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20 resultsShowing papers similar to Long-term exposure of a free-living freshwater micro- and meiobenthos community to microplastic mixtures in microcosms
ClearNano- and microplastics affect the composition of freshwater benthic communities in the long term
Researchers conducted a 15-month mesocosm experiment exposing freshwater communities to five concentrations of nano- and microplastics, assessing long-term effects on community composition under ecologically realistic conditions. The study found that chronic exposure at environmentally relevant concentrations affected the composition of freshwater microalgal assemblages.
In Situ Effects of a Microplastic Mixture on the Community Structure of Benthic Macroinvertebrates in a Freshwater Pond
Researchers conducted an in situ mesocosm experiment adding a realistic microplastic mixture to freshwater pond sediments and monitored benthic macroinvertebrate communities over time, finding that MP exposure shifted community composition and reduced taxonomic richness at environmentally relevant concentrations.
Effects of a microplastic mixture differ across trophic levels and taxa in a freshwater food web: In situ mesocosm experiment
Researchers conducted the first in situ mesocosm experiment testing the effects of a microplastic mixture on a freshwater lake food web, spanning multiple trophic levels. The study found that microplastic effects varied across different organisms and trophic levels, providing important community-level evidence that laboratory findings may not fully predict how microplastics impact real aquatic ecosystems.
Long-term effects of conventional and biodegradable microplastics from mulch on freshwater communities
Researchers used outdoor mesocosms to study how conventional (polyethylene) and biodegradable (PBAT) microplastics from mulch films affect freshwater zooplankton and macroinvertebrate communities over 60 days, finding measurable community-level effects at environmentally relevant concentrations.
The impact of microplastics on lake communities: A mesocosm study
Researchers conducted a mesocosm experiment to assess how microplastic contamination affects lake communities, including zooplankton, macroinvertebrates, and fish. They found that microplastic exposure caused varying effects across organism groups, with some community-level changes observed over the study period. The study highlights that microplastic pollution can alter freshwater ecosystem dynamics beyond what has been documented in single-species laboratory studies.
Effect assessment of nano- and microplastics in freshwater ecosystems
This doctoral thesis assessed the effects of nano- and microplastics on freshwater ecosystems, from individual species to community-level impacts. Freshwater sediments are known to accumulate these particles, and the research addresses critical gaps in understanding how long-term exposure at realistic concentrations affects aquatic communities.
Towards more ecologically relevant investigations of the impacts of microplastic pollution in freshwater ecosystems
This review argues that microplastic research in freshwater ecosystems lacks ecological realism, calling for studies that account for realistic exposure concentrations, particle mixtures, and multi-species interactions rather than single-species laboratory tests.
Combined impacts of micoplastic type, concentrations and nutrient loading on freshwater communities and ecosystems
Researchers used 40 outdoor freshwater mesocosms to test the independent and interactive effects of microplastic type (conventional vs. bio-based biodegradable), particle concentration, and nutrient enrichment on pelagic community structure and ecosystem functions including phytoplankton biomass, periphyton productivity, and leaf litter decomposition, finding no significant impacts at the ecosystem scale.
Microplastics and riverine macroinvertebrate communities in a multiple-stressor context: A mesocosm approach
Researchers conducted a seven-week experiment using streamside channels to study how microplastics of different sizes and concentrations affect freshwater invertebrate communities, both alone and combined with fine sediment. They found that microplastic effects on invertebrate abundance and community composition were generally modest compared to the well-known impacts of sediment pollution. The study suggests that in real-world streams facing multiple stressors, microplastics may not be the dominant threat to bottom-dwelling organisms.
Microplastic exposure across trophic levels: effects on the host–microbiota of freshwater organisms
Researchers examined how microplastic exposure across trophic levels affects the gut microbiota of freshwater organisms, finding that microplastics alter microbial community composition and that effects can transfer through food web interactions.
Short-term microplastic effects on marine meiofauna abundance, diversity and community composition
Researchers examined short-term effects of microplastics on marine meiofauna, measuring changes in abundance, species diversity, and community composition after plastic addition, finding dose-dependent disruption to these ecologically important small invertebrates.
Fate and effects of microplastics in combination with pharmaceuticals and endocrine disruptors in freshwaters: Insights from a microcosm experiment
Researchers conducted a microcosm experiment exposing moss and caddisflies to microplastics combined with pharmaceuticals and endocrine disruptors, finding that microplastics can alter the fate and biological effects of co-occurring chemical contaminants in freshwater ecosystems.
Microplastics in freshwaters: Comparing effects of particle properties and an invertebrate consumer on microbial communities and ecosystem functions
Researchers tested how different microplastic properties, including concentration, shape, and polymer type, affect microbial communities and ecosystem functions in freshwater environments. They found that the presence of an invertebrate consumer had a stronger influence on microbial activity than the microplastics themselves, though high concentrations of certain particle shapes did alter community composition. The study suggests that the ecological effects of microplastics in freshwater depend heavily on the broader biological context.
Microplastic Exposure Across Trophic Levels: Effects on the Host Microbiota of Freshwater Organisms
Researchers investigated how microplastic exposure affects the gut bacteria communities of freshwater organisms including fish, invertebrates, and crustaceans. Microplastics—particularly when combined with pesticides—altered gut microbiota composition, which could impair digestion, immunity, and overall health of freshwater species.
Fate and effects of an environmentally relevant mixture of microplastics in simple freshwater microcosms
Researchers tested how a realistic mixture of different microplastic types affects freshwater invertebrates in indoor ecosystems over 28 days. The study found that worms and snails consumed microplastics in sizes related to their mouth dimensions, and while the plastics settled and moved through the water in predictable patterns, no significant harmful effects on the animals were observed at the concentrations tested.
Microplastics in freshwater ecosystems : effects and drivers
This thesis assessed how microplastic exposure affects freshwater microorganisms, macroinvertebrates, and other organisms in freshwater ecosystems, finding that microplastics are a pervasive contaminant of freshwater environments with unclear but potentially significant ecological impacts.
Size-dependent impacts from polystyrene micro- and nanoplastics on freshwater invertebrates: A mesocosm study combining environmental DNA metabarcoding and morphological identification
A 14-week outdoor mesocosm experiment exposed natural freshwater invertebrate communities to 15 µm and 150 nm polystyrene particles, finding size-dependent effects on community composition with nanoplastics causing greater disruption than microplastics at environmentally relevant concentrations.
Ecological risks in a ‘plastic’ world: A threat to biological diversity?
This review synthesized evidence on how microplastic pollution affects biological diversity and community structure across aquatic and terrestrial ecosystems, finding that most studies document effects at the individual level but that community- and ecosystem-level impacts remain poorly characterized.
Effects of microplastics on nitrogen and phosphorus cycles and microbial communities in sediments
Researchers found that PVC, PLA, and polypropylene microplastics altered nitrogen and phosphorus cycling in freshwater sediments by shifting microbial community composition, with effects varying by polymer type and biodegradability.
The organism fate of inland freshwater system under micro-/nano-plastic pollution: A review of past decade.
This review synthesized a decade of research on how micro- and nano-plastics affect freshwater organisms including microalgae, macrophytes, zooplankton, benthic invertebrates, and fish, finding that impacts range from impaired photosynthesis and oxidative stress to reproductive disruption and behavioral changes across multiple biological levels.