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61,005 resultsShowing papers similar to Ecotoxicological effects of microplastics on biota: a review
ClearA comprehensive review of the impact of microplastics on aquatic organisms: From ingestion to ecological consequences
This comprehensive review assessed the impacts of microplastics on diverse aquatic organisms—including fish, marine mammals, mollusks, crustaceans, and microorganisms—from ingestion through ecological-level consequences. The authors found that microplastics cause physical injury, oxidative stress, endocrine disruption, and behavioral changes across taxa, with downstream effects on food web structure and ecosystem function.
Ecotoxicological Impacts of Micro and Nanoplastics on Marine Fauna
This review examines the ecotoxicological impacts of micro- and nanoplastics on marine fauna, detailing how these particles enter food chains through ingestion, accumulate across trophic levels, and cause physical and chemical harm including oxidative stress, inflammation, reproductive disruption, and mortality. The authors highlight the compounding threat when plastics act as vectors for adsorbed pollutants.
Effects of Microplastic Exposure on Different Speciesin Ecosystem
This review examines the ecotoxicological effects of microplastic exposure on organisms across aquatic and terrestrial ecosystems, covering bioaccumulation and trophic transfer in fish, mollusks, and other species. The authors emphasize that microplastics originating from industrial processes and plastic waste pose long-term ecosystem-wide threats.
Environmental toxicology of marine microplastic pollution
This review summarized a decade of research on the environmental toxicology of marine microplastic pollution across different ocean organisms and trophic levels. Researchers found that microplastics can accumulate in marine life from phytoplankton to fish, causing molecular, metabolic, and physiological harm. The study emphasizes that understanding these toxic effects is essential for assessing the broader ecological risks of plastic pollution in ocean environments.
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.
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.
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.
Microplastics in aquatic environments: Toxicity to trigger ecological consequences
This review draws on cross-disciplinary research to connect the toxic effects of microplastics on individual organisms to broader ecological consequences in aquatic environments. Researchers found that microplastics can disrupt nutrient cycling, alter metabolic processes, trigger immune responses, and threaten ecosystem composition. The study highlights how the ecological damage from microplastics depends on how their toxicity transfers and multiplies through aquatic food webs.
Impact of Microplastics on Flora and Fauna
This review compiles reported effects of microplastics across a wide range of taxonomic groups including plants, invertebrates, fish, and mammals, drawing from studies worldwide. The findings confirm that microplastics pose risks at all trophic levels, with documented effects including physical harm, oxidative stress, immune disruption, and reproductive impacts.
Biological Effects of Microplastics: A Review.
Researchers reviewed how microplastics harm a wide range of living things, finding they cause physical damage, inflammation, oxidative stress, and reproductive problems in aquatic animals, while also carrying toxic chemicals and dangerous bacteria into organisms. Major gaps remain in understanding the effects of long-term low-dose exposure and the risks posed by even tinier nanoplastics.
Toxicity of Microplastics to Aquatic Organisms
This review summarizes the toxic effects of microplastics on aquatic organisms at all levels of the food chain, covering both physical and chemical mechanisms of harm. The evidence reviewed supports the conclusion that microplastic exposure poses genuine risks to aquatic ecosystems and the humans who depend on them for food.
Environmental toxicology of microplastic particles on fish: A review
This review summarizes how microplastics harm fish through physical damage, inflammation, oxidative stress, immune suppression, genetic damage, and reproductive disruption. These effects matter for human health because toxic substances accumulate and concentrate as they move up the food chain from fish to the people who eat them.
Ecotoxicity of microplastics to freshwater biota: Considering exposure and hazard across trophic levels
This review examines the toxic effects of microplastics on freshwater organisms across multiple levels of the food web, from biofilms and plankton to fish and amphibians. Researchers found evidence of harm in several species, though effects varied widely depending on particle size, type, and concentration. The study highlights that freshwater microplastic toxicity is still poorly understood compared to marine environments and calls for more standardized research.
Microplastics toxicity in aquatic animals
This systematic review summarizes existing research on how microplastics harm aquatic animals across multiple species. The findings show microplastics can cause physical damage, oxidative stress, reproductive issues, and behavioral changes in fish, shellfish, and other water-dwelling creatures. Since many of these animals are part of the human food chain, their contamination represents an indirect health concern for people.
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.
Micro(nano)plastics Prevalence, Food Web Interactions, and Toxicity Assessment in Aquatic Organisms: A Review
This review examines the prevalence of micro- and nanoplastics across aquatic environments and their documented toxic effects on organisms ranging from plankton to fish, including DNA damage, reproductive harm, and neurotoxicity. Researchers found clear evidence that these particles transfer through aquatic food webs and can ultimately reach humans through seafood consumption. The study calls for more research into how microplastics carrying multiple contaminants cause combined toxic effects in marine organisms.
Assessing Impact of Microplastics on Aquatic Food System and Human Health
This review assesses the impact of microplastics on aquatic food systems and human health, noting that aquatic species exposed to microplastics over extended periods can experience oxidative stress, genotoxicity, neurotoxicity, and reproductive issues. The study highlights that microplastics also act as carriers for other chemical pollutants in aquatic environments, compounding their potential risks through the food chain.
Review: Environmental toxicology of marine microplastic pollution — R0/PR2
This review examines the toxicological impacts of microplastics on marine organisms across trophic levels — from phytoplankton to fish — finding diverse biological effects at molecular, metabolic, and physiological levels, while calling for more environmentally relevant research methods.
Impact of microplastics on human health and aquatic species
This review examines the harmful effects of microplastics on marine life and human health, covering physical injury, oxidative stress, and disrupted immune responses in fish and other organisms. Researchers found that these impacts can cascade through marine food webs, affecting biodiversity and ecosystem function. The study also highlights growing concerns about human exposure to microplastics through seafood and other pathways.
Unveiling the effects of microplastics pollution on marine fauna
This review examines how microplastic pollution harms marine animals at every level of the food chain, from tiny plankton to large predators. Through ingestion, entanglement, and building up in tissues over time, microplastics disrupt feeding, reproduction, and growth in marine life, which also raises concerns about human exposure through seafood consumption.
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.
Ecotoxicological and physiological risks of microplastics on fish and their possible mitigation measures
This review summarizes how microplastics affect fish health, including reduced feeding, impaired gill function, weakened immune systems, and reproductive problems. Researchers found that microplastics can transfer through the food chain from smaller organisms to top predators, raising concerns about broader ecosystem impacts. The study also highlights mitigation strategies such as reducing single-use plastics, recycling, and using bioplastics.
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.
Impacts of microplastic accumulation in aquatic environment: Physiological, eco-toxicological, immunological, and neurotoxic effects
This review summarizes how microplastics build up in fish and other aquatic life, causing damage to their immune systems, nervous systems, and overall health. When fish eat microplastics, the particles move up the food chain and can eventually reach humans through seafood consumption. The authors also discuss strategies for removing microplastics from water and reducing plastic pollution.