We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
20 resultsShowing papers similar to Poly- and Perfluoroalkyl Substances (PFAS): Do They Matter to Aquatic Ecosystems?
ClearMicroplastics as carriers of per- and polyfluoroalkyl substances (PFAS) in aquatic environment: interactions and ecotoxicological effects
Researchers reviewed how microplastics serve as carriers for per- and polyfluoroalkyl substances (PFAS), sometimes called forever chemicals, in aquatic environments. The study found that PFAS can attach to microplastic surfaces and accumulate in organisms through the food chain, potentially amplifying the toxic effects of both pollutants. The findings suggest that the combined presence of microplastics and PFAS poses a greater environmental and health risk than either pollutant alone.
The unheeded inherent connections and overlap between microplastics and poly- and perfluoroalkyl substances: A comprehensive review
This review reveals the overlooked connection between microplastics and PFAS (forever chemicals), showing that these two widespread pollutants often come from the same products and interact in the environment. Microplastics can absorb PFAS onto their surfaces and transport them through water systems, potentially increasing exposure for aquatic organisms and humans. Understanding this overlap is important because the combined effects may be more harmful than either pollutant alone.
Fate, distribution, and transport dynamics of Per- and Polyfluoroalkyl Substances (PFASs) in the environment
This review examines how PFAS, often called "forever chemicals," move through water, soil, plants, and air, with their ultra-strong carbon-fluorine bonds making them nearly indestructible in nature. While focused on PFAS rather than microplastics specifically, the two pollutants often co-occur and share similar concerns about persistence, bioaccumulation, and potential health effects.
Critical Evaluation and Meta-Analysis of Ecotoxicological Data on Per- and Polyfluoroalkyl Substances (PFAS) in Freshwater Species
This meta-analysis assessed the toxicity of PFAS ("forever chemicals" commonly found in plastics and coatings) to freshwater species. The findings suggest that even low concentrations of certain PFAS compounds can harm aquatic life, which has implications for ecosystems and the safety of our water supply.
Forever Chemicals PFAS Global Impact and Activities, Cascading Consequences of Colossal Systems Failure: Long-Term Health Effects, Food-Systems, Eco-Systems
This comprehensive review examines PFAS (per- and polyfluoroalkyl substances) contamination across food, water, and consumer products, highlighting their interconnection with microplastic pollution. The authors document decades of delayed regulatory action and cover-ups that have contributed to widespread human exposure. Evidence indicates long-term health effects from PFAS exposure, and the review calls for stronger risk assessment tools and policy responses to address this persistent chemical contamination.
Interaction of microplastics with perfluoroalkyl and polyfluoroalkyl substances in water: A review of the fate, mechanisms and toxicity
This review examines how microplastics act as carriers for PFAS ("forever chemicals") in water, with the two pollutants interacting through various chemical mechanisms that affect their movement through the environment. The combined presence of microplastics and PFAS raises concerns about increased toxicity, since microplastics can transport these persistent chemicals into organisms and potentially concentrate their harmful effects.
Impact of per- and polyfluorinated alkyl substances (PFAS) on the marine environment: Raising awareness, challenges, legislation, and mitigation approaches under the One Health concept
This review examines how PFAS (per- and polyfluorinated alkyl substances), often called 'forever chemicals,' are contaminating marine environments and interacting with other pollutants including microplastics. PFAS accumulate in marine food chains and can combine with microplastics to amplify toxic effects on ocean wildlife and ultimately human health through seafood consumption. The authors call for stronger regulations and cleanup strategies under a One Health approach that connects ocean, animal, and human well-being.
Research Progress in Current and Emerging Issues of PFASs’ Global Impact: Long-Term Health Effects and Governance of Food Systems
This review covers per- and polyfluoroalkyl substances (PFAS), commonly called "forever chemicals," which are found in food, cosmetics, drinking water, and are linked to microplastic contamination. Decades of corporate delay and mismanagement have led to widespread human exposure with potential long-term health effects being studied across the globe. The authors examine PFAS levels in food and water from multiple countries and call for stronger regulations to protect public health.
Per- and Polyfluoroalkyl Substances (PFAS) as Emerging Obesogens: Mechanisms, Epidemiological Evidence, and Regulatory Challenges
This review examines growing evidence that PFAS, the 'forever chemicals' found in many consumer products, may act as obesogens, meaning they could promote obesity by disrupting hormones and fat metabolism. PFAS exposure has been linked to changes in how the body stores fat and processes lipids, with some studies suggesting maternal exposure may increase obesity risk in children. While focused on PFAS rather than microplastics, the findings are relevant because both are persistent environmental pollutants that can act as endocrine disruptors.
