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微生物燃料电池降解苯酚过程中微电场对阴极微生物多样性的影响
引用本文:张蓉,侯彬,刘晓宇,何盼,张超,孙洪鑫,卢静. 微生物燃料电池降解苯酚过程中微电场对阴极微生物多样性的影响[J]. 微生物学通报, 2022, 49(2): 463-472
作者姓名:张蓉  侯彬  刘晓宇  何盼  张超  孙洪鑫  卢静
作者单位:中北大学环境与安全工程学院, 山西 太原 030051
基金项目:国家自然科学基金(21806147,41977141);山西省自然科学基金(201801D121268)
摘    要:[背景]苯酚废水作为一种毒性强、难降解的废水而备受关注.目前,微生物燃料电池(microbial fuel cell,MFC)已经广泛用于苯酚废水的降解,MFC的产电效果和苯酚的降解效率与反应器内的微生物群落有着密切关系.[目的]为了提高MFC的产电效果及对有害物质的降解能力,需要对MFC中苯酚的降解和微生物群落结构进...

关 键 词:微生物燃料电池  苯酚  微电场  高效液相色谱  16S rRNA基因高通量测序技术  微生物多样性
收稿时间:2021-07-06
修稿时间:2021-08-11

Effect of micro electric field on cathode microbial diversity in the process of phenol degradation in microbial fuel cell
ZHANG Rong,HOU Bin,LIU Xiaoyu,HE Pan,ZHANG Chao,SUN Hongxin,LU Jing. Effect of micro electric field on cathode microbial diversity in the process of phenol degradation in microbial fuel cell[J]. Microbiology China, 2022, 49(2): 463-472
Authors:ZHANG Rong  HOU Bin  LIU Xiaoyu  HE Pan  ZHANG Chao  SUN Hongxin  LU Jing
Affiliation:School of Environmental and Safety Engineering, North University of China, Taiyuan 030051, Shanxi, China
Abstract:[Background] Phenol wastewater has attracted much attention as a kind of wastewater with strong toxicity and refractory degradation. At present, microbial fuel cell (MFC) have been widely used for the degradation of phenol wastewater. The power generation efficiency of MFC and the degradation efficiency of phenol are closely related to the microbial community in the reactor. [Objective] In order to improve the electricity generation effect of MFC and the degradability of harmful substances, it is necessary to explore the degradation of phenol in MFC and the structure of microbial community. [Methods] In open and closed circuit condition, high-performance liquid chromatography (HPLC) was used to test the removal rate of phenol by MFC; 16S rRNA gene high-throughput sequencing technology was used to analyze changes in the microbial community in the cathode compartment. [Results] The results showed that compared with open circuit control, the removal effect of phenol in closed circuit condition has been significantly improved. In addition, the species diversity of cathodic microorganisms has increased. Although the overall species abundance has decreased, the abundance of some electricity-producing and degrading bacteria has increased significantly, such as, Proteobacteria and Actinobacteria at the phylum level and Gammaproteobacteria at the class level. [Conclusion] The existence of the micro electric field promotes the growth of some functional microorganisms, which has a positive impact on the degradation of phenol and the power generation of MFC.
Keywords:microbial fuel cell  phenol  micro electric field  HPLC  16S rRNA gene high-throughput sequencing technology  microbial diversity
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