温度对厌氧环境下污泥中抗生素抗性基因行为特征的影响Effect of Temperature on Antibiotic Resistance Genes Behavior During Anaerobic Treatment of Sludge
钱燕云;郑吉;徐莉柯;苏超;陈红;
摘要(Abstract):
抗性基因的转移传播使得污水处理厂成为其重要的储存库,对人类健康存在潜在风险。实验采用序批式厌氧反应器,温度设定分别为15℃、中温(30℃和36℃)、高温(50℃和60℃),探究温度对污泥厌氧条件下8种抗生素去除效果的影响,以及四环素类抗性基因(tet A、tet G、tet L、tet M、tet O、tet Q、tet W、tet X)、磺胺类抗性基因(sul I、sul II)和Ⅰ类整合子整合酶基因(int I 1)的行为特征。研究发现温度升高有利于抗生素及抗性基因的去除,15℃、中温和高温下总抗生素的平均去除率分别为45%、59%和78%;15℃、中温和高温下四环素类抗性基因分别削减0.52 log、0.90 log和1.50 log,磺胺类抗性基因分别削减0.56log、0.78 log和1.31 log。相关性分析发现,总抗性基因与总氮、氨氮、SCOD(溶解性COD)均存在显著相关性(R2=0.744、0.760、0.315,P<0.05),而与总磷无显著相关性(P>0.05)。int I 1与总氮、氨氮、SCOD皆存在显著相关性(R2=0.698、0.795、0.269,P<0.05),而与总磷无显著相关性(P>0.05)。说明微生物生长环境中的营养元素一定程度上影响着抗性基因的传播和扩散。
关键词(KeyWords): 抗生素;抗性基因;厌氧环境;温度;序批式
基金项目(Foundation): 国家重大水专项(2014ZX07101-012);; 国家自然科学基金项目(21277117)
作者(Author): 钱燕云;郑吉;徐莉柯;苏超;陈红;
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参考文献(References):
- [1]Tello A,Telfer T C.Selective pressure of antibiotic pollution on bacteria of importance to public health[J].Environmental Health Perspectives,2012,120(8):1100-1106
- [2]Stokes H W,Gillings M R.Gene flow,mobile genetic elements and the recruitment of antibiotic resistance genes into Gram-negative pathogens[J].FEMS Microbiology Reviews,2011,35(5):790-819
- [3]Bouki C,Venieri D,Diamadopoulos E.Detection and fate of antibiotic resistant bacteria in wastewater treatment plants:A review[J].Ecotoxicology&Environmental Safety,2013,91(4):1-9
- [4]Auerbach E A,Seyfried E E,Mcmahon K D.Tetracycline resistance genes in activated sludge wastewater treatment plants[J].Proceedings of the Water Environment Federation,2007,41(5):1143-1151
- [5]Zhang Y,Marrs C F,Simon C,et al.Wastewater treatment contributes to selective increase of antibiotic resistance among Acinetobacter spp[J].Science of the Total Environment,2009,407(12):3702-3706
- [6]Lapara T M,Burch T R,Mcnamara P J,et al.Tertiary-treated municipal wastewater is a significant point source of antibiotic resistance genes into Duluth-Superior Harbor[J].En- vironmental Science&Technology,2011,45(22):9543-9549
- [7]Munir M,Xagoraraki I.Levels of antibiotic resistance genes in manure,biosolids,and fertilized soil[J].Journal of Environmental Quality,2011,40(1):248-255
- [8]Munir M,Wong K,Xagoraraki I.Release of antibiotic resistant bacteria and genes in the effluent and biosolids of five wastewater utilities in Michigan[J].Water Research,2011,45(2):681-693
- [9]Yanjun M,Christopher A W,John T N,et al.Effect of various sludge digestion conditions on sulfonamide,macrolide,and tetracycline resistance genes and class I integrons[J].Environmental Science&Technology,2011,45(18):7855-7861
- [10]Ghosh S,Ramsden S J,Lapara T M.The role of anaerobic digestion in controlling the release of tetracycline resistance genes and class 1 integrons from municipal wastewater treatment plants[J].Applied Microbiology&Biotechnology,2009,84(4):791-796
- [11]Roberts M C.Update on acquired tetracycline resistance genes[J].FEMS Microbiology Letters,2005,245(2):195-203
- [12]Martinez J L,Martínez S L,Hernez A,et al.Functional role of bacterial multidrug efflux pumps in microbial natural ecosystems[J].FEMS Microbiology Reviews,2009,33(2):430-449
- [13]Diehl D L,Lapara T M.Effect of temperature on the fate of genes encoding tetracycline resistance and the integrase of class 1 integrons within anaerobic and aerobic digesters treating municipal wastewater solids[J].Environmental Science&Technology,2010,44(23):9128-9133
- [14]ZábranskáJ,Dohányos M,Jenícek P,et al.Efficiency of autothermal thermophilic aerobic digestion and thermophilic anaerobic digestion of municipal wastewater sludge in removing Salmonella spp.and indicator bacteria[J].Water Science&Technology,2003,47(3):151-156
- [15]朱赛嫦,王静,邵卫伟,等.超高效液相色谱-串联质谱法同时检测地表水中18种药物与个人护理品的残留量[J].色谱,2013,31(1):15-21Zhu S C,Wang J,Shao W W,et al.Simultaneous determination of 18 pharmaceuticals and personal care products in surface water by ultra-high performance liquid chromatography-tandem mass spectrometry[J].Chinese Journal of Chromatography,2013,31(1):15-21
- [16]Ng L K,Martin I,Alfa M,et al.Multiplex PCR for the detection of tetracycline resistant genes[J].Molecular&Cellular Probes,2001,15(4):209-215
- [17]Aminov R I,Garrigues J N,Mackie R I.Molecular ecology of tetracycline resistance:Development and validation of primers for detection of tetracycline resistance genes encoding ribosomal protection proteins[J].Applied&Environmental Microbiology,2001,67(1):22–32
- [18]Luo Y,Mao D,Rysz M,et al.Trends in antibiotic resistance genes occurrence in the Haihe River,China[J].Environmental Science&Technology,2010,44(19):7220-7225
- [19]Liu M M,Zhang Y,Yang M,et al.Abundance and distribution of tetracycline resistance genes and mobile elements in an oxytetracycline production wastewater treatment system[J].Environmental Science&Technology,2012,46(14):7551-7557
- [20]Gaze W H,Zhang L,Abdouslam N A,et al.Impacts of anthropogenic activity on the ecology of class 1 integrons and integron-associated genes in the environment[J].ISME Journal,2011,5(8):1253–1261
- [21]Joanne C C,Roderick I M,Satoshi K,et al.Fate and transport of antibiotic residues and antibiotic resistance genes following land application of manure waste[J].Journal of Environmental Quality,2009,38:1086-1108
- [22]Kümmerer K,Al A.Biodegradability of some antibiotics,elimination of the genotoxicity and affection of wastewater bacteria in a simple test[J].Chemosphere,2000,40(7):701-710
- [23]Mazel D.Integrons:Agents of bacterial evolution[J].Nature Reviews Microbiology,2006,4(8):608-620
- [24]Snyder L,Champness W.Molecular Genetics of Bacteria[M].Washington DC:ASM Press,2007:117-130