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 inWater research (Oxford) Vol. 39; no. 14; pp. 3333 - 3341
Main Authors Haveroen, Melissa E., MacKinnon, Michael D., Fedorak, Phillip M.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier Ltd 01.09.2005
Elsevier Science
Subjects
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
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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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.
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.
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  givenname: Michael D.
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  fullname: Fedorak, Phillip M.
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IsPeerReviewed true
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Issue 14
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
Language English
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SSID ssj0002239
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Snippet Polyacrylamides are widely used as flocculants to enhance clarification of drinking waters and domestic wastewaters, for stabilization of agricultural soils,...
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elsevier
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StartPage 3333
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
URI https://dx.doi.org/10.1016/j.watres.2005.05.042
https://www.ncbi.nlm.nih.gov/pubmed/16023701
https://search.proquest.com/docview/20221064
Volume 39
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