Yu, Z. Y. Analysis of current situation of antibiotic abuse and countermeasures. Econ. Res. Guide. 145(35), 314–315 (2011) (in Chinese).
Adachi, F. et al. Occurrence of fluoroquinolones and fluoroquinolone-resistance genes in the aquatic environment. Sci. Total Environ. 444(444C), 508–514 (2013).
Wu, T. T. et al. Investigation of the typical antibiotics in the sediments of the Yongjiang River, Nanning City, South China. China Environ. Sci. 33(2), 336–344 (2013) (in Chinese).
Ruan, Y. F. et al. Distribution characteristics of typical antibiotics in surface water and sediments from freshwater aquaculture water in Tianjin suburban areas, China. J. Agro-Environ. Sci. 30(12), 2586–2593 (2011) (in Chinese).
Liang, X. et al. The distribution and partitioning of common antibiotics in water and sediment of the Pearl River Estuary, South China. Chemosphere 92(11), 1410–1416 (2013).
Shi, H. The Analysis Method of Twenty Antibiotics in the Sediment and its Application (East China Normal University, Shanghai, 2014) (in Chinese).
Zhang, W. R. The Distribution of Typical Antibiotics Strains in the Sediment Environments of Dalian (Dalian University, Dalian, 2014) (in Chinese).
Xu C. Contamination of Antibiotics and antibiotics resistance genes in water, soil and sediment of the Three Gorges Reservoir. 2017. Wuhan: the Wuhan Botanical Garden of the Chinese Academy of Sciences (in Chinese).
Yang, Y. T. et al. Preliminary investigation of three quinolones in the muscle tissues of four fishes collected from the markets in Guangzhou City. J. Environ. Health 26(2), 109–111 (2009).
Wang, H. et al. Antibiotic residues in meat, milk and aquatic products in Shanghai and human exposure assessment. Food Control 80, 217–225 (2017).
Naik, O. A. et al. Characterization of multiple antibiotic resistance of culturable microorganisms and metagenomic analysis of total microbial diversity of marine fish sold in retail shops in Mumbai, India. Environ. Sci. Pollut. Res. Int. 25(7), 6228–6239 (2017).
Uchida, K. et al. Monitoring of antibiotic residues in aquatic products in urban and rural areas of Vietnam. J. Agric. Food Chem. 64(31), 6133–6138 (2016).
Bakeraustin, C. et al. Antibiotic resistance in the shellfish pathogen Vibrio parahaemolyticus isolated from the coastal water and sediment of Georgia and South Carolina, USA. J. Food Prot. 71(12), 2552–2558 (2008).
Richardson, B. J., Lam, P. K. S. & Martin, M. Emerging chemicals of concern: Pharmaceuticals and personal care products (PPCPs) in Asia, with particular reference to Southern China. Mar. Pollut. Bull. 50(9), 913–920 (2005).
Liu, X. Pollution Level, Source and Ecological Risk of Typical Antibiotics in the Dongting Lake, China (Shandong Normal University, Jinan, 2017) (in Chinese).
Turiel, E., Bordin, G. & Rodrı́guez, A. R. Trace enrichment of (fluoro)quinolone antibiotics in surface waters by solid-phase extraction and their determination by liquid chromatography-ultraviolet detection. J. Chromatogr. A 1008(2), 145–155 (2003).
Ying G G. Antibiotic use and pollution in the river basins of China. The 30th Academic Annual Meeting of China Chemical Society. 2016 (in Chinese).
Sun, K. Contamination Characteristics and Ecological Risk Assessment of Typical Antibiotics in the Water of the Hongze Lake (Nanjing Agricultural University, Nanjing, 2015) (in Chinese).
Wang J W. Distribution characteristics and ecological risk assessment of antibiotics in surface water of Xi’an section of Weihe river. 2018. Xi’an: Xi’an University of Technology (in Chinese).
Chen, L. et al. Investigation and evaluation of water quality of Qingshtan reservoir in Guilin city. Guangdong Agric. Sci. 40(5), 160–164 (2013) (in Chinese).
