Wu X#, Zheng Y*, Zhang J, Wu B, Wang S, Tian Y, Li J, Meng X (2017). Investigating hydrochemical groundwater processes in an inland agricultural area with limited data: a clustering approach, Water, 9, 723; doi:10.3390/w**.
31. Li X#, Zheng Y*, Sun Z, Tian Y, Zheng C, Liu J, Liu S, Xu Z (2017). An integrated ecohydrological modeling approach to exploring the dynamic interaction between groundwater and phreatophytes, Ecological Modelling, 356: 127-140.
32. Li J#, Zheng Y*, Luo X, Lin Z, Zhang W, Wang X (2016). PAHs contamination in Beijing’s topsoil: a unique indicator of the megacity’s evolving energy consumption and environmental quality, Scientific Reports, 6: 33245.
33. Han F#, Zheng Y* (2016). Multiple-response Bayesian calibration of watershed water quality models with significant input and model structure errors, Advances in Water Resources, 88: 109-123.
34. Wu X#, Zheng Y*, Wu B, Tian Y, Han F, Zheng C (2016). Optimizing conjunctive use of surface water and groundwater for irrigation to address human-nature water conflicts: a surrogate modeling approach, Agricultural Water Management, 163: 380-392.
35. Zheng Y*, Luo X, Zhang W, Wu X, Zhang J, Han F (2016). Transport mechanisms of soil-bound mercury in the erosion process during rainfall-runoff events, Environmental Pollution, 215: 10-17.
36. Tian Y#, Zheng Y*, Zheng C (2016). Development of a 3D visualization tool for integrated surface water and groundwater modeling, Computers & Geosciences, 86: 1-14.
37. Zheng Y*, Han F (2016). Markov Chain Monte Carlo (MCMC) uncertainty analysis for watershed water quality modeling and management, Stochastic Environmental Research and Risk Assessment, 301: 291-308.
38. Tian Y#, Zheng Y*, Zheng C, Xiao H, Fan W, Zou S, Wu B, Yao Y, Zhang A, Liu J (2015). Exploring scale-dependent ecohydrological responses in a large endorheic river basin through integrated surface water-groundwater modeling, Water Resources Research, 51: 4065-4085.
39. Wu B#, Zheng Y*, Wu X, Tian Y, Han F, Liu J, Zheng C (2015). Optimizing water resources management in large river basins with integrated surface water-groundwater modeling: a surrogate-based approach, Water Resources Research, 51: 2153-2173. [Featured Article of WRR]
40. Tian Y#, Zheng Y*, Wu B, Wu X, Liu J, Zheng C (2015). Modeling surface water-groundwater interaction in arid and semi-arid regions with intensive agriculture, Environmental Modelling & Software, 63: 170-184.
41. Luo X#, Zheng Y*, Lin Z, Wu B, Han F, Tian Y, Zhang W, Wang X (2015). Evaluating potential non-point source loading of PAHs from contaminated soils: A fugacity-based modeling approach, Environmental Pollution, 196: 1-11.
42. Yao Y, Zheng C*, Tian Y, Liu J, Zheng Y (2015). Numerical modeling of regional groundwater flow in the Heihe River Basin, China: Advances and new insights, Science China Earth Sciences, 58: 3-15.
43. Wu B#, Zheng Y*, Tian Y, Wu X, Yao Y, Han F, Liu J, Zheng C (2014). Systematic assessment of the uncertainty in integrated surface water-groundwater modeling based on the probabilistic collocation method, Water Resources Research, 50: 5848-5865. [WRR Editor’s Highlight, issue cover article]
44. Zheng Y*, Lin Z, Li H, Ge Y, Zhang W, Ye Y, Wang X (2014). Assessing the polycyclic aromatic hydrocarbon (PAH) pollution of urban stormwater runoff: A dynamic modeling approach, Science of the Total Environment, 481: 554-563.
