We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
Papers
61,005 resultsShowing papers similar to Microplastics in the Food Chain
ClearMicroplastics in the Food Chain
This review summarizes evidence for microplastic entry and accumulation throughout the food chain, from environmental sources through plant uptake, invertebrate ingestion, fish accumulation, and ultimately human consumption. The authors highlight the food chain as a critical pathway connecting environmental plastic pollution to direct human exposure.
Microplastics (MPs) in marine food chains: Is it a food safety issue?
This review examined the presence and transfer of microplastics through marine food chains, assessing food safety risks from contaminated seafood and highlighting the ability of microplastics to sorb and leach chemical contaminants that may impact human health.
Microplastics in the Food Chain
This review summarized current knowledge about microplastics in the food chain, from their origins in packaging and industrial products to their presence in seafood and other food items. Researchers noted that while marine organisms have been the primary focus of study, much less is known about microplastic contamination in other foods. The study concludes that the issue remains insufficiently examined and warrants more attention to protect public health.
Microplastics as contaminants in marine environment.
This review summarizes the sources, distribution, and environmental impacts of microplastics in the marine environment, covering how they enter the ocean, where they accumulate, and what harms they cause to marine organisms. It also discusses the potential for microplastics to transfer up the food chain to humans through seafood.
Occurrence and pathways of microplastics, quantification protocol and adverseeffects of microplastics towards freshwater and seawater biota
This review examines the occurrence, pathways, and adverse effects of microplastics on freshwater and marine organisms, highlighting how these particles can enter the food chain through seafood consumption. The study suggests that microplastic ingestion causes health hazards in aquatic animals and points to gaps in understanding how microplastics affect human health along the food supply chain.
Microplastics and seafood: lower trophic organisms at highest risk of contamination
This systematic review summarizes existing research on microplastic contamination in commercially important seafood species. The findings show that organisms lower on the food chain, like shellfish and small fish, tend to accumulate the most microplastics. Since many people eat these organisms whole, including their digestive tracts, this represents a direct pathway for microplastics to enter the human diet.
Food Contamination by Microplastics and Human Health Implications
This review examines how food is contaminated by microplastics throughout the supply chain — from agricultural soil and irrigation water to food processing and packaging — and evaluates the health implications for human consumers. The authors estimate dietary microplastic intake across food categories and identify seafood, drinking water, and packaged foods as the highest-exposure routes.
The Effects of Microplastics on the Human Food Chain and Freshwater Ecosystem
This review examines how microplastic pollution affects freshwater ecosystems and the human food chain, tracing the transfer of MPs from contaminated water through aquatic organisms to human consumers and evaluating the cumulative health risks of dietary plastic exposure.
Microplastics: understanding the interaction with the food web and potential health hazards
This review traces how microplastics move through aquatic food webs, from tiny filter-feeding organisms up to predatory fish, and ultimately to humans who consume seafood. Evidence indicates that microplastics can accumulate and concentrate at each level of the food chain, carrying toxic chemicals that may cause inflammation and hormone disruption. The authors stress the need for more research to understand these pathways and develop strategies to reduce microplastic contamination in food.
Microplastic Contamination in the Marine Food Web
This review examines the contamination of the marine food web by microplastics, tracing the pathways by which plastic particles enter and move through trophic levels from primary producers to top consumers including marine mammals and humans, and summarizing evidence for toxicological effects and human exposure through seafood consumption.
Microplastics in the Food Chain
This review documents microplastic presence throughout the food trophic chain, examining how plastics enter food webs, accumulate with biomagnification, and affect organisms at each trophic level including humans who are at the top of the chain.
Microplastics in human food chains: Food becoming a threat to health safety
This review traces how microplastics enter the human food chain through both animal and plant sources, food packaging, and beverages. Once consumed, microplastics can accumulate in tissues and release harmful chemicals like plasticizers and heavy metals inside the body. The study emphasizes that food has become a major exposure pathway for microplastics and calls for stricter regulation of plastic use in food production and packaging.
