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61,005 resultsShowing papers similar to Investigations of hemato-biochemical and histopathological parameters, and growth performance of walking catfish (Clarias batrachus) exposed to PET and LDPE microplastics
ClearComparative toxicity of virgin and biodegraded LLDPE microplastics on growth, behavior, antioxidant, and hematological health of Catla catla fish
Researchers compared the toxicity of virgin versus bacterially degraded polyethylene microplastics on freshwater fish, finding that both types caused abnormal behaviors and disrupted blood parameters in a dose-dependent manner. However, biodegraded microplastics produced less severe effects on growth, survival, and antioxidant enzyme activity, suggesting that microbial degradation may reduce the ecological risk posed by microplastic pollution.
Survival Rate and Growth Length of Catfish (Clarias gariepinus) Exposed to Microplastics
This study found that catfish exposed to microplastics showed reduced survival rates and slower growth compared to unexposed fish. The results are concerning because catfish is a widely farmed and consumed freshwater species, and microplastic contamination in aquaculture environments could affect both fish welfare and the quality of seafood reaching consumers.
Assessment of dietary polyvinylchloride, polypropylene and polyethylene terephthalate exposure in Nile tilapia, Oreochromis niloticus: Bioaccumulation, and effects on behaviour, growth, hematology and histology
Nile tilapia fish fed three common types of microplastics (PVC, polypropylene, and PET) showed reduced growth, abnormal behavior, blood cell damage, and tissue damage in their gills, liver, and intestines. The harmful effects increased with higher doses of microplastics and varied by plastic type. Since tilapia is one of the most widely consumed fish globally, these findings raise concerns about the health of fish that may carry microplastic contamination to human diets.
Dumbo Catfish (clarias Gariepinus) Microplastic Exposure on Abnormalities and Level of Blood Component Using a Completely Randomized Design
This study exposed catfish to microplastics and found increased abnormalities and changes in blood components. The results show that microplastic contamination in water can directly harm aquatic organisms, raising concerns about the safety of fish consumed by humans from polluted waters.
Polystyrene microplastics exposure in freshwater fish, Labeo rohita: evaluation of physiology and histopathology
Researchers fed freshwater fish varying levels of polystyrene microplastics for 90 days and found dose-dependent damage to blood health, growth, and organ tissues. Higher microplastic concentrations caused more severe harm to the liver, kidneys, gills, and intestines. The study highlights that microplastics in freshwater systems can accumulate in fish and cause significant health problems, raising concerns about food safety for communities that rely on freshwater fish.
Effects of ingestion of polyethylene microplastics on survival rate, opercular respiration rate and swimming performance of African catfish (Clarias gariepinus)
Researchers exposed African catfish to polyethylene microplastics at various concentrations and found that the fish accumulated plastics in their gastrointestinal tracts in a dose-dependent manner. The study showed that microplastic exposure increased respiratory rates and significantly reduced swimming speed, travel distance, and movement in the fish compared to controls.
Toxic effects of microplastic (polyethylene) exposure: Bioaccumulation, hematological parameters and antioxidant responses in crucian carp, Carassius carassius
Researchers exposed crucian carp to polyethylene microplastics at various concentrations and found that the particles accumulated in tissues including gills, gut, and liver. The microplastics altered blood cell counts and disrupted the fish's antioxidant defense system in a dose-dependent manner. The study suggests that even common polyethylene microplastics can cause measurable biological harm in freshwater fish.
Ecotoxicological effects of low-density polyethylene microplastic on Heteropneustes fossilis: behavioral, hematological, biochemical, and histopathological impacts
Scientists exposed freshwater fish to tiny plastic particles (microplastics) from everyday items like plastic bags and found they caused serious health problems including blood disorders, organ damage, and weakened immune systems. The higher the amount of plastic particles, the worse the damage became to vital organs like gills, intestines, and liver. This matters because these same microplastics are found throughout our food chain and water supply, raising concerns about potential health risks for humans who consume contaminated fish and water.
Eco Toxicological Assessment of Micro Plastic Ingestion in Freshwater Fishes: A Case Study on Bioaccumulation and Histopathological Alterations
Researchers assessed microplastic accumulation in three freshwater fish species (tilapia, rohu, catla) from a major river system, finding microplastics in gastrointestinal tracts and associated histopathological damage in gills, liver, and kidneys.
Assessment the effect of exposure to microplastics in Nile Tilapia (Oreochromis niloticus) early juvenile: I. blood biomarkers
Researchers exposed juvenile Nile tilapia to different concentrations of microplastics for 15 days followed by a 15-day recovery period and measured blood biomarkers. They found dose-dependent changes in biochemical and hematological parameters, including elevated liver enzymes, altered blood cell counts, and increased glucose levels. Many of these effects persisted even after the recovery period, suggesting that microplastic exposure can cause lasting physiological stress in young freshwater fish.
Detection of Microplastic Pollutants and the Wellbeing of Clarias gariepinus (African Catfish) in Jama’are River, Bauchi State, Nigeria
Researchers detected multiple types of microplastics — including polyethylene, polypropylene, and PVC — in water and fish from a Nigerian river, and found that African catfish living there showed signs of tissue damage and altered blood markers, indicating that microplastic contamination is harming freshwater fish health in the region.
