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20 resultsShowing papers similar to Soil constituents mediate the effects of microplastics from biodegradable mulch on soil biogeochemical properties
ClearMicroplastics from conventional and biodegradable mulch films alter microbial necromass accumulation and organic carbon sequestration in farmland soils
Researchers compared how microplastics from conventional polyethylene and biodegradable mulch films affect soil organic carbon storage over 120 days. They found that both types of microplastics altered microbial activity and reduced the accumulation of microbial-derived carbon in soil. The study suggests that even biodegradable plastics, once broken into microplastics, may interfere with soil carbon sequestration in farmland.
Microplastic effects on soil organic matter dynamics and bacterial communities under contrasting soil environments
Researchers compared microplastic effects on soil organic matter dynamics and bacterial communities across contrasting soil environments, finding that the type of microplastic polymer and soil conditions together determine whether microbial activity and carbon cycling are stimulated or suppressed.
Diverse Impacts of Microplastic-derived Dissolved Organic Matter at Environmentally Relevant Concentrations on Soil Dissolved Organic Matter Transformation
Researchers examined how dissolved organic matter leached from biodegradable and conventional agricultural mulch microplastics affects soil chemistry at environmentally realistic concentrations. They found that UV-exposed microplastic leachates were more bioavailable and caused greater changes to soil organic matter than those produced in dark conditions. The study suggests that even at low concentrations, microplastic-derived compounds can meaningfully alter soil carbon dynamics, with effects varying by soil type.
Degradation of Biodegradable Mulch-Derived Microplastics and Their Effects on Bacterial Communities and Radish Growth in Three Vegetable-Cultivated Purple Soils
Biodegradable mulch films are increasingly used in agriculture as a "greener" alternative to conventional plastic, but their breakdown products — biodegradable microplastics — still have significant effects on soil and crops. A pot experiment across three soil types found that both conventional and biodegradable microplastics altered soil bacteria communities, with biodegradable plastics notably promoting the growth of specific plastic-degrading bacteria. Importantly, the effects on soil chemistry and radish growth varied substantially depending on soil type, suggesting that blanket recommendations about biodegradable mulch safety are premature without site-specific assessment.
Effect of different polymers of microplastics on soil organic carbon and nitrogen – A mesocosm experiment
Researchers found that adding polyethylene and biodegradable microplastics to agricultural soil altered carbon and nitrogen dynamics, with biodegradable microplastics having stronger effects on soil organic carbon decomposition and nutrient cycling than conventional plastics.
Microplastics distribution and microbial community characteristics of farmland soil under different mulch methods
This study compared microplastic distribution and soil microbial community structure in farmland soils under different plastic film mulching methods including no mulch, biodegradable film, and conventional polyethylene film. Mulching method significantly altered both microplastic abundance and microbial diversity in the top soil layer.
Mineralisation and priming effects of a biodegradable plastic mulch film in soils: Influence of soil type, temperature and plastic particle size
Researchers investigated how biodegradable mulch film microplastics break down in different soil types, finding that mineralisation rates increased with higher temperatures and were strongly influenced by soil type, particle size, and their interactions. The study also found that these microplastics can trigger priming effects that accelerate the decomposition of existing soil organic matter, raising questions about the true environmental footprint of biodegradable alternatives.
Contamination of microplastics in greenhouse soil subjected to plastic mulching
This study quantified microplastic accumulation in greenhouse soils under different durations of plastic mulching, finding that longer mulching periods significantly increased MP concentrations in both topsoil and subsoil. Soil physicochemical properties were associated with MP contamination levels, suggesting soil type and organic matter influence MP retention.
The role of biodegradable plastic mulches in soil organic carbon cycling
This review examines the role of biodegradable plastic mulches in soil organic carbon cycling as an alternative to conventional polyethylene mulches, which shed microplastics into agricultural soils. Biodegradable mulches offer potential environmental benefits but their long-term soil impacts are still being studied.
Microplastics alter microbial structure and assembly processes in different soil types: Driving effects of environmental factors
Researchers investigated how biodegradable polylactic acid and conventional polyethylene microplastics affect soil microbial communities across different soil types. They found that PLA increased dissolved organic carbon and pH while decreasing nitrogen availability, whereas polyethylene had contrasting effects depending on soil type. The study reveals that microplastic impacts on microbial community structure and assembly processes are soil-type-specific, with dissolved organic carbon driving changes in red soil and pH being the primary factor in fluvo-aquic soil.
