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Aerobic Denitrification Promoting by Actinomycetes Coculture: Investigating Performance, Carbon Source Metabolic Characteristic, and Raw Water Restoration.

Ben MaWanqiu YangNan LiDmitry B KosolapovXiang LiuSixuan PanHuan LiuAnyi LiMengting ChuLiyuan HouYinbin ZhangXuan LiZhong-Bing ChenShengnan ChenTinglin HuangShumiao CaoHaihan Zhang
Published in: Environmental science & technology (2023)
The coculture theory that promotes denitrification relies on effectively utilizing the resources of low-efficiency denitrification microbes. Here, the strains Streptomyces sp. PYX97 and Streptomyces sp. TSJ96 were isolated and showed lower denitrification capacity when cultured individually. However, the coculture of strains PYX97 and TSJ96 enhanced nitrogen removal (removed 96.40% of total nitrogen) and organic carbon reduction (removed 92.13% of dissolved organic carbon) under aerobic conditions. Nitrogen balance analysis indicated that coculturing enhanced the efficiency of nitrate converted into gaseous nitrogen reaching 70.42%. Meanwhile, the coculturing promoted the cell metabolism capacity and carbon source metabolic activity. The coculture strains PYX97 and TSJ96 thrived in conditions of C/N = 10, alkalescence, and 150 rpm shaking speed. The coculturing reduced total nitrogen and COD Mn in the raw water treatment by 83.32 and 84.21%, respectively. During this treatment, the cell metabolic activity and cell density increased in the coculture strains PYX97 and TSJ96 reactor. Moreover, the coculture strains could utilize aromatic protein and soluble microbial products during aerobic denitrification processes in raw water treatment. This study suggests that coculturing inefficient actinomycete strains could be a promising approach for treating polluted water bodies.
Keyphrases
  • microbial community
  • wastewater treatment
  • escherichia coli
  • single cell
  • cell therapy
  • stem cells
  • nitric oxide
  • risk assessment
  • endothelial cells
  • bone marrow
  • amino acid
  • small molecule
  • data analysis