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61,005 resultsShowing papers similar to Microplastics/nanoplastics released from facemasks as contaminants of emerging concern
ClearA review of disposable facemasks during the COVID-19 pandemic: A focus on microplastics release
This review examines the environmental threats posed by disposable face masks used during the COVID-19 pandemic, with a focus on microplastic release. Researchers found that discarded masks undergo physical and chemical degradation in the environment, generating microplastics that contaminate both aquatic and terrestrial ecosystems. The study provides an overview of current knowledge on microplastic extraction methods and proposes strategies for controlling mask-related plastic pollution through source reduction and improved waste management.
Uncovering the Release of Micro/nanoplastics from Disposable Face Masks at Times of COVID-19
Researchers found that disposable face masks release significant amounts of micro- and nanoplastic particles when subjected to water exposure and mechanical stress similar to environmental conditions. This confirms that the massive use of masks during COVID-19 introduced new sources of microplastic pollution into the environment.
Face masks: a COVID-19 protector or environmental contaminant?
This review examined how the massive global use of disposable face masks during COVID-19 has created a significant source of microplastic pollution, with billions of masks entering the environment and releasing plastic fibers and chemical contaminants.
The COVID-19 pandemic face mask waste: A blooming threat to the marine environment.
This review examines how single-use face masks — billions of which were discarded during the COVID-19 pandemic — contribute to microplastic and microfiber pollution in marine environments when improperly disposed of. The pandemic created a massive new source of plastic pollution, with masks breaking down into microplastics and releasing chemical contaminants in the ocean.
Facemasks: A Looming Microplastic Crisis
Single-use disposable face masks were shown to shed microplastic fibers during use and degradation, with billions of masks improperly discarded globally during the COVID-19 pandemic entering aquatic environments and releasing polypropylene and polyurethane fibers, adding a new and large-scale source of microplastic contamination.
Uncovering the Release of Micro/nanoplastics from Disposable Face Masks at Times of COVID-19
This study confirmed that disposable face masks release micro- and nanoplastic particles under environmental conditions including water exposure and mechanical stress. The release was enhanced by simulated weathering, raising concern about the environmental persistence and pollution potential of pandemic-era mask waste.
Degradation of plastics associated with the COVID-19 pandemic
This review examines how personal protective equipment from the COVID-19 pandemic degrades in the environment and becomes a source of microplastic pollution. Researchers found that face masks, primarily made of polypropylene, break down into microfibers relatively quickly when exposed to weathering. The study highlights that pandemic-related plastic waste represents a new and significant category of environmental microplastic contamination.
Uncovering the release of micro/nanoplastics from disposable face masks at times of COVID-19
Researchers investigated how disposable face masks release micro- and nanoplastics when exposed to mechanical stress in water, simulating environmental weathering. They found that even minimal deterioration of a single mask could release thousands of microplastic fibers and up to ten billion nanoscale particles. The study provides the first quantitative evidence of how pandemic-related mask waste may contribute to plastic pollution in aquatic ecosystems.
From Protection to Pollution: The Impact of Mask Use on Micro(nano)plastic Release
This bibliographic review found that global mask consumption during COVID-19 reached as high as 2.5 trillion single-use masks per month, with Asia as the largest consumer, and documented how improper mask disposal releases microplastics and nanoplastics into terrestrial and aquatic environments.
Used disposable face masks are significant sources of microplastics to environment
Researchers evaluated whether disposable face masks release microplastics into water and found that used masks released significantly more particles than new ones, increasing from about 183 particles per piece for new masks to much higher levels after use. The study suggests that the massive increase in disposable mask consumption during the COVID-19 pandemic has made improperly discarded masks a significant new source of microplastic pollution.
Single-use surgical face masks, as a potential source of microplastics: Do they act as pollutant carriers?
Researchers investigated whether single-use surgical face masks, widely used during the COVID-19 pandemic, are a potential source of microplastic fibers released into the environment. The study found that used masks entering uncontrolled waste streams can shed fibrous microplastics.
Uncontrolled Disposal of Used Masks Resulting in Release of Microplastics and Co-Pollutants into Environment
This review documented the global distribution of discarded COVID-19 masks in terrestrial and aquatic environments and quantified the microplastics they release through degradation, finding that masks generate predominantly polypropylene fibers and fragments. The co-release of chemical additives from degrading mask materials was identified as an additional pollution concern beyond the MPs themselves.
