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20 resultsShowing papers similar to Research Progress on the Migration Pathways and Ecological Effects of Microplastics in Marine Food Webs
ClearMicroplastic 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.
A Summary of the Transporting Mechanism of Microplastics in Marine Food Chain and its Effects to Humans
This review summarized how microplastics are transported through marine food chains from plankton to fish to humans, detailing toxic effects at each trophic level and outlining mitigation strategies to reduce ecological and human health risks from oceanic plastic pollution.
Ecological impact of microplastic pollution on marine food webs
This review examines how microplastic pollution disrupts marine food webs, tracing the transfer of plastic particles and associated chemicals from plankton through fish to top predators and analyzing the ecological consequences for marine biodiversity and ecosystem functioning.
Trophic transfer of microplastics in zooplanktons towards its speculations on human health: A review
This review examines how microplastics move through the ocean food chain, from tiny zooplankton at the base up through fish to humans, and what health effects may result. Trophic transfer means microplastics can concentrate as they move up the food web, increasing human dietary exposure.
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.
Trophic transfer of microplastics and mixed contaminants in the marine food web and implications for human health
This review examines how microplastics act as vectors for chemical contaminants through marine food webs, discussing the factors influencing ingestion, the biological impacts of sorbed chemicals, and evidence for trophic transfer across multiple trophic levels. Researchers highlight that existing lab studies use unrealistically high concentrations and that no study has yet tracked microplastic-contaminant transfer from seafood to humans.
Microplastics and Their Impacts on Organisms and Trophic Chains
This review synthesizes current knowledge on microplastic pollution, examining the mechanisms by which microplastics affect organisms at multiple levels of biological organization and how plastic particles transfer through trophic chains, accumulating and potentially magnifying in concentration up the food web. Researchers highlight evidence for physical, chemical, and microbial impacts on organisms ranging from invertebrates to mammals, including humans, and identify priority areas for future ecotoxicological research.
Ingestion and transfer of microplastics in the planktonic food web
Researchers demonstrated that microplastics are ingested and transferred through a planktonic food web, with particles passing from primary producers to zooplankton grazers and on to predatory plankton, establishing trophic transfer as a real pathway for microplastic movement through marine food chains.
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.
Effects of Microplastics on Living Organisms and their Trophic Transfer: An Ecotoxicological Review
This ecotoxicological review examines the effects of microplastics on living organisms across multiple trophic levels and their transfer through food webs, covering evidence from aquatic and terrestrial environments. The authors highlight the cumulative risks posed by microplastic ingestion and tissue accumulation.
Micro Plastics in The Marine Environment: A Review of Their Effects on Marine Organisms and Ecosystems
This review examines the effects of microplastics on marine organisms and ecosystems, summarizing evidence for MP ingestion across trophic levels, physical and chemical harm to marine life, and the pathways through which marine MP pollution threatens biodiversity and fisheries.
Trophic transfer of microplastics and mixed contaminants in the marine food web and implications for human health
This review examines how microplastics move through marine food webs via trophic transfer and carry chemical contaminants that can accumulate in higher predators, including humans. Researchers found that microplastics readily sorb pollutants from surrounding waters and release them after being ingested by organisms, potentially amplifying toxic effects at each level of the food chain. The study underscores the need for more research on bioaccumulation factors and the implications of seafood-mediated microplastic exposure for human health.
Application of marine organisms at multi-trophic level to study the integrated biological responses induced by microplastics through food-chain
Researchers used marine organisms across multiple trophic levels to study how microplastics move and accumulate through the food chain, finding that toxicological effects intensify at higher trophic levels due to bioaccumulation of plastic particles and associated chemical pollutants.
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.
The Impact of Microplastic Bioaccumulation on Marine Ecosystems
This review examined the bioaccumulation of microplastics in marine ecosystems, tracing MP uptake from zooplankton to fish to marine mammals and discussing the ecological disruptions caused by plastic accumulation across food webs. It called for integrated solutions addressing MP pollution at both the source and ecosystem levels.
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.
Microplastics and the Impact of Plastic on Wildlife: A Literature Review
This review synthesizes evidence on microplastic ingestion and accumulation in seabirds and wildlife, examining the pathways by which microplastics move through marine food webs and the potential physiological harm to upper-trophic predators.
Microplastics in marine ecosystems: Sources, effects, and mitigation strategies
This review examines the sources, environmental pathways, ecological impacts across trophic levels, and mitigation strategies for microplastic pollution in marine ecosystems, synthesizing current evidence on biological harm and evaluating policy frameworks, technological solutions, and individual behavioral changes aimed at reducing marine microplastic loads.
The ecotoxicological effects of microplastics on aquatic food web, from primary producer to human: A review
This review traces the ecotoxicological effects of microplastics through the aquatic food web, from algae and zooplankton up through fish and ultimately to human consumers. Researchers found evidence that microplastics cause harm at every trophic level, including reduced growth, reproductive impairment, and inflammatory responses. The study highlights that microplastics can transfer up the food chain, raising concerns about cumulative exposure in seafood-consuming populations.
Observing the Effects of Marine Debris Bioaccumulation and Biomagnification
This study examines how marine debris, particularly microplastics and heavy metals, bioaccumulates and biomagnifies through marine food webs, with organisms ingesting microplastics as they move through ocean currents. The review considers the ecological consequences of microplastic ingestion across trophic levels and the implications for food chain safety as humans sit at the top of the marine food web.