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61,005 resultsShowing papers similar to Alteration in microbial community and antibiotic resistance genes mediated by microplastics during wastewater ultraviolet disinfection
ClearMicroplastics Exacerbated Conjugative Transfer of Antibiotic Resistance Genes during Ultraviolet Disinfection: Highlighting Difference between Conventional and Biodegradable Ones
Researchers found that microplastics significantly increased the transfer of antibiotic resistance genes during ultraviolet disinfection of wastewater. Conventional polystyrene microplastics facilitated more gene transfer than biodegradable polylactic acid ones, primarily by shielding bacteria from UV light and generating reactive oxygen species that increased cell membrane permeability.
Investigation of the effect of microplastics on the UV inactivation of antibiotic-resistant bacteria in water
Researchers found that polyethylene and polyvinyl chloride microplastics significantly reduced UV disinfection effectiveness against antibiotic-resistant bacteria, as bacteria associated with microplastic surfaces were shielded from UV exposure, creating a potential public health concern.
Photoaged microplastics enhanced the antibiotic resistance dissemination in WWTPs by altering the adsorption behavior of antibiotic resistance plasmids
Researchers found that microplastics exposed to UV light become significantly better at attracting and holding antibiotic resistance genes, increasing their capacity by 43 to 48 percent compared to unaged particles. This enhanced adsorption was linked to increased surface roughness and chemical changes on the plastic surface. The study suggests that UV-treated wastewater discharge may inadvertently accelerate the spread of antibiotic resistance in the environment through aged microplastics.
Responses of bacterial communities and resistance genes on microplastics to antibiotics and heavy metals in sewage environment
Polyvinyl chloride microplastics in sewage enriched pathogenic bacteria and antibiotic resistance genes on their surfaces, and the presence of heavy metals and antibiotics altered but did not eliminate this enrichment over time. The findings suggest microplastics in wastewater environments could facilitate the spread of antibiotic resistance through the microbial community.
Size-dependent effects of microplastics on antibiotic resistance genes fate in wastewater treatment systems: The role of changed surface property and microbial assemblages in a continuous exposure mode
Researchers developed a continuous exposure method to evaluate how different sizes of microplastics affect antibiotic resistance gene fate in wastewater treatment, finding that smaller microplastics had greater impacts on microbial communities and resistance gene proliferation.
Effects of polyvinyl chloride microplastics and benzylalkyldimethylethyl compounds on system performance, microbial community and resistance genes in sulfur autotrophic denitrification system
Researchers found that PVC microplastics and a common disinfectant chemical in wastewater treatment systems promoted the spread of antibiotic resistance genes, with the disinfectant having an even stronger effect than the microplastics. The microplastic surfaces harbored disease-causing bacteria that carried these resistance genes. This is concerning because wastewater treatment plants could be releasing both microplastics and antibiotic-resistant pathogens into waterways, potentially threatening human health.
Transformation of microplastics during UV-LED based water disinfection: Mechanistic insights and environmental implications
Researchers investigated how UV-based water disinfection treatments transform the physical and chemical properties of common microplastics like polystyrene, polyethylene, and PVC. They found that treatment created surface cracks, reduced water repellency, and generated various breakdown compounds, some of which showed toxicity to aquatic organisms. The study highlights that while UV disinfection effectively treats pathogens, it may inadvertently create new environmental risks by altering microplastics in the water supply.
Contribution of microplastic particles to the spread of resistances and pathogenic bacteria in treated wastewaters
Researchers studied microplastic particles collected from treated wastewater effluents and found that MPs harbored significantly higher loads of antibiotic resistance genes and pathogenic bacteria compared to surrounding water, suggesting MPs facilitate their environmental spread.
Tertiary/quaternary treatment of urban wastewater by UV/H2O2 or ozonation: Microplastics may affect removal of E. coli and contaminants of emerging concern
Researchers investigated how polyethylene microplastics interfere with UV/hydrogen peroxide and ozonation treatments used to disinfect urban wastewater. They found that increasing microplastic concentrations reduced the effectiveness of both treatment methods at killing E. coli bacteria and degrading pharmaceutical contaminants. The study suggests that microplastic pollution in wastewater could compromise advanced treatment processes designed to protect public health.
Microplastics can selectively enrich intracellular and extracellular antibiotic resistant genes and shape different microbial communities in aquatic systems
Researchers examined how microplastics of different types selectively capture antibiotic resistance genes and shape microbial communities in aquatic systems. They found that microplastics enriched both intracellular and extracellular antibiotic resistance genes, with the enrichment patterns varying by plastic type. The study suggests that microplastics may serve as hotspots for the spread of antimicrobial resistance in wastewater and natural water environments.
The stress response of tetracycline resistance genes and bacterial communities under the existence of microplastics in typical leachate biological treatment system
Researchers studied how polystyrene and polyethylene microplastics affect tetracycline resistance genes and bacterial communities in a leachate biological treatment system. They found that microplastics served as hotspots for antibiotic resistance genes, with biofilms on the plastic surfaces harboring significantly higher gene abundances than the surrounding liquid. The study suggests that microplastics in waste treatment systems may accelerate the spread of antibiotic resistance.
Microplastic Categories Distinctively Impact Wastewater Bacterial Taxonomic Composition and Antimicrobial Resistance Genes
Researchers investigated how five manufactured microplastic pellet types affected bacterial communities and antimicrobial resistance genes in wastewater from treatment plants in Norway and South Africa. Different MP types had distinct effects on taxonomic composition and ARG abundance after one week, with UV and hydrogen peroxide aging altering these interactions—suggesting MPs in wastewater contribute to divergent AMR dissemination risks.