Zheng, Y. L. et al. Change of Inflow Runoff into the Qingshitan Reservoir in Guilin City. Water Conserv. Sci. Technol. Econ. 18(8), 46–48 (2012) (in Chinese).
Liang, Y. et al. Characteristics and risk assessment of organochlorine pesticide residues in surface sediments collected at the Qingshitan Reservoir. Toxicol. Environ. Chem. Rev. 98(5–6), 658–668 (2016).
Cheng, Y. P. et al. Pollution characteristics and potential ecological risk assessment of heavy metals in sediments of Qingshitan reservoir. Yangtze River 48(10), 24–29 (2017) (in Chinese).
Kall, J. Limnology: Inland Water Ecosystem (Higher Education Press, Beijing, 2011).
Miu, Z. L., Zong, F. S. & Jiang, Y. P. Study on Hydrographic Karst and Tourism Resources in Guilin (China University of Geosciences Press, Wuhan, 2004) (in Chinese).
Qi, S. S. & Yang, X. Study on ecological restoration mode of reservoir eutrophication by fish cage culture. Environ. Sci. Manag. 37(11), 151–154 (2012) (in Chinese).
Xu, W. H. et al. Determination of selected antibiotics in the Victoria Harbour and the Pearl River, South China using highperformance liquid chromatography-electrospray ionization tandem mass spectrometry. Environ. Pollut. 145, 672–679 (2007).
Liang, X. M. et al. Occurrence of antibiotics in typical aquaculture of the Pearl River Estuary. Ecol. Environ. Sci. 22(2), 304–310 (2013) (in Chinese).
Zhou, L. J. et al. Trends in the occurrence of human and veterinary antibiotics in the sediments of the Yellow River, Hai River and Liao River in northern China. Environ. Pollut. 159(7), 1877–1885 (2011).
He, X. T. et al. Residues and health risk assessment of sulfonamides in sediment and fish from typical marine aquaculture regions of Guangdong province, China. Environ. Sci. 35(7), 2728–2735 (2014) (in Chinese).
Lu, R. K. Soil Argrochemistry Analysis Protocoes (Agriculture Science Press, Beijing, 1999) (in Chinese).
Xu, J. Application of High Performance Liquid Chromatography in Analysis of Antibiotics in Seafood (Harbin, Harbin Institute of Technology, 2016) (in Chinese).
European Commission. Technical Guidance Document on Risk Assessment in support of Commission Directive 93/67/EEC on risk assessment for new notified substances. 2003.
Vryzas, Z. et al. Determination and aquatic risk assessment of pesticide residues in riparian drainage canals in northeastern Greece. Ecotoxicol. Environ. Saf. 74(2), 174–181 (2011).
Backhaus, T., Scholze, M. & Grimme, L. H. The single substance and mixture toxicity of quinolones to the bioluminescent bacterium Vibrio fischeri. Aquat. Toxicol. 49(1), 49–61 (2000).
Ma, Y. et al. Occurrences and regional distributions of 20 antibiotics in water bodies during groundwater recharge. Sci. Total Environ. 518–519, 498–506 (2015).
Zhang, P. W. et al. Spatial, temporal distribution characteristics and potential risk of PPCPs in surface sediments from Taihu Lake. Environ. Sci. 37(9), 3348–3355 (2016) (in Chinese).
Piao, H. S. et al. Estimation of sorption coefficients of organic compounds with KOW. Environ. Sci. Technol. 4, 8–13 (1999) (in Chinese).
Guérit, I. et al. Environmental risk assessment: a critical approach of the European TGD in an insitu application. Ecotoxicol. Environ. Saf. 71(1), 291–300 (2008).
Ren, K. J. et al. Residues characteristics of fluoroquinolones (FQs) in the river sediments and fish tissues in a drinking water protection area of Guangdong Province. Acta Sci. Circum. 36(3), 760–766 (2016) (in Chinese).
Wang, L. et al. Incorporating fish habitat requirements of the complete life cycle into ecological flow regime estimation of rivers. Ecohydrology 13(4), e2204 (2020).
Brown, K. D. et al. Occurrence of antibiotics in hospital, residential, and dairy effluent, municipal wastewater, and the Rio Grande in New Mexico. Sci. Total Environ. 366(2), 772–783 (2006).
