资源与环保进展

在生物修复过程中，微生物淤堵问题时有发生，使渗流速度降低从而影响修复效率。本课题对有限孔隙空间中的微生物生长规律进行了研究。在孔隙为1250~2000um和9um的接种多孔介质中，水流速度不变；在孔隙为30~500um的接种多孔介质中，微生物膜使流速降低83%~100%；孔隙为500~1000um和19~38um，水流速度降低到初始的15%~64%。SEM图像显示，在相对较大的孔（70~200um）中架桥的生物膜比小孔（20~65um）中多。多孔介质孔隙度大小影响微生物的群落结构。在120目介质上，优势细菌的比例（55%）高于400目介质（42%）。肠杆菌属（120目）的丰度是400目介质上的两倍。接种后第一天，120目介质（0.138mg）上附着的胞外多糖含量是400目介质（0.076mg）的1.81倍。

生物膜形成；多孔介质；生物修复；微生物堵塞；胞外多聚物

Yang, GuiqinLin, JunZeng, et al. Extraction and characterization of stratified extracellular polymeric substances in Geobacter biofilms[J]. Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies, 2019(276).

Limoli, Dominique H, C. J. et al. Bacterial Extracellular Polysaccharides in Biofilm Formation and Function[J]. Microbiology Spectrum, 2015(3).

Katharine Z. Coytea, Herve´ Tabuteaue, Eamonn A. et al. Microbial competition in porous environments can select against rapid biofilm growth[J]. Proceedings of the national academy of sciences of the United States of America, 2016:161-170.

Philippe Vandevivere, Philippe Baveye. Effect of bacterial extracellular polymers on the saturated hydraulic conductivity of sand columns[J]. Applied and Environmental Microbiology, 1992(58):1690-1698.

Carey D. Nadell, Knut Drescher, Kevin R. Foster. Spatial Structure, Cooperation, and Competition in Biofilms[J]. Nature Reviews Microbiology, 2016(14):589-600.