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61,005 resultsShowing papers similar to Earthworms on a microplastics diet
ClearIncorporation of microplastics from litter into burrows of Lumbricus terrestris
Researchers investigated whether earthworms incorporate microplastics from surface litter into their burrows, finding that earthworm burrowing activity actively transports microplastics deeper into the soil profile.
Responses of earthworms exposed to low-density polyethylene microplastic fragments
Researchers exposed earthworms to low-density polyethylene microplastic fragments at various concentrations and studied the effects on their survival, growth, and reproduction. The microplastics affected earthworm behavior and caused measurable changes depending on concentration and exposure time. Since earthworms are critical for soil health and nutrient cycling, their sensitivity to microplastics raises concerns about how plastic pollution may degrade agricultural soils.
Microplastics in the Terrestrial Ecosystem: Implications forLumbricus terrestris(Oligochaeta, Lumbricidae)
This study is one of the first to investigate microplastic effects on a terrestrial organism, exposing earthworms to polyethylene particles mixed into leaf litter at various concentrations. Researchers found that while the earthworms survived all exposure levels, those exposed to the highest concentrations showed significant weight loss over the experimental period. The findings suggest that microplastic contamination of soils could affect the health and functioning of earthworms, which play a vital role in maintaining soil quality.
Earthworms Exposed to Polyethylene and Biodegradable Microplastics in Soil: Microplastic Characterization and Microbial Community Analysis
Researchers exposed earthworms to biodegradable and conventional polyethylene microplastics in natural soil and found that worms ingested both types. The biodegradable plastic showed signs of partial breakdown in the earthworm gut, while conventional polyethylene remained unchanged. Although microplastics did not significantly alter the soil or gut microbiome in this study, the results confirm that earthworms transport microplastics through soil ecosystems.
Microplastic transport in soil by earthworms
Researchers demonstrated that earthworms can transport microplastic particles from the soil surface deeper into the ground, with smaller particles being moved to greater depths. Using the common earthworm Lumbricus terrestris in greenhouse experiments, they showed that worm activity significantly increased the presence of microplastics in lower soil layers. The findings suggest that earthworms play an important role in burying microplastics in soil, potentially affecting other soil organisms and groundwater.
Effects of polyethylene microplastics stress on soil physicochemical properties mediated by earthworm Eisenia fetida
Researchers exposed earthworms to polyethylene microplastics of two sizes and found that smaller particles (13 micrometers) were more toxic than larger ones (130 micrometers), reducing survival and growth more severely. The microplastics caused oxidative stress in the worms and altered key soil properties including pH and organic carbon content. Since earthworms play a vital role in maintaining healthy soil for agriculture, this damage could affect soil quality and ultimately the food grown in microplastic-contaminated farmland.
Microplastic digestion generates fragmented nanoplastics in soils and damages earthworm spermatogenesis and coelomocyte viability
Researchers discovered that earthworms can fragment polyethylene microplastics into even smaller nanoplastics through their digestive process in soil. The study also found that microplastic exposure damaged earthworm reproductive cells and immune cells, suggesting that the biological breakdown of microplastics in soil creates smaller particles that may be even more concerning for ecosystem health.
Fragmentation and depolymerization of microplastics in the earthworm gut: A potential for microplastic bioremediation?
Researchers explored whether earthworms can break down microplastics in soil by passing them through their digestive systems. They found that earthworms fragmented and partially broke down polyethylene and biodegradable plastic particles, reducing their size and altering their chemical structure. This suggests earthworms could play a role in naturally reducing microplastic contamination in soil, though more research is needed to understand whether the smaller fragments pose their own risks.
Effects of polystyrene microplastics on the fitness of earthworms in an agricultural soil
Researchers exposed earthworms to polystyrene microplastics in agricultural soil at various concentrations. The study found that low concentrations had little effect, but high concentrations (1% and above) significantly inhibited growth and increased mortality, suggesting microplastic pollution poses ecological risks to soil organisms in terrestrial ecosystems.
Microplastics and earthworms in soils: A case study on translocation, toxicity and fate
This conference abstract presents research on how earthworms in agricultural soils interact with microplastics, examining whether worms translocate particles deeper into soil, experience toxic effects, and alter the fate of microplastic contamination. Earthworms are key soil engineers, and their exposure to microplastics could have cascading effects on soil health.
Microplastic-Earthworm Interactions: A Critical Review
This critical review examines how microplastics from diverse plastic waste categories accumulate in terrestrial and aquatic ecosystems and interact with earthworms, a key soil organism. The authors synthesize evidence on the deleterious effects of increasing microplastic concentrations on soil properties, microbiota, and earthworm physiology.
Effects of Polyethylene Microplastics in Agricultural Soil on Eisenia fetida (Annelida: Oligochaeta) Behavior, Biomass, and Mortality
Scientists tested how polyethylene microplastics in agricultural soil affected the behavior, body mass, and survival of the earthworm Eisenia fetida. Researchers found that earthworms actively avoided soil contaminated with microplastics and experienced changes in biomass at higher concentrations. The study suggests that microplastic pollution in farmland could negatively affect soil-dwelling organisms that play a key role in maintaining soil health.
