氯代乙烯的厌氧微生物还原脱氯特性  

作　　者：李伟[1] 刘贵平 刘峻 吕良华 乔文静 余欣 张晓旸 蒋建东 LI Wei;LIU Gui-ping;LIU Jun;LU Liang-hua;QIAO Wen-jing;YU Xin;ZHANG Xiao-yang;JIANG Jian-dong(Key Laboratory of Agricultural and Environmental Microbiology,College of Life Sciences,Nanjing Agricultural University,Nanjing 210095,China;Jiangsu Provincial Key Laboratory of Environmental Engineering,Jiangsu Provincial Academy of Environmental Science,Nanjing 210036,China)

机构地区：[1]南京农业大学生命科学学院,农业农村部农业环境微生物重点实验室,南京210095 [2]江苏省环境科学研究院,江苏省环境工程重点实验室,南京210036

出　　处：《环境科学》2024年第2期1080-1089,共10页Environmental Science

基　　金：国家自然科学基金项目(42007214);江苏省卓越博士后计划项目(2023ZB141);中国博士后科学基金项目(2021M691614);江苏省“双创博士”项目(JSSCBS20210278)。

摘　　要：四氯乙烯(PCE)和三氯乙烯(TCE)是地下水中典型的卤代有机化合物,严重威胁生态环境与人体健康.为获得氯代乙烯高效厌氧降解菌剂并探究其在污染地下水中的应用潜能,利用某工业污染场地的地下水,通过投喂PCE或TCE进行长期富集培养,获得了可将PCE和TCE完全脱氯成无毒乙烯的厌氧菌剂W-1.菌剂W-1的PCE和TCE脱氯速率分别是(120.1±4.9)μmol·(L·d)^(-1)和(172.4±21.8)μmol·(L·d)^(-1).16S rRNA基因扩增子测序和qPCR结果表明,98.3μmol PCE还原脱氯至顺-1,2-二氯乙烯(cis-1,2-DCE)时,Dehalobacter丰度从1.9%增长至57.1%,基因拷贝数每释放1μmol Cl-增加1.7×10^(7)copies;cis-1,2-DCE完全还原脱氯至乙烯时,Dehalococcoides丰度从1.1%增长至53.8%;PCE完全还原脱氯至乙烯过程中Dehalococcoides基因拷贝数每释放1μmol Cl^(-)增加1.7×10^(8)copies.以上结果说明Dehalobacter与Dehalococcoides协同互作实现PCE完全降解解毒.当菌群W-1以TCE为电子受体时,222.8μmol TCE完全还原脱氯至乙烯时候,Dehalococcoides丰度从(29.1±2.4)%增长至(77.7±0.2)%,基因拷贝数每释放1μmol Cl-增加(1.9±0.4)×10^(8)copies.结合PCR和Sanger测序,获得了菌剂W-1中主要脱卤菌Dehalococcoides LWT1较完整的16S rRNA基因序列,其与D.mccartyi strain 19516S rRNA基因序列相似度达100%.将菌群W-1添加至受TCE(418.7μmol·L^(-1))污染的地下水中,28 d内实现了(69.2±9.8)%的TCE被完全脱毒至乙烯,TCE脱氯速率为(10.3±1.5)μmol·(L·d)^(-1).研究成果可为PCE或TCE污染地下水开展厌氧微生物修复提供菌剂资源和理论指导.Tetrachloroethylene(PCE)and trichloroethylene(TCE)are typical volatile halogenated organic compounds in groundwater that pose serious threats to the ecological environment and human health.To obtain an anaerobic microbial consortium capable of efficiently dechlorinating PCE and TCE to a non-toxic end product and to explore its potential in treating contaminated groundwater,an anaerobic microbial consortium W-1 that completely dechlorinated PCE and TCE to ethylene was obtained by repeatedly feeding PCE or TCE into the contaminated groundwater collected from an industrial site.The dechlorination rates of PCE and TCE were(120.1±4.9)μmol·(L·d)^(-1) and(172.4±21.8)μmol·(L·d)^(-1) in W-1,respectively.16S rRNA gene amplicon sequencing and quantitative PCR(qPCR)showed that the relative abundance of Dehalobacter increased from 1.9% to 57.1%,with the gene copy number increasing by 1.7×10^(7) copies per 1μmol Cl-released when 98.3μmol of PCE was dechlorinated to cis-1,2-dichloroethylene(cis-1,2-DCE).The relative abundance of Dehalococcoides increased from 1.1% to 53.8%when cis-1,2-DCE was reductively dechlorinated to ethylene.The growth yield of Dehalococcoides gene copy number increased by 1.7×10^(8) copies per 1μmol Cl-released for the complete reductive dechlorination of PCE to ethylene.The results indicated that Dehalobacter and Dehalococcoides cooperated to completely detoxify PCE.When TCE was used as the only electron acceptor,the relative abundance of Dehalococcoides increased from(29.1±2.4)% to(7.7±0.2)%,and gene copy number increased by(1.9±0.4)×10^(8) copies per 1μmol Cl^(-)released,after dechlorinating 222.8μmol of TCE to ethylene.The 16S rRNA gene sequence of Dehalococcoides LWT1,the main functional dehalogenating bacterium in enrichment culture W-1,was obtained using PCR and Sanger sequencing,and it showed 100%similarity with the 16S rRNA gene sequence of D.mccartyi strain 195.The anaerobic microbial consortium W-1 was also bioaugmented into the groundwater contaminated by TCE at a concentrat

关 键 词：四氯乙烯(PCE) 三氯乙烯(TCE) 厌氧微生物还原脱氯 有机卤呼吸细菌 脱卤拟球菌(Dehalococcoides) 

分 类 号：X172[环境科学与工程—环境科学]