Chang, X. et al. Determination of antibiotics in sewage from hospitals, nursery and slaughter house, wastewater treatment plant and source water in Chongqing region of Three Gorge Reservoir in China. Environ. Pollut. 158(5), 1444–1450 (2010).
Hirsch, R. et al. Occurrence of antibiotics in the aquatic environment. Sci. Total Environ. 225(1/2), 109–111 (1999).
Guo, X. et al. Research progress on environmental exposure levels and environmental fate of veterinary antibiotics. Environ. Sci. Technol. 37(09), 76–86 (2014) (in Chinese).
Jiang, L. et al. Occurrence, distribution and seasonal variation of antibiotics in the Huangpu River, Shanghai. China. Chemosphere 82(6), 822–828 (2011).
Li, J. et al. Distribution characteristics and ecological risk assessment of antibiotic pollution in Xiaoqing River watershed. J. Agro-Environ. Sci. 35(7), 1384–1391 (2016) (in Chinese).
Wu, X. et al. Occurrence, distribution and ecological risk of aantibiotics in surface water of the Gonghu Bay, Taihu Lake. Environ. Sci. 37(12), 4596–4604 (2016) (in Chinese).
Zhu, T. et al. Research on pollution and health risk by antibiotics in source water of Shiyan Reservoir in Shenzhen. J. Environ. Health 30(11), 1003–1006 (2013) (in Chinese).
Gao, L. et al. Research on pollution characteristics of antibiotics in Qinghe River in Beijing. Ecol. Sci. 33(1), 83–92 (2014) (in Chinese).
Nowara, A., Burhenne, J. & Spiteller, M. Binding of fluoroquinolone carboxylic acid derivatives to clay minerals. J. Agric. Food Chem. 45(4), 1459–1463 (1997).
Li, B. Y. Study on Adsorption and Biodegradation of Norfloxacin in Soil (Zhengzhou University, Zhengzhou, 2010) (in Chinese).
Liu C, Li Y. Research Progress of Adsorption and Degradation of Ciprofloxacin in Soil. Beijing Agriculture. 2016, (4) (in Chinese).
Wang, L. P., Zhang, M. K. & Zheng, S. A. Adsorption–desorption characteristics and biological effects of enrofloxacin in agricultural soils. Chin. J. Soil Sci. 39(2), 393–397 (2008) (in Chinese).
Jing, L. D. et al. Study on degradation kinetics of Ofloxacin at sediment–water interface. J. Southwest Univ. Nation. (Natural Science Edition). 42(4), 409–413 (2016) (in Chinese).
Dai, J. F. et al. Water quality analysis and segmentation of the pollution loads in different spatial scales of the upstream of Lijiang River. China Rural Water Hydropower 4, 67–71 (2017) (in Chinese).
Huang, J. et al. Residual levels of fluoroquinolones in freshwater fish from aquatic products markets in Guiyang. J. Environ. Health 34(2), 139–141 (2017) (in Chinese).
Sun, Y. C. Analysis and Distribution Characteristics of FQs in Environmental Water and Aquatic Product and its Effect on Environmental Stress (Harbin, Harbin Institute of Technology, 2014) (in Chinese).
Zhang, L. Y. Optimization of Quinolone Antibiotics Detection Method and in Water Photolysis and Hydrolysis Characteristics Research (Jilin Agricultural University, Jilin, 2016) (in Chinese).
Carrasquillo, A. J. et al. Sorption of ciprofloxacin and oxytetracycline zwitterions to soils and soil minerals: influence of compound structure. Environ. Sci. Technol. 42(20), 7634–7642 (2008).
Zou, S. et al. Occurrence and distribution of antibiotics in coastal water of the Bohai Bay, China: impacts of river discharge and aquaculture activities. Environ. Pollut. 159(10), 2913–2920 (2011).
Fu, H. et al. Impacts of p H on adsorption of quinolones by PAC. China Water Wastewater 33(17), 64–67 (2017) (in Chinese).
Huang, S. et al. Study on the relationships among pH, dissolved oxygen and chlorophyll a I: aquaculture water. Chin. J. Environ. Eng. 5(6), 1201–1208 (2011) (in Chinese).