45. Luo X#, Zheng Y*, Wu B, Lin Z, Han F, Zhang W, Wang X (2013). Impact of carbonaceous materials in soil on the transport of soil-bound PAHs during rainfall-runoff events, Environmental Pollution, 182: 233-241.
46. Wu B#, Zheng Y* (2013). Assessing the value of information for water quality management: a watershed perspective from China, Environmental Monitoring and Assessment, 185(4): 3023-3035.
47. Zheng Y*, Luo X, Zhang W, Wu B, Han F, Lin Z, Wang X (2012). Enrichment behavior and transport mechanism of soil-bound PAHs during rainfall-runoff events, Environmental Pollution, 171: 85-92.
48. Zheng Y*, Wang W, Han F, Ping J (2011). Uncertainty assessment for watershed water quality modeling: a Probabilistic Collocation Method based approach. Advances in Water Resources, 34: 887-898.
49. Zheng Y, Keller AA (2008). Stochastic watershed water quality simulation for TMDL development – a case study in Newport Bay watershed. Journal of the American Water Resources Association, 44(6): 1397-1410.
50. Zheng Y, Keller AA (2007a). Uncertainty assessment in watershed-scale water quality modeling and management: 1. Framework and application of Generalized Likelihood Uncertainty Estimation (GLUE) approach. Water Resources Research, 43, doi:10.1029/2006WR005345.
51. Zheng Y, Keller AA (2007b). Uncertainty assessment in watershed-scale water quality modeling and management: 2. Management Objectives Constrained Analysis of Uncertainty (MOCAU). Water Resources Research, 43, doi:10.1029/2006WR005346.
52. Zheng Y, Keller AA (2006). Understanding parameter sensitivity and its management implications in watershed‐scale water quality modeling. Water Resources Research, 42, doi:10.1029/2005WR004539.
53. Keller AA, Zheng Y, Robinson TH (2004). Determining critical water quality conditions for inorganic nitrogen in dry semi-urbanized watersheds. Journal of the American Water Resources Association, 40: 721-735.
54. Wang X, Zheng Y, Liu R, Li B, Cao J, Tao S (2003). Medium scale spatial structures of polycyclic aromatic hydrocarbons in the topsoil of Tianjin area. Journal of Environmental Science and Health, part B, B38: 327-335.
55. Wang X, Zheng Y, Liu R, Li B, Cao J, Tao S (2003). Kriging and PAHs pollution assessment in the topsoil of Tianjin area. Bulletin of Environmental Contamination and Toxicology, 71: 189-195.
英文著作章节:
Yi Zheng*, Feng Han, Yong Tian, Bin Wu, Zhongrong Lin, Ecological Modelling and Engineering of Lakes and Wetlands (Chapter 5), Elsevier, 2014, ISBN: 978-0-444-63249-4.

代表性科研项目:
中国科学院A类战略性先导科技专项课题（XDA**）“祁连山“山水林田湖草”系统优化调配”，项目骨干，2018-2022
深圳市环境物联网技术与应用工程实验室项目，项目负责人，2017-2020
国家自然科学基金优秀青年科学基金项目（**）“水资源模拟与管理”，项目负责人，2017-2019
国家自然科学基金重大研究计划重点项目（**）“西南河流源区供水-发电-环境互馈关系及系统弹性研究”，子课题负责人，2017-2020
深圳市科创委（JCYJ20**1804）“低影响开发的空间格局优化研究”，项目负责人，2017-2018
国家自然科学基金面上项目（**）“城市化地区多环芳烃非点源污染过程的机理与模拟方法研究”，项目负责人，2014-2017
国家自然科学基金重大研究计划集成项目（**）“黑河流域中下游生态水文过程的系统行为与调控研究”，子课题负责人，2013-2016
国家科技支撑计划课题（2012BAC03B02）“区域循环经济技术及发展模式的风险评估及决策支持研究”，子课题负责人，2012-2015
