微生物降解新烟碱类农药研究进展
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摘要
新烟碱类农药因其对害虫具有高效、广谱等特点而在农业中广泛应用.其大量的使用导致在农产品和自然环境中的残留超标,除了影响农产品的质量安全,对人体健康也具有潜在的风险.利用微生物降解农药污染是目前研究最为广泛的技术,本文从微生物降解新烟碱类农药的种类、降解途径、降解基因及降解酶等方面进行综述.
Neonicotinoid Pesticides are widely used in agriculture because they possess high efficiency and broad spectrum. However, their extensive applications have led to pesticide high residue in agricultural products and environment, which poses impacts on food safety and human health. At present, microbial degradation is regarded as the technology that has been attracted most attention from the researchers. This paper intends to discuss about types of microorganism useful for degrading neonicotinoid pesticides, degradation pathway, degradation genes and enzymes.
Neonicotinoid Pesticides are widely used in agriculture because they possess high efficiency and broad spectrum. However, their extensive applications have led to pesticide high residue in agricultural products and environment, which poses impacts on food safety and human health. At present, microbial degradation is regarded as the technology that has been attracted most attention from the researchers. This paper intends to discuss about types of microorganism useful for degrading neonicotinoid pesticides, degradation pathway, degradation genes and enzymes.
引文
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[5] 武海斌,张坤鹏,杨福,等.3种杀虫剂对杏树桃粉大尾蚜的防治试验[J].农药,2012,51(1):66-67.
[6] 李惠霞,张海英,郭建国,等.噻虫嗪种子包衣对燕麦蚜虫和红叶病的控制效果及农药残留分析[J].麦类作物学报,2012,32(6):1205-1209.
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[8] 孙宝利,陕红,李艳华,等.土壤中六种新烟碱类农药残留的分离及光谱研究[J].光谱学与光谱分析,2013,33(9):2553-2557.
[9] 谭颖,张琪,赵成,等.蔬菜水果中的新烟碱类农药残留量与人群摄食暴露健康风险评价[J].生态毒理学报,2016,11(6):67-81.
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[21] DAI Y,ZHAO Y,ZHANG W,et al.Biotransformation of thianicotinyl neonicotinoid insecticides:diverse molecular substituents response to metabolism by bacterium Stenotrophomonas maltophilia CGMCC 1.1788[J].Bioresource technology,2010,101(11):3838-3843.
[22] DAI Y,YUAN S,GE F,et al.Microbial hydroxylation of imidacloprid for the synthesis of highly insecticidal olefin imidacloprid[J].Applied microbiology and biotechnology,2006,71(6):927.
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[25] YANG H,WANG X,ZHENG J,et al.Biodegradation of acetamiprid by Pigmentiphaga sp.D-2 and the degradation pathway[J].International Biodeterioration & Biodegradation,2013,85(7):95-102.
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[27] LU T,MAO S,SUN S,et al.Regulation of Hydroxylation and Nitroreduction Pathways during Metabolism of the Neonicotinoid Insecticide Imidacloprid by Pseudomonas putida[J].Journal of agricultural and food chemistry,2016,64(24):4866-4875.
[28] WANG G,CHEN X,YUE W,et al.Microbial degradation of acetamiprid by Ochrobactrum sp.D-12 isolated from contaminated soil[J].PloS one,2013,8(12):e82603.
[29] RANA S,JINDAL V,MANDAL K,et al.Thiamethoxam degradation by Pseudomonas and Bacillus strains isolated from agricultural soils[J].Environmental monitoring and assessment,2015,187(5):300.
[30] SHARMA S,SINGH B,GUPTA V K.Assessment of imidacloprid degradation by soil-isolated Bacillus alkalinitrilicus[J].Environmental monitoring and assessment,2014,186(11):7183-7193.
[31] WANG G,ZHAO Y,GAO H,et al.Co-metabolic biodegradation of acetamiprid by Pseudoxanthomonas sp.AAP-7 isolated from a long-term acetamiprid-polluted soil[J].Bioresource technology,2013,150(3):259-265.
[32] SHARMA S,SINGH B,GUPTA V K.Bacillus aerophilus Mediated Degradation of Imidacloprid in Soil[J].Pesticide Research Journal,2016,28(1):95-103.
[33] SHARMA T,RAJOR A,TOOR A P.Degradation of imidacloprid in liquid by Enterobacter sp.strain ATA1 using Co-metabolism[J].Bioremediation Journal,2014,18(3):227-235.
[34] KANDIL M M,TRIGO C,KOSKINEN W C,et al.Isolation and characterization of a novel imidacloprid-degrading Mycobacterium sp.strain MK6 from an Egyptian soil[J].Journal of agricultural and food chemistry,2015,63(19):4721-4727.