Chen, S. et al. Formation, harmfulness, prevention, control and treatment of waters eutrophication. Environ. Sci. Technol. 22(2), 11–15 (1999) (in Chinese).
Pang, H. L. Studies on the Sorption Behavior of two Fluoroquinolones on Marine Sediments (Ocean University of China, Qingdao, 2012) (in Chinese).
Qin, Y. et al. Pollution characteristics and ecological risk assessment of typical antibiotics in the surface water of Hunhe River. Res. Environ. Sci. 28(3), 361–368 (2015) (in Chinese).
Syberg, K. et al. On the use of mixture toxicity assessment in REACH and the water framework directive: a review. Hum. Ecol. Risk Assess. 15(6), 1257–1272 (2009).
Liu, K. et al. Investigation on the typical quinolone antibiotics in the surface sediments of Jiaozhou bay China. Mar. Environ. Sci. 36(05), 655–661 (2017) (in Chinese).
Zhang, J. et al. Health risk assessment of antibiotics in the centralized drinking water source in the three gorges reservoir area. Environ. Sci. Technol. 41(8), 192–198 (2018) (in Chinese).
No. 235 Announcement of the Ministry of Agriculture. Maximum residue limits of veterinary drugs in animal foods. China Swine Industry 2010(8), 10–12 (2002) (in Chinese).
National Health and Family Planning Commission of PRC. Outline of China’s food and nutrition development (2014–2020). Chron. Pathematol. J. 36(2), 111–113 (2014) (in Chinese).
Zhang, Q. P., Li, J. & Wang, C. M. Residual level and safety assessment of quinolone antibiotics in aquatic products in Suzhou. Chin. J. Health Lab. Technol. 22(10), 2417–2418 (2012) (in Chinese).
Wu, X. L. Pollution Characteristics and Health Risk of Quinolones in Vegetables in the Pearl River Delta Region (Jinan University, Guangzhou, 2011) (in Chinese).
Li, W., Shi, Y., Gao, L., Liu, J. & Cai, Y. Occurrence of antibiotics in water, sediments, aquatic plants, and animals from Baiyangdian Lake in North China. Chemosphere 89(11), 1307–1315 (2012).
Minh, T. B. et al. Antibiotics in the Hong Kong metropolitan area: Ubiquitous distribution and fate in Victoria Harbour. Mar. Pollut. Bull. 58(7), 1052–1062 (2009).
Riva, F., Zuccato, E., Davoli, E., Fattore, E. & Castiglioni, S. Risk assessment of a mixture of emerging contaminants in surface water in a highly urbanized area in Italy. J. Hazard. Mater. 361, 103–110 (2019).
Watkinson, A. J., Murby, E. J., Kolpin, D. W. & Costanzo, S. D. The occurrence of antibiotics in an urban watershed: From wastewater to drinking water. Sci. Total Environ. 407(8), 2711–2723 (2009).
Batt, A. L., Bruce, I. B. & Aga, D. S. Evaluating the vulnerability of surface waters to antibiotic contamination from varying wastewater treatment plant discharges. Environ. Pollut. 142(2), 295–302 (2006).
Golet, E. M., Strehler, A., Alder, A. C. & Giger, W. Determination of fluoroquinolone antibacterial agents in sewage sludge and sludge-treated soil using accelerated solvent extraction followed by solid-phase extraction. Anal. Chem. 74(21), 5455–5462 (2002).
Gibs, J. et al. Occurrence and partitioning of antibiotic compounds found in the water column and bottom sediments from a stream receiving two wastewater treatment plant effluents in Northern New Jersey, 2008. Sci. Total Environ. 458–460, 107–116 (2013).
Wang, G. Q. & Sun, T. Antibiotic residues in aquatic products of Hongze lake investigation and research. Guangdong Chem. 38(1), 151–153 (2011) (in Chinese).
Yang, Y. T. & Luan, L. J. Residues and health risk assessment of Quinolones in fishes from the markets in Jining City. J. Anhui Agric. Sci. 43(26), 141–143 (2015) (in Chinese).
Source: Ecology - nature.com