Impact of Microplastics on AquaticOrganisms and Human Health: A Review
This review examines how microplastics from degraded plastic debris accumulate in aquatic environments, are ingested by organisms at all levels of the food chain, and may transfer to humans through seafood. The evidence warrants concern about microplastic contamination as an emerging public health issue.
How microplastics interact with food chain: a short overview of fate and impacts
This review examines how microplastics move through the food chain, from water and soil into plants and animals, and ultimately into human food. Microplastics become more dangerous when they absorb toxic chemicals from the environment, and they accumulate in organisms because they take longer to pass through the body than to be consumed. The review highlights that microplastic bioaccumulation through the food web is a direct pathway for human exposure.
Influence of Micro and Nanoplastics in Modern Food Chain: an Inevitable Intervention
This review examines the growing presence of microplastics and nanoplastics throughout the modern food chain, summarizing known entry points, concentrations in food commodities, and potential health consequences of regular human dietary exposure.
Microplastic in the Aquatic Ecosystem and Human Health Implications
This review examines the sources, distribution, and pathways of microplastics in aquatic ecosystems, summarizing current evidence on how MPs enter the food chain, accumulate in aquatic fauna, and pose risks to both ecosystem health and human health through seafood consumption.
The risks of marine micro/nano-plastics on seafood safety and human health
This review examined the risks of marine micro- and nanoplastics to seafood safety and human health, detailing how plastic particles are ingested by marine organisms and transferred through the food chain to consumers.
Microplastics in the Food Chain: Food Safety and Environmental Aspects
This review traces how microplastics move through the food chain, from contaminated water and soil into the animals and plants that humans eat. The study highlights that microplastics have been found in seafood, salt, honey, beer, and other food products, raising important questions about food safety and the need for better monitoring of plastic contamination in our food supply.
Microplastic pollution in the marine environment: Sources, impacts, and degradation.
This review summarizes existing research on microplastic pollution in the ocean, covering sources, effects on marine life, and degradation. Microplastics harm marine organisms across the food chain, from plankton to fish, affecting their growth, reproduction, immune systems, and behavior. Since humans consume many of these marine species, the widespread contamination raises concerns about microplastic exposure through seafood.
Review of micro- and nanoplastic contamination in the food chain
This review examines the contamination of the human food chain with micro- and nanoplastics, from seafood and drinking water to processed foods and packaging. Researchers found that while plastic particles are widely present in food and beverages, the actual health impacts on humans remain largely unknown due to inconsistent study methods. The study calls for standardized analytical approaches to properly assess dietary microplastic exposure and its potential risks.
A global perspective on microplastic bioaccumulation in marine organisms
This systematic review examines microplastic contamination in marine organisms around the world, documenting how plastics of various sizes and types build up in seafood species. Since many of these species end up on our plates, the findings raise important questions about how much microplastic humans may be consuming through seafood.
Microplastics in the Human Food Chain: Exposure and Health Implications
This review documents how microplastics have permeated the human food chain and are now detected in human tissues including lungs, liver, placenta, and breast milk, examining exposure routes through ingestion, inhalation, and dermal contact and the potential health consequences of this ubiquitous contamination.
Microplastic profusion in food and drinking water: are microplastics becoming a macroproblem?
This review examined the prevalence of microplastics in food and drinking water, assessing trophic transfer along the food web and evaluating whether microplastic contamination in human dietary sources constitutes a growing public health concern.
From Sea to Plate: The Plastic Pollution Problem in the Food Chain
This review analyzes the transfer of microplastics through the food chain from marine environments to human consumption, drawing on 12 published studies. Researchers found evidence of microplastic ingestion by fish and animals consumed by humans, as well as the presence of microplastics in human tissues and blood. The findings underscore the need for further research into how microplastics accumulate and transfer through the food web to reach the human body.