| 硫酸盐还原型甲烷厌氧氧化菌群驯化及其群落特征 |
| 摘要点击 3159 全文点击 1508 投稿时间:2014-04-08 修订日期:2014-08-18 |
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| 中文关键词 甲烷厌氧氧化 硫酸盐还原 驯化 菌群 群落结构特征 |
| 英文关键词 anaerobic oxidation of methane sulfate reduction acclimatization microorganisms microbial community structure |
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| 中文摘要 |
| 甲烷的温室效应是二氧化碳的26倍,高浓度硫酸盐废水对水体、土壤和植物均有危害. 硫酸盐为氧化剂的甲烷厌氧氧化是减少甲烷的主要途径之一. 本研究以硫酸盐作为电子受体,驯化培养硫酸盐还原型甲烷厌氧氧化菌群,采用PCR-DGGE技术分析细菌和古菌菌群多样性和群落结构特征,并对其中的优势菌进行系统发育分析. DGGE指纹图谱结果表明,硫酸盐的加入使微生物群落结构和优势种群数量发生了明显的改变,其增强了甲烷氧化古菌和硫酸盐还原细菌的丰度,加入硫酸盐驯化的菌群,其细菌群落多样性增加而古菌群落多样性略微减少. 典型条带测序结果显示,驯化后菌群的优势菌种主要包括螺旋体门(Spirochaetes),除硫单胞菌目(Desulfuromonadales)、甲烷八叠球菌目(Methanosarcinales)和甲烷丝状菌属(Methanosaeta)等. 驯化菌群的甲烷厌氧氧化研究结果显示,甲烷厌氧氧化的同时伴随硫酸盐的还原,甲烷的氧化产物为二氧化碳,硫酸盐的转化产物为硫化氢和硫单质. |
| 英文摘要 |
| The greenhouse effect of methane is 26 times worse than that of carbon dioxide, and wastewater containing high concentrations of sulfate is harmful to water, soil and plants. Therefore, anaerobic oxidation of methane driven by sulfate is one of the effective ways for methane reduction. In this paper, with sulfate as the electron accepter, a microbial consortium capable of oxidating methane under anaerobic condition was cultured. The diversity and characteristics of bacterial and archaeal community were investigated by PCR-DGGE, and phylogenetic analysis of the dominant microorganisms was also carried out. The DGGE fingerprints showed that microbial community structure changed distinctly, and the abundance of methane-oxidizing archea and sulfate-reducing bacteria increased in the acclimatization system added sulfate. After acclimatization, the bacterial diversity increased, while archaea diversity decreased slightly. The representative bands in the DGGE profiles were excised and sequenced. Results indicated that the dominant species in the acclimatization system were Spirochaetes, Desulfuromonadales, Methanosarcinales, Methanosaeta. Methane converted into carbon dioxide while sulfate transformed into hydrogen sulfide and sulfur in the process of anaerobic methane oxidation accompanied by sulphate reduction. |
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