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61,005 resultsShowing papers similar to Combined polystyrene microplastics and chlorpyrifos decrease levels of nutritional parameters in muscle of rainbow trout (Oncorhynchus mykiss)
ClearToxicity of polystyrene microplastics on juvenile Oncorhynchus mykiss (rainbow trout) after individual and combined exposure with chlorpyrifos
Researchers tested the effects of pristine and chlorpyrifos-loaded polystyrene microplastics on juvenile rainbow trout, examining tissue damage and physiological responses. They found that microplastics carrying the pesticide caused more severe histopathological changes in the gills and liver than either contaminant alone. The study provides evidence that microplastics can act as vectors for pesticides, amplifying their toxic effects on freshwater fish.
Effect of polystyrene microplastic and chlorpyrifos pesticide on superoxide dismutase activity in tissues of rainbow trout (Oncorhynchus mykiss)
Rainbow trout were exposed to polystyrene microplastics, the pesticide chlorpyrifos, and a combination of both, with researchers measuring effects on antioxidant enzyme activity. The combined exposure caused greater disruption to superoxide dismutase activity than either pollutant alone, suggesting microplastics can amplify pesticide toxicity in fish.
Toxicity of mixture of polyethylene microplastics and Up Grade® pesticide on Oreochromis niloticus juvenile: I. Hemato-biochemical and histopathological alterations
Researchers exposed juvenile Nile tilapia to a pesticide and polyethylene microplastics, both individually and in combination, and measured blood chemistry changes and organ damage over 15 days. The combination treatment caused more severe effects than either pollutant alone, including reduced red blood cell counts, elevated liver enzymes, and significant tissue damage to the gills and intestines. The study demonstrates that microplastics can worsen the toxic effects of agricultural pesticides on commercially important fish species.
Combined impacts of organophosphate pesticide and polyamide microplastics on growth, hematology, and immune responses in juvenile striped catfish (Pangasianodon hypophthalmus)
Researchers exposed juvenile striped catfish to both polyamide microplastics and an organophosphate pesticide, finding that the combination caused more severe growth reduction, immune suppression, and organ damage than either pollutant alone — evidence that microplastics and pesticides can act together to amplify harm in freshwater fish.
Do polystyrene microplastics affect juvenile brown trout (Salmo trutta f. fario) and modulate effects of the pesticide methiocarb?
Researchers exposed juvenile brown trout to polystyrene microplastics and the pesticide methiocarb, both alone and in combination. Neither microplastics alone nor the combination produced significant effects beyond what the pesticide caused by itself, but the study provides important baseline data on microplastic-pesticide interactions in a commercially important freshwater fish species.
Joint effects of micro-sized polystyrene and chlorpyrifos on zebrafish based on multiple endpoints and gut microbial effects
Researchers found that micro-sized polystyrene particles accumulated in zebrafish gut and liver, causing oxidative stress and gut microbiome disruption, and that co-exposure with chlorpyrifos pesticide amplified toxic effects at the individual level.
Combined effects of polystyrene microplastics and copper on antioxidant capacity, immune response and intestinal microbiota of Nile tilapia (Oreochromis niloticus)
Researchers examined the combined effects of polystyrene microplastics and copper on Nile tilapia and found that co-exposure increased copper accumulation in the liver and caused tissue damage in multiple organs. High concentrations of both contaminants together triggered oxidative stress, inflammation, and shifts in intestinal microbial communities. The study suggests that microplastics can worsen the toxic effects of heavy metals on freshwater fish.
The impact of combined exposure to triphenyltin and microplastics on the oxidative stress, energy metabolism, and digestive function of common carp (Cyprinus carpio)
Exposing common carp to triphenyltin and microplastics individually and in combination found that combined exposure caused greater oxidative stress, disrupted energy metabolism more severely, and more strongly impaired digestive enzyme activity than either pollutant alone.
Polystyrene microparticles can affect the health status of freshwater fish – Threat of oral microplastics intake
Researchers fed juvenile rainbow trout polystyrene microplastics at three dietary concentrations for six weeks and assessed multiple health parameters. They found that the highest concentration triggered immune responses, liver and gill damage, disrupted antioxidant balance, and reduced plasma proteins. The study demonstrates that oral microplastic intake can negatively affect the health of freshwater fish across multiple organ systems.
Single and combined effects of microplastics and cadmium on juvenile grass carp (Ctenopharyngodon idellus)
Researchers found that combined exposure to polystyrene microplastics and cadmium in juvenile grass carp caused greater physiological stress than either pollutant alone, with microplastics enhancing cadmium accumulation and intensifying oxidative stress and immune responses.
Toxic effects of polystyrene microplastics on atrazine in zebrafish: Exogenous toxicity and endogenous mechanism
Researchers found that combining polystyrene microplastics with the common herbicide atrazine was more toxic to zebrafish than either pollutant alone, causing greater liver and gut damage. The combination also degraded water quality by reducing oxygen levels and increasing harmful nitrogen compounds. This is important because microplastics and pesticides frequently co-exist in the environment, meaning their combined effects on aquatic life and food safety may be worse than studies of individual pollutants suggest.
Evaluation of single and combined effects of cadmium and micro-plastic particles on biochemical and immunological parameters of common carp (Cyprinus carpio)
Researchers investigated the individual and combined toxicity of cadmium and polystyrene microplastics on common carp over 30 days. They found that co-exposure to both pollutants produced more severe effects on liver enzymes, immune function, and biochemical markers than either pollutant alone. The study suggests that microplastics can enhance the toxicity of heavy metals in aquatic organisms, raising concerns about the combined impact of these co-occurring contaminants.