Growth and prevalence of antibiotic-resistant bacteria in microplastic biofilm from wastewater treatment plant effluents
Researchers studied antibiotic-resistant bacteria growing in biofilms on microplastic surfaces in wastewater treatment plant effluent. The study found that microplastic biofilms accumulated antibiotic-resistant bacteria including Pseudomonas, Aeromonas, and Bacillus, and that these biofilms harbored higher concentrations of resistance genes compared to surrounding water, suggesting microplastics may serve as reservoirs for antibiotic resistance.
Evaluating the role of microplastics and wastewater in shaping Vibrio spp. and antibiotic resistance gene abundance in urban freshwaters
Researchers sampled water and microplastic biofilms from urban South African rivers and found that microplastics disproportionately enriched Vibrio spp. and tetracycline resistance genes relative to the surrounding water, suggesting microplastics selectively concentrate pathogens and antibiotic resistance genes.
Microplastic biofilm may shape microbial community enriched with antibiotic resistance genes to enhance nitrogen transformation under antibiotic stress
This study found that biofilms growing on PVC microplastics in water helped remove nitrogen pollutants but also concentrated antibiotic resistance genes, with the same bacteria often carrying both pollution-cleaning and drug-resistance capabilities. The findings raise concerns that microplastic pollution in waterways could accelerate the spread of antibiotic-resistant bacteria, which poses a growing threat to human health.
The impact of various microplastics on bacterial community and antimicrobial resistance genes in Norwegian and South African wastewater
Researchers investigated how various microplastic types affect bacterial community composition and antimicrobial resistance gene prevalence in wastewater treatment plants in Norway and South Africa, examining whether plastic debris promotes antimicrobial resistance dissemination.
Volatile organic compounds generation pathways and mechanisms from microplastics in water: Ultraviolet, chlorine and ultraviolet/chlorine disinfection
Researchers examined how UV, chlorine, and combined UV/chlorine disinfection treatments cause microplastics to release volatile organic compounds, identifying distinct degradation pathways for polypropylene, polystyrene, and PVC that generate diverse chemical byproducts in treated water.
Antibiotic-driven shifts in bacterial dynamics of the polyethylene terephthalate and low density polyethylene plastisphere in wastewater treatment systems
Researchers studied how antibiotic exposure shifts the bacterial communities colonizing PET and LDPE microplastic surfaces in activated sludge from wastewater treatment plants, finding that antibiotics altered plastisphere microbial composition and increased antibiotic resistance gene prevalence.
Microplastics as hubs enriching antibiotic-resistant bacteria and pathogens in municipal activated sludge
Researchers demonstrated that microplastics in municipal wastewater treatment plants act as "hubs," selectively concentrating antibiotic-resistant bacteria and pathogens in their surface biofilms, with antibiotic-resistance genes enriched up to 4.5-fold compared to sand particles — raising concerns about microplastics spreading drug-resistant microbes into the environment.
Transformation of dissolved organic matter leached from biodegradable and conventional microplastics under UV/chlorine treatment and the subsequent effect on contaminant removal
This study examined how dissolved chemicals leaching from both biodegradable and conventional microplastics behave during UV/chlorine water treatment. The treatment changed the chemical properties of the leached substances and actually inhibited the breakdown of a common antibiotic pollutant. The findings suggest that microplastic-derived chemicals in water could interfere with standard water purification processes, potentially reducing their effectiveness.
Assessing biofilm formation and resistance of vibrio parahaemolyticus on UV-aged microplastics in aquatic environments
Researchers found that UV-weathered microplastics in seawater promote more bacterial biofilm growth than fresh microplastics, and that the food-poisoning bacterium Vibrio parahaemolyticus becomes more resistant to common disinfection methods when growing on these aged plastics. Bacteria on the UV-aged microplastics showed increased resistance to chlorine, heat, and even the harsh conditions of the human stomach. This means that microplastics weathered by sunlight in the ocean could make seafood-borne pathogens harder to kill, increasing food safety risks.
Towards microplastics contribution for membrane biofouling and disinfection by-products precursors: The effect on microbes
Researchers found that microplastics in raw water increased microbial growth and altered community composition during ultrafiltration, promoting extracellular polymer production that accelerated membrane fouling and elevated disinfection by-product formation in treated water.
Wastewater discharges and polymer type modulate the riverine plastisphere and set the role of microplastics as vectors of pathogens and antibiotic resistance
Researchers investigated how wastewater treatment plant discharges and polymer type shape microbial communities on microplastics in a river environment. They found that microplastics harbored significantly higher microbial diversity than surrounding water, and that wastewater discharges led to a 2.3-fold increase in antibiotic resistance gene abundance on the plastic surfaces. Different polymer types, including polyethylene, polypropylene, and PET, each attracted distinct microbial communities with varying levels of pathogens and resistance genes.
Effects of erythromycin on biofilm formation and resistance mutation of Escherichia coli on pristine and UV-aged polystyrene microplastics
Researchers investigated how the antibiotic erythromycin affects bacterial biofilm formation on both new and UV-weathered polystyrene microplastics. They found that UV aging significantly changed the surface properties of the plastic, increasing its ability to absorb antibiotics and promote antibiotic-resistant bacterial mutations. The study suggests that weathered microplastics in the environment may act as hotspots for the development and spread of antibiotic resistance.