☆ 4.6 Review

Research on the non-point source pollution of microplastics

FRONTIERS IN CHEMISTRY (2022)

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Microplastics accumulation in functional feeding guilds and functional habit groups of freshwater macrobenthic invertebrates: Novel insights in a riverine ecosystem

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Summary: This study investigated microplastics contamination in a macrobenthic invertebrate community in the Vipacco River, northeast Italy, finding that microplastics were found in 48.5% of taxa with the highest accumulation in collector gatherers and predators, likely originating from urban wastewater discharge points along the river.

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Microplastics in agricultural drainage water: A link between terrestrial and aquatic microplastic pollution

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Summary: The study found significant concentrations of microplastics in drainage water from agricultural soils in Switzerland, mainly composed of PA and PE. The size distribution of microplastics showed an exponential increase with decreasing particle size. The leaching of microplastics from soil in heavily drained areas globally could be a significant source of microplastics to aquatic ecosystems.

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Summary: Emerging contaminants (ECs), relatively low-concentration but high-toxicity pollutants in the environment, have attracted widespread attention in recent years. Biochar, as a low-cost and high-efficiency adsorbent, has been used to treat ECs in water. There are numerous reports on the removal of ECs from water by modified biochar.

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Occurrence, fate and removal of microplastics as heavy metal vector in natural wastewater treatment wetland system

Dhruba Jyoti Sarkar et al.

Summary: This study investigated a freshwater wetland system in Eastern India and found a high concentration of microplastics and toxic metals in treatment ponds and associated wastewater canals. The presence of microplastics poses a risk to aquatic biota, with potential contamination of fish. The removal efficiency of microplastics in the treatment ponds was estimated to be 53%.

WATER RESEARCH (2021)

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Interaction of cyanobacteria with calcium facilitates the sedimentation of microplastics in a eutrophic reservoir

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Summary: This study found that both sessile and planktonic phototrophic microorganisms play a crucial role in the densification and sinking of microplastics in freshwater reservoirs. The involvement of microorganisms mediated by calcium facilitates the processes of microplastic sedimentation, potentially leading to permanent burial within reservoir sediments.

WATER RESEARCH (2021)

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Interactions between microplastics, pharmaceuticals and personal care products: Implications for vector transport

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Summary: Recent studies have shown that hydrophilic compounds such as pharmaceuticals and personal care products (PPCPs) can be adsorbed onto plastic surfaces and coexist with microplastics in the environment.

ENVIRONMENT INTERNATIONAL (2021)

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Microplastics and nanoplastics in the environment: Macroscopic transport and effects on creatures

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Summary: Plastic pollution is a major environmental issue globally, with current research mainly focusing on microplastics/nanoplastics in individual environments, neglecting the interconnected nature of the natural environment. The transport of microplastics/nanoplastics among different environments and their impact on organisms are crucial research areas that require urgent attention.

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Quantification and composition of microplastics in the Raritan Hudson Estuary: Comparison to pathways of entry and implications for fate

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Summary: The research highlights the need for comprehensive approaches to understand the accumulation patterns and entry pathways of microplastics in urbanized estuarine environments. The study found higher concentrations of 500-2000 μm microplastic particles at the mouth of the Raritan River, while 250-500 μm microplastic particles were more prevalent in the bay and coastal ocean samples. Comparison of polymer concentrations and types from different sources provided insight into potential pathways of microplastics entry into the system.

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Transport and accumulation of microplastics through wastewater treatment sludge processes

Somayye Sadat Alavian Petroody et al.

Summary: Wastewater treatment plants are significant sources of microplastic emissions into the environment, particularly fibers. The sludge processes can impact the quantity of microplastics present, with dewatering potentially releasing attached microplastics. Polyester and polyethylene are the predominant types of microplastics found in the sludge.

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Summary: Microplastics are widely distributed in marine ecosystems and have potential toxic impacts on aquatic fauna and humans. Ingested microplastics can cause severe health implications in fishes, including reduced feeding intensity, improper gill functioning, immuno-suppression, and compromised reproducibility.

SCIENCE OF THE TOTAL ENVIRONMENT (2021)

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A One Health perspective of the impacts of microplastics on animal, human and environmental health

Joana C. Prata et al.

Summary: Microplastics contamination is widespread in the environment, with studies needing to consider particle concentrations, characteristics, and exposure conditions. The practical relevance of toxicity assays using concentrations much higher than expected in the environment is limited. A One Health approach provides a new perspective on the intersection of different areas, highlighting the need for more research to clarify the effects of microplastics on One Health under environmentally relevant conditions.

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Microplastics are a hotspot for antibiotic resistance genes: Progress and perspective

Yi Liu et al.

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Microplastic pollution in vegetable farmlands of suburb Wuhan, central China

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Microplastics undergo accelerated vertical migration in sand soil due to small size and wet-dry cycles

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