Unveiling the Truth of Interactions between Microplastics and Per- and Polyfluoroalkyl Substances (PFASs) in Wastewater Treatment Plants: Microplastics as a Carrier of PFASs and Beyond
Researchers discovered that microplastics in wastewater treatment plants act as carriers for PFAS (forever chemicals), absorbing them from the water and potentially releasing them back into the environment. Commercial plastics were found to leach even more PFAS than environmental samples, with some chemicals releasing more than was originally absorbed. This dual role of microplastics as both carriers and sources of forever chemicals means they could significantly increase human exposure to these persistent, harmful substances.
Why Aim Toward a PFAS-free Future?
This paper is not about microplastics — it reviews the environmental persistence, toxicity, and regulatory challenges associated with per- and polyfluoroalkyl substances (PFAS), the so-called 'forever chemicals,' and argues for transitioning industry toward safer substitutes using green chemistry principles.
The Microplastic–PFAS Nexus: From Co-Occurrence to Combined Toxicity in Aquatic Environments
This review examines the interconnected environmental behavior of microplastics and PFAS ("forever chemicals"), showing that microplastics can act as carriers, concentrators, and secondary sources of PFAS contamination. Researchers found that co-exposure to both pollutants often produces synergistic toxic effects in aquatic organisms, disrupting processes from photosynthesis to neurological development. The study argues that current regulations assessing these pollutants individually are inadequate and must evolve to address their combined effects.
Toxicity of microplastics and per- and polyfluoroalkyl substances in sentinel freshwater models, Daphnia, Zebrafish and unicellular green algae: A systemic review
Researchers reviewed 68 studies on how microplastics and PFAS ("forever chemicals") affect freshwater organisms like Daphnia, zebrafish, and algae, finding that both contaminants are more toxic at chronic low doses than in short-term exposures, and that combining them tends to amplify harm — while noting almost no research has studied them together.
Molecular-Scale Insights into the Interactions between Perfluoroalkyl Substances and Polyethylene
Scientists found that tiny plastic particles called microplastics can strongly attract and hold onto toxic "forever chemicals" called PFAS, which are already found in drinking water and food. This means microplastics in our environment could act like sponges that collect these harmful chemicals and potentially transport them to new places, including into our bodies. The research helps explain why these two types of pollution might work together to create bigger health risks than either one alone.
Interactions between perfluorinated alkyl substances (PFAS) and microplastics (MPs): Findings from an extensive investigation
This study tested how PFAS ("forever chemicals") interact with 18 different types of microplastic and found that polyamide (nylon) plastics absorbed up to 100% of the PFAS in solution. Since both PFAS and microplastics are widespread environmental pollutants, their ability to bind together means microplastics may act as carriers that concentrate and transport these harmful chemicals into water, soil, and ultimately the human body.
Firefighters’ exposure to per-and polyfluoroalkyl substances (PFAS) as an occupational hazard: A review
This review examines how firefighters face elevated cancer risk from occupational exposure to PFAS, a class of toxic "forever chemicals" found in their protective gear, firefighting foam, and fire station dust. While focused on PFAS rather than microplastics directly, the research is relevant because both PFAS and microplastics are persistent environmental pollutants that accumulate in the body. PFAS are also commonly found attached to microplastic surfaces, making microplastics a potential carrier of these carcinogenic chemicals.
PFAS: forever chemicals—persistent, bioaccumulative and mobile. Reviewing the status and the need for their phase out and remediation of contaminated sites
Researchers reviewed the science on PFAS — a large family of synthetic "forever chemicals" used in thousands of products — finding that they persist indefinitely in the environment, accumulate in the food chain, and damage the liver, kidneys, thyroid, and immune system even at very low exposures. The authors conclude that swapping one harmful PFAS for another is not a solution and that a full phase-out in favor of fluorine-free alternatives is necessary.
Interaction and combined toxicity of microplastics and per- and polyfluoroalkyl substances in aquatic environment
This review examines how microplastics interact with per- and polyfluoroalkyl substances (PFAS) in aquatic environments and the combined toxic effects on organisms. Researchers found that microplastics can adsorb PFAS chemicals and transport them through water systems, potentially increasing exposure for aquatic life. The study highlights that the combination of these two widespread pollutant types may pose greater ecological risks than either one alone.
Unraveling the complexities of microplastics and PFAS synergy to foster sustainable environmental remediation and ecosystem protection: A critical review with novel insights
This review examines how microplastics and PFAS (sometimes called 'forever chemicals') interact in the environment, since both often come from the same everyday products. The authors found that microplastics can carry PFAS on their surface, and when organisms are exposed to both together, the combined toxic effects including oxidative stress and reproductive harm can be worse than either pollutant alone.
Interactions between MPs and PFASs in aquatic environments: A dual-character situation
This review examines the interactions between microplastics and per- and polyfluoroalkyl substances (PFAS) in water environments, finding that the two pollutants have a complex relationship. Microplastics can absorb PFAS chemicals onto their surfaces, potentially transporting them through aquatic systems and altering their environmental behavior. The study highlights the need to consider these combined effects when assessing pollution risks in waterways.