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61,005 resultsShowing papers similar to Earthworm-Microplastic Interactions: Revealing the Feasibility and Obstacles of Utilizing Earthworms to Maintain the Health of Microplastic-Contaminated Soils
ClearMicroplastics in Agricultural Soil: Fate, Impacts, and Bioremediation by Earthworms
This review examines how microplastics accumulate in agricultural soils and the role earthworms may play in breaking them down. Researchers found that microplastics can harm soil health by disrupting microbial communities, enzyme activity, and nutrient availability, but that earthworms can enhance microplastic degradation through their digestive processes and the microorganisms in their gut. The study suggests that earthworm-based bioremediation could be a practical strategy for reducing microplastic contamination in farmland.
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.
Earthworm Casting Drives Soil Microplastic Upward Transport and the Formation of Biogenic Polymer Aggregates
Scientists found that earthworms are moving tiny plastic particles (microplastics) from deeper soil up to the surface, where crops grow, and breaking them into even smaller pieces in the process. The earthworms also create conditions that help beneficial bacteria break down these plastics over time. This matters because it could affect how much plastic contamination gets into our food supply, though more research is needed to understand the full health implications.
Earthworms As An Emerging Biotechnological Intervention in the Mitigation of Microplastics
This review explores the emerging role of earthworms as biological agents for degrading microplastics in soil environments. Researchers found that earthworm gut microflora and mucous secretions actively contribute to breaking down plastic polymers through enzymatic depolymerization. The study suggests that earthworm-mediated biodegradation could be a promising biotechnological approach for mitigating microplastic contamination in terrestrial ecosystems.
A Systematic Review on Earthworms in Soil Bioremediation
This systematic review found that earthworm-based bioremediation (vermiremediation), alone or combined with phytoremediation and bioaugmentation, effectively reduces soil contamination from heavy metals, pesticides, and hydrocarbons. The research is relevant to microplastics because earthworms interact extensively with soil microplastics, potentially fragmenting them further while also being harmed by plastic particle ingestion.
Bioremediation of soil microplastics: the role of microbial and earthworm activity
This review of 150 studies found that tiny plastic particles in soil can be naturally broken down by soil microbes and earthworms working together, with earthworms reducing some plastics by up to 60%. The research shows that certain plastic types like shopping bags and food containers are harder to break down than others, and that healthy soil with diverse microbes and earthworms is better at cleaning up plastic pollution. This matters because microplastics in soil can eventually end up in our food and water, so understanding how nature breaks them down could help us develop better ways to reduce plastic pollution in the environment.
Earthworm activity effectively mitigated the negative impact of microplastics on maize growth
Researchers investigated whether earthworms could help reduce the harmful effects of microplastic contamination on soil and crop growth. They found that earthworm activity increased soil nutrient content, boosted microbial diversity, and promoted maize growth even in microplastic-polluted soil. The study suggests that earthworms may serve as a natural tool for managing agricultural soils contaminated with plastic particles.
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.
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.
A Review on the Role of Earthworms in Plastics Degradation: Issues and Challenges
This review examines the role of earthworms in plastic degradation and finds that while earthworms can physically alter the size of microplastics, there is no evidence they can chemically break down plastics into basic elements. Researchers noted that earthworms exhibit selective feeding behavior, actively avoiding areas with high plastic concentrations. The study highlights that challenges to using earthworms for plastic degradation include plastic toxicity, environmental conditions, and the complexity of plastic materials.
Implication of microplastics on soil faunal communities — identifying gaps of knowledge
This systematic review examines how microplastics in soil affect earthworms, springtails, mites, and other soil-dwelling creatures that are essential for healthy soil. The impacts are highly variable and depend on the type of plastic, particle size, and soil conditions, making broad conclusions difficult. The review identifies critical knowledge gaps, noting that most studies use unrealistically high microplastic concentrations, and calls for research at levels that match actual field conditions.
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.
Earthworm-microbiome interactions: Unlocking next-generation bioindicators and bioengineered solutions for soil and environmental health
This review explores how earthworms and their associated microbiomes can serve as bioindicators of soil contamination from pollutants including microplastics. Changes in earthworm gut microbial communities can act as early warning signals of soil pollution, and engineered earthworm-microbiome systems show potential for environmental remediation. The study suggests that understanding these biological interactions could lead to new biomonitoring tools for assessing microplastic contamination in terrestrial ecosystems.
Current Research Trends on the Effects of Microplastics in Soil Environment Using Earthworms: Mini-Review
This mini-review summarizes current research on how microplastics affect earthworms in soil environments, covering effects on growth, reproduction, gut microbiota, and soil physicochemical properties.
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.
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.
Current research trends on plastic pollution and ecological impacts on the soil ecosystem: A review
This review examines the current state of research on plastic pollution in soil ecosystems, an area that has received far less attention than marine plastic contamination. Researchers found that agricultural practices, sewage sludge application, and plastic mulch use are major sources of soil microplastic pollution, with earthworms being the most commonly studied organisms for assessing ecological impacts. The study calls for more research into how microplastics affect soil biodiversity, nutrient cycling, and long-term soil health.
Exploring the Impact of Micro-plastics on Soil Health and Ecosystem Dynamics: A Comprehensive Review
This review examines how microplastics affect soil health, finding that they alter soil structure, water retention, and the organisms that live in soil. Microplastics can carry toxic substances into soil and interact with other pollutants to amplify harmful effects on earthworms and soil microbes. Since healthy soil is essential for growing safe food, microplastic contamination of agricultural land could have long-term consequences for the food supply and human health.
Earthworms alleviate microplastics stress on soil microbial and protist communities
Researchers found that earthworms can help alleviate the negative effects of microplastic pollution on soil microbial and protist communities. In microcosm experiments, soils with earthworms showed more resilient bacterial, fungal, and protist communities when exposed to both conventional and biodegradable microplastics. The study suggests that soil macrofauna play an important role in buffering ecosystems against the disruptive effects of microplastic contamination.
Interaction of Invertebrates and Synthetic Polymers in Soil: A Review
This review summarizes how microplastics in soil harm invertebrates including nematodes, springtails, and earthworms, while some soil animals can fragment or ingest and transport plastic particles. The presence of microplastics in soil disrupts the gut function of soil organisms that play critical roles in maintaining healthy, productive soils.
Decay of low-density polyethylene by bacteria extracted from earthworm's guts: A potential for soil restoration
Researchers isolated bacteria from earthworm guts that were able to degrade low-density polyethylene, demonstrating that intestinal microbes from soil invertebrates may play a role in plastic breakdown. The findings suggest that earthworm gut microbiomes are a reservoir of plastic-degrading bacteria with potential applications for bioremediation of LDPE-contaminated soils.
Interactions between microplastics and soil fauna: A critical review
This review summarizes how microplastics affect soil animals like earthworms and nematodes, which play crucial roles in maintaining healthy soil. Microplastics can harm these organisms through ingestion, tissue damage, oxidative stress, and disruption of their gut bacteria, reducing their ability to decompose organic matter and cycle nutrients. In turn, soil animals can break down and spread microplastics through the soil, potentially transferring them up the food chain to animals and humans.
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.
Microplastics in terrestrial environments: Reviewing current understanding to determine the positive and negative aspects of soil
This review examines microplastics in terrestrial soils, covering sources, distribution, and effects on soil health and organisms. It finds both negative impacts — reduced soil function, harm to earthworms and plants — and some neutral effects, highlighting significant research gaps.