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61,005 resultsShowing papers similar to Does aquatic sediment pollution result in contaminated food sources?
ClearChallenges to Aquatic Food Source Sustainability: Investigating the Bioaccumulation of Microplastics of Tilapia and Mussels
This study investigated microplastic bioaccumulation in aquatic food sources including fish, shellfish, and crustaceans, examining contamination levels across commercially important species and assessing the human dietary exposure implications of consuming aquatic foods from contaminated environments.
Microplastics—A New Threat to Aquatic Food Safety?
This review article examines whether microplastics pose a new threat to the safety of aquatic food sources, noting that plastics have accumulated widely in marine environments and are ingested by organisms throughout the food chain. The authors assess potential risks from microplastic particles in seafood and the possibility of chemical contaminants being transferred from plastic to human consumers.
Microplastics and associated contaminants in the aquatic environment: A review on their ecotoxicological effects, trophic transfer, and potential impacts to human health
This review examines how microplastics and the chemical contaminants they carry move through aquatic food chains from small organisms up to larger predators. Researchers found that microplastics can transfer toxic additives and absorbed pollutants to organisms that ingest them, with potential implications for seafood safety and ultimately human health.
Microplastics transferring from abiotic to biotic in aquatic ecosystem: A mini review
A review compiled field data from dozens of studies and found that microplastics are more abundant in aquatic sediments than in water or in mussels and fish, and that a meaningful correlation exists between sediment and mussel contamination. However, the pathway and extent of biomagnification through the food chain remains unclear, as consistent evidence is lacking. The authors call for more standardized methods so studies can be reliably compared — a significant gap given ongoing concerns about microplastics entering human diets through seafood.
Contaminated aquatic sediments
This 2019 review summarizes published research on contaminated aquatic sediments, covering monitoring methods, pollutant transport, and remediation strategies across multiple contaminant types including microplastics. Aquatic sediments are a major sink and reservoir for microplastics as well as the chemical pollutants they carry.
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.
Insight into microplastics in the aquatic ecosystem: Properties, sources, threats and mitigation strategies
This review summarizes how microplastics contaminate aquatic ecosystems through various pathways, where they can absorb other toxic chemicals and become even more harmful. The findings are relevant to human health because microplastics in fish and shellfish from contaminated waters can carry these concentrated pollutants into our diets.
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 Aquatic Ecosystems
This review covers microplastic contamination in aquatic environments, examining MP sources, distribution pathways, ecotoxicological effects on aquatic organisms, trophic transfer dynamics, and the potential implications for human health through seafood consumption.
Effects of plastics and microplastics on aquatic organisms and human health
This review summarizes how plastics and microplastics reach water environments through multiple pathways and harm aquatic organisms including fish, invertebrates, and plankton. Because these organisms are eaten by humans, the review concludes that microplastic contamination of aquatic ecosystems poses a meaningful indirect risk to human health through the food we eat.
An insight into the ecological risks and mitigation of heavy metal pollution in aquatic sediments and marine ecosystems
This review examines heavy metal pollution in aquatic sediments and marine ecosystems, covering contamination sources, ecological risks, and mitigation strategies. The study highlights the deterioration of aquatic zones due to rising pollution from urbanization and industrialization, and discusses how pollutants including microplastics interact with heavy metals to affect biogeochemical cycling and the food chain.
The Challenge of Microplastics in Aquatic Ecosystem: A Review of Current Consensus and Future Trends of the Effect on the Fish
This review synthesizes research on how microplastics affect aquatic ecosystems, covering ingestion by marine animals, trophic transfer up the food chain, and the chemicals that microplastics carry. The findings highlight that microplastic contamination is now widespread enough to threaten marine biodiversity and food security for populations that rely on 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.
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.
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 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 and Their Possible Effects on Seafoods
This review examines how microplastics enter seafood through ingestion and surface contamination, discussing evidence for plastic presence in fish, shellfish, and other seafood products consumed by humans. The authors evaluate potential health risks from both the plastic particles themselves and the chemical additives and pollutants they carry.
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.
Trophic transfer of microplastics and mixed contaminants in the marine food web and implications for human health
This review examines how microplastics and the chemicals they carry transfer through marine food webs from lower to higher trophic levels, and what this means for human health given that people consume marine fish and seafood. It identifies microplastics as a vector for bioaccumulation of persistent organic pollutants in ways that ultimately reach humans.
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.
Microplastics in Fish and Seafood Species
This chapter reviews microplastic contamination in fish and seafood species, including how plastics enter seafood through wild capture and aquaculture pathways. Because seafood is widely consumed globally, microplastics in fish and shellfish represent a direct route of human dietary exposure.
Microplastics and Nanoplastics in Food
This review summarizes how microplastics enter the food chain through seafood and aquaculture, carrying both physical and chemical hazards from plastic additives and adsorbed pollutants. It discusses the risks to human health from consuming seafood contaminated with microplastics.
Microplastic: pollution issue and seafood security
This review explains how microplastics enter the marine environment and contaminate seafood, summarizing evidence of their presence in fish and shellfish consumed by humans. The authors highlight seafood safety concerns and call for better regulation and monitoring of microplastic contamination in food systems.
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.