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61,005 resultsShowing papers similar to Ecotoxicological Effects of Nanoplastics on Aquatic Organisms
ClearAquatic Ecotoxicity of Microplastics and Nanoplastics: Lessons Learned from Engineered Nanomaterials
This review drew lessons from engineered nanoparticle research to improve understanding of aquatic ecotoxicology for microplastics and nanoplastics, identifying shared challenges in dose-response assessment and environmental relevance.
Overview of the ecotoxicological impacts of micro and nanoplastics in aquatic environments
This review summarises the ecotoxicological impacts of micro- and nanoplastics on marine and freshwater ecosystems, covering mechanisms including physical damage, oxidative stress, inflammation, reproductive impairment, and metabolic disruption in aquatic species. It also discusses bioaccumulation and trophic transfer dynamics.
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.
Mixtures of Micro and Nanoplastics and Contaminants of Emerging Concern in Environment: What We Know about Their Toxicological Effects
This review examines what is known about the toxicological effects of micro- and nanoplastic mixtures combined with other emerging contaminants in the environment. Researchers found that most studies fail to calculate proper interaction parameters, making it difficult to determine whether combined exposures produce additive, synergistic, or antagonistic effects on organisms.
Nanoplastics in the Aquatic Environment. Critical Review
This critical review synthesized the emerging science on nanoplastics in aquatic environments, covering detection challenges, sources, behavior, and toxicological evidence, and identifying major gaps in knowledge about nanoplastic-specific risks.
Knowledge Gaps, Future Directions, and the Emergence of Nanoplastics as an Environmental Threat Pollutant
This review identifies key knowledge gaps in environmental nanotoxicology — particularly regarding the long-term ecological and human health effects of environmentally persistent nanoparticles and nanoplastics — and argues that the lack of historical baseline data represents the most critical challenge for assessing nanomaterial risk.
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.
Environmental risks of microplastics: A Review of their distribution and effects on aquatic ecosystems
This review examined how microplastics threaten aquatic ecosystems through direct physical and chemical stress on organisms and through synergistic interactions with co-contaminants that disrupt food webs. The authors identify key research gaps including realistic multi-stressor experiments and long-term ecosystem-level studies.
Biological Effects and Implications of Micro- and Nanoplastics in the Aquatic Environment
This review summarizes what is known about the biological effects and implications of micro- and nanoplastics on aquatic organisms, covering a wide range of species from phytoplankton to fish. It highlights that while laboratory studies show harm at high concentrations, the effects at environmentally relevant levels are still poorly understood.
Interactive effects of micro/nanoplastics and nanomaterials/pharmaceuticals: Their ecotoxicological consequences in the aquatic systems
Researchers reviewed how micro- and nanoplastics interact with co-occurring nanomaterials and pharmaceuticals in aquatic environments, finding that plastics act as vectors that can either amplify or attenuate the bioavailability and toxicity of these contaminants depending on species, trophic level, and environmental conditions.
Ecotoxicity of Micro- and Nano-Sized Plastics
This book chapter reviews the ecotoxicity of micro- and nanoplastics to aquatic organisms, covering direct toxic effects, combined toxicity with associated chemical pollutants, and trophic transfer and biomagnification through food webs. The authors note that environmental realism remains a key challenge in extrapolating laboratory findings to real-world risk.
Microplastics in Aquatic Ecosystems: A Review of Ecotoxicological Effects, Exposure Pathways and Trophic Transfer Risks
This review synthesises evidence on the ecotoxicological effects of microplastics in marine, freshwater, and estuarine environments, covering ingestion, bioaccumulation, trophic transfer, and physiological harms across aquatic fauna. It identifies chemical co-contamination and particle size as key modulators of toxicity.
Environmental Toxicity of Emerging Micro and Nanoplastics
This review examines the environmental toxicity of emerging micro- and nanoplastics, covering their sources, degradation pathways, ecological impacts on organisms, and the need for standardized risk assessment frameworks.
Toxicological interactions of microplastics/nanoplastics and environmental contaminants: Current knowledge and future perspectives
This review examines how the combined presence of micro- and nanoplastics with other environmental contaminants like heavy metals, pesticides, and pharmaceuticals affects toxicity. Researchers found that plastic particles can alter the bioavailability and toxic effects of co-occurring pollutants, sometimes increasing harm to organisms, which complicates environmental risk assessment.
