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61,005 resultsShowing papers similar to Impact of Biofilm Formation on Microplastic Behaviour in Aquatic Environments: An Comprehensive Review.
ClearImpacts of Biofilm Formation on the Fate and Potential Effects of Microplastic in the Aquatic Environment
Researchers reviewed how biofilm formation on microplastic surfaces affects the fate and potential ecological effects of microplastics in aquatic environments, finding that biofilms alter particle buoyancy, surface chemistry, and interactions with organisms.
Biofilm formation and its implications on the properties and fate of microplastics in aquatic environments: A review
Researchers reviewed how microplastics in water attract and support communities of bacteria and other microorganisms that form biofilms — living coatings that alter the plastic particles' movement, help them carry pathogens, and affect how toxic chemicals attached to the plastic are absorbed by living things. Understanding this "plastisphere" ecosystem is critical for predicting where microplastics go and how harmful they become.
The Importance of Biofilms to the Fate and Effects of Microplastics
This review examines how biofilms — communities of microorganisms that form on microplastic surfaces — affect the fate and ecological effects of plastic pollution. Biofilm formation alters how microplastics are transported, ingested, and degraded in the environment, and the plastisphere can harbor pathogens and antibiotic-resistant bacteria that may pose risks to human health.
Biofilm on microplastics in aqueous environment: Physicochemical properties and environmental implications
This review examines how bacteria and other microorganisms form sticky films called biofilms on microplastic surfaces in water. These biofilms change how microplastics move through the environment and increase their ability to absorb pollutants like heavy metals, pesticides, and antibiotics. Biofilm-coated microplastics may also carry harmful bacteria, making them a greater potential health risk than clean microplastic particles.
Aquatic Biofilms—Sink or Source of Microplastics? A Critical Reflection on Current Knowledge
This review critically assessed the relationship between aquatic biofilms and microplastics, examining how biofilms colonize plastic surfaces and may serve as both sinks and sources of microplastics in aquatic ecosystems.
Microplastic-Associated Biofilms and Their Role in the Fate of Microplastics in Aquatic Environment
This review examines how microbial biofilms attached to microplastics in aquatic environments mediate the accumulation and transfer of chemical pollutants, exploring how the 'plastisphere' community influences the fate and ecotoxicological impact of microplastics and co-contaminants.
Role of Biofilms in the Degradation of Microplastics
This review examines the role of microbial biofilms in degrading microplastics, presenting insights into how microbial communities colonizing plastic surfaces may contribute to the breakdown of microplastic particles in aquatic and terrestrial environments.
Colonization characteristics and surface effects of microplastic biofilms: Implications for environmental behavior of typical pollutants
This review examines how bacteria colonize microplastic surfaces in water, forming biofilms that change how the plastics behave in the environment. These biofilms alter the surface properties of microplastics and affect how they absorb and transport heavy metals and other pollutants. Understanding biofilm formation on microplastics is important because it can make the particles more dangerous by concentrating toxic substances that could eventually enter the food chain.
The Importance of Biofilms on Microplastic Particles in Their Sinking Behavior and the Transfer of Invasive Organisms between Ecosystems
This review explores how biofilm formation on microplastic surfaces, known as the plastisphere, affects the transport and ecological impact of plastic particles in marine environments. Researchers found that biofilm colonization can cause microplastics to sink from the ocean surface, altering their distribution through the water column, while also providing a habitat that protects invasive microbial species. The study suggests that some plastisphere organisms with plastic-degrading abilities could potentially be harnessed for marine pollution cleanup strategies.
Role of biofilms in the degradation of microplastics in aquatic environments
This review examined the role of microbial biofilms in degrading microplastics in aquatic environments, highlighting the potential for biofilm-mediated biodegradation as a natural mechanism for breaking down recalcitrant plastic pollutants.
Perspective into bio-fouled microplastic behaviour, transportation and characterization in water bodies
This review examines how biofouling alters the physicochemical properties of microplastics — including density, surface charge, hydrophobicity, and roughness — and how the resulting 'plastisphere' biofilm community reshapes microplastic transport dynamics, vertical flux, and long-term fate in aquatic systems.
Recent advances in the relationships between biofilms and microplastics in natural environments
This review summarizes how microorganisms form biofilms on the surface of microplastics in water, changing the particles' physical properties and helping to spread bacteria and genes across ecosystems. These biofilm-coated microplastics can carry harmful microbes into new environments, raising concerns about waterborne disease transmission and the effectiveness of current water treatment methods.
