11 Papers
3 Citations
Haobo Wu is an academic researcher from Nanjing University of Science and Technology. The author has contributed to research in topics: Chemistry & Bioaugmentation. The author has an hindex of 6, co-authored 10 publications.
Chat about Author
Papers
Enhanced pyridine biodegradation under anoxic condition: The key role of nitrate as the electron acceptor
TL;DR: Enhanced biodegradation of pyridine under anoxic condition was elucidated in this study through both batch and continuous experiments and high-throughput sequencing analysis demonstrated that Paracoccus, Thiobacillus and Paludibacter were the dominant species in the anoxic degradation system.
78
Bioaugmentation potential of a newly isolated strain Sphingomonas sp. NJUST37 for the treatment of wastewater containing highly toxic and recalcitrant tricyclazole.
Haobo Wu,Jinyou Shen,Xinbai Jiang,Liu Xiaodong,Xiuyun Sun,Li Jiansheng,Weiqing Han,Yang Mu,Lianjun Wang +8 more
TL;DR: After the inoculation ofNJUST37 into a pilot-scale powdered activated carbon treatment tank treating real fungicide wastewater, tricyclazole removal efficiency increased to higher than 90%, demonstrating the great potential of NJUST37 for bioaugmentation particularly on tricyClazole biodegradation in practice.
56
Bioaugmentation strategy for the treatment of fungicide wastewater by two triazole-degrading strains
Haobo Wu,Jinyou Shen,Xinbai Jiang,Liu Xiaodong,Xiuyun Sun,Li Jiansheng,Weiqing Han,Lianjun Wang +7 more
TL;DR: In this paper, the authors evaluated the bioaugmentation potential of 1H-1,2,4-triazole degrading strain namely Shinella sp. NJUST26 and tricyclazole (TC) degrading strain named Sphingomonas sp. NBUST37 in a benchscale activated sludge tank.
47
Biodegradation mechanism of 1H-1,2,4-triazole by a newly isolated strain Shinella sp. NJUST26
TL;DR: A novel strain NJUST26 capable of utilizing TZ as the sole carbon and nitrogen source, was isolated from TZ-contaminated soil, and biodegradation pathway of TZ was proposed, i.e., Tz was firstly oxidized to DHTO, and then the cleavage of DHTo ring occurred to generate N-hydrazonomethyl-formamide, which could be further degraded to biodegradable semicarbazide and urea
Co-metabolic enhancement of 1H-1,2,4-triazole biodegradation through nitrification.
Haobo Wu,Qianqian Sun,Yinglu Sun,Yukun Zhou,Jing Wang,Cheng Hou,Xinbai Jiang,Liu Xiaodong,Jinyou Shen +8 more
TL;DR: It is demonstrated that nitrification-assisted co-metabolism had a promising potential for the removal of recalcitrant contaminants such as TZ from wastewater.
36