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  • 姓名:季宏兵
    环境科学与工程系
    教授
  • 办公地点:
    土木楼716
  • 办公电话:
    010-62332750
  • Email:
    ji.hongbing@hotmail.com

季宏兵环境科学与工程系



学习工作简历:

学习经历:

1997年-2000年,中国科学院地球化学研究所,博士

1990年-1993年,中国科学院地球化学研究所,硕士

1986年-1990年,吉林大学(原长春地质学院),学士

 

工作经历:

2010年-至今,   太阳成集团tyc234cc,教授、博士生导师

2012年-2015年, 中国科学院地球化学研究所,研究员,博士生导师,执行中科院“百人计划”

2006年-2007年,美国新泽西州立大学(Rutgers University)环境科学系,高级访问学者

2003年-2010年,首都师范大学资源与环境旅游学院,任副教授、教授、博士生导师

2001年-2003年,中国科学院地理与资源科学研究所,博士后、副研究员

1993年-2001年,中国科学院地球化学研究所,任实习、助理和副研究员

 

研究领域:

1.   土壤、地下水污染与修复技术

2.   生物地球化学与生物技术

3.   环境功能材料与生态毒理

4.   环境过程与示踪

 

研究生培养:

已毕业国内外博士生16名(留学博士2名)和硕士生70名(留学硕士1名)[在太阳集团欢迎您已培养国内外博士生7名(留学生博士2名)和硕士生22名(留学硕士1名)],其中,1名研究生获得太阳集团欢迎您优秀博士毕业论文等称号。

 

本科生课程:

1.  环境毒理学

2.  地下水污染与修复

3.  环境科学与工程进展

 

研究生课程:

1.  环境科学原理

2.  环境生物技术

3.  环境生物地球化学

4.  环境科学与工程进展

 

社会兼职:

中国矿物岩石地球化学学会会员

国际地球化学学会会员

 

代表性论文及著作:

著作/教材:

《Eutrophication: Causes, Economic Implications and Future Challenges》, Nova Science Publishers Inc, (ISBN: 978-1-62808-498-6),2019(参编)


Wei Chaoyang, Geng Di, Ji Hongbing, Using Cyanobacteria as a biosorbent for heavy metals in waste waters: Feasibility and Challenges. In Alain Lambert and Camila Roux eds., Eutrophication: Causes, Economic Implications and Future Challenges, Nova Science Publishers Inc, (ISBN: 978-1-62808-498-6), 2013, 59-94

 

代表性论文:

[1]  Zhang Yan, Wang Xuemei, Ji Hongbing*, Stabilization process and potential of agro-industrial waste on Pb-contaminated soil around Pb-Zn mining, Environmental Pollution, 2020, 260: 114069

[2]  Shen Biaobiao, Wang Xuemei, Zhang Yan, Zhang Meng, Wang Kai, Xie Pan, Ji Hongbing*, Optimum pH and Eh for simultaneously minimizing bioavailable cadmium and arsenic contents in soils under organic fertilizer application. Science of the Total Environment, 2020, 711: 135229

[3]  Zhang Yan, Wang Xuemei, Ji Hongbing*, Co-remediation of Pb contaminated soils by heat modified sawdust and festuca arundinacea. Scientific Reports, 2020,10:4663

[4]  Zhang Yan, Ji Hongbing*, Physiological responses and accumulation characteristics of turfgrasses exposed to potentially toxic elements. Journal of Environmental Management, 2019, 246: 796-807

[5]  Ding Huaijian, Tang Lei, Nie Yining, Ji Hongbing*,Characteristics and interactions of heavy metals with humic acid in gold mining area soil at a upstream of a metropolitan drinking water source. Journal of Geochemical Exploration, 2019, 200: 266-275

[6]  Zhang Chi, Ji Hongbing*,Effects of environmental parameters on the ultraviolet degradation of methylphosphonate, Applied Ecology and Environmental Research, 2019, 17(4): 9473-9482

[7]  Bararunyeretse Prudence, Zhang Yan, Ji Hongbing*,Molecular biology-based analysis of the interactive effect of Nickel and xanthates on soil bacterial community diversity and structure, Sustainability, 2019, 11, 3888

[8]  Chang Cheng, Song Changshun, Beckford Howard Omar, Wang Shijie, Ji Hongbing*,Behaviors of REEs during pedogenetic processes in the karst areas of Southwest China, Journal of Asian Earth Sciences, 2019, 185

