[1]Ultrasensitive chemiluminescence of tetracyclines in the presence of MCLA. Zeng, Wangsheng,Zhu, Chenyao,Liu, Jing,Cai, Hongping,Cheng, Xianglei,Wei, Lijun,Liu, Hongcheng.

[2]Simultaneous Determination of Fluoroquinolones, Tetracyclines and Sulfonamides in Chicken Muscle by UPLC-MS-MS. Shen, Jianzhong,Guo, Liming,Xu, Fei,Xia, Xi,Li, Xiaowei,Ding, Shuangyang,Rao, Qinxiong.

[3]Dynamics of copper and tetracyclines during composting of water hyacinth biomass amended with peat or pig manure. Lu, Xin,Liu, Lizhu,Fan, Ruqin,Luo, Jia,Yan, Shaohua,Zhang, Zhenhua,Rengel, Zed,Zhang, Zhenhua.

[4]Antibiotics and Antibiotic Resistance Genes in Sediment of Honghu Lake and East Dongting Lake, China. Yang, Yuyi,Cao, Xinhua,Wang, Jun,Cao, Xinhua,Lin, Hui,Wang, Jun.

[5]Interaction of veterinary antibiotic tetracyclines and copper on their fates in water and water hyacinth (Eichhornia crassipes). Lu, Xin,Gao, Yan,Luo, Jia,Yan, Shaohua,Zhang, Zhenhua,Lu, Xin,Gao, Yan,Luo, Jia,Yan, Shaohua,Zhang, Zhenhua,Rengel, Zed,Zhang, Zhenhua. 2014

[6]Simultaneous analysis of cyromazine, sulfonamides and tetracyclines in animal wastewater and soil samples by optimized LC-MS/MS. Wei, Ruicheng. 2012

[7]Survey of Tetracyclines, Sulfonamides, Sulfamethazine, and Quinolones in UHT Milk in China Market. Han Rong-wei,Yu Qun-li,Han Rong-wei,Zheng Nan,Wang Jia-qi,Zhen Yun-peng,Li Song-li,Han Rong-wei. 2013

[8]Determination of Tetracyclines and Their Epimers in Agricultural Soil Fertilized with Swine Manure by Ultra-High-Performance Liquid Chromatography Tandem Mass Spectrometry. Zheng Wen-li,Zhang Li-fang,Zhang Ke-yu,Wang Xiao-yang,Xue Fei-qun. 2012

[9]Effect of dietary components on the gut microbiota ofaquatic animals. A never-ending story?. Ringo, E.,Martinsen, L. L.,Sperstad, S.,Zhou, Z.,Vecino, J. L. G.,Wadsworth, S.,Romero, J.,Krogdahl, A.,Olsen, R. E.,Dimitroglou, A.,Foey, A.,Davies, S.,Merrifield, D. L.,Owen, M.,Lauzon, H. L.,de Schryver, P.,Bossier, P.,de Schryver, P.,Bossier, P.,Martinsen, L. L..

[10]Interspecific differences in growth response and tolerance to the antibiotic sulfadiazine in ten clonal wetland plants in South China. Chen, Jinfeng,Sun, Yingbo,Huang, Lili,Zhang, Peixia,Zou, Chunping,Yu, Bo,Zhu, Genfa,Zhao, Chaoyi,Xu, Huilian.

[11]Occurrence of antibiotics in soils and manures from greenhouse vegetable production bases of Beijing, China and an associated risk assessment. Li, Cheng,Chen, Jiayi,Wang, Jihua,Ma, Zhihong,Han, Ping,Luan, Yunxia,Lu, Anxiang,Li, Cheng,Chen, Jiayi,Wang, Jihua,Ma, Zhihong,Han, Ping,Luan, Yunxia,Lu, Anxiang,Lu, Anxiang.

[12]Antibiotic resistance genes in surface water of eutrophic urban lakes are related to heavy metals, antibiotics, lake morphology and anthropic impact. Yang, Yuyi,Xu, Chen,Cao, Xinhua,Wang, Jun,Xu, Chen,Cao, Xinhua,Lin, Hui,Wang, Jun.

[13]Clavicorolides A and B, Sesquiterpenoids from the Fermentation Products of Edible Fungus Clavicorona pyxidata. Zheng, Yongbiao,Shen, Yuemao,Zheng, Yongbiao.

[14]Synthesis and antibacterial evaluation of novel pleuromutilin derivatives. Shang, Ruofeng,Liu, Yu,Guo, Wenzhu,Guo, Zhiting,Hao, Baocheng,Liang Jianping,Xin, Zhijun.

[15]Effect of retS gene on antibiotics production in Pseudomonas fluorescens FD6. Zhang, Qingxia,Xiao, Qi,Xu, Jingyou,Tong, Yunhui,Chen, Xijun,Wen, Jia,Wei, Lihui.

[16]Effects of long-term manure applications on the occurrence of antibiotics and antibiotic resistance genes (ARGs) in paddy soils: Evidence from four field experiments in south of China. Lou, Chenlu,Liang, Xinqiang,Xu, Jianming,Brookes, Philip C.,Wang, Shaoxian,Qin, Wenjing,Fan, Fang,Lu, Yanhong,Liao, Yulin,Liu, Ming,Li, Zhongpei,Hashmi, Muhammad Z..

[17]Microbial composition in different gut locations of weaning piglets receiving antibiotics. Li, Kaifeng,Xiao, Yingping,Chen, Jinggang,He, Xiangxiang,Yang, Hua,Li, Kaifeng,Chen, Jiucheng.

[18]A compositional shift in the soil microbiome induced by tetracycline, sulfamonomethoxine and ciprofloxacin entering a plant-soil system. Lin, Hui,Sun, Wanchun,Yu, Qiaogang,Fu, Jianrong,Ma, Junwei,Jin, Danfeng,Freitag, Thomas E..

[19]Lysobacter PilR, the Regulator of Type IV Pilus Synthesis, Controls Antifungal Antibiotic Production via a Cyclic di-GMP Pathway. Chen, Yuan,Xia, Jing,Su, Zhenhe,Xu, Gaoge,Qian, Guoliang,Liu, Fengquan,Liu, Fengquan,Gomelsky, Mark.

[20]Antibiotic resistance is the quintessential One Health issue. Robinson, T. P.,Bu, D. P.,Carrique-Mas, J.,Fevre, E. M.,Gilbert, M.,Grace, D.,Hay, S. I.,Jiwakanon, J.,Kakkar, M.,Kariuki, S.,Laxminarayan, R.,Lubroth, J.,Magnusson, U.,Ngoc, P. Thi,Van Boeckel, T. P.,Woolhouse, M. E. J.. 2016