LAUSR

Abstract Recently, micro-particles with a size range of 0.45–10 μm in anaerobic membrane bioreactors (AnMBRs), were rich in microorganisms and characterized as a significant source to membrane fouling. Nevertheless, little is known about the formation of the micro-particles associated microorganisms as well as their metabolic functions, which could be largely impacted by carbon sources in the influent. Here, protein and glucose were chosen to be two different carbon sources fed into two identical AnMBRs (i.e., AnMBR-P and AnMBR-G), and a comprehensive comparison of the micro-particles formed in corresponding reactors was made. Size-dependent fractionation and fluorescent staining assay showed that micro-particles with the size range of 0.45–1 μm possessed the highest contents (41.4%) in the AnMBR-P and presented as vibrios and coccus, while the 5–10 μm micro-particles with filamentous morphologies were the prevailing fraction (61.9%) in the AnMBR-G. According to the results of high-throughput 16S rRNA gene sequencing, the Lentimicrobiaceae, D8A-2 and Syntrophorhabdus prevailed in the AnMBR-P micro-particles, while the SJA-15 showed overwhelming predominance than the other genera in the AnMBR-G micro-particles. Metagenomic sequencing further revealed that the micro-particles in the AnMBR-P possessed higher abundance in specific functional genes for nitrogen metabolism (nirB), sulfur metabolism (cysK) and cysteine and methionine metabolism (mtaD), as well as in the cell mobility as chemotaxis (rbsB) and flagellar assembly (fliC). In comparison, the micro-particles obtained from the AnMBR-G encoded abundant genes for converting glucose to metabolites in the next level, such as glk (glucokinase), pfk (ATP-dependent phosphofructokinase), and PGK (phosphoglycerate kinase). Overall, our findings provided new insights into the formation of micro-particles in the supernatant of AnMBRs, which could facilitate to propose related fouling alleviation methods from the perspective of carbon sources regulation and/or pretreatment of the influent.