Interactions between microplastics and benthic biofilms in fluvial ecosystems: Knowledge gaps and future trends
This review examines the interactions between microplastics and benthic biofilms in freshwater ecosystems, identifying key knowledge gaps around how biofilms influence microplastic fate and transport, and calling for more field-based research to understand these complex ecological relationships.
Physicochemical behavior and ecological risk of biofilm-mediated microplastics in aquatic environments
This review explores how biofilm formation on microplastics in water environments changes their physical and chemical behavior, potentially increasing their ecological risks. Researchers found that biofilm-coated microplastics more readily absorb pollutants and antibiotic resistance genes, and may disrupt gut microbiota in organisms that ingest them. The findings suggest that the biological aging of microplastics in nature makes them more dangerous than freshly produced particles.
Beyond the Surface: Biofilms and Microplastics in Aquatic Systems
This review examines how microbial biofilms that form on microplastic surfaces (the 'plastisphere') influence particle transport, degradation rates, and potential toxicity in aquatic environments, including the role of biofilms in carrying pathogens and antibiotic resistance genes.
Biofilm-Developed Microplastics As Vectors of Pollutants in Aquatic Environments
This review examines how biofilms that form on microplastics in aquatic environments change their ability to absorb and transport pollutants. Researchers found that biofilm-coated microplastics can absorb more contaminants than clean microplastics and serve as vectors that transfer both pollutants and potentially harmful microorganisms through aquatic ecosystems.
Distribution, biological effects and biofilms of microplastics in freshwater systems - A review
This review examines microplastic distribution, biological effects, and biofilm formation in freshwater systems, highlighting knowledge gaps compared to marine studies and the ecological risks posed by microplastics as vectors for pathogens and pollutants.
Microbial Life on the Surface of Microplastics in Natural Waters
Researchers reviewed how microorganisms colonize the surface of microplastic particles floating in natural waters, forming biofilms that can include potentially harmful bacteria. These biofilm-coated microplastics concentrate near the water-air interface and are more readily consumed by aquatic animals than bare plastic particles. The study highlights that understanding microbial life on microplastics is essential for assessing their environmental and public health impacts.
Biofilm (Eco-Corona) Formation from Microplastics in Freshwater
This review examines eco-corona and biofilm formation on microplastics in freshwater environments, explaining how microbial colonization of plastic surfaces changes their buoyancy, surface chemistry, and biological interactions, with implications for MP transport and ecotoxicity.
A review on microbial-biofilm mediated mechanisms in marine microplastics degradation
This review examines how microbial biofilms form on microplastics in marine environments and their potential role in degrading these persistent pollutants. Researchers found that plastic-associated biofilm communities are diverse and influenced by factors such as polymer type, particle size, and seasonal conditions. The study identifies knowledge gaps in understanding how bacterial and fungal communities on microplastics may contribute to their breakdown in ocean environments.
Micro‐by‐micro interactions: How microorganisms influence the fate of marine microplastics
This review examines how microorganisms interact with microplastics in marine environments, including biofilm formation, biodegradation, and effects on plastic transport and sedimentation. Researchers found that microbial colonization of plastics can influence how microplastics move through the water column and enter food webs. The study highlights that understanding these micro-by-micro interactions is essential for assessing the environmental fate of microplastic pollution.
Microbial Colonization and Degradation of Microplastics in Aquatic Ecosystem: A Review
This review examines how microorganisms colonize and form biofilms on microplastics in aquatic environments, creating a plastisphere where bacteria and fungi can potentially degrade plastic particles through enzymatic processes.
Microplastic surface biofilms: a review of structural assembly, influencing factors, and ecotoxicity
This review explores how microbial biofilms form on microplastic surfaces in natural environments, creating tiny ecosystems known as the plastisphere. Researchers found that these biofilms change the physical and chemical properties of microplastics and can significantly alter their toxicity to living organisms. The study emphasizes that most toxicity research still uses pristine microplastics, which may not accurately reflect the real-world risks posed by biofilm-coated particles.
BIOPHYLM: Biofilm on microplastics - a biophysical perspective
Scientists are studying how bacteria grow on tiny plastic particles (microplastics) in rivers and lakes, creating slimy coatings called biofilms. These biofilms change how the plastic pieces move through water and may affect whether they become more or less harmful to wildlife and potentially humans. Understanding this process will help researchers better assess the health risks of plastic pollution in our water systems.