国家自然科学基金重大研究计划培育项目（**）“黑河流域地表－地下水耦合模拟的不确定性问题研究”，项目负责人，2012-2014
国家自然科学基金青年科学基金项目（**）“流域非点源污染分布式模拟的不确定性分析方法研究”，项目负责人，2010-2012
国家科技支撑计划课题（2009BAC64B02）“中国循环经济发展模式的系统评价与决策支持技术研究”，子课题负责人，2009-2011
国家自然科学基金课题（）“气候和土地利用变化条件下海岸带流域水资源的耦合模拟和不确定性分析”，项目骨干，2010-2012
国家“水体污染控制与治理科技重大专项”课题（2009ZX07632-001-05）“跨行政区水污染协调和管理机制及试点示范研究”，项目骨干，2009-2011
国家“水体污染控制与治理科技重大专项”课题（2009ZX07212－001－07）“湘江水环境重金属污染整治关键技术研究与综合示范课题”，项目骨干，2009-2011
美国能源基金会中国可持续能源项目（G-0911-11672），Barriers Assessment and Integrated Policy Development of Critical Energy-saving Technologies Promotion，项目负责人，2009-2010
讲授的本科生及研究生课程:
1. 水文学与水资源
2. 水环境模拟
3. 流域水文模拟专题
4. 水文学原理与应用

主要学术论文：
1. Zhao X#, Qiu W*, Zheng Y*, Xiong J, Gao C, Hu S (2019). Occurrence, distribution, bioaccumulation, and ecological risk of bisphenol analogues, parabens and their metabolites in the Pearl River Estuary, South China, Ecotoxicology and environmental safety, 180: 43-52.
2. Jiang S#, Babovic V, Zheng Y*, Xiong J (2019). Advancing opportunistic sensing in hydrology: a novel approach to measuring rainfall with ordinary surveillance cameras, Water Resources Research, 55(4): 3004-3027. [Eos Research Spotlight]
3. Mao G, Liu J, Han F, Meng Y, Tian Y, Zheng Y, Zheng C (2019). Assessing the interlinkage of green and blue water in an arid catchment in Northwest China, Environmental geochemistry and health, 1-21.
4. Chen C, Tian Y, Zhang YK, He X, Yang X, Liang X, Zheng Y, Han F, Zheng C, Yang C (2019). Effects of agricultural activities on the temporal variations of streamflow: trends and long memory, Stoch Environ Res Risk Assess. https://doi.org/10.1007/s00477-019-01714-x.
5. Niu G#, Zheng Y*, Han F, Qin H (2019). The nexus of water, ecosystems and agriculture in arid areas: A multiobjective optimization study on system efficiencies, Agricultural Water Management, 223: 105697.
6. Yu C, Wei S#, Zhang Y, Zheng Y, Yu Z, Donahoe R, Wei H (2019). Quantifying colloid fate and transport through dense vegetation and soil systems using a particle-plugging tempered fractional-derivative model, Journal of contaminant hydrology, 224:103484.
7. Xu P#, Liao Y, Zheng Y*, Zhao C, Zhang X, Zheng Z, Luan S (2019). Northward shift of historical methane emission hotspots from the livestock sector in China and assessment of potential mitigation options, Agricultural and Forest Meteorology, 272: 1-11
8. Chen X, Xu B, Zheng Y*, Zhang C* (2019). Nexus of water, energy and ecosystems in the upper Mekong River: A system analysis of phosphorus transport through cascade reservoirs, Science of The Total Environment, 671: 1179-1191.
9. Li X, Gentine P, Lin C, Zhou S, Sun Z, Zheng Y, Liu J, Zheng C (2019). A simple and objective method to partition evapotranspiration into transpiration and evaporation at eddy-covariance sites, Agricultural and Forest Meteorology, 265: 171-182.
10. Feng L, Hou X, Zheng Y (2019). Monitoring and understanding the water transparency changes of fifty large lakes on the Yangtze Plain based on long-term MODIS observations, Remote Sensing of Environment, 221: 675-686.
