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20 resultsShowing papers similar to Biofilm-enhanced adsorption of strong and weak cations onto different microplastic sample types: Use of spectroscopy, microscopy and radiotracer methods
ClearInitial data on adsorption of Cs and Sr to the surfaces of microplastics with biofilm
Researchers measured adsorption of radiocesium and radiostrontium onto weathered microplastics deployed in freshwater, estuarine, and marine environments, finding that distribution coefficients were approximately two to three orders of magnitude lower than for sediment reference values. Despite the lower adsorption, the buoyancy and mobility of plastics suggest they may still function as a significant radionuclide reservoir in aquatic systems.
Unfolding the interaction of radioactive Cs and Sr with polyethylene-derived microplastics in marine environment
A mesocosm study examined how radioactive cesium and strontium interact with pristine, radiation-exposed, and marine-weathered polyethylene microplastics, finding that environmental aging—through biofilm formation and surface roughening—significantly increased the plastic particles' capacity to sorb radioactive contaminants.
Unfolding the interaction of radioactive Cs and Sr with polyethylene-derived microplastics in marine environment
Researchers investigated how polyethylene microplastics in the marine environment interact with radioactive cesium and strontium. They found that as microplastics age in seawater and develop biofilms, their ability to absorb these radioactive elements increases significantly. The study provides evidence that microplastics could act as previously unrecognized carriers of radioactive contamination in ocean environments.
A new approach to extracting biofilm from environmental plastics using ultrasound-assisted syringe treatment for isotopic analyses
Researchers developed an ultrasound-assisted syringe extraction method for recovering biofilms from environmental plastic debris, enabling stable carbon and nitrogen isotope analysis and radiocesium quantification, and found that river-mouth plastisphere biofilms in Japan carried up to 820 Bq/kg of radiocesium, demonstrating that plastic-associated biofilms can serve as vectors for radionuclide transport in coastal environments.
First-time evaluation of 137Cs adsorption onto virgin PLA, PET, and PVC microplastics
Researchers tested how three common microplastics — PLA, PET, and PVC — absorb radioactive cesium-137 from water, finding that pH, temperature, and competing ions all affect how much cesium sticks to each plastic. This matters because microplastics can act as carriers for radioactive contaminants, potentially transporting them through aquatic environments.
Polyethylene terephthalate (PET) microplastics as radionuclide (U-232) carriers: Surface alteration matters the most
Researchers investigated how surface alteration of PET microplastics affects their ability to carry radioactive uranium-232. The study found that biofilm formation on PET surfaces dramatically increased radionuclide adsorption efficiency compared to pristine plastic, suggesting that environmentally weathered microplastics may play a more significant role in transporting radioactive contaminants through aquatic systems.
Marine microplastics fuel long-range transport of radioactive nuclides: A review
This review examines how marine microplastics adsorb radioactive nuclides and transport them over long distances, discussing the implications of plastic-facilitated radionuclide dispersal for ocean monitoring and the compounding environmental risks from co-occurring plastic and nuclear contamination.
An effective method to assess the sorption dynamics of PCB radiotracers onto plastic and sediment microparticles
Scientists developed a radiotracer method using PCB isotopes to precisely measure how quickly toxic chemicals sorb onto microplastics and sediment particles in seawater. Understanding sorption-desorption rates is critical for predicting how much toxic chemical exposure marine organisms receive from microplastic ingestion.
Microplastics as vectors of radioiodine in the marine environment: A study on sorption and interaction mechanism
Researchers investigated microplastics as potential vectors of radioiodine in the marine environment, finding that different polymer types exhibited varying sorption capacities for radioiodine, revealing a previously unstudied pathway for radionuclide transport.
Microplastics and disposable face masks as “Trojan Horse” for radionuclides pollution in water bodies – A review with emphasis on the involved interactions
Researchers reviewed how microplastics and disposable face masks can adsorb radioactive particles (radionuclides like cesium-137 and uranium) and carry them through water environments, potentially concentrating radiation in the food chain. Key factors affecting this process include plastic type, particle size, and water chemistry, with some polymers showing adsorption partition coefficients as high as 2670 L/kg.
The interaction of two emerging pollutants, radionuclides and microplastics: In-depth thermodynamic studies in water, seawater, and wastewater
Laboratory experiments measured how polyurethane and polylactic acid microplastics adsorb radioactive uranium and americium from water under conditions mimicking seawater and wastewater. The results show that microplastics can accumulate radionuclides from contaminated water environments, raising the possibility that plastic particles could act as unexpected carriers of radioactive contamination through aquatic food webs.
A Preliminary Study on the “Hitchhiking” of Radionuclides on Microplastics: A New Threat to the Marine Environment from Compound Pollution
This preliminary study examined whether radionuclides can adsorb onto microplastic surfaces and be transported through the environment alongside them, identifying the physicochemical properties of microplastics that facilitate radionuclide hitchhiking and the associated contamination risks.
PET plastics as a Trojan horse for radionuclides
Researchers discovered that PET plastic bottles collected near a phosphate fertilizer plant had accumulated natural and artificial radionuclides, demonstrating that littered plastics can act as carriers for radioactive contaminants and pose potential health risks.
Americium Sorption by Microplastics in Aqueous Solutions
Researchers investigated americium sorption by polyamide and polyethylene microplastics in both deionized water and seawater, tracing interactions with Am-241 isotope and examining the effects of pH and solution composition on sorption efficiency over time. The study found that microplastic type and aqueous matrix composition significantly influenced radionuclide uptake, with implications for the transport of radioactive contaminants in marine environments.
Additional file 1 of Unfolding the interaction of radioactive Cs and Sr with polyethylene-derived microplastics in marine environment
This supplementary file provides additional data from a study examining the interaction of radioactive caesium and strontium with polyethylene-derived microplastics in the marine environment.
Additional file 1 of Unfolding the interaction of radioactive Cs and Sr with polyethylene-derived microplastics in marine environment
This supplementary file provides additional data from a study examining the interaction of radioactive caesium and strontium with polyethylene-derived microplastics in the marine environment.
Influence of microplastics on nutrients and metal concentrations in river sediments
Researchers investigated how microplastics influence nutrient and metal concentrations in river sediments, finding that microplastics alter the distribution of pollutants through their capacity to adsorb contaminants and support biofilm formation on their hydrophobic surfaces.
The phenomenological mass transfer kinetics model for Sr2+ sorption onto spheroids primary microplastics
Researchers developed a novel film-pore mass transfer (FPMT) kinetic model to describe strontium ion sorption onto polyethylene terephthalate, polyethylene, and polyvinyl chloride microplastics, quantifying both external and internal diffusion processes to better understand radionuclide transport in plastic-contaminated environments.
Equilibrium, kinetics and molecular dynamic modeling of Sr2+ sorption onto microplastics
Three types of microplastics (polyamide, polystyrene, and polypropylene) were tested for their ability to adsorb the radioactive ion strontium-2+, and polypropylene showed the highest sorption capacity. Molecular dynamic simulations revealed that electrostatic forces are the main mechanism driving metal-microplastic interactions.
Radionuclide Removal from Aqueous Solutions Using Oxidized Carbon Fabrics
This paper is not directly about microplastics; it investigates the adsorption of radioactive actinide ions (americium and uranium) from water using carbon fabric materials, finding near-complete removal of uranium under optimal pH and temperature conditions.