期刊
BIORESOURCE TECHNOLOGY
卷 388, 期 -, 页码 -出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.biortech.2023.129753
关键词
Membrane bioreactor; Biofouling control; Quorum quenching; Microbial community analysis
This study investigated the antibiofouling performance of a new indigenous QQ bacterium, Delftia sp. JL5, in membrane bioreactor (MBR). JL5 effectively inhibited biofilm formation of quorum-sensing bacteria, delaying MBR biofouling. Slower flux rate favored the suppression effect of JL5. Additionally, JL5 changed the microbial structure of the membrane biocake without affecting activated sludge.
The quorum quenching (QQ) strategy has attracted increasing attention in membrane bioreactor (MBR) fouling control. However, the applicable QQ strain remains limited. This study investigated the antibiofouling performance of a new indigenous QQ bacterium, Delftia sp. JL5 (JL5) in MBR. JL5 produces intracellular acylase that irreversibly degrades N-acylhomoserine lactones (AHL), inhibited biofilm formation of quorum-sensing bacteria from activated sludge. During 120 days of operation, immobilized JL5 substantially delayed MBR biofouling by 2.1 and 2.9 times, at a flux rate of 30 L/(m2 center dot h) and 20 L/(m2 center dot h), respectively. A slower flux rate was favorable for effective mitigation of JL5 biofouling. JL5 reduced the AHL and extracellular polymeric substances of biocake without affecting the efficiency of waste removal. The presence of JL5 significantly changed the microbial structure of the membrane biocake, but not the activated sludge. Collectively, high activity, durability, and acid tolerance credited JL5 as a promising strain for QQ-MBR.
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