[35] ANHALT J C,MOORMAN T B,KOSKINEN W C.Biodegradation of imidacloprid by an isolated soil microorganism[J].Journal of Environmental Science and Health Part B,2007,42(5):509-514.
[36] 汤鸣强,连桂兰.吡虫啉杀虫剂降解菌 Ochrobactum BB-1 培养条件的研究[J].生物技术,2011,5(21):21.
[37] WANG J,HIRAI H,KAWAGISHI H.Biotransformation of acetamiprid by the white-rot fungus Phanerochaete sordida YK-624[J].Applied microbiology and biotechnology,2012,93(2):831-835.
[38] HE X,WUBIE A J,DIAO Q,et al.Biodegradation of neonicotinoid insecticide,imidacloprid by restriction enzyme mediated integration (REMI) generated Trichoderma mutants[J].Chemosphere,2014,112:526-530.
[39] DAI Y,JI W,CHEN T,et al.Metabolism of the neonicotinoid insecticides acetamiprid and thiacloprid by the yeast Rhodotorula mucilaginosa strain IM-2[J].Journal of agricultural and food chemistry,2010,58(4):2419-2425.
[40] 张敏恒,赵平,严秋旭,等.新烟碱类杀虫剂市场与环境影响[J].农药,2012,51(12):859-862.
[41] 杨小红,李俊,葛诚,等.微生物降解农药的研究新进展[J].微生物学通报,2003,30(6):93-96.
[42] CAI Z,WANG J,MA J,et al.Anaerobic degradation pathway of the novel chiral insecticide paichongding and its impact on Bacterial communities in soils[J].Journal of agricultural and food chemistry,2015,63(32):7151-7160.
[43] CHEN T,DAI Y,DING J,et al.N-demethylation of neonicotinoid insecticide acetamiprid by bacterium Stenotrophomonas maltophilia CGMCC 1.1788[J].Biodegradation,2008,19(5):651-658.
[44] BANIC N D,ABRAMOVIC B F,?OJIC D V,et al.Efficiency of neonicotinoids photocatalytic degradation by using annular slurry reactor[J].Chemical Engineering Journal,2016,286:184-190.
[45] ZABAR R,KOMEL T,FABJAN J,et al.Photocatalytic degradation with immobilised TiO(2) of three selected neonicotinoid insecticides:imidacloprid,thiamethoxam and clothianidin.[J].Chemosphere,2012,89(3):293-301.
[46] 郑立庆,刘国光,孙德智.新型农药噻虫嗪的水解与光解研究[J].哈尔滨工业大学学报,2006,38(6):1005-1008.
[47] ?OJIC D,DESPOTOVIC V,ORCIC D,et al.Degradation of thiamethoxam and metoprolol by UV,O3 and UV/O 3 hybrid processes:Kinetics,degradation intermediates and toxicity[J].Journal of Hydrology,2012,472-473(24):314-327.
[48] 阳海,庞怀林,谭小军,等.Fe2+/S2O2-8/S2O2-3体系下噻虫嗪的降解研究[J].农业环境科学学报,2014,33(6):1124-1130.
[49] 王希诚,高乃云,冯冬梅,等.臭氧氧化降解吡虫啉的动力学研究[J].中南大学学报(自然科学版),2014,45(10):3712-3718.
[50] 陈晓旸,陈景文,杨萍,等.均相Co/PMS系统降解吡虫啉的影响因素及降解途径研究[J].环境科学,2007,28(12):2816-2820.
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[2] 刘少华,唐蜜,王金金,等.新烟碱类杀虫剂研究进展概述[J].山东化工,2015,(7):66-68.
[3] 张梅凤,范金勇,张宏伟,等.新烟碱类杀虫剂的研究进展[J].世界农药,2009,31(1):22-25.
[4] 于伟丽,裴晖,易正华,等.新烟碱类杀虫剂对蜜蜂的室内毒性测定[J].世界农药,2013,35(2):28-31.
[5] 武海斌,张坤鹏,杨福,等.3种杀虫剂对杏树桃粉大尾蚜的防治试验[J].农药,2012,51(1):66-67.
[6] 李惠霞,张海英,郭建国,等.噻虫嗪种子包衣对燕麦蚜虫和红叶病的控制效果及农药残留分析[J].麦类作物学报,2012,32(6):1205-1209.
[7] 陈永健,王长强.硫代烟碱类新杀虫剂——噻虫嗪 (Thiamethoxam)[J].农化新世纪,2004,(5):18-19.
[8] 孙宝利,陕红,李艳华,等.土壤中六种新烟碱类农药残留的分离及光谱研究[J].光谱学与光谱分析,2013,33(9):2553-2557.