Toxic effects of microplastic (Polyethylene) on fish: Accumulation, hematological parameters and antioxidant responses in Korean Bullhead, Pseudobagrus fulvidraco
Korean bullhead fish exposed to polyethylene microplastics for just 96 hours showed significant toxic effects including microplastic buildup in the gut, gills, and liver. The fish developed blood abnormalities, liver stress, and disrupted antioxidant defenses, with effects worsening at higher concentrations. Since this species is a common freshwater fish, these findings raise concerns about microplastics affecting the health and safety of fish that people eat.
The Effect of Polystyrene Microplastic Exposure in the Rearing Water on Muscle Morphology of Mutiara Catfish (Clarias gariepinus Burchell, 1822)
Catfish (Clarias gariepinus) were exposed to polystyrene microplastics at 0, 1, 10, and 100 mg/L for 28 days and muscle tissue was examined histologically. Microplastics accumulated in muscle tissue in a dose-dependent manner, and myofiber diameter and area decreased significantly at higher concentrations, indicating microplastic-induced muscle damage.
Deleterious Effects of Polypropylene Microplastic Ingestion in Nile Tilapia (Oreochromis niloticus)
Researchers fed Nile tilapia daily doses of polypropylene microplastics for 30 days and observed significant health effects including changes in blood cell counts, altered gut bacteria, and tissue damage to the intestines and liver. The higher dose group showed more pronounced effects, including elevated inflammatory markers and signs of oxidative stress. The study provides evidence that chronic ingestion of microplastics commonly found in aquatic environments can cause meaningful harm to a widely consumed fish species.
Potential toxic effects of polylactic acid microplastics accumulation on multiple tissue structures and hematology in carp
Researchers exposed common carp to polylactic acid microplastics over an extended period and assessed effects on multiple tissue types and blood parameters. PLA-MP accumulation caused histological damage in gills, liver, and intestine, and altered hematological markers, demonstrating that biodegradable plastics are not toxicologically inert to fish.
Physiological Reactions of Poecilia Reticulyata to the Presence of Microplastics in the Aquatic Environment
A study found that guppies exposed to low concentrations of microplastics showed physiological stress responses, including changes in blood cell counts and gill condition, suggesting even small doses can harm freshwater fish.
Toxic effects of sub-acute microplastic (polyamide) exposure on the accumulation, hematological, and antioxidant responses in crucian carp, Carassius carassius
Researchers exposed crucian carp to various concentrations of polyamide microplastics for two weeks and found that the particles accumulated in the fish tissues in a dose-dependent manner. Higher concentrations caused significant changes in blood parameters including reduced red blood cell counts and altered antioxidant enzyme activity, indicating both physical stress and oxidative damage. The study identifies specific blood and enzyme markers that could serve as early warning indicators of microplastic exposure in freshwater fish.
Dietary exposure to polyvinyl chloride microparticles induced oxidative stress and hepatic damage in Clarias gariepinus (Burchell, 1822)
Catfish (Clarias gariepinus) fed PVC microparticle-spiked diets at three inclusion levels for 45 days showed dose-dependent liver damage, elevated antioxidant enzyme activity, and altered serum biochemistry, indicating that dietary PVC microplastic ingestion causes measurable hepatotoxicity.
Microplastics induce toxic effects in fish: Bioaccumulation, hematological parameters and antioxidant responses
Researchers exposed juvenile fish to polyamide microplastics and found the particles accumulated primarily in the intestine, gills, and liver, causing reduced blood oxygen-carrying capacity, liver stress, and disrupted antioxidant defenses. These findings matter because fish are an important food source for humans, and microplastic accumulation in fish tissues could transfer these contaminants to people through their diet.
Growth performance, hematological and oxidative stress responses in Nile tilapia (Oreochromis niloticus) exposed to polypropylene microplastics
Nile tilapia fish fed polypropylene microplastics for 7 weeks showed significantly reduced growth, blood abnormalities indicating anemia, and oxidative stress damage in both liver and brain tissue. The effects were dose-dependent, with higher microplastic concentrations causing more severe harm. Since tilapia is one of the most widely farmed and consumed fish globally, these findings raise concerns about the health of both farmed fish and the people who eat them.
Effect of Microplastic Exposures to The Male Gonad Histology of Catfish (Clarias gariepinus)
This study found that microplastic exposure damaged the reproductive organs of male catfish, causing structural changes in gonad tissue. The findings raise concerns about microplastic effects on fish reproductive health, which could impact aquaculture productivity and suggests that these particles may pose broader reproductive risks to aquatic species in our food supply.
The Effect of Polyvinyl Chloride (PVC) Microplastic Exposure in Feed on The Growth Performance and Survival of Catin Fish (Pangasius hypophthalmus)
This study tested how PVC microplastics in feed affect the growth and survival of catfish. It found that microplastic exposure reduced fish growth performance, demonstrating how plastic contamination in aquatic environments can impact the food chain and potentially the seafood people eat.
The effect of microplastics on hematological and biochemical parameters in aquatic animals
This review examined how microplastics affect blood and biochemical markers in aquatic animals, finding that plastic particles entering through gills or ingestion can disrupt immune function, enzyme activity, and organ health. These findings highlight the threat microplastics pose to fish and other water-dwelling species that humans rely on for food.
Dietary administration of PVC and PE microplastics produces histological damage, oxidative stress and immunoregulation in European sea bass (Dicentrarchus labrax L.)
Researchers fed European sea bass diets containing PVC and polyethylene microplastics for three weeks and examined the effects on their organs and immune systems. They found significant tissue damage in the liver and intestine, along with signs of oxidative stress and altered immune function. The study suggests that even short-to-medium-term microplastic ingestion can compromise fish health, with longer exposures potentially leading to irreversible organ damage.