Education Background
Nanjing Agricultural University, Doctor of Environmental Pollution Control Engineering, Sep 2013-Jun 2019
Zhejiang University of Science and Technology, Environmental Engineering (Master Tutor), Aug 2019-Present
Email: 119049@zust.edu.cn
Main Research Interests
The risk evaluations of antibiotic resistance bacteria (ARB) and antibiotic resistance genes (ARGs) in human associated environments and the investigations of treating technologies for animal manures to limit ARB and ARGs spread.
Main Research Projects
National Natural Science Foundation of China, 42107421, The enrichment and migration of plasmids-carried antibiotic resistance genes with high environmental risk from pig manure into different types of soils
Main Published Papers
Lu Yi; Xiao Yifan; Zheng Guanyu; Lu Junhe; Zhou Lixiang; Conditioning with zero-valent iron or Fe2+ activated peroxydisulfate at an acidic initial sludge pH removed intracellular antibiotic resistance genes but increased extracellular antibiotic resistance genes in sewage sludge, Journal of Hazardous Materials, 2020, 386.
Lu Yi; Li Jingming; Meng Jun; Zhang Jin; Zhuang Haifeng; Zheng Guanyu; Xie Wanying; Ping Lifeng; Shan Shengdao ; Long-term biogas slurry application increased antibiotics accumulation and antibiotic resistance genes (ARGs) spread in agricultural soils with different properties, Science of the Total Environment, 2021, 759.
Lu Yi; Sun Renhua; Zhang Changai; Ding Shaohua; Ying Mengfei; Shan Shengdao; In situ analysis of antibiotic resistance genes in anaerobically digested dairy manure and its subsequent disposal facilities, Bioresource Technology, 2021, 333.
Yi Lu; Jiajun Wang; Xinxin Wang; Xiaoqing Meng; Su Yan; Yu Chen; Lixiang Zhou; Guanyu Zheng; Sludge Conditioning Treatments Impact the Fate of Antibiotic Resistance Genes in Agricultural Soils Amended with Sludge Composts, ACS ES&T engineering, 2022, 2(10): 1920-1932.
Yi Lu; Xiaoqing Meng; Jiajun Wang; Mahlatsi Yorgan Dieketseng; Yifan Xiao; Su Yan; Yu Chen; Lixiang Zhou; Guanyu Zheng; Bioleaching rather than chemical conditioning using Fe[III]/CaO or polyacrylamide mitigates antibiotic resistance in sludge composting via pre-removing antibiotic
resistance genes and limiting horizontal gene transfer, Waste Management, 2022, 137: 89-99.
