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61,005 resultsShowing papers similar to [Effects of Typical Microplastics on Methanogenesis and Antibiotic Resistance Genes in Anaerobic Digestion of Sludge].
ClearFrom wastewater to sludge: The role of microplastics in shaping anaerobic digestion performance and antibiotic resistance gene dynamics
This review examines how microplastics in wastewater treatment plants affect the anaerobic digestion process used to break down sewage sludge, finding that certain plastic types can either boost or reduce biogas production depending on conditions. Importantly, microplastics increased the abundance of antibiotic resistance genes by up to 514%, raising serious concerns that wastewater treatment -- meant to protect public health -- may instead become a breeding ground for antibiotic-resistant bacteria when microplastics are present.
Effects of polypropylene microplastics on digestion performance, microbial community, and antibiotic resistance during microbial anaerobic digestion
Researchers studied how polypropylene microplastics affect the anaerobic digestion process used to treat wastewater sludge. While small amounts of microplastics slightly increased methane production, they also promoted the spread of antibiotic resistance genes among bacteria in the digesters. This means microplastics in wastewater systems could contribute to the growing problem of antibiotic-resistant bacteria, which poses a serious threat to human health.
Impacts of microplastic type on the fate of antibiotic resistance genes and horizontal gene transfer mechanism during anaerobic digestion
Researchers examined how three types of microplastics affect antibiotic resistance genes during the anaerobic digestion of sewage sludge. They found that while microplastics actually increased methane production, they also decreased the overall abundance of antibiotic resistance genes but changed how those genes spread between bacteria. The study reveals a complex interaction where microplastics may reduce some resistance genes while promoting the horizontal transfer of others during waste treatment.
Entry pathways determined the effects of MPs on sludge anaerobic digestion system: The views of methane production and antibiotic resistance genes fates
Researchers examined how the entry pathway of microplastics into sludge affects anaerobic digestion performance and the fate of antibiotic resistance genes. They compared wastewater-derived microplastics with those entering through anaerobic digestion processes and found that the entry pathway significantly influenced both methane production and the spread of antibiotic resistance genes. The findings suggest that the source and history of microplastics in sewage sludge matter for downstream treatment outcomes.
Revealing the Mechanisms of Polyethylene Microplastics Affecting Anaerobic Digestion of Waste Activated Sludge
Researchers studied how polyethylene microplastics affect the anaerobic digestion of sewage sludge, a common wastewater treatment process. They found that higher concentrations of microplastics significantly reduced methane production by disrupting microbial communities and enzyme activities essential for digestion. The study reveals that microplastic contamination in wastewater systems can undermine the efficiency of sludge treatment and biogas generation.
Metagenomic Analysis Reveals the Effects of Microplastics on Antibiotic Resistance Genes in Sludge Anaerobic Digestion
Researchers used metagenomic analysis to study how microplastics in sewage sludge affect the spread of antibiotic resistance genes during anaerobic digestion. They found that microplastics increased antibiotic resistance gene levels by up to 30 percent, with polyethylene having the strongest effect, and also boosted the mobile genetic elements that help resistance genes spread between bacteria. The findings raise concerns about microplastics facilitating the spread of antibiotic resistance through wastewater treatment systems.
Insight into effects of polyethylene microplastics in anaerobic digestion systems of waste activated sludge: Interactions of digestion performance, microbial communities and antibiotic resistance genes
Polyethylene microplastics in anaerobic digestion systems processing waste activated sludge increased hydrolysis efficiency at 1 mm particle sizes but also altered microbial community composition and enriched antibiotic resistance genes. The findings suggest that MPs in sludge management pose risks for spreading ARGs through land application of digested biosolids.
Systematic study of microplastics on methane production in anaerobic digestion: Performance and microbial response
Microplastics are increasingly found in wastewater treatment systems, and this study systematically examined how different types, concentrations, and sizes of microplastics affect the anaerobic digestion process used to break down sewage sludge and generate biogas. Polyethylene microplastics were found to inhibit methane production, with finer particles and higher concentrations causing greater disruption to the microbial communities driving digestion. The findings matter because microplastics in sewage sludge can impair the treatment process and also end up spread on agricultural land when sludge is used as fertilizer.
Microplastics deteriorate the removal efficiency of antibiotic resistance genes during aerobic sludge digestion
Polypropylene and polyethylene microplastics added to aerobic sludge digesters significantly reduced the removal efficiency of antibiotic resistance genes during digestion, with plastic particles enriching resistant bacteria on their surfaces and impeding the normal treatment-associated decline in ARG abundance, posing a risk for sludge land application.
Deciphering the role of polyethylene microplastics on antibiotic resistance genes and mobile genetic elements fate in sludge thermophilic anaerobic digestion process
Researchers investigated how polyethylene microplastics affect antibiotic resistance genes and mobile genetic elements during sewage sludge thermophilic anaerobic digestion. The study found that microplastic contamination increased the abundance of antibiotic resistance genes and showed a strong positive correlation between microplastic concentration and mobile genetic element content, suggesting microplastics may promote the spread of antibiotic resistance.
Fate and Impacts of Microplastics in Sludge Anaerobic Digestion: Effects on Methanogenic and Acidogenic Pathways
This review examined how microplastics in sewage sludge influence anaerobic digestion performance, covering effects on methane production, volatile fatty acid accumulation, and microbial community function. MPs inhibited methanogenesis at higher concentrations by altering microbial community structure and disrupting electron transfer pathways in the anaerobic digestion process.
