Yong-He Han1,2,3, Ting Fu1, Shan-Shan Wang1,2,3, Hong-Ting Yu1, Ping Xiang1, Wen-Xian Zhang1, Deng-Long Chen2,3,4, Min Li1. 1. 1College of Life Science, Fujian Normal University, Fuzhou, 350017 China. 2. 2Quangang Petrochemical Research Institute, Fujian Normal University, Quanzhou, 362801 China. 3. The Innovative Center for Eco-Friendly Polymeric Materials of Fujian Province, Quanzhou, 362801 China. 4. 4College of Environmental Science and Engineering, Fujian Normal University, Fuzhou, 350007 China.
Abstract
Phosphate (PO43-) accumulation associated with bacteria contributes to efficient remediation of eutrophic waters and has attracted attention due to its low cost, high removal efficiency and environmental friendliness. In the present study, we isolated six strains from sludge with high concentrations of chemical oxygen demand, total nitrogen and total phosphorus levels. Among them, strain LH4 exhibited the greatest PO43- removal ability. Strain LH4 is typical of Acinetobacter junii based on physiological, biochemical, and molecular analyses and is a PO43--accumulating organism (PAO) based on toluidine blue staining. The strain grew quickly when subjected to aerobic medium after pre-incubation under anaerobic condition, with a maximum OD600 of 1.429 after 8 h and PO43- removal efficiency of 99%. Our data also indicated that this strain preferred utilizing the carbon (C) sources sodium formate and sodium acetate and the nitrogen (N) sources NH4Cl and (NH4)2SO4 over other compounds. To achieve optimal PO43- removal efficiency, a C:N ratio of 5:1, inoculation concentration of 3%, solution pH of 6, incubation temperature of 30 °C, and shaking speed of 100 rpm were recommended for A. junii strain LH4. By incubating this strain with different concentrations of PO43-, we calculated that its relative PO43- removal capacity ranged from 0.67 to 3.84 mg L-1 h-1, ranking in the top three among reported PAOs. Our study provided a new PO43--accumulating bacterial strain that holds promise for remediating eutrophic waters, and its potential for large-scale use warrants further investigation.
Phosphate (n class="Chemical">PO43-) accumulation associated with bacteria contributes to efficient remediation of eutrophic waters and has attracted attention due to its low cost, high removal efficiency and environmental friendliness. In the present study, we isolated six strains from sludge with high concentrations of chemical oxygen demand, total nitrogen and total phosphorus levels. Among them, strain LH4 exhibited the greatest PO43- removal ability. Strain LH4 is typical of Acinetobacter junii based on physiological, biochemical, and molecular analyses and is a PO43--accumulating organism (PAO) based on toluidine blue staining. The strain grew quickly when subjected to aerobic medium after pre-incubation under anaerobic condition, with a maximum OD600 of 1.429 after 8 h and PO43- removal efficiency of 99%. Our data also indicated that this strain preferred utilizing the carbon (C) sources sodium formate and sodium acetate and the nitrogen (N) sources NH4Cl and (NH4)2SO4 over other compounds. To achieve optimal PO43- removal efficiency, a C:N ratio of 5:1, inoculation concentration of 3%, solution pH of 6, incubation temperature of 30 °C, and shaking speed of 100 rpm were recommended for A. junii strain LH4. By incubating this strain with different concentrations of PO43-, we calculated that its relative PO43- removal capacity ranged from 0.67 to 3.84 mg L-1 h-1, ranking in the top three among reported PAOs. Our study provided a new PO43--accumulating bacterial strain that holds promise for remediating eutrophic waters, and its potential for large-scale use warrants further investigation.
Authors: E U Cokgor; N O Yagci; C W Randall; N Artan; D Orhon Journal: J Environ Sci Health A Tox Hazard Subst Environ Eng Date: 2004 Impact factor: 2.269
Authors: Emma L Carr; Peter Kämpfer; Bharat K C Patel; Volker Gürtler; Robert J Seviour Journal: Int J Syst Evol Microbiol Date: 2003-07 Impact factor: 2.747