11. Qiu W, Zheng M, Sun J, Tian Y, Fang M, Zheng Y, Zhang T, Zheng C (2019). Photolysis of enrofloxacin, pefloxacin and sulfaquinoxaline in aqueous solution by UV/H2O2, UV/Fe (II), and UV/H2O2/Fe (II) and the toxicity of the final reaction solutions on zebrafish embryos, Science of The Total Environment, 651: 1457-1468.
12. Joo J, Tian Y, Zheng C, Zheng Y, Sun Z, Zhang A, Chang H (2018). An Integrated Modeling Approach to Study the Surface Water-Groundwater Interactions and Influence of Temporal Damping Effects on the Hydrological Cycle in the Miho Catchment in South Korea, Water, 10(11): 1529.
13. Jiang S#, Zheng Y*, Babovic V, Tian Y, Han F (2018). A computer vision-based approach to fusing spatiotemporal data for hydrological modeling, Journal of Hydrology, 567: 25-40.
14. Sun Z#, Zheng Y*, Li X, Tian Y, Han F, Zhong Y, Liu J, Zheng C (2018). The Nexus of Water, Ecosystems, and Agriculture in Endorheic River Basins: A System Analysis Based on Integrated Ecohydrological Modeling, Water Resources Research, 54. https://doi.org/10.1029/2018WR023364.
15. Tian Y, Xiong J, He X, Pi X, Jiang S, Han F, Zheng Y* (2018). Joint operation of surface water and groundwater reservoirs to address water conflicts in arid regions: An integrated modeling study, Water, 10(8), 1105.
16. Yao Y, Tian Y, Andrews C, Li X, Zheng Y, Zheng C (2018). Role of Groundwater in the Dryland Ecohydrological System: A Case Study of the Heihe River Basin, Journal of Geophysical Research: Atmospheres, 123(13): 6760-6776.
17. Jiang J, Han F, Zheng Y, Wang N, Yuan Y (2018). Inverse uncertainty characteristics of pollution source identification for river chemical spill incidents by stochastic analysis, Frontiers of Environmental Science & Engineering, 12(5): 6.
18. Mo J, Yang Q, Zhang N, Zhang W, Zheng Y, Zhang Z (2018). A review on agro-industrial waste (AIW) derived adsorbents for water and wastewater treatment, Journal of environmental management, 227:395-405.
19. Feng L, Hou X, Li J, Zheng Y (2018). Exploring the potential of Rayleigh-corrected reflectance in coastal and inland water applications: A simple aerosol correction method and its merits, ISPRS Journal of Photogrammetry and Remote Sensing, 146: 52-64.
20. Li X, Cheng G, Ge Y, Li H, Han F, Hu X, Tian W, Tian Y, Pan X, Nian Y, Zhang Y, Ran Y, Zheng Y, Gao B, Yang D, Zheng C, Wang S, Liu S, Cai X (2018). Hydrological cycle in the Heihe River Basin and its implication for water resource management in endorheic basins, Journal of Geophysical Research: Atmospheres, 123:890–914.
21. Tian Y, Zheng Y*, Han F, Zheng C, Li X (2018). A comprehensive graphical modeling platform designed for integrated hydrological simulation, Environmental Modelling & Software, 108: 154–173.
22. Han F#, Zheng Y* (2018). Joint analysis of input and parametric uncertainties in watershed water quality modeling: A formal Bayesian approach, Advances in Water Resources, 116: 77-94.
23. Feng D#, Zheng Y*, Mao Y, Zhang A, Wu B, Li J, Tian Y, Wu X (2018). An integrated hydrological modeling approach for detection and attribution of climatic and human impacts on coastal water resources, Journal of Hydrology, 557: 305-320.
24. Qiu W, Shao H, Lei P, Zheng C, Qiu C, Yang M*, Zheng Y* (2018). Immunotoxicity of bisphenol S and F are similar to that of bisphenol A during zebrafish early development, Chemosphere, 194: 1-8.
