 |
姓名:李洁明 |
性别:男 |
职称:副教授/博士生导师 |
email:[email protected] |
办公电话:010-62731130 |
办公地址:资环楼一区209室 |
教育背景
2001.09-2005.06 中国农业大学 环境工程系 本科 工学学士
2005.09-2008.06 南开大学 环境科学系 理学硕士
2008.08-2011.07 日本筑波大学 生命环境科学系 工学博士
工作履历
2012.03-2014.11 中国农业大学 资源与环境学院 讲师
2014.12- 中国农业大学 资源与环境学院 副教授
研究领域
1. 蓝藻水华生态修复,包括蓝藻生长调控、藻际互作、藻毒素去除的机理与技术研发
2. 运用生物炭进行土壤改良、污染修复及机理,新型材料研发,研究运用分子生物、生物化学、遗传学、环境化学、材料学、现代仪器分析等技术。
奖励与荣誉
中国农业大学2018届本科生“百篇优秀毕业论文(设计)”优秀指导教师奖(2018年)
中国农业大学资源与环境学院优秀工会干部(2018年)
中国农业大学资源与环境学院第十届青年教师基本功大赛二等奖(2015年)
中国农业大学教职工运动会800米(甲组)第三名(2013年)
主持项目
主持项目共10项:
1. 国家自然科学基金面上项目,2019.01~2022.12,71.2万
2. 国家重点研发计划项目子课题 ,2018.12~2020.09,子课题97.3万
3. 中央高校基本科研业务费专项基金项目,2019.01~2019.12,20万
4. “双一流”研究生全英文课程建设项目,2019.01~2019.11,5万
5. 北京市自然科学基金面上项目,2018.01~2020.12,20万
6. 国家重点研发计划项目子课题,2017.09~2020.06,子课题37.8万
7. 国家自然科学基金青年基金项目,2014.01~2016.12,23万
8. 教育部留学回国人员科研启动基金项目,2014.09~2017.09,3万
9. 教育部高等学校博士学科点专项科研基金项目,2014.01~2016.12,4万
10. 中央高校基本科研业务费专项基金项目,2013.01~2015.12,10万
学术成果
一、发表论文(标*为通讯作者, 第一/通讯作者文章h-index: 10)
2021年:
1. biying li, jieming li*, guangqi an, et al. 2021. long-term and strong suppression against microcystis growth and microcystin-release by luteolin continuous-release microsphere: optimal construction, characterization, effects and proteomic mechanisms. water research, 754: 141921. (影响因子:11.236).
2. qianruo wan, jieming li*, yanran chen. 2021. comparative growth and cellular responses of toxigenic microcystis exposed to different types of microplastics at various doses. environmental pollution, 290: 117950. (影响因子:8.071).
3. yue yuan, jieming li*, chengyu wang, et al. 2021. contrasting microcystin-lr sorption and desorption capability of different farmland soils: effect of biochar dose and aging time. environmental pollution, 286: 117364. (影响因子:8.071).
4. jieming li*, linrong cao, zhonghui guo, et al. 2021. time- and dose-dependent allelopathic effects and mechanisms of kaempferol on toxigenic microcystis growth. ecotoxicology and environmental safety, 222: 112508. (影响因子:6.291).
2020年:
1. yue yuan, jieming li*, haixiao dai. 2020. microcystin-lr sorption and desorption by diverse biochars: capabilities, and elucidating mechanisms from novel insights of sorption domains and site energy distribution. science of the total environment, 754, 141921. (影响因子:7.963).
2. ruiping wang, jieming li*, ji li. 2020. functional and structural analyses for mlrc enzyme of novosphingobium sp. thn1 in microcystin-biodegradation: involving optimized heterologous expression, bioinformatics and site-directed mutagenesis. chemosphere, 255: 126906. (:7.086).
3. jieming li*, jiaqi hu, linrong cao, et al. 2020. growth, physiological responses and microcystin-production/-release dynamics of microcystis aeruginosa exposed to various luteolin doses. ecotoxicology and environmental safety, 196: 110540. (影响因子:6.291).
4. jieming li*, lin luo, zhong zhang, et al., 2020. phosphorus influences the interaction between toxigenic microcystis and chloramphenicol. bulletin of environmental contamination and toxicology, 105: 337-344. (影响因子:2.151).
2019年:
1. lin luo, jieming li*, zhong zhang, et al., 2019. phosphorus influences the interaction between toxigenic microcystis and chloramphenicol. bulletin of environmental contamination and toxicology, 102: 391-398. (2.151).
2018年:
1. jieming li*, linrong cao, yuan yue, et al., 2018. comparative study for microcystin-lr sorption onto biochars produced from various plant- and animal-wastes at different pyrolysis temperatures: influencing mechanisms of biochar properties. bioresource technology 247: 794-803. (影响因子:9.642).
2017年:
1. jieming li*, renhui li, ji li. 2017. current research scenario for microcystins biodegradation - a review on fundamental knowledge, application prospects and challenges. science of the total environment, 595: 615-632. (影响因子:7.963).
