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污泥干化芦苇床中抗生素抗性基因研究进展 被引量:1

Research Progress of Antibiotic Resistance Genes in Sludge Dry Reed Bed
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摘要 抗生素在畜牧业和水产养殖业的大量使用,造成了严重的环境污染,其诱发产生的抗性基因对环境和生物的危害引起了业内人士的广泛关注。研究者们针对抗生素抗性基因的来源、传播途径以及可能会对人类产生的影响进行了系统的研究。但针对作为抗生素主要储存库之一的污水厂剩余污泥的相关研究较少。随着污泥干化芦苇床技术研究的深入,针对抗生素抗性基因去除及降解转化机制的研究就显得日益重要。本文就抗生素抗性基因在污泥干化芦苇床中的研究前景进行分析和总结。 The extensive use of antibiotics in animal husbandry and aquaculture has caused serious environmental pollution. The damage of the resistance genes to the environment and organisms has aroused widespread concern in the industry. Researchers have focused on the antibiotic resistance genes. The ways of transmission and the possible effect on human beings have been systematically studied. However, there has been little research on the excess sludge in sewage treatment plants, which is one of the main storage banks of antibiotics. With the development of sludge drying reed bed technology, it is increasingly important to study the mechanism of the removal and degradation of antibiotic resistance genes. In this paper, the research prospect of antibiotic resistance genes in sludge drying reed bed was analyzed and summarized.
作者 时宪 张万筠 侯佳 孙琪 金玲 李晓莉 SHI Xian, ZHANG Wan-jun, HOU Jia, SUN Qi, JIN Ling, LI Xiao-li(Dalian Minzu University, Liaoning Dalian 116600, China)
机构地区 大连民族大学
出处 《辽宁化工》 CAS 2018年第3期264-266,共3页 Liaoning Chemical Industry
基金 大连民族大学大学生创新创业项目 项目号:201712026360
关键词 抗生素抗性基因 污泥干化芦苇床 污泥处理 antibiotic resistance genes sludge dry reed beds sludge treatment
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  • 1李科德,胡正嘉.芦苇床系统净化污水的机理[J].中国环境科学,1995,15(2):140-144. 被引量:167
  • 2诸惠昌,D.K.Stevens.用人工湿地处理乳制品厂废水的研究[J].环境科学,1996,17(5):30-31. 被引量:19
  • 3[1]Cooper P.and Green B. Reed bed treatment systems for Sewage treatment in the UK-the first 10 years experience[J]. Wat. Sci. Tech,1995,32 (3) :317-327.
  • 4[2]Thomas,P. R. An evaluation of pollutant removal from secondary treated sewage effluent using constructed wetland system[J]. Wat. Sci. Tech,1995, 32 (3 ):87-93.
  • 5[3]Gersberg,R.M.etl. Role of aquatic plants in waste water treatment by artificial wetlands[J]. Wat. Res, 1986, 20 (3 ):3 63-368.
  • 6[4]J. B. Williams, D. Zambrano, M. G. Ford, E. May, J. E. Butler. Constructed wetlands for waste water treatment in Colombia[J]. Wat. Sci. Tech,1999,40(3):217-223.
  • 7[5]Richter KM, Margetts JR, Saul AJ, Guymer I, Worrall P. Baseline hydraulic performance of the Heathrow constructed wetlands subsurface flow system[J]. Wat.Sci .Tech,2003,47(7):177-181.
  • 8[6]Martin M. Karpiscak, Robert J. Freitas, Charles P. Gerba, Luis R.Sanchez, Eylon Shamir. Management of dairy waste in the sonoran desert using constructed wetland technology[J]. Wat. Sci. Tech,1999,40(3):57-65.
  • 9[21]USEPA.Subsurface flow constructed wetlands for waste water treatment[M]. A Technology Assessment,1993.
  • 10[24]Hartog CD,KevtJ,Sukopp H. 1989. Reed. A common Species in decline,Aquatic Bot,35:1-4.

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