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61,005 resultsShowing papers similar to Release of microfibers from surgical face masks: an undesirable contributor to aquatic pollution
ClearSurgical 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.
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.
Microfiber releasing into urban rivers from face masks during COVID-19
Researchers investigated microfiber release from discarded face masks in urban rivers during COVID-19, finding that masks shed substantial quantities of synthetic microfibers that contribute to freshwater microplastic contamination.
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.
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.
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.
Laundering of face masks represents an additional source of synthetic and natural microfibers to aquatic ecosystems
Researchers measured microfibers released from five types of reusable and disposable face masks during a single machine-washing cycle, finding an average of 285 microfibers per mask, with cotton-based masks releasing the most natural fibers and polyurethane masks releasing the most synthetic ones.
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.
Kinetic characteristics of microplastic release from commonly used masks in aquatic environment
Researchers tested four mask types (normal, fashion, N95, and disposable surgical) by exposing them to simulated natural water environments over 12 months at 3-month intervals to characterize the kinetics of microplastic release. They found time-dependent release patterns that varied by mask construction, documenting structural degradation and quantifying microplastic fiber shedding as a function of duration, with implications for environmental risk assessment of pandemic-related mask pollution.
The Release Potential of Microplastics from Face Masks into the Aquatic Environment
This study examined the release of microplastics from new and naturally aged surgical and FFP2 face masks exposed to environmental conditions and water, finding that both types released particles, particularly after weathering. Improper disposal of face masks poses a growing source of microplastic contamination in aquatic environments.
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.
Evaluation of the leaching of microplastics from discarded medical masks in aquatic environments: a case study of Mashhad city
Researchers tested ten brands of COVID-19 face masks for microplastic release in water, finding that N95 masks shed the most particles due to their heavier construction, with fibers being the most common shape released. The findings highlight that the billions of disposable masks used globally each month represent a significant and growing source of microplastic pollution in 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.
Impact of coronavirus pandemic litters on microfiber pollution—effect of personal protective equipment and disposable face masks
Researchers reviewed microfiber pollution arising from disposable and reusable face masks and personal protective equipment during the COVID-19 pandemic, finding that synthetic fiber shedding through littering, laundry, and disinfection represents a significant and undercharacterized addition to global microplastic pollution loads.
Million Microfiber Releases: Comparing Washable and Disposable Face Masks.
A study compared microfiber release from disposable and washable face masks, finding that both types release millions of microfibers when washed or agitated in water. The results raise concerns that widespread mask use during and after the pandemic has added a new significant source of synthetic fiber pollution to aquatic environments.
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.
Release kinetics of microplastics from disposable face masks into the aqueous environment
Researchers measured microplastic release from three types of disposable face masks into water over 24 hours, characterizing the release kinetics and identifying mask type and environmental conditions as key factors affecting microplastic shedding rates.
Release of microplastics from disposable face mask in tropical climate
Researchers found that disposable face masks — a major source of pandemic waste — release hundreds of microplastic particles per mask into water, with release rates increasing significantly at higher temperatures and with longer aging, raising concerns about their contribution to environmental plastic pollution.
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.
Impact of microfiber pollution on aquatic biota: A critical analysis of effects and preventive measures
This review examines how microfibers from textiles, face masks, and other personal protective equipment are polluting aquatic environments, a problem worsened by the COVID-19 pandemic. Microfibers enter waterways through washing machines and waste treatment plants, where they can be ingested by aquatic organisms. The authors highlight the urgent need for better filtration technologies and waste management to reduce microfiber contamination in oceans and freshwater systems.
Release study of microplastic fibres and heavy metals from disposable surgical face masks in aqueous medium: the effect of physio-chemical factors and shear forces
Researchers studied the release of microplastic fibers and heavy metals from disposable surgical face masks in water under various conditions. They found that physical factors like agitation and UV exposure significantly increased the rate of microplastic and metal release from the masks. The findings raise concerns about the environmental impact of discarded face masks as they degrade in aquatic systems.
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.
Long-term release kinetic characteristics of microplastic from commonly used masks into water under simulated natural environments
Researchers studied the long-term release of microplastics from four types of face masks (cotton, fashion, N95, and disposable surgical) in simulated natural water conditions over 12 months. The study found that all mask types continuously released microplastic fibers and fragments in a time-dependent manner, with particles predominantly smaller than 20 micrometers, accompanied by physical degradation and photo-oxidation. These findings suggest that improperly discarded masks are an ongoing source of microplastic pollution in aquatic environments.
A 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.