期刊文献+

粘土矿物固定化微生物对土壤中阿特拉津的降解研究 被引量:12

Biodegradation of Atrazine in Soils by Clay Minerals Immobilized a Degradation Bacterium
下载PDF
导出
摘要 以粘土矿物为载体,采用吸附挂膜法对已筛选的阿特拉津降解菌株进行固定化,并应用固定化微生物降解土壤中的阿特拉津。结果表明,该菌株在粘土矿物上生长良好,根据菌种生理生化特性、环境扫描电镜图片以及16S rDNA基因的相似性分析初步鉴定该菌株为Ochrobactrum sp.。接种降解菌能明显加快阿特拉津在土壤中的降解速率,粘土矿物固定化微生物的降解效果要明显优于游离菌,粘土矿物粒径越小,固定化微生物的降解效果越好,纳米粘土矿物固定化微生物的降解效果要好于原粘土矿物。用一级动力学方程描述阿特拉津在土壤中的降解过程,不同土壤中阿特拉津的降解速率不同。阿特拉津在红壤、砂姜黑土、黄褐土中的降解半衰期(t1/2)分别为36.9、49.1、55.0 d,投加纳米蒙脱石固定化降解菌后的半衰期则分别为16.3、25.3、21.7 d。 Biodegradation of atrazine in soils by clay minerals immobilized a degradation bacterium were studied. The bacterium which was isolated from activated sludge by enrichment using atrazine as sole source of carbon and nitrogen was preliminarily identified as Ochroboctrum sp., according to its physiological-biochemical characteristics, photos of ESEM and the similarity analysis of its 16S rDNA gene sequence. The strains growed well on clay minerals, and reached logarithmic phase at 48 h. The degradation rate of atrazine was larger signifieally when adding degradation bacteria into soils. The biodegradation capacity by immobilized microorganism on clay minerals was improved compared with free microorganism. The smaller the particle size of clay minerals, the more the biodegradation of atrazine. The effect of immobilized nano-elay minerals was better than corresponding clays. The degradation of atrazine were 42.47%, 46.19%, 56.31% respectively, after adding free microorganism into vertisol, alfisol and red soil on 28 d. When adding immobilized microorganism by montmorillonite, nano-montmorillonite, the degradation ofatrazine were 52.16%, 63.97% in vertisol, 59.28%, 63.91% in alfisol, and 68.03%, 76.59% in red soil. The degradation of atrazine in the soil without microorganism was 29.16% in vertisol, 30.63% in alfisol, 41.47% in red soil. Atrazine degradation in soils could be described by first-order kinetic equation. The effect of degradation varied from different soils. The(t1/2)of atrazine was 36.9 d in red soil, 49.1 d in vertisol, and 55.0 d in alfisol without microorganism. When adding immobilized microorganism by nano-montmorillonite, half-life was 16.3 d, 25.3 d, 21.7 d respectively.
出处 《农业环境科学学报》 CAS CSCD 北大核心 2009年第11期2401-2406,共6页 Journal of Agro-Environment Science
基金 国家863计划(2006AA06Z356) 国家973计划(2007CB936604) 安徽省科技攻关计划(07010302212) 安徽省人才开发资金(2007Z014)
关键词 阿特拉津 微生物固定化 粘土矿物 降解 atrazine immobilization microorganism clay minerals degradation
  • 相关文献

参考文献13

  • 1化学工业出版社.中国化工产品大全(下卷):除草剂[M].北京:化学工业出版社,1994.
  • 2Wetzel L T, Luempert Ⅲ L G, Breckenridge C B, et al. Chronic effects of atrazine on estrus and mammary tumor formation in female Sprague- Dawley and Fischer 344 rats[J]. J Toxicol Environ Health, 1994, 43 : 169-182.
  • 3Friedmann A S. Atrazine inhibition of testosterone production in rat males following peripubertal exposure[J]. Reproductive Toxicology, 2002, 16 : 275-279.
  • 4Tratnyek P G, Johnson R L. Nanotechnologies for environmental cleanup [J]. Nanotoday, 2006,1 (2) : 44-48.
  • 5Lee T, Tokunaga T, Suyama A, Furukawa K. Efficient dechlorination of tetrachloro-ethylene in soil slurry by combined use of an Anaerobic Desulfitobacterium sp. Strain Y-51 and Zero-Valant Iron[J]. Journal of Bioscience and Bioengineering, 2001, 5:453-458.
  • 6Jenks B M, Roeth F W, Martin A R, McCallister D L. Influence of surface and subsurface soil properties on atrazine sorption and degradation[J]. Weed Science, 1998,46 : 132-138.
  • 7You -bin Si,Sheng-qiang Wang, Jing Zhou, et al. Leaching and degradation of ethametsulfuron-methyl in soil[J]. Chemosphere, 2005, 60:601-609.
  • 8张业录,李群,谭国民,张涛.固定化白腐菌技术在漂白废水处理中的应用[J].工业水处理,2000,20(12):5-8. 被引量:11
  • 9汪玉,司友斌.纳米粘土矿物对阿特拉津的吸附-解吸特性研究[J].农业环境科学学报,2009,28(1):125-129. 被引量:9
  • 10刘虹,张兰英,刘娜,刘鹏.低温下固定化微生物降解水体中阿特拉津的效果[J].吉林大学学报(地球科学版),2008,38(6):1027-1031. 被引量:5

二级参考文献40

共引文献47

同被引文献179

引证文献12

二级引证文献58

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部