2. ruiping wang, jieming li*, yongguang jiang, et al. 2017. heterologous expression of mlra gene originated from novosphingobium sp. thn1 to degrade microcystin-rr and identify the first step involved in degradation pathway. chemosphere, 184: 159-167. (影响因子:7.086).
3. 王瑞萍, 李洁明*, 李季, 等. 2017. mlrc基因异源表达系统的构建. 中国科技论文(在线), q74: 1-8.
4. 曹林荣, 李洁明*, 王瑞萍, 等. 2017. 植物化感抑藻作用及机理研究进展. 中国科技论文(在线), 1-17.
2016年:
1. jieming li*, ji li, ge shi, et al. 2016. discerning biodegradation and adsorption of microcystin-lr in a shallow semi-enclosed bay and bacterial community shifts in response to associated process. ecotoxicology and environmental safety, 132: 123-131. (影响因子:6.291).
2015年:
1. jieming li*, kazuya shimizu, haruna akasako, et al. 2015. assessment of the factors contributing to the variations in microcystins biodegrability of the biofilms on a practical biological treatment facility. bioresource technology, 175: 463-472. (影响因子:9.642).
2014年:
1. jieming li, liujing peng, ji li, et al. 2014. divergent responses of functional gene expression to various nutrient conditions during microcystin-lr biodegradation by novosphingobium sp. thn1 strain. bioresource technology, 156: 335-341. 影响因子:9.642).
2013年:
1. zhijiang lu*, jieming li, ryuhei inamori, et al. 2013. comparative study on purification characteristics of various submerged macrophyte species in different seasons. japanese journal of water treatment and biology, 49: 11-19.
2012年:
1. jieming li, kazuya shimizu, hideaki maseda, et al. 2012. investigations into the biodegradation of microcystin-lr mediated by the biofilm in wintertime from a biological treatment facility in a drinking-water treatment plant. bioresource technology, 106: 27-35. (影响因子:9.642).
2011年:
1. jieming li, kazuya shimizu, kishore sakharkar m, et al. 2011. comparative study for the effects of variable nutrient conditions on the biodegradation of microcystin-lr and concurrent dynamics in microcystin-degrading gene abundance. bioresource technology, 102: 9509-9517. 影响因子:9.642).
2. jieming li, kazuya shimizu, motoo utsumi, et al. 2011. dynamics of the functional gene copy number and overall bacterial community during microcystin-lr degradation by a biological treatment facility in a drinking water treatment plant. journal of bioscience and bioengineering, 111: 695-701. (影响因子:2.894).
3. jieming li, kazuya shimizu, yulin zhou, et al. 2011. biodegradation of microcystins by bacterial communities co-existing with flagellate monas guttula and concurrent succession of the community structures. journal of water supply: research and technology-aqua, 60: 352-63. (影响因子:1.644).
4. hongwen sun*, jieming li, cuiping wang, et al. 2011. enhanced microbial removal of pyrene in soils in the presence of earthworms. soil and sediment contamination, 20: 617-630.
5. 菅原崇聖, 吕志江, 李洁明, 等. 2011. 用块状型凝集剂去除高浓度污水中磷的方法解析及评价. “加快经济发展方式转变——环境挑战与机遇”——2011中国环境科学学会学术年会, 中国新疆乌鲁木齐, 8: 17.
6. zhijiang lu, jieming li, ryuhei inamori, et al. 2011. evaluating the effects of surfactant alchol ethoxylates on the stability of model ecosystem with aquatic animals and plants. proceedings of the 14th world lake conference. 27-31 october, 2011, austin, tx, united states.
7. haruna akasako, kazuya shimizu, jieming li, et al. 2011. study of biological treatment facility in a water purification plant, japan. resource environment life, proceedings of doctoral forum of china and the 4th china-japan graduate student forum, pp. 360-365, 24-27 september, 2011, beijing, china.
2010年:
1. gang chen, yulin zhou, jieming li, et al. 2010. development and application of quantitative pcr for monitoring of microbial population dynamics during methane fermentation process. japanese journal of water treatment and biology, 46: 47-57.
2009年:
1. cuiping wang, hongwen sun*, jieming li, et al. 2009. enzyme activities during degradation of polycyclic aromatic hydrocarbons by white rot fungus phanerochaete chrysosporium in soils. chemosphere, 77: 733-738.
2008年:
1. 李洁明, 孙红文*, 李阳, 王翠苹, 张彦峰, 张清敏. 2008. 蚯蚓辅助微生物修复芘污染土壤. 环境科学学报, 28: 1854-1860.
2. 王静, 张彦峰, 姜春晓, 李洁明, 孙红文*, 田丽梅, 徐震, 韩建华, 崔魁柱. 2008. 天津市污灌区重金属在土壤—蔬菜体系中的迁移积累. 城市环境与城市生态, 21: 38-41.
二、 出版著作:
1. norio sugiura*, qiang xue, jieming li, et al. 2012. chapter 12: degradation of some secondary metabolites in aquatic environment. in: prasad, r. and kumar, a. (ed.), environment and biotechnology-biotechnological approach for environmental science, lambert academic publishing, pp: 278-332.