Impact of micro-nanoplastics on biochemical phases of anaerobic digestion in sewage sludge treatment: mechanistic insights and future prospects
Micro- and nanoplastics were found to disrupt the biochemical phases of anaerobic digestion, affecting the efficiency of the biological process used to treat organic waste. Understanding these impacts is important because anaerobic digestion is a common wastewater and sludge treatment method that may both receive and process microplastic-contaminated materials.
Microplastics Enhance the Prevalence of Antibiotic Resistance Genes in Anaerobic Sludge Digestion by Enriching Antibiotic-Resistant Bacteria in Surface Biofilm and Facilitating the Vertical and Horizontal Gene Transfer
This study found that microplastics in sewage sludge promote the spread of antibiotic resistance genes, which make bacteria harder to treat with antibiotics. Microplastics provided a surface for resistant bacteria to grow and helped them share resistance genes with other bacteria. The more microplastics present, the more antibiotic resistance spread, raising concerns about how plastic pollution in wastewater could contribute to the growing antibiotic resistance crisis.
Different effects of bio/non-degradable microplastics on sewage sludge compost performance: Focusing on antibiotic resistance genes, virulence factors and key metabolic functions
Researchers compared how biodegradable and conventional microplastics affect antibiotic resistance genes and microbial communities during sewage sludge composting. They found that both types of microplastics increased the abundance of antibiotic resistance genes, but non-biodegradable polypropylene had a stronger effect on promoting harmful virulence factors. The study raises concerns that microplastic contamination in composted sludge could spread antibiotic resistance when applied to agricultural land.
Unmasking microplastics in anaerobic digestion: Hidden threats, synergistic pollutants, and biodegradation Frontiers — A comprehensive hotspot review
Researchers reviewed how microplastics disrupt anaerobic digestion — the process used to convert organic waste into biogas — finding that microplastics suppress methane production, harm microbial communities, and carry along other pollutants like antibiotics and heavy metals into the system.
A review on mechanistic understanding of microplastic pollution on the performance of anaerobic digestion
This review examines how microplastic contamination affects anaerobic digestion, a process used to convert organic waste into biogas. Researchers found that microplastics can harm the microbial communities essential to this process through direct contact, leaching of toxic chemicals, and generating harmful reactive oxygen species. The findings raise concerns that microplastic pollution could reduce the efficiency of waste treatment systems and contribute to the spread of antibiotic resistance genes.
Unraveling the effects and mechanisms of microplastics on anaerobic fermentation: Exploring microbial communities and metabolic pathways
Researchers investigated how five types of microplastics affect the anaerobic fermentation process used to treat sewage sludge. They found that polyethylene microplastics caused the greatest reduction in volatile fatty acid production, while polyvinyl chloride had the least impact, and all types disrupted microbial communities in distinct ways. The study suggests that microplastic contamination in wastewater could meaningfully interfere with sludge treatment efficiency.
Deciphering the inhibition mechanisms of microplastics on the full-stage sludge anaerobic digestion via enrichment to anaerobic microbes and toxicity of released compounds
This study found that microplastics in sewage sludge significantly interfere with the waste treatment process by reducing the activity of key microorganisms needed to break down waste. More than half of the negative effect came from toxic chemicals released when microplastic particles rub against sludge, and the disrupted treatment also increased the risk of spreading antibiotic-resistant bacteria.
Microplastics and antibiotic resistance genes nexus in sewage sludge: impact of thermal hydrolysis process- anaerobic digestion
Researchers reviewed the interactions between microplastics, antibiotic resistance genes, and biofilm-embedded microbial communities in sewage sludge treatment processes. The study found that these contaminants persist through wastewater treatment including thermal hydrolysis and anaerobic digestion, posing environmental and public health risks when treated biosolids are applied to agricultural land.
Effect of microplastic on anaerobic digestion of wasted activated sludge
This study investigated how varying doses of microplastics affect methane production during anaerobic digestion of waste activated sludge, testing concentrations from 0 to 100,000 particles per gram. Higher microplastic doses progressively inhibited methane production, suggesting that high microplastic loads in wastewater treatment sludge can impair biogas recovery.
Resilience and functional redundancy of methanogenic digestion microbiome safeguard recovery of methanogenesis activity under the stress induced by microplastics
Researchers studied how microplastics and nanoplastics affect the microbiome responsible for methane production during anaerobic digestion of wastewater sludge. The study found that while plastic particles initially disrupted methanogenesis, the microbial community showed resilience and functional redundancy that allowed methane production to recover over time.
(Nano)microplastics promote the propagation of antibiotic resistance genes in landfill leachate
Researchers found that (nano)microplastics in municipal landfill leachate actively promote the spread of antibiotic resistance genes, highlighting landfill sites as dual reservoirs of plastic pollution and antimicrobial resistance threats.
Microplastics, antibiotics, and heavy metals in anaerobic digestion systems : a critical review of sources, impacts, and mitigation strategies
This critical review examined how microplastics, antibiotics, and heavy metals—as co-occurring contaminants—affect the performance of anaerobic digestion systems, finding that all three impair microbial processes, reduce biogas yields, and accumulate in digestates that are then applied to agricultural soils.
Microplastics in anaerobic digestion: occurrence, impact, and mitigation strategies
This review examines the presence and impact of microplastics within anaerobic digestion systems used to process sewage sludge and organic waste. Researchers found that microplastics enter these systems through diverse waste inputs and may affect biogas production, microbial community composition, and overall process performance. The study highlights the need for further research into how microplastics interact with anaerobic digestion and what mitigation strategies could minimize their interference.