Conventional and biodegradable agricultural microplastics: effects on soil properties and microbial functions across a European pedoclimatic gradient
Researchers compared the effects of conventional polyethylene and biodegradable PBAT-starch mulching film microplastics on soil properties, microbial diversity, litter decomposition, and greenhouse gas emissions across soils from multiple European climates, finding type- and concentration-dependent effects on soil ecosystem function.
Unravelling the ecological ramifications of biodegradable microplastics in soil environment: A systematic review
Researchers reviewed 85 studies on biodegradable microplastics in soil, finding that when biodegradable plastics fail to fully break down they can disrupt soil structure, nutrient cycling, and microbial life in ways that depend heavily on concentration and plastic type. The review highlights that "biodegradable" plastics are not a simple fix for microplastic pollution in agricultural soils.
Microplastic incorporation into soil aggregates: Insights from two-year field experiments in European agricultural topsoils
Researchers conducted two-year field experiments in European agricultural topsoils comparing microplastic incorporation into soil aggregates from biodegradable and conventional plastic mulch films, finding that soil properties and MP size and shape influence the degree of occlusion, with aggregate embedment potentially protecting MPs from further degradation.
Are biodegradable mulch films a sustainable solution to microplastic mulch film pollution? A biogeochemical perspective
This review asks whether biodegradable mulch films are truly a sustainable alternative to conventional plastic films used in agriculture. Researchers found that biodegradable microplastics may actually accumulate more readily in soil than traditional microplastics because they require specific conditions to fully break down. The study warns that biodegradable films could alter soil carbon and nitrogen cycling, microbial communities, and greenhouse gas emissions in ways not yet fully understood.
Illuminating the nexus between non-biodegradable microplastics and soil nitrogen dynamics: A modulation through plant-derived organic matter
This research examined how different vegetation types (shrub, grassland, and bare soil) influence the impact of polystyrene microplastics on nitrogen cycling in soil. Microplastics disrupted nitrogen processes across all vegetation types, but shrub soils showed greater resistance, while grassland soils were most vulnerable to disruption of nitrogen-fixing microbial communities. Since nitrogen cycling is fundamental to soil fertility and plant growth, this finding has implications for agricultural lands where microplastic contamination from plastic mulch films is increasingly common.
Regulatory path for soil microbial communities depends on the type and dose of microplastics
Researchers compared how six types of microplastics at different concentrations affect soil microbial communities, testing both conventional and biodegradable plastics. They found that biodegradable microplastics had a greater impact on soil carbon and nitrogen levels than conventional ones, and that the type and dose of microplastic determined which microbial groups were most affected. The findings suggest that even so-called biodegradable plastics can significantly alter soil ecosystems when they break down into microplastic-sized particles.
Effect of Long-Term Biodegradable Film Mulch on Soil Physicochemical and Microbial Properties
Long-term use of biodegradable mulch film was compared to conventional plastic and no-mulch controls in terms of soil physical, chemical, and microbial properties, with results showing that biodegradable mulch altered soil structure and microbial diversity in ways differing from both conventional plastic and bare soil. The findings raise questions about the cumulative effects of biodegradable plastic residues on agricultural soil health.
Biodegradable Polyesters and Low Molecular Weight Polyethylene in Soil: Interrelations of Material Properties, Soil Organic Matter Substances, and Microbial Community
Researchers examined how biodegradable polyesters and low molecular weight polyethylene behave in soil environments, investigating their interactions with soil organic matter and microbial communities over time. They found that both biodegradable and conventional polymer microplastics alter soil microbial community composition and interact with organic matter fractions, with biodegradable plastics showing distinct but not necessarily more benign effects than conventional plastics.
Conventional and biodegradable agricultural microplastics: effects on soil properties and microbial functions across a European pedoclimatic gradient
Researchers tested how microplastics from both conventional polyethylene and biodegradable mulching films affect soil health across experimental plots in Finland, Germany, and Spain. They found that both types of microplastics consistently reduced microbial activity related to nitrogen cycling, with effects becoming more pronounced over the second growing season. The study raises concerns because the concentrations tested are already environmentally relevant in European agricultural soils.
Biodegradable Plastic Mulch Films: Impacts on Soil Microbial Communities and Ecosystem Functions
This review examines how biodegradable plastic mulch films affect soil microbial communities and ecosystem functions compared to conventional polyethylene mulches. Researchers found that while biodegradable films avoid the problem of permanent plastic accumulation, their breakdown products can still alter soil microbiomes and carbon cycling in ways that are not yet fully understood. The study highlights the need for long-term field research to determine whether biodegradable mulches are truly a sustainable alternative for agriculture.