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RBER生物降解溴酸盐及微生物群落结构分析
Removal of bromate by a rotating biofilm-electrode reactor(RBER) and microbial community analyses
【摘要】 溴酸盐(BrO3-)是由于含溴离子(Br-)的水体经过臭氧或加氯消毒后产生的消毒副产物,在毒理致癌性分级上被国际癌症研究机构定为II类致癌物.实验设计了一种旋转电极生物膜反应器系统(RBER),可将浓度范围为150800μg/L的溴酸盐降解,且溴酸盐被完全还原为溴离子,没有其他中间产物生成.在反应器运行过程中发现,硝酸盐与溴酸盐对氢电子供体存在明显的竞争关系,且硝酸盐对氢电子供体竞争能力强于溴酸盐.选取反应器运行不同阶段的生物膜样品进行DNA提取和高通量测序分析微生物群落多样性.结果表明,优势菌属主要有Bacillus(枯草杆菌属)、Pseudomonas(假单胞菌属)和Lactococcus(乳球菌属)3类,其在总菌属中相对丰度占比分别为37.0%、16.2%和11.1%,可能是实现溴酸盐生物降解的主要优势菌群.
【Abstract】 Bromate is an oxyhalid disinfection byproduct(DBP) during chlorination or ozonation of bromide-containing water, which has been classified as a group II carcinogen(as a possible human carcinogen) by the International Agency for Research on Cancer(IARC). In this study, an auto-hydrogenotrophic rotating biofilm-electrode reactor(RBER) was designed for bromate removal, and the running tests confirmed that the RBER system could completely reduce 150800 μg/L bromate to bromide without accumulation of by-products. The competition for the electron donor H2 appeared between bromate and nitrate during the RBER operation, and H2-utilization of NO3-was prior to BrO3-when H2 was limiting. The high-throughput sequencing was employed to investigate the microbial communities of six biofilm samples from different stage of RBER. According to 16 SrRNA gene sequencing, the dominant genus-level bacteria were Bacillus(37.0%), Pseudomonas(16.2%) and Lactococcus(11.1%). These three species are dominant genus-level bacteria, which may be the main bromate-reducing bacteria in RBER.
【Key words】 bromate; nitrate; high-throughput sequencing; microbial community;
- 【文献出处】 中国环境科学 ,China Environmental Science , 编辑部邮箱 ,2017年05期
- 【分类号】X172
- 【被引频次】6
- 【下载频次】117