Journal ArticleDOI
Biodegradation of Polyacrylamide and Its Derivatives
Sanket J. Joshi,Raeid M. M. Abed +1 more
TLDR
Future research should focus on elucidating the exact pathways and the enzymes involved in the biodegradation process, especially by fungi and anaerobic bacteria, as well as utilizing PAM-degrading microbes for bioremediation purposes.Abstract:
Although polyacrylamide (PAM) and its derivatives have many useful applications, their release in nature can have impacts on the environment and human health, thus bioremediation approaches for residual PAM are urgently needed. Biodegradation of PAM and its derivatives has been studied only in the last two decades, with most emphasis on acrylamide biodegradation. Microorganisms have been shown to utilize, not only acrylamide, but also PAM and its derivatives as the sole source of nitrogen and/or carbon under aerobic as well as anaerobic conditions. Microbial degradation lowered the molecular weight of the polymer, the viscosity, and the amide nitrogen was degraded to ammonia. Few species belonging to the bacterial genera Enterobacter sp., Azomonas sp., Bacillus sp., Acinetobacter sp., Pseudomonas sp., and Clostridium sp., were able to degrade 16–91% of PAM/HPAM under aerobic or anaerobic conditions. The monomer acrylamide is toxic to most microorganisms, however, some bacteria and fungi could degrade it using amidases that deaminate acrylamide to acrylic acid and ammonium, and further utilize acrylic acid to produce CO2 and water. Some fungi and yeasts could degrade 60–80% of acrylamide. The biodegradation of PAM and its derivatives are initiated by the enzyme amidase, either under aerobic or anaerobic conditions, and are further degraded partially or completely by an array of different enzymes. Future research should focus on elucidating the exact pathways and the enzymes involved in the biodegradation process, especially by fungi and anaerobic bacteria, as well as utilizing PAM-degrading microbes for bioremediation purposes.read more
Citations
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Journal ArticleDOI
Polyacrylamide degradation and its implications in environmental systems
Boya Xiong,Rebeca Dettam Loss,Derrick Shields,Taylor Pawlik,Richard Hochreiter,Andrew L. Zydney,Manish Kumar +6 more
TL;DR: A short review of current applications of high molecular weight polyacrylamide (PAM) can be found in this paper, where the potential for PAM degradation by chemical, mechanical, thermal, photolytic, and biological processes are discussed along with issues related to the potential toxicity and mobility of PAM in the environment after disposal or accidental release.
Journal ArticleDOI
Biosurfactants: Production and potential applications in microbial enhanced oil recovery (MEOR)
TL;DR: This review highlights the biosurfactant production and economics, general protocols for applications from lab-to-field scale, different successful trials along with pros and cons of both in-situ and ex-sito BS-MEOR applications.
Journal ArticleDOI
The Complex Interplay between Chronic Inflammation, the Microbiome, and Cancer: Understanding Disease Progression and What We Can Do to Prevent It
TL;DR: The known mechanisms by which microbes can induce cancer growth and development and how inflammatory cells may contribute to cancer progression are discussed and new treatments that target the chronic inflammatory conditions and their associated cancers are discussed.
Journal ArticleDOI
Microbial degradation of polyacrylamide and the deamination product polyacrylate
Antti Nyyssölä,Jonni Ahlgren +1 more
TL;DR: In this paper, the authors investigated the degradation of polyacrylamide by single microbial species as well as mixed populations and suggested some hypothetical pathways for the bacterial degradation, although enzymology of bacterial degradation is largely unknown.
Journal ArticleDOI
Combination of biochar and immobilized bacteria accelerates polyacrylamide biodegradation in soil by both bio-augmentation and bio-stimulation strategies.
Lili Ma,Lili Ma,Hu Ting,Yucheng Liu,Jie Liu,Yingying Wang,Puzhou Wang,Jiyue Zhou,Mingyan Chen,Bing Yang,Lingli Li +10 more
TL;DR: PAM biodegradation via the addition of bacteria-immobilized biochar was a synergy of both bio-augmentation and bio-stimulation strategies, and it was shown that biochar actually enhanced bacterial diversity and stimulated the growth of some indigenous PAM-degrading taxa.
References
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Book ChapterDOI
Polyacrylamide in agriculture and environmental land management
TL;DR: Anionic polyacrylamide (PAM) has been sold since 1995 to reduce irrigation-induced erosion and enhance infiltration as mentioned in this paper, which has been shown to improve runoff water quality by reducing sediments, N, dissolved reactive phosphorus (DRP), pesticides, weed seeds and microorganisms in runoff.
Journal ArticleDOI
Some Aspects of the Properties and Degradation of Polyacrylamides
TL;DR: The 40 or so years of experimental work regarding the properties of acrylamide and polyacrylamides (homo-, co-, and cross-linked) are reviewed to examine, from a polymer chemist’s point of view, their likely or known degradation pathways and products.
Journal ArticleDOI
Growth of Syntrophic Propionate-Oxidizing Bacteria with Fumarate in the Absence of Methanogenic Bacteria
TL;DR: When the methanogens in a newly enriched propionate-oxidizing methanogenic culture were inhibited by bromoethanesulfonate, fumarate could act as an apparent terminal electron acceptor in Propionate oxidation.
Journal ArticleDOI
A review of the toxicology of acrylamide.
TL;DR: There is some consensus that low levels of ACR in the diet are not a concern for neurotoxicity or reproductive toxicity in humans, although further research is need to study the long-term, low-level cumulative effects on the nervous system.
Journal ArticleDOI
Polyacrylamide review: Soil conditioning and environmental fate
TL;DR: The adoption of polyacrylamide (PAM) in reducing irrigation-induced erosion in California's San Joaquin Valley has been stymied by the lack of information about its toxicity and environmental fate.