Exposure to mm-scale microplastic particles does not cause weight loss in two earthworm species belonging to different ecological groups
Researchers tested whether relatively large microplastic fragments (1-5 mm) from polyethylene film cause weight loss in two common earthworm species by diluting their food supply. Contrary to their expectations, the microplastics did not reduce earthworm body weight even in food-limited conditions, despite both species ingesting the particles. The findings challenge the widely cited food dilution hypothesis and suggest that the effects of larger microplastics on soil organisms may be less straightforward than assumed.
Effects of environmentally relevant mixtures of microplastics on soil organisms
Researchers exposed earthworms and springtails to environmentally realistic mixtures of microplastics commonly found in agricultural soils treated with sewage sludge. They found that earthworms ingested microplastics in proportion to exposure levels, and at higher concentrations, both species showed reduced reproduction. The study provides evidence that real-world microplastic mixtures in farm soils can affect important soil organisms at concentrations already found in the environment.
Understanding the harmful effects of polyethylene microplastics on Eisenia fetida: A toxicological evaluation
Earthworms (Eisenia fetida) exposed to increasing concentrations of polyethylene microplastics in soil showed lower body weight, reduced reproductive output, and disrupted antioxidant defenses — with oxidative stress markers climbing nearly 1.3-fold at the highest dose. These findings confirm that microplastic pollution degrades soil ecosystem health at concentrations that could plausibly occur in contaminated agricultural land.
Transcriptomic and metabolic responses of earthworms to contaminated soil with polypropylene and polyethylene microplastics at environmentally relevant concentrations
Researchers studied how environmentally realistic concentrations of polypropylene and polyethylene microplastics affect earthworms at the molecular level. They found that both plastic types triggered oxidative stress, damaged digestive and immune systems, disrupted lipid metabolism, and altered the earthworms' ability to regulate water balance. The study suggests that even at concentrations commonly found in the environment, microplastic-contaminated soil poses measurable health risks to earthworms.
Effect of polyethylene microplastics on tebuconazole bioaccumulation, oxidative stress, and intestinal bacterial community in earthworms
Researchers exposed earthworms to polyethylene microplastics of different sizes alongside a common fungicide and found that smaller microplastics caused the most severe oxidative stress and DNA damage. The microplastics also changed how much fungicide accumulated in the earthworms and disrupted their gut bacteria. This matters because earthworms are essential for soil health, and these effects could ripple through agricultural ecosystems that produce our food.
The effects of high-density polyethylene and polypropylene microplastics on the soil and earthworm Metaphire guillelmi gut microbiota
Researchers exposed earthworms to soil amended with high-density polyethylene and polypropylene microplastics for 28 days and examined changes in both the earthworm gut and soil microbial communities. They found that both types of microplastics significantly altered the composition and diversity of gut bacteria in the earthworms. The study suggests that microplastic contamination in soil can disrupt the gut microbiota of soil organisms, with potential consequences for soil ecosystem health.
Effects of microplastics and chlorpyrifos on earthworms (Lumbricus terrestris) and their biogenic transport in sandy soil
Researchers conducted mesocosm experiments to examine the effects of polyethylene and biodegradable microplastics combined with the pesticide chlorpyrifos on earthworms and their role in transporting these contaminants through soil. The study found that while earthworm reproduction was not significantly affected, earthworm burrowing activity facilitated the vertical transport of both microplastics and chlorpyrifos deeper into the soil profile.
Earthworms transport microplastic fibres in soils
Laboratory experiments showed that earthworms actively transport microplastic fibers deeper into soil profiles, suggesting that bioturbation by earthworms represents an important pathway for vertical redistribution of microplastic contamination in agricultural soils.
Short-Term Effect of Poly Lactic Acid Microplastics Uptake by Earthworms, Eudrilus eugeniae.
Researchers tested whether earthworms (Eudrilus eugeniae) would ingest polylactic acid (PLA) biodegradable microplastics when mixed with organic matter, finding they did but with reduced weight gain and reproductive output at higher concentrations. This suggests even biodegradable microplastics can harm soil organisms, which are essential for nutrient cycling and soil health.
Data for: The deep-burrowing earthworm Lumbricus terrestris ingests and transports microplastic fibres of a wide length range in soils
Researchers tracked redistribution of metal-doped microplastic fibers in 30 cm soil columns over four weeks and analyzed earthworm casts to show that Lumbricus terrestris ingests and vertically transports MP fibers across a wide length range, with redistribution detectable within two weeks of introduction.
Data for: The deep-burrowing earthworm Lumbricus terrestris ingests and transports microplastic fibres of a wide length range in soils
Researchers tracked redistribution of metal-doped microplastic fibers in 30 cm soil columns over four weeks and analyzed earthworm casts to show that Lumbricus terrestris ingests and vertically transports MP fibers across a wide length range, with redistribution detectable within two weeks of introduction.
Impacts of polyethylene microplastics on bioavailability and toxicity of metals in soil
Researchers studied how polyethylene microplastics affect the bioavailability and toxicity of copper and nickel in soil using earthworms as test organisms. They found that adding microplastics to contaminated soil increased the bioavailability of the metals and enhanced their toxic effects on the earthworms. The study suggests that microplastics in soil can worsen heavy metal pollution by making metals more accessible and harmful to soil-dwelling organisms.