Mechanism of Zn(II) enhanced biodegradation of m-dichlorobenzene
M-dichlorobenzene can be degraded through biotrickling filter (BTF). However, its degradation needs to be enhanced, and the mechanism of enhancement is unclear. In this study, Zn(II) was taken as the biological growth promoter; the polysaccharides and proteins, zeta potential, Fourier transform infr...
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Taylor & Francis Group
2021-01-01
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| Series: | Environmental Pollutants & Bioavailability |
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| Online Access: | http://dx.doi.org/10.1080/26395940.2021.1947157 |
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doaj-85493d1f285b451ab29ef0d58df8676c2021-07-06T12:16:13ZengTaylor & Francis GroupEnvironmental Pollutants & Bioavailability2639-59402021-01-0133113514410.1080/26395940.2021.19471571947157Mechanism of Zn(II) enhanced biodegradation of m-dichlorobenzeneQingqing Shang0Bairen Yang1Menglei Wu2Yue Li3Jiajie Wang4Hao Zhang5Zhuqiu Sun6Liping Wang7School of Environmental Science and Engineering, Yancheng Institute of TechnologySchool of Environmental Science and Engineering, Yancheng Institute of TechnologySchool of Environmental Science and Engineering, Yancheng Institute of TechnologySchool of Environmental Science and Engineering, Yancheng Institute of TechnologySchool of Environmental Science and Engineering, Yancheng Institute of TechnologySchool of Environmental Science and Engineering, Yancheng Institute of TechnologyEnvironmental Simulation and Pollution Control State Key Joint Laboratory, School of Environment, Tsinghua UniversityEngineering Research Center of Mine Ecological Construction, Ministry of Education, China University of Mining and TechnologyM-dichlorobenzene can be degraded through biotrickling filter (BTF). However, its degradation needs to be enhanced, and the mechanism of enhancement is unclear. In this study, Zn(II) was taken as the biological growth promoter; the polysaccharides and proteins, zeta potential, Fourier transform infrared spectroscopy, x-ray photoelectron spectroscopy, and the enzyme activity of the strains were analyzed. The results indicated that Zn(II) at 5mg/L promoted the growth of the strain. When the inlet concentration was 505.74 mg/m3 and the empty bed resistance time (EBRT) was 90 s, the removal efficiency of BTF2 was 86.15%. In BTF2, the enzyme activity, polysaccharide, and protein content increased, while the zeta potential decreased. The changes of zeta potential indicated that there existed an electrostatic interaction between extracellular polymeric substance (EPS) and Zn(II). The results of Fourier transform infrared spectroscopy and x-ray photoelectron spectroscopy confirmed that there was a bond between the EPS surface functional groups and Zn(II).http://dx.doi.org/10.1080/26395940.2021.1947157m-dichlorobenzenebioaugmentationbiotrickling filterbrevibacillus agrizn(ii) |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Qingqing Shang Bairen Yang Menglei Wu Yue Li Jiajie Wang Hao Zhang Zhuqiu Sun Liping Wang |
| spellingShingle |
Qingqing Shang Bairen Yang Menglei Wu Yue Li Jiajie Wang Hao Zhang Zhuqiu Sun Liping Wang Mechanism of Zn(II) enhanced biodegradation of m-dichlorobenzene Environmental Pollutants & Bioavailability m-dichlorobenzene bioaugmentation biotrickling filter brevibacillus agri zn(ii) |
| author_facet |
Qingqing Shang Bairen Yang Menglei Wu Yue Li Jiajie Wang Hao Zhang Zhuqiu Sun Liping Wang |
| author_sort |
Qingqing Shang |
| title |
Mechanism of Zn(II) enhanced biodegradation of m-dichlorobenzene |
| title_short |
Mechanism of Zn(II) enhanced biodegradation of m-dichlorobenzene |
| title_full |
Mechanism of Zn(II) enhanced biodegradation of m-dichlorobenzene |
| title_fullStr |
Mechanism of Zn(II) enhanced biodegradation of m-dichlorobenzene |
| title_full_unstemmed |
Mechanism of Zn(II) enhanced biodegradation of m-dichlorobenzene |
| title_sort |
mechanism of zn(ii) enhanced biodegradation of m-dichlorobenzene |
| publisher |
Taylor & Francis Group |
| series |
Environmental Pollutants & Bioavailability |
| issn |
2639-5940 |
| publishDate |
2021-01-01 |
| description |
M-dichlorobenzene can be degraded through biotrickling filter (BTF). However, its degradation needs to be enhanced, and the mechanism of enhancement is unclear. In this study, Zn(II) was taken as the biological growth promoter; the polysaccharides and proteins, zeta potential, Fourier transform infrared spectroscopy, x-ray photoelectron spectroscopy, and the enzyme activity of the strains were analyzed. The results indicated that Zn(II) at 5mg/L promoted the growth of the strain. When the inlet concentration was 505.74 mg/m3 and the empty bed resistance time (EBRT) was 90 s, the removal efficiency of BTF2 was 86.15%. In BTF2, the enzyme activity, polysaccharide, and protein content increased, while the zeta potential decreased. The changes of zeta potential indicated that there existed an electrostatic interaction between extracellular polymeric substance (EPS) and Zn(II). The results of Fourier transform infrared spectroscopy and x-ray photoelectron spectroscopy confirmed that there was a bond between the EPS surface functional groups and Zn(II). |
| topic |
m-dichlorobenzene bioaugmentation biotrickling filter brevibacillus agri zn(ii) |
| url |
http://dx.doi.org/10.1080/26395940.2021.1947157 |
| work_keys_str_mv |
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