Polyacrylamide added as a nitrogen source stimulates methanogenesis in consortia from various wastewaters
Polyacrylamides are widely used as flocculants to enhance clarification of drinking waters and domestic wastewaters, for stabilization of agricultural soils, and to aid in managing mine tailings. The flocs produced with polyacrylamide may be deposited into retention areas that become anaerobic. Alth...
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Published in | Water research (Oxford) Vol. 39; no. 14; pp. 3333 - 3341 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
Oxford
Elsevier Ltd
01.09.2005
Elsevier Science |
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Abstract | Polyacrylamides are widely used as flocculants to enhance clarification of drinking waters and domestic wastewaters, for stabilization of agricultural soils, and to aid in managing mine tailings. The flocs produced with polyacrylamide may be deposited into retention areas that become anaerobic. Although it is unlikely that the carbon backbone of these polymers would be cleaved by microbial activity, the amide group could serve as a nitrogen source for microorganisms. Previous studies have shown that aerobic bacteria utilize the nitrogen from polyacrylamide. This study assessed whether methanogenesis was stimulated when an anionic polyacrylamide (Magnafloc
® LT27AG) was the sole fixed nitrogen source in serum-bottle microcosms. Microorganisms from two oil sands tailings sources, and a domestic anaerobic sewage sludge were used, with benzoate or acetate provided as carbon and energy sources. In each inoculum-substrate combination, the presence of polyacrylamide-enhanced methane production, indicating that polyacrylamide may stimulate microbial activities in anaerobic environments that are rich in fermentable carbon, but lack nitrogen sources. |
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AbstractList | Polyacrylamides are widely used as flocculants to enhance clarification of drinking waters and domestic wastewaters, for stabilization of agricultural soils, and to aid in managing mine tailings. The flocs produced with polyacrylamide may be deposited into retention areas that become anaerobic. Although it is unlikely that the carbon backbone of these polymers would be cleaved by microbial activity, the amide group could serve as a nitrogen source for microorganisms. Previous studies have shown that aerobic bacteria utilize the nitrogen from polyacrylamide. This study assessed whether methanogenesis was stimulated when an anionic polyacrylamide (Magnafloc super([registered]) LT27AG) was the sole fixed nitrogen source in serum-bottle microcosms. Microorganisms from two oil sands tailings sources, and a domestic anaerobic sewage sludge were used, with benzoate or acetate provided as carbon and energy sources. In each inoculum-substrate combination, the presence of polyacrylamide-enhanced methane production, indicating that polyacrylamide may stimulate microbial activities in anaerobic environments that are rich in fermentable carbon, but lack nitrogen sources. Polyacrylamides are widely used as flocculants to enhance clarification of drinking waters and domestic wastewaters, for stabilization of agricultural soils, and to aid in managing mine tailings. The flocs produced with polyacrylamide may be deposited into retention areas that become anaerobic. Although it is unlikely that the carbon backbone of these polymers would be cleaved by microbial activity, the amide group could serve as a nitrogen source for microorganisms. Previous studies have shown that aerobic bacteria utilize the nitrogen from polyacrylamide. This study assessed whether methanogenesis was stimulated when an anionic polyacrylamide (Magnafloc LT27AG) was the sole fixed nitrogen source in serum-bottle microcosms. Microorganisms from two oil sands tailings sources, and a domestic anaerobic sewage sludge were used, with benzoate or acetate provided as carbon and energy sources. In each inoculum-substrate combination, the presence of polyacrylamide-enhanced methane production, indicating that polyacrylamide may stimulate microbial activities in anaerobic environments that are rich in fermentable carbon, but lack nitrogen sources. Polyacrylamides are widely used as flocculants to enhance clarification of drinking waters and domestic wastewaters, for stabilization of agricultural soils, and to aid in managing mine tailings. The flocs produced with polyacrylamide may be deposited into retention areas that become anaerobic. Although it is unlikely that the carbon backbone of these polymers would be cleaved by microbial activity, the amide group could serve as a nitrogen source for microorganisms. Previous studies have shown that aerobic bacteria utilize the nitrogen from polyacrylamide. This study assessed whether methanogenesis was stimulated when an anionic polyacrylamide (Magnafloc ® LT27AG) was the sole fixed nitrogen source in serum-bottle microcosms. Microorganisms from two oil sands tailings sources, and a domestic anaerobic sewage sludge were used, with benzoate or acetate provided as carbon and energy sources. In each inoculum-substrate combination, the presence of polyacrylamide-enhanced methane production, indicating that polyacrylamide may stimulate microbial activities in anaerobic environments that are rich in fermentable carbon, but lack nitrogen sources. |
Author | Fedorak, Phillip M. Haveroen, Melissa E. MacKinnon, Michael D. |
Author_xml | – sequence: 1 givenname: Melissa E. surname: Haveroen fullname: Haveroen, Melissa E. organization: Department of Biological Sciences, University of Alberta, Edmonton, AB, Canada T6G 2E9 – sequence: 2 givenname: Michael D. surname: MacKinnon fullname: MacKinnon, Michael D. organization: Syncrude Canada Ltd., Edmonton Research Centre, 9421-17 Avenue, Edmonton, AB, Canada T6N 1H4 – sequence: 3 givenname: Phillip M. surname: Fedorak fullname: Fedorak, Phillip M. email: phil.fedorak@ualberta.ca organization: Department of Biological Sciences, University of Alberta, Edmonton, AB, Canada T6G 2E9 |
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Keywords | Methane Nitrogen Sewage sludge Polyacrylamide Tailings Microbial activity Drinking water Stabilization Waste treatment Agricultural soil Aerobe Waste water Domestic waste water Oil industry Industrial waste Flocculation reagent Anaerobe Flocculation Methanogenesis Bacteria Physicochemical purification Mining waste Tar sand |
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SubjectTerms | Acetates - analysis Acetates - metabolism Acrylic Resins - pharmacology Agriculture Anaerobiosis Anions Applied sciences Bacteria, Aerobic - drug effects Bacteria, Aerobic - metabolism Benzoates - analysis Benzoates - metabolism Biological and medical sciences Biotechnology Carbon - metabolism Ecosystem Environment and pollution Exact sciences and technology Fermentation Fundamental and applied biological sciences. Psychology Industrial applications and implications. Economical aspects Methane Methane - analysis Methane - metabolism methane production methanogens microbial activity mine spoil Nitrogen Nitrogen - metabolism Other industrial wastes. Sewage sludge Pollution Polyacrylamide Polymers - metabolism Sewage - chemistry Sewage - microbiology Sewage sludge Soil Tailings Time Factors Waste Disposal, Fluid - methods Wastes Water Microbiology water pollution water treatment Water treatment and pollution |
Title | Polyacrylamide added as a nitrogen source stimulates methanogenesis in consortia from various wastewaters |
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