Associate Professor
Supervisor of Master's Candidates
Title : Principal Investigator, Panjin Industrial Technology Institute, DUT
Title of Paper:Characterization of Nitrifying Bacterial Community in a Mariculture Wastewater Treatment Using SBR System
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Date of Publication:2015-01-01
Journal:ISRAELI JOURNAL OF AQUACULTURE-BAMIDGEH
Included Journals:SCIE、Scopus
Volume:67
ISSN No.:0792-156X
Key Words:mariculture; wastewater; diatomite; DGGE; FISH; nitrifying bacteria
Abstract:Sequencing batch reactors (SBR) have been used in the biological treatment of aquaculture wastewater. In this study, we investigated the microbial community of a SBR that used diatomite earth (20 g/L) as the sludge carrier material. Marine wastewater in which ammonia content was 42.08 to 55.88 mg/L was supplied to the SBR every 12 h over a treatment period of 65 days. During the first 20 days, the concentration of NH4-N decreased gradually, while nitrite (NO2-N) became the major nitrogen compound, reminiscent of the development of an ammonia-oxidizing process. Over the next 20 days, the concentration of NH4-N decreased further due to conversion to NO3-N. More than 99% of the NH4-N was converted to NO3-N over a period of 40-65 days. Denaturing gradient gel electrophoresis (DGGE) assay showed that bacteria of the genus Flavobacterium were present during the entire treatment period, while alpha-Proteobacteria, beta-Proteobacteria, gamma-Proteobacteria, and Sphingobacteriia started to accumulate after the first 20 days. Fluorescence in situ hybridization (FISH) assay identified Nitrobacter and Nitrosomonas as the main bacteria involved in the conversion of NH4-N to NO3-N. Diatomite earth therefore acted as an efficient sludge carrier by shortening the settling time and facilitating bacterial colonization. This SBR was capable of rapid removal of NH4-N. This warrants further investigation at the pilot-scale in an actual mariculture farm.
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