Micro- and nano-particles release from disposable plastic face masks under simulated UV weathering
Disposable plastic face masks, widely used during the COVID-19 pandemic, break down under UV exposure into a heterogeneous mix of microplastics and nanoplastics that can enter water, soil, and food chains. This study used state-of-the-art analytical tools to characterize the particles released, helping quantify masks as a significant novel source of environmental plastic pollution that emerged alongside the pandemic.
Face masks as a source of nanoplastics and microplastics in the environment: Quantification, characterization, and potential for bioaccumulation
Researchers found that each surgical or N95 face mask can release over one billion nanoplastic and microplastic particles, mostly smaller than one micrometer, when they break down. The study also detected microplastics in the nasal mucus of mask wearers, suggesting inhalation exposure during use. Additionally, mask-derived particles were shown to adsorb onto marine organisms across different levels of the food chain, raising concerns about both human health and environmental impacts.
Surgical face masks as a potential source for microplastic pollution in the COVID-19 scenario
Researchers investigated how disposable surgical face masks, widely used during the COVID-19 pandemic, could become a significant new source of microplastic pollution. The study notes that masks made of polymeric materials can release microplastic fibers into aquatic environments where they may be ingested by fish and other organisms. The findings suggest that face mask waste deserves focused attention as a microplastic source, including better waste management systems.
Environmental risks of polymer materials from disposable face masks linked to the COVID-19 pandemic
This review examines how disposable face masks from the COVID-19 pandemic release microplastics into terrestrial and aquatic ecosystems, discussing combined pollutant effects and proposing green technologies to reduce mask-related plastic waste at its source.
Disposable face masks release micro particles to the aqueous environment after simulating sunlight aging: Microplastics or non-microplastics?
This study characterized particles released from surgical, N95, KN95, and children's masks after simulated sunlight aging, finding that most released particles (66-99%) were non-plastic materials such as synthetic or natural fibers. Children's masks released the most microplastics, at 8.92 times the quantity of surgical masks, with polypropylene and polyethylene terephthalate as the dominant polymer types.
Masks and the scourge of microplastic pollution
This commentary discusses how the widespread use of disposable face masks during COVID-19 has become a significant source of microplastic pollution, particularly from masks improperly discarded outside of hospital settings. The authors call attention to the environmental burden of mask litter as a growing global concern.
Current knowledge on the presence, biodegradation, and toxicity of discarded face masks in the environment
This review examines the environmental fate of discarded face masks from the COVID-19 pandemic, covering their degradation, chemical release, and ecological toxicity. Researchers found that disposable masks break down slowly in the environment, releasing microplastic fibers and chemical additives that harm aquatic and terrestrial organisms. The study calls for improved disposal practices and further research into the long-term environmental consequences of pandemic-related mask waste.
Microplastics release from face masks: Characteristics, influential factors, and potential risks
This review found that disposable face masks, used widely since the COVID-19 pandemic, release microplastics -- mostly transparent fibers smaller than 1 millimeter -- especially after UV exposure, extended wear, and disinfection for reuse. The health risk of inhaling these mask-derived microplastics directly into the lungs should not be overlooked, particularly for healthcare workers and others who wear masks for long periods.
Covid-19 face masks: A potential source of microplastic fibers in the environment
This commentary highlights that the massive global increase in disposable face mask production during the COVID-19 pandemic has created a significant new source of microplastic fiber pollution, as mask materials shed synthetic fibers into the environment.
The Fate of Microplastics, Derived from Disposable Masks, in Natural Aquatic Environments
This review examines the fate of microplastic fibers released from disposable face masks in aquatic environments, noting that used masks can release up to 10,000 microplastic pieces per day per mask. The review covers transport mechanisms, surface interactions, and potential ecological impacts of mask-derived microplastics in water bodies.
An ecotoxicological perspective of microplastics released by face masks
This review assessed the ecotoxicological hazard of microplastics derived from face masks, which were produced in unprecedented quantities during the COVID-19 pandemic. The authors identified significant uncertainties about real-world impact concentrations and called for standardized testing to better characterize the toxicity of face mask-derived microplastics to aquatic and terrestrial organisms.
Neglected microplastics pollution in global COVID-19: Disposable surgical masks
Researchers found that disposable surgical masks release approximately 360 microplastic particles in still water, with the number increasing significantly under agitation or when exposed to detergents and alcohol. After just two months of natural weathering, the masks became fragile enough to potentially release billions of microplastic fibers upon entering water. The study highlights that pandemic-related mask waste represents a substantial and largely overlooked new source of microplastic pollution.