[1]张浩,罗义,周启星.四环素类抗生素生态毒性研究进展[J].农业环境科学学报,2008, 27(2):407- 413. [2]张欣阳,许旭萍.微生物技术去除抗生素残留污染的研究进展[J].生物技术进展,20 14(5):355-360. [3]池振兴.四环素类污染物的微观机制研究[M].万方数据:万方数据电子出版社,2012,1-116. [4]Sarmah A K, Meyer M T,Boxall A.A global perspective on the use, sales, exposure pathways, occurrence, fate and effects of veterinary antibiotics(VAs)in the environment[J]. Chemosphere,2006,65(5):725-759. [5]LI Zhao-jun, YAO Zhi-peng, ZHANG Jie, et al. A Review on fate and ecological toxicity of veterinary antibiotics in soil environments [J]. Asian Journal of Eco-toxicology,2008,3 (1):15-20. [6]贺德春,许振成,吴根义,等.四环素类抗生素的环境行为研究进展[J].动物医学进展,2011,32(4):98-102. [7]于洁.四环素对好氧活性污泥的抑制及对活性污泥四环素抗性的影响研究[M].万方数据:万方数据电子出版社,2014,1-105. [8]王慧珠,罗义,徐文青,等.四环素和金霉素对水生生物的生态毒性效应[J].农业环境科学学报,2008,27(4):1536- 1539. [9]RUAN Cun-xing. Effect of combined pollution of tetracycline and copper on soil nitrification and plant grow[D]. Nanjing:Nanjing Forestry University,2010:1-31. [10]Donoho A. Biochemical studies on the fate of monensin in animals and in the environment[J]. Journal of Animal Science,1984,58(6):1528. [11]SHEN Ying, WEI Yuan-song, ZHENG Jia-xi, et al. Biological degradation of tetracyclines antibiotics residues in swine manure [J]. The Chinese Journal of Process Engineering,2009, 9(5):962-968. [12]王瑞,魏源送.畜禽粪便中残留四环素类抗生素和重金属的污染特征及其控制[J].农业环境科学学报,2013,32(9):1705-1719. [13]仇天雷,高敏,韩梅琳,等.鸡粪堆肥过程中四环素类抗生素及抗性细菌的消减研究[J].农业环境科学学报,2015,34(4):795-800. [14]梁兰.金霉素在土壤/有机肥上的吸附及生态毒性研究[M].万方数据:万方数据电子出版社,2014:1-70. [15]彭凌雪.小分子醇/盐二元双水相体系分离/萃取四环素类抗生素的研究[M]. 2015:1-54. [16]于振洋,张晶,张洪昌,等.盐酸四环素对秀丽线虫(C. elegans)的急性与多代毒性研究[J].生态毒理学报,2010,5(3):320-326. [17]王路光,朱晓磊,王靖飞.田在锋环境水体中的残留抗生素及其潜在风险[J].工业水处理,2009,5:10-14. [18]Papa E, Fick J, Lingdberg R, Johansson M, Gramatica PL. 2007. Multivariate chemical mapping of antibiotics and identification of structurally representative substances [J]. Environmental Science and Technology,41(5):1653-1661. [19]许超.高效氯氰菊酯对小球藻、草履虫的毒性影响及微生物降解[M].万方数据:万方数据电子出版社,2014:1-69. [20]蔡琳娜.大庆地区三个水域中微量金属离子对尾草履虫分裂速度的影响.2011,1-42.
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