[9] 谭颖,张琪,赵成,等.蔬菜水果中的新烟碱类农药残留量与人群摄食暴露健康风险评价[J].生态毒理学报,2016,11(6):67-81.
[10] CASIDA J E,DURKIN K A.Neuroactive insecticides:targets,selectivity,resistance,and secondary effects[J].Annual review of entomology,2013,58(1):99-117.
[11] 段丽芳,李贤宾,柯昌杰,等.欧盟新烟碱类农药限用政策对我国农药相关产业的风险分析[J].农药科学与管理,2013,34(9):15-20.
[12] 项丽,唐建设.复合降解菌降解吡虫啉的特性研究[J].安徽农学通报,2007,13(18):167-169.
[13] 张磊磊.呋虫胺的水解和光化学降解研究[D].新乡:河南师范大学,2014.
[14] GUPTA M,MATHUR S,SHARMA T K,et al.A study on metabolic prowess of Pseudomonas sp.RPT 52 to degrade imidacloprid,endosulfan and coragen[J].Journal of hazardous materials,2016,301(2):250-258.
[15] 李岩,蒋继志,马平,等.细菌降解农药研究新进展[J].西北农林科技大学学报自然科学版,2005,33(s1):250-252.
[16] KANJILAL T,BHATTACHARJEE C,DATTA S.Bio-degradation of acetamiprid from wetland wastewater using indigenous Micrococcus luteus strain SC 1204:Optimization,evaluation of kinetic parameter and toxicity[J].Journal of Water Process Engineering,2015,6:21-31.
[17] ZHOU G,WANG Y,ZHAI S,et al.Biodegradation of the neonicotinoid insecticide thiamethoxam by the nitrogen-fixing and plant-growth-promoting rhizobacterium Ensifer adhaerens strain TMX-23[J].Applied microbiology and biotechnology,2013,97(9):4065-4074.
[18] MYRESIOTIS C K,VRYZAS Z,PAPADOPOULOU-MOURKIDOU E.Biodegradation of soil-applied pesticides by selected strains of plant growth-promoting rhizobacteria (PGPR) and their effects on bacterial growth[J].Biodegradation,2012,23(2):297-310.
[19] ZHANG H,ZHOU Q,ZHOU G,et al.Biotransformation of the neonicotinoid insecticide thiacloprid by the bacterium Variovorax boronicumulans strain J1 and mediation of the major metabolic pathway by nitrile hydratase[J].Journal of agricultural and food chemistry,2011,60(1):153-159.
[20] PANDEY G,DORRIAN S J,RUSSELL R J,et al.Biotransformation of the neonicotinoid insecticides imidacloprid and thiamethoxam by Pseudomonas sp.1G[J].Biochemical and biophysical research communications,2009,380(3):710-714.
[21] DAI Y,ZHAO Y,ZHANG W,et al.Biotransformation of thianicotinyl neonicotinoid insecticides:diverse molecular substituents response to metabolism by bacterium Stenotrophomonas maltophilia CGMCC 1.1788[J].Bioresource technology,2010,101(11):3838-3843.
[22] DAI Y,YUAN S,GE F,et al.Microbial hydroxylation of imidacloprid for the synthesis of highly insecticidal olefin imidacloprid[J].Applied microbiology and biotechnology,2006,71(6):927.
[23] ZHOU L,ZHANG L,SUN S,et al.Degradation of the neonicotinoid insecticide acetamiprid via the N-carbamoylimine derivate (IM-1-2) mediated by the nitrile hydratase of the nitrogen-fixing bacterium Ensifer meliloti CGMCC 7333[J].Journal of agricultural and food chemistry,2014,62(41):9957-9964.
[24] TANG H,LI J,HU H,et al.A newly isolated strain of Stenotrophomonas sp.hydrolyzes acetamiprid,a synthetic insecticide[J].Process Biochemistry,2012,47(12):1820-1825.
[25] YANG H,WANG X,ZHENG J,et al.Biodegradation of acetamiprid by Pigmentiphaga sp.D-2 and the degradation pathway[J].International Biodeterioration & Biodegradation,2013,85(7):95-102.
[26] MA Y,ZHAI S,MAO S Y,et al.Co-metabolic transformation of the neonicotinoid insecticide imidacloprid by the new soil isolate Pseudoxanthomonas indica CGMCC 6648[J].Journal of Environmental Science and Health,Part B,2014,49(9):661-670.
[27] LU T,MAO S,SUN S,et al.Regulation of Hydroxylation and Nitroreduction Pathways during Metabolism of the Neonicotinoid Insecticide Imidacloprid by Pseudomonas putida[J].Journal of agricultural and food chemistry,2016,64(24):4866-4875.
