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61,005 resultsShowing papers similar to Microbiome in Atmospheric Microplastics and Microplastic Deposition on Symbiotic Organisms
ClearNew insights into the microbial succession and health risks of atmospheric plastispheres
Researchers conducted a two-month outdoor experiment to study how bacteria colonize atmospheric microplastics and found that while initial colonization was polymer-specific, communities gradually converged over time. Seven pathogenic species were specifically enriched on plastic surfaces, with some appearing only in later stages of biofilm development, suggesting that airborne microplastics may serve as carriers that accumulate and potentially transmit harmful bacteria.
Microplastics in the environment: Interactions with microbes and chemical contaminants
This review covers what is known about microplastic interactions with microbes and co-occurring chemical contaminants in the environment, examining how biofilms on microplastics alter pollutant transport and the ecological consequences for soil, water, and atmospheric systems.
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.
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.
Potential planetary health impacts of the airborne plastisphere
This study examined the planetary health implications of the airborne plastisphere—microbial communities colonizing airborne microplastic particles—noting that these communities harbor pathogens, antibiotic resistance genes, and other hazardous organisms. The airborne plastisphere may facilitate the long-distance dispersal of microbial threats across ecosystems.
Ecological and human health risks of atmospheric microplastics (MPs): a review
This review examined the ecological and human health risks associated with atmospheric microplastics, which are recognized as ubiquitous and persistent emerging pollutants. The study suggests that airborne microplastics represent a growing environmental concern requiring further investigation.
Marine Microbial Assemblages on Microplastics: Diversity, Adaptation, and Role in Degradation
This review examines microbial communities that colonize microplastics in the ocean, collectively known as the plastisphere. Researchers found that these biofilms differ significantly from those on natural surfaces and may include pathogenic bacteria and species capable of partially degrading plastics. The study highlights both the ecological risks of microplastics as vectors for harmful microbes and the potential for harnessing plastic-degrading organisms.
Role of Microbes in Microplastic Removal and Its Effect on Human Health
This review examines the role of microbes in microplastic removal from environmental matrices and food systems, covering both degradation pathways and the health implications of microplastic-microbiome interactions for humans and other organisms.
Exploring the Microbiome of the Marine Microplastisphere
This review examines the microbiome associated with microplastic particles in marine environments, known as the microplastisphere, describing it as a dynamic and complex ecosystem with significant ecological implications. Researchers found that the microplastisphere harbors distinct microbial communities distinct from surrounding seawater, with potential consequences for marine biodiversity and pollutant transport.
Plastisphere - a new habitat of microbial community: Composition, structure and ecological consequences
This review examines the plastisphere — microbial communities colonizing microplastics — covering the composition and structure of plastisphere microbiomes across marine, freshwater, and terrestrial environments and discussing ecological consequences including pathogen dispersal.
Mechanisms of interaction between microplastics and microorganisms in the environment
This review summarized the sources, environmental distribution, and hazards of microplastics, focusing on how MPs influence both individual microorganisms and microbial communities in the environment. Microbial degradation pathways and methods were analyzed, and future research directions proposed to better understand the environmental behavior of microplastics and their interactions with microorganisms.
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.
Microbiological perspectives on the effects of microplastics on the aquatic environment
This review examines how microplastics interact with microorganisms in aquatic environments, highlighting risks to microbial communities and the potential for microplastics to disrupt ecosystem functions. Microplastics may alter microbial diversity and promote the spread of antibiotic-resistant bacteria.
Source and Route of Microplastics in Terrestrial, Atmospheric, and Aquatic Environments, and Effects of Microplastics on Organisms
This review summarizes the sources, transport routes, and ecological effects of microplastics across terrestrial, atmospheric, and aquatic environments, highlighting how trophic transfer through food chains can ultimately lead to human ingestion.
Marine microplastic-associated biofilms – a review
This review synthesizes research on biofilm communities forming on marine microplastics, covering their composition, formation dynamics, and potential consequences for both plastic fate and ocean microbiology. The authors highlight that plastic-associated biofilms can include pathogens and toxin producers, and that the plastisphere community differs meaningfully from the surrounding seawater microbiome.
It’s a matter of microbes: a perspective on the microbiological aspects of micro- and nanoplastics in human health
Researchers highlighted an often-overlooked aspect of micro- and nanoplastic pollution: the microorganisms that colonize plastic particles and how they might affect human health. The study suggests that the microbial communities living on plastic surfaces, known as the plastisphere, could carry harmful bacteria into the human body through ingestion, inhalation, or skin contact, representing an additional health risk beyond the plastics themselves.
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.
Microplastic pollution: Understanding microbial degradation and strategies for pollutant reduction
This review explores how microplastics form, spread through ecosystems, and affect microbial communities, then examines how certain microorganisms can actually break down these plastic particles. Understanding microbial degradation of microplastics could lead to biotechnology solutions that reduce the amount of plastic pollution entering the food chain and ultimately the human body.
Unveiling the complex impact of microplastics on environmental health, ecosystems, and humans
This comprehensive review consolidates current knowledge on microplastic pollution across marine, freshwater, terrestrial, and atmospheric environments. Researchers examined sources, transport pathways, impacts on living organisms, sampling techniques, and regulatory challenges, highlighting significant gaps in understanding the full scope of microplastic effects on ecosystems and human well-being.
Plastisphere microbiome: Methodology, diversity, and functionality
This review explores the plastisphere, the community of microorganisms that colonize plastic debris in the environment. The authors cover methods for studying these microbial communities, the diversity of organisms found living on plastics, and their functional roles including potential plastic degradation and pathogen harboring. Understanding the plastisphere is important because these microbial communities can influence how plastics break down and what health risks plastic pollution may pose.
Marine microbes in the Plastic Age
This review examines how marine microbes interact with plastic debris in the ocean, describing the physical threats of plastic ingestion and entanglement as well as chemical threats from plastic-associated toxins that can bioaccumulate through food webs. Researchers call for greater investigation into how plastic pollution alters microbial community composition, biodegradation potential, and the broader functioning of ocean ecosystems.
How microplastics influence the health and microbiota of aquatic invertebrates: A review
This review examines how microplastics affect the health and microbiota of aquatic invertebrates, an area that has received less attention than fish studies. Researchers summarize evidence showing that microplastics cause toxicity at biological and molecular levels, alter microbial communities associated with invertebrate hosts, and interact with climate change and other pollutants to produce combined effects. The study highlights significant knowledge gaps and proposes future research directions for understanding microplastic impacts on aquatic ecosystems.
Microplastics and their interactions with microbiota
This review examines how microplastics interact with microbiota (the communities of microorganisms in the environment and in living bodies). Microplastics can carry harmful bacteria and disrupt the natural balance of microbial communities in soil, water, and the human gut. The disruption of gut microbiota by microplastics is particularly concerning because a healthy gut microbiome is essential for immune function, digestion, and overall health.
Micro-by-Micro Interactions: How Microorganisms Influence the Fate of Marine Microplastics
This review examines how microorganisms interact with microplastics in water environments, affecting the transport, breakdown, and toxicity of plastic particles. Microbes colonize plastic surfaces rapidly, altering particle density, chemical composition, and how likely organisms are to ingest them, which has major implications for ecosystem exposure.