25. Shi B, Jiang J, Sivakumar B, Zheng Y, Wang P (2018). Quantitative design of emergency monitoring network for river chemical spills based on discrete entropy theory, Water Research, 134: 140-152.
26. Zheng Y, Zhang W, Tang B, Bin L, Ding J, Zheng Y, Zhang Z (2018). Membrane fouling mechanism of biofilm-membrane bioreactor (BF-MBR): Pore blocking model and membrane cleaning, Bioresource Technology, 250: 398-405.
27. Wang L, Liang W, Chen W, Zhang W, Mo J, Liang K, Tang B, Zheng Y, Jiang F (2018). Integrated aerobic granular sludge and membrane process for enabling municipal wastewater treatment and reuse water production, Chemical Engineering Journal, 337: 300-311.
28. Khan A, Jiang J, Wang P, Zheng Y (2017). Influence of topographic and socio-economic attributes on the climate sensitivity of global river water quality, Environmental Research Letters, 12: 104012.
29. Yao Y, Zheng C, Andrews C, Zheng Y, Zhang A, Liu J (2017). What controls the partitioning between baseflow and mountain block recharge in the Qinghai-Tibet Plateau? Geophysical Research Letters, 44: 8352-8358. [GRL’s issue cover article]
30. Wu X#, Zheng Y*, Zhang J, Wu B, Wang S, Tian Y, Li J, Meng X (2017). Investigating hydrochemical groundwater processes in an inland agricultural area with limited data: a clustering approach, Water, 9, 723; doi:10.3390/w**.
31. Li X#, Zheng Y*, Sun Z, Tian Y, Zheng C, Liu J, Liu S, Xu Z (2017). An integrated ecohydrological modeling approach to exploring the dynamic interaction between groundwater and phreatophytes, Ecological Modelling, 356: 127-140.
32. Li J#, Zheng Y*, Luo X, Lin Z, Zhang W, Wang X (2016). PAHs contamination in Beijing’s topsoil: a unique indicator of the megacity’s evolving energy consumption and environmental quality, Scientific Reports, 6: 33245.
33. Han F#, Zheng Y* (2016). Multiple-response Bayesian calibration of watershed water quality models with significant input and model structure errors, Advances in Water Resources, 88: 109-123.
34. Wu X#, Zheng Y*, Wu B, Tian Y, Han F, Zheng C (2016). Optimizing conjunctive use of surface water and groundwater for irrigation to address human-nature water conflicts: a surrogate modeling approach, Agricultural Water Management, 163: 380-392.
35. Zheng Y*, Luo X, Zhang W, Wu X, Zhang J, Han F (2016). Transport mechanisms of soil-bound mercury in the erosion process during rainfall-runoff events, Environmental Pollution, 215: 10-17.
36. Tian Y#, Zheng Y*, Zheng C (2016). Development of a 3D visualization tool for integrated surface water and groundwater modeling, Computers & Geosciences, 86: 1-14.
37. Zheng Y*, Han F (2016). Markov Chain Monte Carlo (MCMC) uncertainty analysis for watershed water quality modeling and management, Stochastic Environmental Research and Risk Assessment, 301: 291-308.
38. Tian Y#, Zheng Y*, Zheng C, Xiao H, Fan W, Zou S, Wu B, Yao Y, Zhang A, Liu J (2015). Exploring scale-dependent ecohydrological responses in a large endorheic river basin through integrated surface water-groundwater modeling, Water Resources Research, 51: 4065-4085.
39. Wu B#, Zheng Y*, Wu X, Tian Y, Han F, Liu J, Zheng C (2015). Optimizing water resources management in large river basins with integrated surface water-groundwater modeling: a surrogate-based approach, Water Resources Research, 51: 2153-2173. [Featured Article of WRR]
40. Tian Y#, Zheng Y*, Wu B, Wu X, Liu J, Zheng C (2015). Modeling surface water-groundwater interaction in arid and semi-arid regions with intensive agriculture, Environmental Modelling & Software, 63: 170-184.
