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61,005 resultsShowing papers similar to Occurrence of nano/microplastics from wild and farmed edible species. Potential effects of exposure on human health
ClearMicro- and nano-plastic contamination in foods and potential risk to human health
This review summarizes the current state of knowledge about micro- and nanoplastic contamination in food, covering sources, occurrence, and analytical detection methods. Researchers found that while various foods, especially seafood, contain measurable levels of microplastics, the health risks to humans remain difficult to assess due to inconsistent research methods. The study calls for standardized approaches to better evaluate dietary exposure and potential health impacts.
Microplastic risks in the seafood in terms of food safety and their research methods
Microplastics and nanoplastics accumulate in aquatic organisms including fish, shellfish, and marine mammals, and can transfer into the human food supply through seafood. This review summarizes the health risks and detection methods used to identify microplastics in seafood, noting that some food processing steps may also introduce contamination.
Research progress on the pollution status and their detection methods of microplastics in aquatic products
This review covered the prevalence of microplastic contamination in aquatic products (fish, shellfish, crustaceans) and the analytical methods used for their detection and quantification. The authors emphasized that aquatic food consumption is a direct route of microplastic exposure for humans and called for standardized detection protocols.
Microplastics in aquatic food chain : sources, measurement, occurrence and potential health risks
This review examines the sources, measurement methods, occurrence, and potential health risks of microplastics throughout aquatic food chains, finding that while microplastics are ubiquitous in fish, shellfish, and other aquatic food sources, the data needed for a comprehensive human dietary exposure and risk assessment are not yet available. Researchers identify standardization of detection methods as a critical prerequisite for meaningful risk evaluation.
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.
Impacts of nano/micro-plastics on safety and quality of aquatic food products
This review assessed the impact of nano- and microplastics on the safety and quality of aquatic food products, highlighting how contaminated marine organisms transmit plastic particles and associated toxins to higher trophic levels including humans.
Overviewing the Ground Reality of Microplastic Effects on Seafoods, Including Fish, Shrimps and Crabs: Future Research Directions
This review compiled global data on microplastic contamination in commercially harvested marine and freshwater fish, crustaceans, mollusks, and other seafood, finding widespread ingestion across all major seafood categories. The authors assess implications for food safety and call for standardized monitoring and risk thresholds for microplastics in seafood.
Toxicological review of micro- and nano-plastics in aquatic environments: Risks to ecosystems, food web dynamics and human health.
This review synthesized evidence on the toxicological effects of micro- and nanoplastics in aquatic ecosystems, covering risks to individual organisms, disruptions to food web dynamics, and pathways through which plastic exposure poses risks to human health via seafood consumption.
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.
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.
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 Fish and Shellfish – A Threat to Seafood Safety?
This review evaluated the current knowledge on microplastic contamination in fish and shellfish in relation to seafood safety. Researchers found that while microplastics are commonly detected in the gastrointestinal tracts of fish (which are typically not consumed), bivalves and small fish eaten whole may present a more direct route of human exposure, though the overall health risk from microplastics in seafood remains uncertain.
Characteristics of Microplastic in Commercial Aquatic Organisms
This review examined microplastic occurrence across multiple commercial aquatic species, compiling data on ingestion rates, particle characteristics, and potential risks to seafood safety. The authors identify fish, crustaceans, and bivalves as primary vectors of human dietary exposure to microplastics through seafood consumption.
Potential risk assessment and toxicological impacts of nano/micro-plastics on human health through food products
This review examined the potential risks and toxicological effects of nano- and microplastics on human health through food products, identifying key contamination sources in the food chain and their harmful impacts on the body.
Unraveling the ecotoxicological effects of micro and nano-plastics on aquatic organisms and human health
This review summarizes the growing body of evidence on how micro- and nanoplastics affect aquatic organisms and, through the food chain, potentially human health. The tiny plastic particles absorb toxic pollutants and pathogens from the water, acting as carriers that deliver these harmful substances into the bodies of fish, shellfish, and other organisms. The review highlights that both direct plastic toxicity and indirect chemical exposure through contaminated seafood pose risks to human consumers.
Microplastics as contaminants in commercially important seafood species
This review summarizes evidence that microplastic ingestion is widespread in commercially important seafood species including mollusks, crustaceans, and fish. Evidence indicates that microplastics can affect physiology, reproductive success, and survival in marine organisms, and may also act as vectors for chemical pollutants. The study highlights the potential for human exposure to microplastics through seafood consumption, though the full health implications remain to be determined.
Microplastics in coastal areas and seafood: implications for food safety
This review summarizes research on microplastic contamination in coastal waters and seafood, examining the potential risks of dietary exposure for humans. Researchers found that while microplastics have been detected in many commercially important fish and shellfish species, toxicological data remain limited and risk assessments are complicated by inconsistent analytical methods. The study concludes that more standardized exposure and toxicity data are needed before reliable food safety standards for microplastics in seafood can be established.
Occurrence, sources and potential human health risk of microplastics in seafood species
Researchers measured microplastic occurrence in seafood products available in local markets, identifying plastics in multiple species including fish, shrimp, and bivalves, and estimated potential human dietary intake based on consumption data. The study found that seafood lovers could ingest thousands of microplastic particles per year through regular consumption, with shellfish representing the highest per-serving exposure.
Dietary exposure to microplastic via shellfish and the importance of the edible shellfish tissue measurements
This study highlighted shellfish as a major source of human dietary exposure to micro- and nanoplastics, emphasizing the need for standardized analytical methods to enable comparable exposure assessments and risk characterizations across different countries and shellfish species.
Marine microplastic debris: An emerging issue for food security, food safety and human health
This review examines the evidence for microplastic contamination in seafood and discusses what it means for food security and human health. Researchers found that microplastics have been detected in commercially important fish and shellfish species worldwide, but the actual health risks to humans from consuming contaminated seafood remain poorly understood. The study identifies critical knowledge gaps and calls for standardized methods to better assess the dietary exposure and potential toxicity of microplastics.
Microplastics ingestion by marine fauna with a particular focus on commercial species: a systematic review
This systematic review and meta-analysis examines microplastic ingestion across marine species, with a focus on commercially important seafood. The researchers found that microplastic contamination is widespread in fish, shellfish, and other marine animals that end up on our dinner plates. This matters for human health because we may be consuming these particles every time we eat seafood.
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.
Microplastics in food: scoping review on health effects, occurrence, and human exposure
This review synthesizes evidence on microplastic occurrence in a broad range of food types beyond fish and shellfish, estimated human dietary exposure, and potential health effects including toxicity from particles themselves, leached monomers, chemical additives, and co-contaminants, identifying major research gaps in non-marine food categories.
Microplastics in seafood: Implications for food security, safety, and human health
This review examines how microplastics contaminate seafood -- from fish and shellfish to seaweed -- and what that means for food safety and human health. Marine organisms accumulate microplastics along with the harmful chemicals and antibiotic-resistant bacteria attached to them, creating multiple exposure risks when people eat seafood. With global seafood consumption rising sharply, the authors argue that microplastic contamination in the food supply deserves urgent attention from food safety regulators.