[28] WANG G,CHEN X,YUE W,et al.Microbial degradation of acetamiprid by Ochrobactrum sp.D-12 isolated from contaminated soil[J].PloS one,2013,8(12):e82603.
[29] RANA S,JINDAL V,MANDAL K,et al.Thiamethoxam degradation by Pseudomonas and Bacillus strains isolated from agricultural soils[J].Environmental monitoring and assessment,2015,187(5):300.
[30] SHARMA S,SINGH B,GUPTA V K.Assessment of imidacloprid degradation by soil-isolated Bacillus alkalinitrilicus[J].Environmental monitoring and assessment,2014,186(11):7183-7193.
[31] WANG G,ZHAO Y,GAO H,et al.Co-metabolic biodegradation of acetamiprid by Pseudoxanthomonas sp.AAP-7 isolated from a long-term acetamiprid-polluted soil[J].Bioresource technology,2013,150(3):259-265.
[32] SHARMA S,SINGH B,GUPTA V K.Bacillus aerophilus Mediated Degradation of Imidacloprid in Soil[J].Pesticide Research Journal,2016,28(1):95-103.
[33] SHARMA T,RAJOR A,TOOR A P.Degradation of imidacloprid in liquid by Enterobacter sp.strain ATA1 using Co-metabolism[J].Bioremediation Journal,2014,18(3):227-235.
[34] KANDIL M M,TRIGO C,KOSKINEN W C,et al.Isolation and characterization of a novel imidacloprid-degrading Mycobacterium sp.strain MK6 from an Egyptian soil[J].Journal of agricultural and food chemistry,2015,63(19):4721-4727.
[35] ANHALT J C,MOORMAN T B,KOSKINEN W C.Biodegradation of imidacloprid by an isolated soil microorganism[J].Journal of Environmental Science and Health Part B,2007,42(5):509-514.
[36] 汤鸣强,连桂兰.吡虫啉杀虫剂降解菌 Ochrobactum BB-1 培养条件的研究[J].生物技术,2011,5(21):21.
[37] WANG J,HIRAI H,KAWAGISHI H.Biotransformation of acetamiprid by the white-rot fungus Phanerochaete sordida YK-624[J].Applied microbiology and biotechnology,2012,93(2):831-835.
[38] HE X,WUBIE A J,DIAO Q,et al.Biodegradation of neonicotinoid insecticide,imidacloprid by restriction enzyme mediated integration (REMI) generated Trichoderma mutants[J].Chemosphere,2014,112:526-530.
[39] DAI Y,JI W,CHEN T,et al.Metabolism of the neonicotinoid insecticides acetamiprid and thiacloprid by the yeast Rhodotorula mucilaginosa strain IM-2[J].Journal of agricultural and food chemistry,2010,58(4):2419-2425.
[40] 张敏恒,赵平,严秋旭,等.新烟碱类杀虫剂市场与环境影响[J].农药,2012,51(12):859-862.
[41] 杨小红,李俊,葛诚,等.微生物降解农药的研究新进展[J].微生物学通报,2003,30(6):93-96.
[42] CAI Z,WANG J,MA J,et al.Anaerobic degradation pathway of the novel chiral insecticide paichongding and its impact on Bacterial communities in soils[J].Journal of agricultural and food chemistry,2015,63(32):7151-7160.
[43] CHEN T,DAI Y,DING J,et al.N-demethylation of neonicotinoid insecticide acetamiprid by bacterium Stenotrophomonas maltophilia CGMCC 1.1788[J].Biodegradation,2008,19(5):651-658.
[44] BANIC N D,ABRAMOVIC B F,?OJIC D V,et al.Efficiency of neonicotinoids photocatalytic degradation by using annular slurry reactor[J].Chemical Engineering Journal,2016,286:184-190.
[45] ZABAR R,KOMEL T,FABJAN J,et al.Photocatalytic degradation with immobilised TiO(2) of three selected neonicotinoid insecticides:imidacloprid,thiamethoxam and clothianidin.[J].Chemosphere,2012,89(3):293-301.
[46] 郑立庆,刘国光,孙德智.新型农药噻虫嗪的水解与光解研究[J].哈尔滨工业大学学报,2006,38(6):1005-1008.
[47] ?OJIC D,DESPOTOVIC V,ORCIC D,et al.Degradation of thiamethoxam and metoprolol by UV,O3 and UV/O 3 hybrid processes:Kinetics,degradation intermediates and toxicity[J].Journal of Hydrology,2012,472-473(24):314-327.
[48] 阳海,庞怀林,谭小军,等.Fe2+/S2O2-8/S2O2-3体系下噻虫嗪的降解研究[J].农业环境科学学报,2014,33(6):1124-1130.
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