College of Resources and Environment, University of Chinese Academy of Sciences, 19 A Yuquan Road, Beijing 100049, PR China.
College of Resources and Environment, University of Chinese Academy of Sciences, 19 A Yuquan Road, Beijing 100049, PR China.
Water Res. 2016 Nov 15;105:157-166. doi: 10.1016/j.watres.2016.08.050. Epub 2016 Aug 24.
In this study, pyrosequencing combined with clone library analysis, qPCR, and fluorescent in situ hybridization (FISH) were performed to identify detailed changes of bacterial and filamentous bacterial communities in activated sludge (AS) in 3 types of typical AS samples: sludge bulking (B-AS), excessive bulking (EB-AS), and non-bulking (N-AS). Sludge bulking resulted in a decrease in total bacterial numbers from (6.4 ± 0.18) × 10 gene copies/mL in N-AS to (2.4 ± 0.22) × 10 in EB-AS and a decrease in bacterial diversity from 2757 OTUs in N-AS to 2217 OTUs in EB-AS. With the occurrence of sludge bulking, Actinobacteria and Firmicutes increased sharply, whereas Proteobacteria, which was the predominant phylum in N-AS, decreased markedly. In addition, Nitrospirae, a major lineage of the nitrite-oxidizing bacteria, had quite a low abundance in EB-AS (0.15%), while it was relatively high in N-AS (1.17%). On the other hand, filamentous bacteria accounted for 28.77% and 5.72% of total sequences in EB-AS and N-AS, respectively. More interestingly, 11 types of filamentous bacteria were always present in 3 types of typical AS samples from different stages of sludge bulking, and most of them enriched in EB-AS compared to N-AS. It is noteworthy that, in addition to the frequently reported filamentous bacteria such as Candidatus M. parvicella and Tetrasphaera, novel filamentous species of Trichococcus might exist in this bulking WWTP. Our results reveal that sludge bulking are derived from diverse taxa, which expands previous understanding and provides new insight into the underlying complications of the bulking phenomenon in AS.
在这项研究中,采用焦磷酸测序结合克隆文库分析、qPCR 和荧光原位杂交(FISH)技术,对 3 种典型活性污泥(AS)样品中的细菌和丝状菌群落的详细变化进行了鉴定,这 3 种 AS 样品分别为污泥膨胀(B-AS)、过度膨胀(EB-AS)和非膨胀(N-AS)。污泥膨胀导致总细菌数量从 N-AS 中的(6.4±0.18)×109 基因拷贝/mL 减少到 EB-AS 中的(2.4±0.22)×109,细菌多样性从 N-AS 中的 2757 个 OTUs 减少到 EB-AS 中的 2217 个 OTUs。随着污泥膨胀的发生,放线菌和厚壁菌门急剧增加,而在 N-AS 中占主导地位的变形菌门则显著减少。此外,亚硝化单胞菌作为亚硝酸盐氧化菌的主要谱系,在 EB-AS 中的丰度相当低(0.15%),而在 N-AS 中相对较高(1.17%)。另一方面,丝状菌分别占 EB-AS 和 N-AS 总序列的 28.77%和 5.72%。更有趣的是,在 3 种不同污泥膨胀阶段的典型 AS 样品中,始终存在 11 种丝状菌,并且与 N-AS 相比,它们在 EB-AS 中富集。值得注意的是,除了经常报道的 Candidatus M. parvicella 和 Tetrasphaera 等丝状菌外,在该膨胀 WWTP 中可能存在新型 Trichococcus 丝状菌。我们的研究结果表明,污泥膨胀是由多种类群引起的,这扩大了之前的认识,并为 AS 中膨胀现象的潜在复杂性提供了新的见解。
