贾丽萍，女，博士，副教授，硕士生导师，1993年10月生人，祖籍辽宁省营口市。2020年毕业于东北大学资源与土木工程学院，师从姜彬慧、胡筱敏教授，现就职于闽南师范大学，从事环境科学与工程的教学和科研工作。主要从事水污染控制与生态处理相关研究，目前主持国家自然科学基金青年项目1项、福建省自然科学青年基金项目1项，以第一作者或通讯作者发表SCI论文10篇，在中文核心刊物发表论文6篇，授权国家发明专利2项，实用新型专利1项。

主讲课程

土壤及地下水污染修复，水污染控制工程，环境工程制图

主持项目：

(1) 调控磷循环实现地下渗滤系统脱氮效能和服务年限同步提升及机制研究，国家自然科学基金青年科学基金项目，2022，主持；

(2) 基于Si-Fe系陶瓷材料固定脱氮菌的改良污水地下渗滤系统提高农村分散生活污水处理能力及其机理研究，2 福建省自然科学基金青年项目，2022，主持；

(3) 生物酵素-植物联合修复铬污染土壤的研究，福建省科技厅青年基金项目，2021，主持；

(4) 生物酵素提高植物对铬污染土壤提取的研究，闽南师范大学科研启动基金，2020，主持。

代表性成果：

（一）专著

晁雷，李亮，贾丽萍等编. 辽河流域面源氨氮污染控制技术（SBN：9787122403568）. 北京，化学工人出版社, 2021年. 副主编.

（二）代表性论著

(1) Jia LP, Sun N, Fang LC, Cheng XL, Huang XG. Enhancing the phytoextraction capacity of chromium-contaminated soil by co-addition of garbage enzymes and microelectrolytic iron-carbon fillers [J]. Environmental Pollution. 2024, 363: 125224.

(2) Jia LP, Sun N, Wang Z, Tian YQ, Fang LC, Huang XG. Mimicking biological method with inorganic and organic compounds modified clays for continuous controlling of Microcystis aeruginosa [J]. Environmental Technology & Innovation. 2024, 36: 103821.

(3) Jia LP, Cheng XL, Fang LC, Huang XG. Flocculation and lysis of Microcystis aeruginosa by Paebubacillus sp. A9 and inhibition of microcystin release [J]. Environmental Technology & Innovation. 2023, 31: 103152.

(4) Jia LP, Cheng XL, Fang LC, Huang XG. Nitrogen removal in improved subsurface wastewater infiltration system: Mechanism, microbial indicators and the limitation of phosphorus [J]. Journal of Environmental Management. 2023, 335: 117456.

(5) Qin SN, Huang F, Jiang BH, Jia LP^*. Evaluation of the removal performance in long-term operation of bioaugmented subsurface wastewater infiltration systems under a high hydraulic loading rate [J]. Environmental Technology & Innovation. 2021, 24: 101918.

(6) Jiang BH, Zhang B, Jia LP^*. Analysis of microbial community structure and diversity in surrounding rock soil of different waste dump sites in fushun western opencast mine [J]. Chemosphere. 2021, 269: 128777.

(7) Jia LP, Jiang BH, Huang F, Hu XM. Removal performance of high hydraulic loading rate subsurface wastewater infiltration systems adding Si-Al porous clay mineral material and scrap iron filings [J]. Ecological Engineering. 2020, 150: 105818.

(8) Jia LP, Jiang BH, Huang F, Hu XM. Adsorption and Mechanism of Nitrate from Groundwater onto Si-Al Porous Clay Mineral Material as Ceramic Waste: Characterization, Kinetics and Adsorption Isotherms [J]. Desalination and Water Treatment. 2020, 202: 251-263.

(9) Jiang BH, Li Y, Wang HY, Jia LP^*. Application of a new type of Si-Al porous clay material as a solid phase support for immobilizing Acidovorax sp. PM3 to treat domestic sewage [J]. Adsorption Science and Technology. 2019, 37(9-10): 729-744.

(10) Jia LP, Jiang BH, Huang F, Hu XM. Nitrogen removal mechanism and microbial community changes of bioaugmentation subsurface wastewater infiltration system [J]. Bioresource Technology. 2019, 294: 122140.

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