Characteristics of the Bacterial Communitystructure and Microbial Diversity of Activated Sludge Undergoing Different Temperature Conditions in Plateau Areas Based on A2o Processes

“…In the microbial composition at the genus level (Fig. 6) denitrifying bacteria genera were relatively more abundant in the solar radiation device, such as norank__f__AKYH767 (TY16.19%, HW12.99%, SW17.24%) and unclassi ed__f__Comamonadaceae (TY6.84%, HW3.30%, SW4.02%), while organic matter-degrading functional bacteria such as norank__f__JG30-KF-CM45 (TY2.66%, HW7.63%, SW3.66%), a genus itself belonging to Chloro exi, which is greatly affected by anaerobic and anoxic conditions, dominated the thermostatic room temperature device [41], the degradation of organic matter by this group of genera provided a carbon source for the growth and metabolism of nitrogen-metabolizing functional bacteria, which further enhanced the nitrogen removal capacity.There were fewer species of denitrifying bacteria genera in this study, whereas a variety of denitrifying functional bacteria genera were found to be present in the A 2 O reactor in the study of Yu Z et al [42] The reason for this is that the higher intensity of solar radiation in the plateau can damage the nucleoprotein and DNA of microorganisms, and some microorganisms are inhibited or even eliminated under the selection of strong solar radiation conditions [43,44]. And this inhibitory or destructive effect is extremely signi cant for unclassi ed_f__Saprospiraceae.…”

Study on microbial metabolic mechanism of activated sludge denitrification by A2O process under strong solar radiation in highland habitat

“…In the microbial composition at the genus level (Fig. 6) denitrifying bacteria genera were relatively more abundant in the solar radiation device, such as norank__f__AKYH767 (TY16.19%, HW12.99%, SW17.24%) and unclassi ed__f__Comamonadaceae (TY6.84%, HW3.30%, SW4.02%), while organic matter-degrading functional bacteria such as norank__f__JG30-KF-CM45 (TY2.66%, HW7.63%, SW3.66%), a genus itself belonging to Chloro exi, which is greatly affected by anaerobic and anoxic conditions, dominated the thermostatic room temperature device [41], the degradation of organic matter by this group of genera provided a carbon source for the growth and metabolism of nitrogen-metabolizing functional bacteria, which further enhanced the nitrogen removal capacity.There were fewer species of denitrifying bacteria genera in this study, whereas a variety of denitrifying functional bacteria genera were found to be present in the A 2 O reactor in the study of Yu Z et al [42] The reason for this is that the higher intensity of solar radiation in the plateau can damage the nucleoprotein and DNA of microorganisms, and some microorganisms are inhibited or even eliminated under the selection of strong solar radiation conditions [43,44]. And this inhibitory or destructive effect is extremely signi cant for unclassi ed_f__Saprospiraceae.…”

Study on microbial metabolic mechanism of activated sludge denitrification by A2O process under strong solar radiation in highland habitat

“…Simultaneously, the abundance of microorganisms is also affected to varying degrees owing to changes in temperature. 10–12 The pollutants in domestic wastewater are mainly C, N and P. The anaerobic–anoxic–oxic (A 2 O) process is considered a good system for the synchronized removal of nitrogen and phosphorus and the removal of organic matter and has been widely used in municipal wastewater treatment systems. 13 It mainly stores organic matter and releases phosphorus in the anaerobic tank, uses a carbon source for denitrification reaction in the anoxic tank, and consumes energy for nitrification reaction and phosphorus absorption in the oxic tank.…”

The study on the changing pattern of microbial community function and phenotypes in anaerobic–anoxic–oxic (A²O) process under the influence of temperatures in plateau habitats