Toxicity Effects of Microplastics Individually and in Combination the Fish Pathogen Yersinia Ruckeri on the Rainbow Trout (Oncorhynchus Mykiss)
Researchers found that co-exposure of rainbow trout to polystyrene microplastics and the fish pathogen Yersinia ruckeri exacerbated blood biochemical disruptions and hepatic oxidative stress compared to either stressor alone. The results suggest microplastics may act as a predisposing factor that amplifies bacterial infection severity in fish.
Unlocking the combined impact of microplastics and emerging contaminants on fish: A review and meta-analysis
This meta-analysis found that combined exposure to microplastics and emerging contaminants adversely affects fish reproduction, development, and neurotoxicity beyond what either pollutant causes alone. Microplastics with higher adsorption capacities led to more severe outcomes by concentrating and delivering co-contaminants, though exposure duration did not correlate with oxidative stress levels.
Polystyrene microplastics do not affect juvenile brown trout (Salmo trutta f. fario) or modulate effects of the pesticide methiocarb
Juvenile brown trout exposed to polystyrene microplastics for 96 hours showed no effects on any measured biomarker, but the pesticide methiocarb caused significant acetylcholinesterase inhibition, tissue damage in liver and gills, and impaired enzyme activity. Combining microplastics with methiocarb did not amplify the pesticide's effects, suggesting these pollutants do not interact toxicologically in juvenile trout.
Co-exposure to polystyrene microplastics and cypermethrin enhanced the effects on hepatic phospholipid metabolism and gut microbes in adult zebrafish
When zebrafish were exposed to both polystyrene microplastics and the pesticide cypermethrin together, the combination caused significantly more liver damage than either pollutant alone. The mixture disrupted fat metabolism in the liver and altered gut bacteria in ways not seen with individual exposures. This matters because microplastics and pesticides frequently co-exist in waterways, and their combined effects on fish health could affect the safety of fish as food.
Biochemical effects of polypropylene microplastics on red tilapia (Oreochromis niloticus) after individual and combined exposure with boron
Researchers exposed red tilapia to polypropylene microplastics alone and combined with boron, finding that the mixture disrupted key brain and liver enzymes more severely than either pollutant alone. The study shows that microplastics can amplify the toxic effects of other environmental contaminants in fish.
A realistic combined exposure scenario: effect of microplastics and atrazine on Piaractus mesopotamicus
Scientists studied the combined effects of polyethylene microplastics and the herbicide atrazine on juvenile pacu fish in a realistic exposure scenario. Researchers found that the combination of these contaminants caused tissue damage and biochemical changes, including altered enzyme activity and genetic damage. The study suggests that microplastics and agricultural chemicals together may pose greater risks to freshwater fish than either pollutant alone.
Effects of different types of primary microplastics on early life stages of rainbow trout (Oncorhynchus mykiss)
Researchers examined the effects of polystyrene, PET, and polyethylene microplastics on rainbow trout early life stages over 69 days, finding elevated stress hormones and DNA damage despite no significant changes in hatching success or larval survival.
Multi‐Biomarkers' Responses in Gills of Oreochromis niloticus Exposed to Glyphosate and Polyethylene Microplastic, Isolated and in Mixture
Researchers exposed tilapia fish to polyethylene microplastics and the herbicide glyphosate, both alone and in combination, and examined gill tissue for signs of damage. They found that the mixture of both contaminants caused more severe oxidative stress and tissue damage than either pollutant alone. The study suggests that microplastics and agricultural chemicals may interact in waterways to amplify harmful effects on fish health.
Co-exposure toxicity of microplastic and sumithion in Nile tilapia – changes in growth, hematology, histopathology of internal tissues and immune-antioxidant genes expression
Researchers studied the combined effects of polyamide microplastics and the pesticide sumithion on Nile tilapia, a widely farmed fish species. They found that co-exposure reduced growth, disrupted blood parameters, caused tissue damage in gills and intestines, and altered immune and antioxidant gene expression more severely than either pollutant alone. The study highlights that microplastics and pesticides together may pose amplified threats to fish health in contaminated aquaculture environments.
Effects of combined exposure to 17α-methyltestosterone and polystyrene microplastics on lipid metabolism and the nervous system in Danio rerio
Researchers exposed zebrafish to a combination of polystyrene microplastics and a synthetic androgen and found significant disruptions to lipid metabolism in the liver and neural function in the brain. The co-exposure caused fatty degeneration of liver cells and altered key signaling pathways involved in nerve communication. The study highlights the compounded risks that arise when aquatic organisms encounter multiple pollutants simultaneously.
Effects of microplastics on the toxicity of co-existing pollutants to fish: A meta-analysis
Meta-analysis of 1,380 biological endpoints from 55 studies found that microplastics in co-existing pollutant solutions significantly increased toxicity to fish beyond what the pollutants caused alone, particularly elevating immune system damage, metabolic disruption, and oxidative stress. The effect depended on fish life stage and microplastic size, but not on pollutant or polymer type.
Interactive effects of polystyrene microplastics and roxithromycin on bioaccumulation and biochemical status in the freshwater fish red tilapia (Oreochromis niloticus)
Researchers investigated the combined effects of polystyrene microplastics and the antibiotic roxithromycin on red tilapia and found that microplastics enhanced the bioaccumulation of the drug in fish tissues. The co-exposure also produced greater biochemical disruption than either contaminant alone, suggesting microplastics may act as carriers that increase pharmaceutical uptake in freshwater fish.