[9]  Song Changshun, Ji Hongbing*, Beckford Howard Omar, Chang Cheng, Wang Shijie, Assessment of chemical weathering and physical erosion along a hillslope, southwest China. Catena, 2019, 182

[10]Ji Hongbing*, Zhang Yan, Bararunyeretse Prudence, Li Hongxia, Characterization of microbial communities of soils from gold mine tailings and identification of mercury-resistant strain, Ecotoxicology and Environmental Safety, 2018, 165: 182-193

[11]Ji Hongbing*, Li Hongxia, Zhang Yan, Ding Huaijian, Gao Yang, Xing Yuxin, Distribution and risk assessment of heavy metals in overlying water, porewater and sediments of Yongding River in coal-mine brownfield,Journal of Soils and Sediments,2018,18: 624-639,

[12]Gao Yang, Ji Hongbing*,Characteristics of polycyclic aromatic hydrocarbons components in fine particle during heavy polluting phase of each season in Beijing,Chemosphere,2018,212: 346-357

[13]Gao Yang, Ji Hongbing*,Microscopic morphology and seasonal variation of health effect arising from heavy metals in PM2.5 and PM10: one year measurement campaign in a densely populated area of urban Beijing, Atmospheric Research, 2018, 212: 213-226

[14]Li Hongxia, Ji Hongbing*, Shi Chunjing, Gao Yang, Zhang Yan, Xu Xiangyu, Ding Huaijian, Tang Lei, Xing Yuxin, Distribution of heavy metals and metalloids in bulk and particle size fractions of soils from coal mine brownfield and implications on human health,Chemosphere,2017, 172: 505-515

[15]Xiong Kai, Zhao Jiayin,Yang Daowen,Cheng Qingwen, Wang Jiuling* and Ji Hongbing*, Cooperative wrapping of nanoparticles of various sizes and shapes by lipid membranes,Soft Matter,2017,13(26): 4644-4652

[16]Ji Hongbing*, Li Cai, Ding Huaijian, Gao Yang, Source and flux of POC in a karstic terrain in the Changjiang River watershed: impacts of reservoirs and extreme drought,Biogeosciences, 2016, 13: 3687-3699,

[17]Ji Hongbing*, Ding Huaijian, Tang Lei, Li Cai, Gao Yang, Briki Meryem, Chemical composition and transportation characteristic of trace metals in suspended particulate matter collected at upstream of a metropolitan drinking water source, Beijing, Journal of Geochemical Exploration, 2016, 169: 123-136

[18]Li Cai, Ji Hongbing*, Chemical weathering and the role of sulfuric and nitric acid in carbonate weathering: isotopes (13C, 15N, 34S and 18O) and chemical constraints, Journal of Geophysical Research,2016, 121, 1288-1305

[19]Gao Yang,Guo Xinyue,Ji Hongbing*, Li Cai, Ding Huaijian, Briki Meryem, Tang Lei, Zhang Yan,Potential threat of heavy metals and PAHs in PM2.5 in different urban functional areas of Beijing, Atmospheric Researches, 2016, 178-179, 6-16

[20]Briki Meryem, Ji Hongbing*, Gao Yang, Ding Huajian, Li Cai, Distribution of rare earth elements in agricultural soil and human body (scalp hair and urine) near smelting and mining areas of Hezhang, China, Journal of Rare Earths, 2016, 34(11): 1156-1167

[21]Yin Chuan, Ji Hongbing*, A 137Cs Erosion Model with Moving Boundary,Journal of Environmental Radioactivity, 2015, 150:152-158

[22]Wei Xiao,Ji Hongbing*, Wang Shijie, Chu Huashu, Song Changshun, The formation of representative lateritic weathering covers in south-central Guangxi (southern China). Catena,2014,118:55-72

[23]Qin Fei, Ji Hongbing*, Li Qian, Guo, Xinyue, Tang Lei, Feng Jinguo, Evaluation of trace elements and identification of pollution sources in particle size fractions of soil from iron ore areas along the Chao River,Journal of  Geochemical Exploration, 2014, 138:33-49

[24]Jiang Yongbin, Ji Hongbing*, Isotopic indicators of source and fate of particulate organic carbon in a karstic watershed of Yunnan-Guizhou Plateau. Applied Geochemistry, 2013,36: 153-167

