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61,005 resultsShowing papers similar to Effect of conventional and biodegradable microplastics on earthworms during vermicomposting process
ClearEffects of conventional versus biodegradable microplastic exposure on oxidative stress and gut microorganisms in earthworms: A comparison with two different soils
Researchers compared the toxic effects of conventional polyethylene and biodegradable polylactic acid microplastics on earthworms in two different soil types. Both types of microplastic caused oxidative stress and altered gut microbiota in earthworms, with toxicity increasing at higher concentrations. The study found that microplastic concentration was more important than the type of plastic or soil in determining the level of harm, and that biodegradable plastics were not necessarily safer for soil organisms.
The comparison effect on earthworms between conventional and biodegradable microplastics
Researchers compared the effects of conventional polyethylene and biodegradable polylactic acid microplastics on earthworms over an extended exposure period. They found that biodegradable microplastics caused comparable or even greater harm than conventional plastics at certain concentrations, including reduced growth and reproduction. The findings challenge the assumption that biodegradable plastics are inherently safer for soil organisms.
Impacts of conventional and biodegradable microplastics on the earthworm Eisenia andrei
Researchers compared the ecotoxicological effects of conventional low-density polyethylene microplastics and biodegradable polybutylene adipate terephthalate microplastics on the earthworm Eisenia andrei using an eight-week reproduction test across seven concentration levels. Both polymer types affected earthworm survival, reproduction, and oxidative stress markers, raising questions about whether biodegradable alternatives pose similar soil ecosystem risks.
Toxicity comparison of multiple biodegradable and conventional microplastics on earthworms: Ingestion, tissue damage, oxidative stress, and transcriptional responses
This study compared the toxicity of four biodegradable microplastics and conventional polyethylene microplastics on earthworms across multiple biological endpoints. Researchers found that biodegradable microplastics caused tissue damage, oxidative stress, and altered gene expression at levels comparable to or sometimes exceeding conventional plastics, challenging the assumption that biodegradable alternatives are inherently safer for soil organisms.
A comparison of the toxicity induced by the exposure to microplastics made of a conventional and a biodegradable polymer on the earthworm Eisenia fetida
Researchers compared the toxicity of conventional versus biodegradable polymer microplastics on the earthworm Eisenia fetida, evaluating whether biodegradable alternatives present reduced ecotoxicological risk in soil environments where microplastic contamination is increasingly documented.
Ecotoxicological effects of soil microplastic types and concentrations on earthworms
Researchers tested the effects of conventional polyethylene and polypropylene microplastics alongside biodegradable PBAT microplastics on earthworms over 28 days. They found that PP microplastics caused significant mortality at the highest concentration, while PBAT, despite being marketed as biodegradable, induced the highest levels of DNA damage and cellular stress. The study suggests that biodegradable plastics are not necessarily less harmful to soil organisms than conventional plastics.
Reproduction, metabolic enzyme activity, and metabolomics in earthworms Eisenia fetida exposed to different polymer microplastics
Researchers exposed earthworms to microplastics from three different polymer types, including both conventional and biodegradable plastics, at environmentally relevant concentrations. They found that polypropylene microplastics had the most pronounced effects on reproduction and metabolic enzyme activity, while biodegradable plastics also disrupted earthworm metabolism. The study demonstrates that different plastic polymers pose varying levels of risk to soil-dwelling organisms.
Short- and medium-term effects of biodegradable microplastics (PLA and PHB) on earthworm development and reproduction
Researchers tested whether biodegradable plastics (PLA and PHB) are truly safer for soil organisms than conventional polyethylene by exposing earthworms to all three types of microplastics. While none caused immediate harm or death, both PLA and conventional polyethylene reduced earthworm reproduction over medium-term exposure, producing fewer cocoons and offspring. This challenges the assumption that biodegradable plastics are environmentally harmless and suggests they may pose similar risks to soil ecosystems as conventional plastics.
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.
Effect of microplastics in sludge impacts on the vermicomposting
Researchers examined how adding polyethylene microplastic particles to sludge affects vermicomposting performance. The study found that higher microplastic concentrations reduced the efficiency of organic matter removal, impaired composting quality, and caused oxidative stress and neurotoxicity in earthworms, with bacterial diversity also declining in heavily contaminated treatments.
Impacts of conventional and biodegradable microplastics on the earthworm Eisenia andrei
Researchers compared the ecotoxicological effects of conventional low-density polyethylene microplastics (PE-MPs) and biodegradable polybutylene adipate terephthalate microplastics (PBAT-BD-MPs) on earthworms (Eisenia andrei) across a range of concentrations in an eight-week reproduction test. Both polymer types were assessed for impacts on survival, reproduction, growth, and oxidative stress in soil organisms.
Impact of Conventional vs. Biodegradable and Compostable Microplastics on Eisenia fetida S.: An Ecopathological Approach
Researchers compared the effects of biodegradable and conventional polyethylene microplastics on soil-dwelling earthworms and found that both types caused increased mortality, decreased biomass, and tissue damage after 14 days of exposure. The study suggests that biodegradable microplastics are not necessarily safer than conventional ones, and that detailed tissue analysis can reveal harmful sublethal effects not captured by standard toxicity tests.
