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61,005 resultsShowing papers similar to Nano- and microplastics affect the composition of freshwater benthic communities in the long term
ClearLong-term exposure of a free-living freshwater micro- and meiobenthos community to microplastic mixtures in microcosms
Researchers exposed a natural freshwater micro- and meiobenthos community to microplastic mixtures in long-term microcosm experiments, finding community-level effects that differ from single-species studies and highlighting the importance of realistic multi-polymer exposure scenarios.
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.
Bacterial community are more susceptible to nanoplastics than algae community in aquatic ecosystems dominated by submerged macrophytes
Researchers conducted a mesocosm experiment to test how nanoplastics affect bacterial and algal communities in aquatic ecosystems with submerged plants. They found that bacterial communities were significantly more sensitive to nanoplastic exposure than algal communities, with notable shifts in bacterial composition and function. The study reveals that different groups of microorganisms in natural water environments respond very differently to nanoplastic contamination.
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.
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.
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.
Contrasting the effects of microplastic types, concentrations and nutrient enrichment on freshwater communities and ecosystem functioning
Researchers tested two types of microplastics, conventional polyethylene and biodegradable polylactic acid, in outdoor freshwater mesocosms and found that neither type significantly affected community composition or ecosystem functions like algae growth and leaf decomposition. Even at concentrations known to cause harm in lab settings, the microplastics had minimal impact when tested in more realistic ecological conditions. The study suggests that real-world microplastic effects on freshwater communities may differ from laboratory predictions.
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.
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 interaction between plastics and microalgae affects community assembly and nutrient availability
Researchers found that plastic debris coated with biological growth (biofilm) — but not clean plastic — altered the community composition of microalgae and changed nutrient levels in the surrounding water. This suggests that plastic particles act as rafts carrying organisms between environments, potentially disrupting aquatic ecosystems in ways that have been largely overlooked.
Microplastics drive community dynamics of periphytic protozoan fauna in marine environments
Researchers exposed marine protozoan communities to varying concentrations of microplastics and tracked how the communities changed over time. They found that higher microplastic concentrations reduced species diversity and shifted community composition toward more pollution-tolerant species. The study demonstrates that microplastic pollution can reshape the structure of microscopic marine communities, with potential cascading effects up the food web.
The Effect of Mixed Microplastic on Freshwater Microalgae Growth and Survival
Researchers tested the effects of mixed polypropylene and PVC microplastics at five different ratio combinations on a freshwater microalgae community, finding that mixture composition affected algal growth and survival differently than either polymer alone.
Nanoplastic-mediated disruption of freshwater carbon cycling via modulating of plankton communities
Researchers exposed freshwater mesocosms to polystyrene nanoplastics (80–500 nm) at 1 mg/L and found significant disruption of zooplankton and bacterial community structure, which altered carbon cycling processes — suggesting nanoplastics can impair the ecosystem functions that regulate freshwater carbon flux.
Effects of nano/microplastics on the growth and reproduction of the microalgae, bacteria, fungi, and Daphnia magna in the microcosms
Researchers tested the effects of 14 types of plastic particles and 6 fiber materials on microorganisms and water fleas in both single-species and microcosm experiments. They found that higher concentrations and smaller particle sizes of microplastics led to reduced growth rates in algae and other microorganisms. The study highlights the importance of testing realistic mixtures of plastic types rather than single materials when assessing the ecological risks of microplastic pollution.
Distribution of Microplastics and Nanoplastics in Aquatic Ecosystems and Their Impacts on Aquatic Organisms, with Emphasis on Microalgae
This review covers the distribution of microplastics and nanoplastics in aquatic ecosystems and their impacts on aquatic organisms from bacteria to fish, with a focus on effects on microalgae as primary producers. The authors highlight that nanoplastics may be more biologically active than microplastics due to their size and surface reactivity, warranting greater research attention.
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.
Microplastic interactions with freshwater microalgae: Hetero-aggregation and changes in plastic density appear strongly dependent on polymer type
Researchers studied interactions between microplastics and freshwater microalgae, finding that microplastics can physically attach to algal cells to form hetero-aggregates, altering both particle behavior and algal physiology.
Impact and microbial mechanism of continuous nanoplastics exposure on the urban wastewater treatment process
Researchers investigated the effects of continuous nanoplastic exposure on wastewater treatment over 200 days, finding that while total nitrogen removal was not significantly inhibited, nanoplastics altered microbial community composition and affected nitrification and denitrification processes.
Meta-analysis for systematic review of global micro/nano-plastics contamination versus various freshwater microalgae: Toxicological effect patterns, taxon-specific response, and potential eco-risks
A meta-analysis of 1,071 observations found that nanoplastics cause more severe cell membrane damage than microplastics, while microplastics more strongly inhibit photosynthesis in freshwater microalgae. Among polymer types, polyamide caused the highest growth inhibition, polystyrene induced the most toxin release, and diatoms were the most sensitive algal group while cyanobacteria showed exceptional resilience.
Nanoplastics rewire freshwater food webs
Researchers used replicated experimental wetlands to study how nanoplastics affect freshwater food webs. They identified a tipping point at which nanoplastic concentrations became harmful to Daphnia, a key planktonic grazer, and also strongly affected diatom populations. The study suggests that nanoplastic pollution can fundamentally rewire aquatic food web dynamics, with cascading effects through multiple trophic levels.
Tracking nanoplastics in freshwater microcosms and their impacts to aquatic organisms
Researchers tracked palladium-doped polystyrene nanoplastics in freshwater microcosms and found they caused toxic effects on cyanobacteria, green algae, and crustaceans at varying concentrations, with particle aggregation and surface interactions driving organism-specific impacts.
Microplastics can alter phytoplankton community composition
Researchers tested how microplastic fibers affect natural communities of tiny aquatic organisms called phytoplankton, which form the base of aquatic food webs. At higher concentrations, microplastics significantly shifted the community makeup, boosting certain cyanobacteria while reducing other species. The study suggests that growing microplastic pollution could reshape the foundation of aquatic ecosystems in heavily polluted waterways.
A critical review of interactions between microplastics, microalgae and aquatic ecosystem function
This review of microplastic-microalgae interactions found that microplastics form distinct epiplastic algal communities that differ from surrounding water communities, and that the interactions are bidirectional — MP properties affect algal physiology while algal surface coatings alter MP behavior and fate.