41. Luo X#, Zheng Y*, Lin Z, Wu B, Han F, Tian Y, Zhang W, Wang X (2015). Evaluating potential non-point source loading of PAHs from contaminated soils: A fugacity-based modeling approach, Environmental Pollution, 196: 1-11.
42. Yao Y, Zheng C*, Tian Y, Liu J, Zheng Y (2015). Numerical modeling of regional groundwater flow in the Heihe River Basin, China: Advances and new insights, Science China Earth Sciences, 58: 3-15.
43. Wu B#, Zheng Y*, Tian Y, Wu X, Yao Y, Han F, Liu J, Zheng C (2014). Systematic assessment of the uncertainty in integrated surface water-groundwater modeling based on the probabilistic collocation method, Water Resources Research, 50: 5848-5865. [WRR Editor’s Highlight, issue cover article]
44. Zheng Y*, Lin Z, Li H, Ge Y, Zhang W, Ye Y, Wang X (2014). Assessing the polycyclic aromatic hydrocarbon (PAH) pollution of urban stormwater runoff: A dynamic modeling approach, Science of the Total Environment, 481: 554-563.
45. Luo X#, Zheng Y*, Wu B, Lin Z, Han F, Zhang W, Wang X (2013). Impact of carbonaceous materials in soil on the transport of soil-bound PAHs during rainfall-runoff events, Environmental Pollution, 182: 233-241.
46. Wu B#, Zheng Y* (2013). Assessing the value of information for water quality management: a watershed perspective from China, Environmental Monitoring and Assessment, 185(4): 3023-3035.
47. Zheng Y*, Luo X, Zhang W, Wu B, Han F, Lin Z, Wang X (2012). Enrichment behavior and transport mechanism of soil-bound PAHs during rainfall-runoff events, Environmental Pollution, 171: 85-92.
48. Zheng Y*, Wang W, Han F, Ping J (2011). Uncertainty assessment for watershed water quality modeling: a Probabilistic Collocation Method based approach. Advances in Water Resources, 34: 887-898.
49. Zheng Y, Keller AA (2008). Stochastic watershed water quality simulation for TMDL development – a case study in Newport Bay watershed. Journal of the American Water Resources Association, 44(6): 1397-1410.
50. Zheng Y, Keller AA (2007a). Uncertainty assessment in watershed-scale water quality modeling and management: 1. Framework and application of Generalized Likelihood Uncertainty Estimation (GLUE) approach. Water Resources Research, 43, doi:10.1029/2006WR005345.
51. Zheng Y, Keller AA (2007b). Uncertainty assessment in watershed-scale water quality modeling and management: 2. Management Objectives Constrained Analysis of Uncertainty (MOCAU). Water Resources Research, 43, doi:10.1029/2006WR005346.
52. Zheng Y, Keller AA (2006). Understanding parameter sensitivity and its management implications in watershed‐scale water quality modeling. Water Resources Research, 42, doi:10.1029/2005WR004539.
53. Keller AA, Zheng Y, Robinson TH (2004). Determining critical water quality conditions for inorganic nitrogen in dry semi-urbanized watersheds. Journal of the American Water Resources Association, 40: 721-735.
54. Wang X, Zheng Y, Liu R, Li B, Cao J, Tao S (2003). Medium scale spatial structures of polycyclic aromatic hydrocarbons in the topsoil of Tianjin area. Journal of Environmental Science and Health, part B, B38: 327-335.
55. Wang X, Zheng Y, Liu R, Li B, Cao J, Tao S (2003). Kriging and PAHs pollution assessment in the topsoil of Tianjin area. Bulletin of Environmental Contamination and Toxicology, 71: 189-195.
英文著作章节:
Yi Zheng*, Feng Han, Yong Tian, Bin Wu, Zhongrong Lin, Ecological Modelling and Engineering of Lakes and Wetlands (Chapter 5), Elsevier, 2014, ISBN: 978-0-444-63249-4.