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讲师

刘莹

发布日期:2021-08-25浏览次数:信息来源:土地科学与技术学院


姓名: 刘莹

性别: 女

职称: 讲师

Email: liuy677@cau.edu.cn

办公电话: 

办公地址:资环楼四区423室

  教育背景

2008.09-2012.07 河南师范大学 生命科学学院 理学学士

2012.09-2014.07 中国地质大学(北京) 水资源与环境学院 理学硕士

2014.09-2018.07 中国地质大学(北京) 水资源与环境学院 工学博士

  工作履历

2018.10-2021.07 北京大学 地球与空间科学学院  博士后

2021.7-                中国农业大学 土地科学与技术学院 讲师

  研究领域

1. 微生物介导的元素地球化学循环过程

2. 微生物群落多样性及生态聚集机制

3. 土壤矿物—微生物胞外电子传递机理

 主持项目

1. 国家自然科学基金-青年基金 "黄海近海透光层半导体矿物光电子调控微生物反硝化机制及外源电子传递路径研究"(2022.01-2024.12)

2. 中国博士后基金面上项目"河口与近海透光层半导体矿物光电子调控反硝化机理研究"(2020.09-2021.07)

  学术成果

 一、发表论文

2021年:

1. Liu Y., Sheng Y. 2021. Iron controls the assembly processes of heterotrophic denitrifying microbial communities. Environmental chemistry letters, 19: 1865-1872.

2. Sheng Y.1, Liu Y.1, Yang J., Dong H., Liu B., Zhang H., Li A., Wei Y., Li G., Zhang D. 2021 History of petroleum contamination triggering the depth-resolved assembly of microbial communities in the vadose zone. Journal of Hazardous Materials, 42(15): 124060.

3. Ruan C., Niu X., Xiong G., Chen G., Wu H., Ma Z., Zhu K., Liu Y., Wang G. 2021. Phenotypic and genotypic characterization of the new Bacillus cereus phage SWEP1. Archives of Virology. (In Press)

4. Liu J., Liu X., Ding H., Ren G., Sun Y., Liu Y., Ji X., Ma L., Li Y., Lu A. 2021. Enhanced Mechanism of Extracellular Electron transfer between semiconducting minerals anatase and Pseudomonas aeruginosa PAO1 in euphotic zone. Bioelectrochemistry, 141(16): 107849.

5. 阮楚晋,熊广州,牛欣尧,陈国炜,吴汉卿,马泽超,朱堃,刘莹,王钢. 2021. 一个东北农田黑土样品宏病毒组的初步分析. 土壤学报. (In Press)

2020年:

1.Liu Y., Sheng Y., Feng C., Chen N., Liu T. 2020. Distinct functional microbial communities mediating the heterotrophic denitrification in response to the excessive Fe(II) stress in groundwater under wheat-rice stone and rock phosphate amendments. Environmental Research, 185, 109391.

2.Liu Y., Sheng Y., Feng C., Chen N., Liu T. 2020. Distinct functional microbial communities mediating the heterotrophic denitrification in response to the excessive Fe(II) stress in groundwater under wheat-rice stone and rock phosphate amendments. Environmental Research. 185, 109391.

3. Liu, Y., Ding, H. Sun, Y. Li, Y., Lu, A. 2020. Photoelectron shaping marine microbial compositional and metabolic variation in the photic zone around estuary and offshore area of yellow sea, China. Geomicrobiology Journal. 37(8):716-725.

4. Sheng Y., Li G., Dong H., Liu Y., Ma L., Yang M., Liu Y., Liu J., Deng S., Zhang D 2020. Distinct assembly processes shape bacterial communities along unsaturated, groundwater fluctuated, and saturated zones. Science of the Total Environment. 761(3): 143303.

5. Liu J., Sun Y., Lu A., Liu Y., Ren G., Li Y., Li Y., Ding H. 2020. Extracellular electron transfer electrochemically active bacteria community promoted by semiconducting minerals with photo-response in marine euphotic zone. Geomicrobiology Journal, 38(15): 1-11.

2018年:

1. Liu Y., Feng C., Sheng Y., Chen N., Hao C., Dong S. 2018. Effect of Fe(II) on reactivity of heterotrophic denitrifiers in the remediation of nitrate- and Fe(II)-contaminated groundwater. Ecotoxicology and Environmental Safety, 166: 437-445.

2. Liu Y., Chen N., Liu Y., Liu H., Feng C., Li M. 2018. Simultaneous removal of nitrate and hydrogen sulfide by autotrophic denitrification in nitrate-contaminated water treatment. Environmental Technology, 40(18): 2325-2336.

3. Dong S., Feng C. Cui W. Chen N., Liu Y., Liu T. (2018) Anaerobic bioremediation performance and indigenous microbial communities in treatment of trichloroethylene/nitrate-contaminated groundwater. Environmental Engineering Science, 35(4): 311-322.

4. 盛益之, 王广才, 刘莹, 李广贺. 2018. 煤矿酸性矿井水主动式生物修复中铁的行为与归宿. 地学前缘, 25(4): 299-306.

2016年及以前:

1. Liu Y.,  Feng C., Chen N., Sheng Y., Dong S., Hao C., Lei K. 2016. Bioremediation of nitrate and Fe(II) combined contamination in groundwater by heterotrophic denitrifying bacteria and microbial community analysis. RSC Advances, 6:108375-108383.

2. Li R., Feng C., Hu W., Xi B., Chen N., Zhao B., Liu Y., Hao C., Pu J. 2016. Woodchip-sulfur based heterotrophic and autotrophic denitrification (WSHAD) process for nitrate contaminated water remediation. Water Research, 89: 171-179.

3. Zhang B., Tian C., Liu Y., Hao L., Liu Y., Feng C. 2015. Simultaneous microbial and electrochemical reductions of vanadium (V) with bioelectricity generation in microbial fuel cells. Bioresource Technology, 179:91-97.

4. Liu H., Tong S., Chen N., Liu Y., Feng C., Hu Q. 2015. Effect of electro-stimulation on activity of heterotrophic denitrifying bacteria and denitrification performance. Bioresource Technology, 196: 123-128.

5. Pu J., Feng C., Liu Y., Li R., Kong Z., Chen N., Tong S., Hao C., Liu Y. 2014. Pyrite-based autotrophic denitrification for remediation of nitrate contaminated groundwater. Bioresource Technology, 173: 117-123.

6. 刘莹, 王丽华, 郝春博, 李璐, 李思远, 冯传平. 2014. 酸性矿山废水库周边土壤微生物多样性及氨氧化菌群落研究. 环境科学, 35(6): 2305-2313.