Impact of Vermicomposting with Soil Enriched with Plastic and Different Biodegradable Wastes on Physical, Chemical, and Biological Parameters of Soil
Researchers examined the impact of vermicomposting on soil enriched with conventional and biodegradable plastics, measuring how earthworm activity altered plastic fragmentation and soil properties. Results showed that vermicomposting accelerated the breakdown of some plastic types while earthworms ingested plastic particles, potentially dispersing them through the soil profile.
Effects of conventional and biodegradable microplastics on earthworm Eisenia andrei in two generations
Researchers exposed earthworms (Eisenia andrei) to conventional polyethylene and biodegradable PBAT mulching film microplastics across two generations (7 months) and found that both types caused reproductive and growth effects, with impacts accumulating across generations under environmentally relevant concentrations.
Different mulch films, consistent results: soil fauna responses to microplastic
Scientists compared how conventional polyethylene and biodegradable PLA/PBAT microplastics affect earthworms and springtails in soil over 28 days. Neither plastic type significantly harmed reproduction, but subtle cellular stress responses were detected, and the effects were similar for both conventional and biodegradable plastics, suggesting that biodegradable alternatives may not be safer for soil organisms.
Response of earthworms to microplastics in soil under biogas slurry irrigation: Toxicity comparison of conventional and biodegradable microplastics
Researchers compared the toxicity of biodegradable polylactic acid and conventional polyvinyl chloride and polyethylene microplastics to earthworms in soil irrigated with biogas slurry. They found that all microplastic types caused time-dependent toxicity, including tissue damage, oxidative stress, and disruption of antioxidant defense systems at higher concentrations. The study suggests that biodegradable microplastics may pose similar ecological risks to conventional plastics for soil organisms.
Vermicomposting as a potential strategy for microplastic reduction in organic waste: mini review
This review evaluates vermicomposting as a biological approach for reducing microplastic contamination in organic waste streams. Researchers found evidence that earthworms can physically fragment and partially break down certain types of microplastics during the composting process, though effects on earthworm health vary by plastic type and concentration. The study suggests that vermicomposting shows promise as a strategy for mitigating microplastic contamination in compost, but more research is needed on long-term impacts.
Comparison of the potential toxicity induced by microplastics made of polyethylene terephthalate (PET) and polylactic acid (PLA) on the earthworm Eisenia foetida
Researchers compared the toxicity of microplastics made from conventional PET plastic and biodegradable PLA plastic on earthworms. Surprisingly, the supposedly eco-friendly PLA particles caused more harm than PET, triggering oxidative stress, tissue damage, and behavioral changes in the worms. This challenges the assumption that bioplastics are always safer for soil organisms than traditional plastics.
The Effect of Polyethylene Terephthalate and Low-density Polyethylene Microplastics in Organic Material on Vermicomposting Process
Researchers assessed the effects of polyethylene terephthalate and low-density polyethylene microplastics on vermicomposting of organic material, measuring germination index, C/N ratio, worm survival, pH, and electrical conductivity and finding that both MP polymer types impair key composting process indicators.
Biodegradable polymers boost reproduction in the earthworm Eisenia fetida
This study compared how conventional plastics and biodegradable polymers affect earthworms in soil. Surprisingly, biodegradable plastics like PLA and PBAT boosted earthworm reproduction, likely because soil microbes can partially break them down into usable carbon sources. However, conventional plastics like polystyrene and PET had neutral to negative effects, highlighting that not all microplastics impact soil organisms the same way.
Potential Use of Earthworms to Enhance Decaying of Biodegradable Plastics
Researchers examined the potential of earthworms to accelerate the biodegradation of both conventional and biobased biodegradable plastics in soil, finding that earthworm activity can enhance the physical fragmentation and microbial degradation of some polymers, though effectiveness varies significantly by polymer type. The study suggests earthworm-assisted composting as a partial strategy to reduce agricultural plastic pollution.
Effect of agricultural microplastic and mesoplastic in the vermicomposting process: Response of Eisenia fetida and quality of the vermicomposts obtained
Researchers found that agricultural plastic waste in vermicomposting reduced earthworm survival by 10% and body weight by 15%, altered nutrient content of the resulting compost, and induced oxidative stress regardless of plastic particle size or UV pretreatment.
Soil application of PE and PLA microplastics alter earthworm (Eisenia nordenskioldi) gut bacterial community and soil microbiome-metabolome dynamics
Researchers compared the effects of conventional polyethylene and biodegradable polylactic acid microplastics on earthworm gut bacteria and soil ecosystems over 120 days. They found that polyethylene had a more significant impact on soil microbial communities and metabolic processes than PLA at environmentally relevant concentrations. The study highlights that both types of microplastics can alter soil ecosystems, but conventional plastics may pose greater ecological risks.
Reassessing Whether Biodegradable Microplastics Are Environmentally Friendly: Differences in Earthworm Physiological Responses and Soil Carbon Function Impacts
Researchers compared the toxic effects of conventional (PP, PS) and biodegradable (PLA, PHA) microplastics on earthworm physiology and soil carbon function in haplic phaeozem soil. Biodegradable MPs were not environmentally friendly — PLA and PHA caused comparable or greater physiological stress in earthworms and disrupted soil carbon cycling to a similar degree as conventional plastics.