School of Environment and Energy, South China University of Technology, Guangzhou 510006, China.
Guangzhou Sewage Purification Co., Ltd, Guangzhou 510006, China.
Water Res. 2022 Jun 1;216:118258. doi: 10.1016/j.watres.2022.118258. Epub 2022 Mar 7.
This work analyzed, for the first time, the bioenergetics of PAOs and GAOs in full-scale wastewater treatment plants (WWTPs) for the uptake of different carbon sources. Fifteen samples were collected from five full-scale WWTPs. Predominance of different PAOs, i.e., Ca. Accumulibacter (0.00-0.49%), Tetrasphaera (0.37-3.94%), Microlunatus phosphovorus (0.01-0.18%), etc., and GAOs, i.e., Ca. Competibacter (0.08-5.39%), Defluviicoccus (0.05-5.34%), Micropruina (0.17-1.87%), etc., were shown by 16S rRNA gene amplicon sequencing. Despite the distinct PAO/GAO community compositions in different samples, proton motive force (PMF) was found as the key driving force (up to 90.1%) for the uptake of volatile fatty acids (VFAs, acetate and propionate) and amino acids (glutamate and aspartate) by both GAOs and PAOs at the community level, contrasting the previous understanding that Defluviicoccus have a low demand of PMF for acetate uptake. For the uptake of acetate or propionate, PAOs rarely activated F1, F0- ATPase (< 11.7%) or fumarate reductase (< 5.3%) for PMF generation; whereas, intensive involvements of these two pathways (up to 49.2% and 61.0%, respectively) were observed for GAOs, highlighting a major and community-level difference in their VFA uptake biogenetics in full-scale systems. However, different from VFAs, the uptake of glutamate and aspartate by both PAOs and GAOs commonly involved fumarate reductase and F1, F0-ATPase activities. Apart from these major and community-level differences, high level fine-scale micro-diversity in carbon uptake bioenergetics was observed within PAO and GAO lineages, probably resulting from their versatilities in employing different pathways for reducing power generation. Ca. Accumulibacter and Halomonas seemed to show higher dependency on the reverse operation of F1, F0-ATPase than other PAOs, likely due to the low involvement of glyoxylate shunt pathway. Unlike Tetrasphaera, but similar to Ca. Accumulibacter, Microlunatus phosphovorus took up glutamate and aspartate via the proton/glutamate-aspartate symporter driven by PMF. This feature was testified using a pure culture of Microlunatus phosphovorus stain NM-1. The major difference between PAOs and GAOs highlights the potential to selectively suppress GAOs for community regulation in EBPR systems. The finer-scale carbon uptake bioenergetics of PAOs or GAOs from different lineages benefits in understanding their interactions in community assembly in complex environment.
本研究首次分析了在五个实际规模污水处理厂(WWTP)中,不同碳源对聚磷菌(PAOs)和聚糖菌(GAOs)生物能量学的影响。共采集了 15 个样本,通过 16S rRNA 基因扩增子测序,显示出不同的 PAO 和 GAO 群落组成,例如,Ca. Accumulibacter(0.00-0.49%)、Tetrasphaera(0.37-3.94%)、Microlunatus phosphovorus(0.01-0.18%)等,以及 GAOs,例如,Ca.Competibacter(0.08-5.39%)、Defluviicoccus(0.05-5.34%)、Micropruina(0.17-1.87%)等。尽管不同样本中的 PAO/GAO 群落组成存在明显差异,但质子动力(PMF)被发现是 GAOs 和 PAOs 摄取挥发性脂肪酸(VFAs,乙酸盐和丙酸盐)和氨基酸(谷氨酸和天冬氨酸)的关键驱动力(高达 90.1%),这与先前的理解相反,即 Defluviicoccus 对乙酸盐的摄取不需要 PMF。对于乙酸盐或丙酸盐的摄取,PAOs 很少激活 F1、F0-ATP 酶(<11.7%)或琥珀酸还原酶(<5.3%)来产生 PMF;而 GAOs 则观察到这两种途径的强烈参与(分别高达 49.2%和 61.0%),这突出了它们在全规模系统中 VFA 摄取生物遗传学方面的主要和群落水平差异。然而,与 VFAs 不同,PAOs 和 GAOs 摄取谷氨酸盐和天冬氨酸通常涉及琥珀酸还原酶和 F1、F0-ATP 酶的活性。除了这些主要的和群落水平的差异之外,在 PAO 和 GAO 谱系内还观察到碳摄取生物能量学的高水平精细尺度微观多样性,这可能是由于它们在产生还原力方面采用不同途径的灵活性所致。Ca. Accumulibacter 和 Halomonas 似乎比其他 PAO 对 F1、F0-ATP 酶的反向操作表现出更高的依赖性,这可能是由于甘氨酸穿梭途径的低参与所致。与 Tetrasphaera 不同,但与 Ca. Accumulibacter 相似,Microlunatus phosphovorus 通过 PMF 驱动的质子/谷氨酸-天冬氨酸协同转运蛋白摄取谷氨酸盐和天冬氨酸。这一特征通过使用 Microlunatus phosphovorus 菌株 NM-1 的纯培养物得到了验证。PAOs 和 GAOs 之间的主要区别突出了选择性抑制 GAOs 以进行 EBPR 系统群落调节的潜力。来自不同谱系的 PAO 或 GAO 的更精细的碳摄取生物能量学有助于理解它们在复杂环境中群落组装中的相互作用。
