期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

高效产氢菌株Enterococcus sp.LG1的分离及产氢特性 被引量:3

Isolation and Characterization of a New High Efficient H2-producing Bacterium Enterococcus sp. LG1
在线阅读 下载PDF
导出
摘要 采用Hungate厌氧培养技术分别从厌氧污泥、好氧污泥及河底泥中分离出12株厌氧产氢细菌,并对其中的Enterococcus sp.LG1(注册号:EU258743)进行了研究。结果表明,该株细菌为专性厌氧菌,经革兰氏染色结果为阴性。通过16SrDNA碱基测序和比对证实,该菌株是目前尚未报道过的1个新菌种,初步确定其细菌学上的分类地位。同时,以灭菌预处理的污泥为底物培养基,对该菌的产氢能力及污泥发酵过程中底物性质变化(SCOD、可溶性蛋白质、总糖和pH值等)进行了探讨。实验结果显示,产氢菌Enterococcus sp.LG1的发酵过程中只有H2和CO2产生,无CH4产生。产气量最高为36.48mL/gTCOD,氢气含量高达73.5%,为已报道文献中以污泥为底物发酵制氢中之最高。根据污泥发酵产物分析得知,该菌的发酵类行为典型的丁酸型发酵。 12 strains of H2-producing bacteria were isolated and purified from anaerobic sludge, aerobic sludge and river bottom sludge by Hungate method. A new species of high efficient hydrogen production bacterium Enterococcus sp. LG1 (registration number: EU258743 ) was studied deeply. It was showed that the Enterococcus sp. LG1 was an anaerobic and Gram-negative bacterium. Sequence analysis of this type of clones showed that it was affiliated with the genus Enterococcus and it was not reported yet in other paper at present. Meanwhile, batch tests of anaerobic fermentative hydrogen production by Enterococcus sp. LG1 were investigated by using sterilization pretreated sludge as substrate. The changes of soluble COD, protein, carbohydrate and pH value during hydrogen fermentation were monitored. It was found that only hydrogen and carbon dioxide were produced by this strain and no methane was detected during fermentation. The maximal hydrogen yield was 36.48 mL/g TCOD and the hydrogen concentration in the gas phase was 73.5% The Enterococcus sp. LG 1 was a butyrate fermentation bacteria analyzed by metabolites.
作者 李宇亮 李小明 郭亮 周屹 曾光明 杨麒 廖德祥
机构地区 湖南大学环境科学与工程学院
出处 《微生物学通报》 CAS CSCD 北大核心 2008年第9期1373-1378,共6页 Microbiology China
基金 国家自然科学基金项目(No.50478054) 国际科技合作重点项目(No.2004DFA06200)
关键词 生物产氢 新菌 污泥 厌氧发酵 产氢能力 Bio-hydrogen, Novel species, Sludge, Anaerobic fermentation, Hydrogen producing function
分类号 Q93 [生物学—微生物学]
  • 相关文献

参考文献1

二级参考文献10

  • 1国家环保局《水与废水监测分析方法》编委会.水与废水监测分析方法(第3版)[M].北京:中国环境科学出版社,1997..
  • 2Fabiano B, Perego P. Thermodynamic study and optimization of hydrogen production by Enterobacter aerogenes [ J ] .Int J Hydrogen Energy, 2002, 27:149-156.
  • 3Rachman M A, Nakashimada Y, Kakizono T, et al. Hydrogen production with high yield and high evolution rate by self-flocculated cells of Enterobacter aerogenes in a packed-bed reactor[J]. J Ferment Bioeng, 1998, 49:450-454.
  • 4Cohen A, Gemert J M, Zoeremeyer R J, et al. Main Characteristics and Stoichiometric Aspects of Acidogenesis of Soluble Carbohydrate Containing Wastewater[J]. Proc Biochem,1984, 19(6): 228-232.
  • 5Ren N Q, Wang B Z, Huang J C. Ethanol-type fermentation from carbohydrate in high rate acidogenic reactor[J]. Biotechnol Bioeng,1997, 54:428-433.
  • 6Voolapalli R K, Stuckey D C. Hydrogen Production in Anaerobic Reactors during Shock Loads-Influence of Formate production and H2 Kinetics[J]. Wat Res, 35(7): 1831-1841.
  • 7Lay J J. Modeling and optimization of anaerobic digested sludge converting starch to hydrogen [ J ]. Biotechnol Bioeng, 2000, 68 (3):269-278.
  • 8Hussy I, Hawkes F R, Dinsdale R, et al. Continuous Fermentative Hydrogen Production from a Wheat Starch Co-Product by Mixed Microflora[J]. Biotechnol Bioeng, 2003, 84(6): 619-626.
  • 9Dinopulou G, Rudd T, Lester J N. Anaerobic acidogenisis of complex wastewater: I. The influence of operational parameters on reactor performance[J]. Biotechnol Bioeng, 1988 (31): 958-968.
  • 10Yokoi H, Maeda Y. Hirose J, Hayashi S, et al. H2 production by immobilized cells of clostridium butyricum on porous glass beads[J].Biotechnol Tech, 1997, ( 11 ): 431-433.

共引文献10

同被引文献22

  • 1XIAO Ben-yi LIU Jun-xin.Effects of thermally pretreated temperature on bio-hydrogen production from sewage sludge[J].Journal of Environmental Sciences,2006,18(1):6-12. 被引量:20
  • 2[美]萨姆布鲁克(Sambrook,J·)等 著,金冬雁等.分子克隆实验指南[M]科学出版社,1992.
  • 3DAS D.Advances in biohydrogen production processes:an approach towards commercialization[J].Int J Hydrogen Energ,2009,34:7349-7357.
  • 4WANG M Y,TSAI Y L,OLSON B H.Monitoring dark hydrogen fermentation performance of indigenous Clostridium butyricum by hydrogenase gene expression using RT-PCR and qPCR[J].Int J Hydrogen Energ,2008,33:4730-4738.
  • 5WANG X,MONIS P T,SAINT C P,et al.Biochemical kinetics of fermentative hydrogen production by Clostridium butyricum W5[J].Int J Hydrogen Energ,2009,34:791-798.
  • 6TOLVANEN K,KOSKINEN P,RAUSSI H M.Profiling the hydA gene and hydA gene transcript levels of Clostridium butyricum during continuous,mixed-culture hydrogen fermentation[J].Int J Hydrogen Energ,2008,33:5416-5421.
  • 7HEYNDRICKX M,VANSTEENBEECK A,DE VOS P,et al.Hydrogen gas production from continuous fermentation of glucose in a minimal medium with Clostridium butyricum LMG 1213tl[J].Syst Appl Microbiol,1986,8:239-244.
  • 8OLSON W P.Automated microbial identification and quantitation:technologies for the 2 000 s[M].Boca Raton:CRC Press,1996:13-51.
  • 9KIM D H,KIM S H,SHIN H S.Hydrogen fermentation of food waste without inoculum addition[J].Enzyme and Microbial Technology,2009,45:181-187.
  • 10HIRASAWA J S,SARTI A,AGUILA N K S D,et al.Application of molecular techniques to evaluate the methanogenic archaea and anaerobic bacteria in the presence of oxygen with different COD:sulfate ratios in a UASB reactor[J].Anaerobe,2008,14:209-218.

引证文献3

二级引证文献6

微生物学通报
2008年 第9期

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