典型多环芳烃生物降解及转化机制的研究进展
收稿日期:2013‐11‐04
基金项目:国家自然科学基金项目(21376285)、重庆市基础与前沿研究计划项目(CS T C 2013j cyjA 20014)和重庆市教委科学技术研究项目(KJ 120719)资助
通讯联系人:姜岩,男,教授,博士,从事环境生物技术方面的研究;T el :023‐62768317;E ‐mail :j iangyan @ctbu .edu .cn 文章编号:1001‐8719(2014)06‐1137‐14
典型多环芳烃生物降解及转化机制的研究进展
姜 岩,杨 颖,张贤明
(重庆工商大学废油资源化技术与装备教育部工程研究中心,重庆400067)
摘要:多环芳烃(PA Hs )作为重要的难降解环境污染物,因其突出的危害性,对其进行生物降解已受到越来越多的关注。针对不同相对分子质量的典型PA Hs ,概述了细菌、真菌、藻类等PA Hs 生物降解菌种的研究进展;以萘、蒽、菲和苯并[a ]芘4种常见环境污染物为模型化合物,论述了PA Hs 的生物转化机制;从PA Hs 的生物可利用性、微生物的活性,以及环境因子方面,分析了PA Hs 生物降解过程中的关键影响因素。鉴于环境中PA Hs 具有组分多样性的特点,指出构建高效菌群,进行多菌种联合降解将成为开展PA Hs 生物降解的重要方法,既具有很强的针对性又可提高现有资源的利用率,可以有效地避免当前以菌种开发为主要研究方向的偶然性和随机性。关 键 词:多环芳烃;生物降解;降解机制;高效菌群;共代谢;影响因素
中图分类号:X 592;X 172; 文献标识码:A doi :10.3969/j .issn .1001‐8719.2014.06.026
Review on the Biodegradation and Conversion Mechanisms of Typical Polycyclic Aromatic Hydrocarbons
JIANG Yan ,YANG Ying ,ZHANG Xianming
(En g ineering Research Center f or W aste Oil Recov er y Technolo gy and E q uip ment o f M inistr y o f Education ,Chon gq ing Technolo gy and
Business Universit y ,Chon gq ing 400067,China )Abstract :Polycyclic aromatic hydrocarbons (PA Hs ),a class of crucially persistent pollutants with two or more fused benzene rings ,have attracted growing concern due to their carcinogenic ,teratogenic and mutagenic effects .T he biodegradation progress of typical PA Hs with different molecular masses by microorganisms including bacteria ,fungi and algae isolated from contaminated soil or sediments is reviewed .T he biotransformation mechanisms ,key enzymes and metabolic p athways of four representative pollutants of naphthalene ,anthracene ,p henanthrene and benzo [a ]py rene were discussed .Still ,the crucial impacting factors ,such as bioavailability of PA Hs ,microbial activity and environmental factors ,to increase biodegradation rate are introduced .Finally ,it is advanced that studies on a high ‐effective microbial consortium and synergetic degradation will be considered as the important means aiming at the diversity of PA Hs in the environment ,w hich can effectively avoid the contingency and randomness in the development of PA H ‐degrading microbes as main direction ,and is niche targeting and effective to improve the utilization of available resources .Key words :PA Hs ;biodegradation ;degradation mechanism ;high efficiency flora ;co ‐metabolism ;impacting factor
石油学报(石油加工)2014年12月 ACT A PET ROLEI SINICA (PET ROLEU M PROCESSING SECT IO N ) 第30卷第6期