Department of Civil Engineering, The University of New Mexico, Albuquerque, New Mexico 87131, United States.
Environ Sci Technol. 2013 Apr 16;47(8):3816-24. doi: 10.1021/es304846s. Epub 2013 Mar 28.
Glycogen-accumulating organisms (GAOs) are thought to compete with polyphosphate-accumulating organisms (PAOs) in enhanced biological phosphorus removal (EBPR) wastewater treatment systems. A laboratory sequencing batch reactor (SBR) was operated for one year to test the hypothesis that PAOs have a competitive advantage at low acetate concentrations, with a focus on low pH conditions previously shown to favor GAOs. PAOs dominated the system under conventional SBR operation with rapid acetate addition (producing high in-reactor concentrations) and pH values of 7.4-8.4. GAOs dominated when the pH was decreased (6.4-7.0). Decreasing the acetate addition rate led to very low reactor acetate concentrations, and PAOs recovered, supporting the study hypothesis. When the acetate feed rate was increased, EBPR failed again. Dominant PAOs and GAOs were Candidatus Accumulibacter phosphatis and Defluviicoccus Cluster 2, respectively, according to fluorescent in situ hybridization and 454 pyrosequencing. Surprisingly, GAOs were not the immediate causes of PAO failures, based on functional and population measurements. Pyrosequencing results suggested Dechloromonas and Tetrasphaera spp. may have also been PAOs, and additional potential GAOs were also identified. Full-scale systems typically have lower in-reactor acetate concentrations than laboratory SBRs, and so, previous laboratory studies may have overestimated the practical importance of GAOs as causes of EBPR failure.
糖原积累菌(GAOs)被认为在强化生物除磷(EBPR)污水处理系统中与聚磷酸盐积累菌(PAOs)竞争。实验室序批式反应器(SBR)运行了一年,以验证以下假设:在低乙酸浓度下,PAOs 具有竞争优势,重点关注先前表明有利于 GAOs 的低 pH 条件。在传统 SBR 运行下,快速添加乙酸(产生高反应器浓度)和 pH 值为 7.4-8.4 时,PAOs 主导系统。当 pH 值降低(6.4-7.0)时,GAOs 占主导地位。降低乙酸添加速率会导致反应器中乙酸浓度非常低,PAOs 恢复,支持研究假设。当乙酸进料速率增加时,EBPR 再次失败。根据荧光原位杂交和 454 焦磷酸测序,优势 PAOs 和 GAOs 分别为 Candidatus Accumulibacter phosphatis 和 Defluviicoccus Cluster 2。令人惊讶的是,根据功能和种群测量,GAOs 并不是 PAO 失败的直接原因。焦磷酸测序结果表明,Dechloromonas 和 Tetrasphaera spp. 也可能是 PAOs,还鉴定出了其他潜在的 GAOs。全规模系统中的反应器乙酸浓度通常低于实验室 SBR,因此,以前的实验室研究可能高估了 GAOs 作为 EBPR 故障原因的实际重要性。