[25]Lu Fengyun, Liu Zhuqin, Ji Hongbing*, Carbon and nitrogen isotopic analysis and source of organic matter in the upper of the Chaobai River near Beijing, China.Science-Earth Science, 2013, 56(2): 217-227

[26]Ji Hongbing*, Jiang Yongbin, Carbon flux and C, S isotopic characteristics of river waters from a karstic and a granitic terrain in the Yangtze River system. Journal of Asian Earth Sciences , 2012, 57:38–53

[27]Zhu Yi, Wang Kebin, Li Yongxin, Bai Kezhi, Kuang Tingyun*, Ji Hongbing*, A simple method for extracting C-phycocyanin from Spirulina platensis using Klebsiella pneumoniae, Applied Microbiology and Biotechnology, 2007,74:244-248

[28]Wang Lifeng, Ji Hongbing, Bai Kezhi, Li Liangbie, Kuang Tingyun*, Photosystem 2 activities of hyper- accumulator Dicranopteris dichotoma Bernh from a light rare earth element mine. Photosynthetica, 2006, 44 (2): 202-207

[29]Ji Hongbing*, Wang Shijie, Ouyang Ziyuan, Zhang Shen et al., Geochemistry of red residua underlying dolomites in karst terrains of Yunnan-Guizhou Plateau: Ⅰ. The formation of the Pingba soil profile. Chemical Geology, 2004, 203: 1-27

[30]Ji Hongbing*, Wang Shijie, Ouyang Ziyuan, Zhang Shen et al., Geochemistry of red residua underlying dolomites in karst terrains of Yunnan-Guizhou Plateau: Ⅱ.The mobility of rare earth elements during weathering. Chemical Geology, 2004, 203: 29-50

 

专利、获奖

专利:

一种资源化处理镉污染废水的方法,ZL 2008 1 0167720.1

一种重金属污染螺旋藻的处理方法,2008101825006

 

获奖:

1.2006年,入选新世纪百千万人才工程北京市人选

2.2001年,获中科院王宽诚博士后奖励基金

3.1999年,获中国科学院院长奖学金优秀奖

 

科研项目:

1.   国家自然科学基金面上项目(主持)“喀斯特关键带的土壤生物地球化学过程及侵蚀研究”,2015-2018

2.   国家重大研发计划(973项目,参与)“基于水-岩-土-气-生相互作用的喀斯特的碳循环模式及调控机理”, 2012-2017

3.   中国科学院“百人计划”项目(人才项目)“关键带的风化侵蚀、碳循环及相关研究”,2012-2015

4.   北京市财政项目(横向项目,参与)“北京市矿山地质环境现状调查评估及治理对策研究”(两期),2016-2019

5.   北京市财政项目(横向项目,参与)“北京市矿山地质环境监测系统建设项目(一期)示范区年度监测运行子课题——北山地区监测数据分析支撑及数据模型评价”, 2015-2018

6.   国家自然科学基金面上项目(主持)“北京水源地环境固体中腐殖质与重金属相互作用机理及影响研究”,2012-2015

7.   国家自然科学基金面上项目(主持)“西南喀斯特地区临界带的风化侵蚀与碳循环”,2011-2013

8.   北京市教委项目(主持)“北京湿地重金属沉积地球化学过程及其环境效应“, 2009-2010

9.   国家重大研发计划(973项目,参与)“西南卡斯特山地土壤侵蚀过程与水土流失的危险度评价”,2007-2011

10. 北京市优秀人才项目(主持)“复合污染的生物地球化学过程和生物修复”, 2005-2007

11. 新世纪人才工程北京市人选培养经费项目(主持)“藻类在生物修复过程中的离子组学研究”,2007-2009

12. 国家自然科学基金面上项目(负责人)“岩溶生态系统对大气CO2平衡和海水Sr同位素变化的影响”,2005-2007

13. 科技部科研院所社会公益基金(横向项目,参与)“我国历代疫病的时空分布规律与地理环境研究”, 2004-2006

14. 国家自然科学基金重点项目(参与)“农田重金属污染的环境生物地球化学过程与植物修复机理”,2003-2005

15. 博士后基金和中科院王宽诚博士后奖励基金(主持)“中国亚热带富稀土景观中稀土元素的分布、分异机制及生态效应”,2001-2003

16. 国家自然科学基金重点基金(参与)“碳酸盐岩风化成土的地球化学过程和环境变化”,1999-2002

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