吉林大学学报(理学版) ›› 2024, Vol. 62 ›› Issue (3): 750-758.

• • 上一篇    

生物小分子刺激石油污染地下水中土著菌的降解特性

张艺1, 石宇佳1,2, 王吉利1, 王以良1, 迟崇哲2, 张玉玲1   

  1. 1. 吉林大学 新能源与环境学院, 长春 130021; 2. 长春黄金研究院有限公司, 长春 130012
  • 收稿日期:2023-10-19 出版日期:2024-05-26 发布日期:2024-05-26
  • 通讯作者: 张玉玲 E-mail:lingling29@126.com

Degradation Characteristics of Indigenous Bacteria in Petroleum Contaminated Groundwater Stimulated by Biological  Small Molecules

ZHANG Yi1, SHI Yujia1,2,  WANG Jili1, WANG Yiliang1, CHI Chongzhe2 , ZHANG Yuling1   

  1. 1. College of New Energy and Environment,  Jilin University, Changchun 130021, China; 
    2. Changchun Gold Research Institute Co.,  Ltd.,  Changchun 130012,  China
  • Received:2023-10-19 Online:2024-05-26 Published:2024-05-26

摘要: 基于石油污染地下水微生物降解机制, 针对我国东北某石油污染地下水低温、 低氧、 寡营养环境的特点, 采集石油污染地下水, 研究生物小分子物质刺激石油污染地下水中土著菌降解石油烃效率. 结果表明: 以石油烃为唯一碳源, 在无机盐基础营养液中分别添加生物小分子氨基酸和有机磷源时, 氨基酸类物质抑制土著菌降解石油烃, 其中抑制能力为甘氨酸(-20.49%)>谷氨酸(-7.81%)>丙氨酸(-4.88%); 有机磷酸脂类促进土著菌降解石油烃, 其中促进能力为卵磷脂(7.91%)>甘油磷酸二钠(7.01%)>磷酸三乙脂(0.03%); 进一步补充生物小分子碳源可提升土著菌降解效率, 其中提升能力为蔗糖(8.03%)>葡萄糖(6.01%)>麦芽糖(2.91%); 在石油烃初始质量浓度为10 mg/L的地下水中添加无机盐、 卵磷脂和蔗糖, 作用7 d时, 受生物小分子物质刺激作用, 降解率可提升至77.26%; 联合16SrRNA扩增子测序, 对刺激前后土著菌进行高通量测序, 证明生物小分子促进土著菌群协同代谢降解石油烃时, 石油烃优势菌属丰度和功能基因表达呈正效应关系. 

关键词: 生物小分子, 生物刺激, 土著菌, 石油污染地下水, 降解

Abstract: Based on the microbial degradation mechanism of petroleum contaminated groundwater and the characteristics of low temperature,  low oxygen,  and oligotrophic environments in a certain petroleum contaminated groundwater in Northeast China, we collected  petroleum contaminated groundwater and  studied the efficiency of  indigenous bacteria  degrading petroleum hydrocarbons in petroleum contaminated groundwater stimulated by microbial small molecule substances. The  results show that when petroleum hydrocarbons are used as the sole carbon source and biological small molecule substances such as amino acids and organic phosphorus sources are added to the inorganic salt based nutrient solution,   amino acid substances inhibit the degradation of petroleum hydrocarbons by indigenous bacteria,  with inhibitory ability of glycine (-20.49%)>glutamic acid (-7.81%)>alanine (-4.88%). Organic phosphate lipids promote the degradation of petroleum hydrocarbons by indigenous bacteria,  with promoting ability of lecithin (7.91%)>disodium glycerophosphate (7.01%)>triethyl phosphate (0.03%). Further supplementing biological small molecule carbon sources can improve the degradation efficiency of indigenous bacteria,  with the enhancement ability of sucrose (8.03%)>glucose (6.01%)>maltose (2.91%). Adding inorganic salts,  lecithin,  and sucrose to groundwater with an initial mass concentration   of 10 mg/L of petroleum hydrocarbon, after 7 d of stimulation,  the degradation rate can be increased to 77.26% due to the  stimulation of  biological small molecule substances. Combined with 16SrRNA amplicon sequencing,  high-throughput sequencing is performed on indigenous bacteria before and after the stimulation,  demonstrating that  there is a positive correlation between the abundance of dominant petroleum hydrocarbon genera and the expression of functional genes when biological small molecules promote the synergistic metabolism and degradation of petroleum hydrocarbons by indigenous bacterial communities.

Key words: biological small molecule,  , bio-stimulation, indigenous bacteria, petroleum pollution of groundwater, degradation

中图分类号: 

  • X523