Effects of micro- and nanoplastics on aquatic ecosystems: Current research trends and perspectives
This review covers 83 studies on the distribution and toxic effects of micro- and nanoplastics in both marine and freshwater ecosystems worldwide. Researchers found that these tiny particles affected the growth, development, behavior, reproduction, and survival of a wide range of aquatic organisms. The paper identifies key research gaps and suggests future directions for understanding the full ecological impact of plastic pollution in aquatic environments.
Toxicity of nanoplastics to aquatic organisms: Genotoxicity, cytotoxicity, individual level and beyond individual level
This review examines the toxic effects of nanoplastics on aquatic organisms across multiple levels of the food chain, from bacteria and algae to fish. Researchers found that nanoplastics can cause cell damage, genetic harm, and reproductive problems, with toxicity influenced by particle size, concentration, and surface properties. The study also highlights how nanoplastic effects on individual organisms can cascade to disrupt broader ecosystem dynamics.
Plastic pollution in the aquatic ecosystem: an emerging threat need to be tackled
This review summarizes the growing threat of plastic pollution in aquatic ecosystems, with a focus on how microplastics and nanoplastics enter food webs starting at the lowest levels. The authors highlight the persistence of these particles and call for coordinated action to reduce plastic inputs to water bodies.
Nanoplastics in Aquatic Environments: Impacts on Aquatic Species and Interactions with Environmental Factors and Pollutants
This review examines how nanoplastics affect aquatic species, focusing on their cellular and molecular toxicity as well as how environmental factors like temperature, salinity, and co-existing pollutants influence their harmful effects. Researchers found that nanoplastics can be absorbed more easily than larger plastic particles, transfer through food webs, and disrupt cellular function in aquatic organisms. The study highlights the need to consider real-world environmental conditions when assessing nanoplastic risks.
Microplastics and Nanoplastics in the Aquatic Environment: Contamination, Determination and Interaction with Other Contaminants
This review gathers information on microplastic and nanoplastic contamination in aquatic environments, examining their detection methods, environmental persistence, and interactions with other contaminants including their capacity to adsorb and release chemical compounds.
Nanoplastics in Aquatic Ecosystems: Impact, Toxicity, Detection, and Remediation Strategies
This review synthesizes current knowledge on nanoplastics in freshwater and marine environments, covering their transformation through photodegradation and biodegradation, ecotoxicological impacts including oxidative stress and reproductive effects in aquatic organisms, and available remediation strategies.
Resolving the effects of environmental micro- and nanoplastics exposure in biota: A knowledge gap analysis
This review synthesized knowledge gaps in microplastic and nanoplastic ecotoxicology through a systematic analysis of the literature, identifying the most poorly understood exposure pathways, sensitive life stages, and ecosystem types, and proposing a research priority framework to guide future investigations.
[Toxicology of Nanoplastics to Aquatic and Terrestrial Organism: A Critical Review].
This review examines the toxicological effects of nanoplastics on aquatic and terrestrial organisms, noting that the vast surface area of nanoplastics enables them to carry environmental pollutants into organisms. Researchers describe how nanoplastics accumulate in organs and can transfer to offspring, potentially harming subsequent generations. The study highlights the need for further research on the health threats posed by nanoplastics at environmentally relevant concentrations.
Ecological and toxicological manifestations of microplastics: current scenario, research gaps, and possible alleviation measures
This review examines the ecological and toxicological effects of microplastics and their associated contaminants across aquatic and terrestrial environments, identifying key knowledge gaps and potential mitigation strategies. The authors emphasize that both physical particle effects and co-transported chemical pollutants pose compounding risks to wildlife and ecosystems.
The Environmental Impacts of Nanoplastics in Marine Ecosystems
This review examined how nanoplastics—generated by degradation of larger plastics—penetrate biological barriers, accumulate in tissues, contribute to biomagnification, and disrupt marine food chains, highlighting their distinct ecotoxicological mechanisms compared to larger microplastics.