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Environmental Sources
Gut & Microbiome
Marine & Wildlife
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A straightforward protocol for extracting microplastics from freshwater sediment with high organic content
Knowledge and Management of Aquatic Ecosystems2025
5 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 53
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Bárbara Rani-Borges,
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Lucas Gonçalves Queiroz
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Luana de Oliveira Hallai,
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Beatriz Rocha de Moraes,
Lucas Gonçalves Queiroz
Luana de Oliveira Hallai,
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Marcelo Pompêo,
Marcelo Pompêo,
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Beatriz Rocha de Moraes,
Beatriz Rocha de Moraes,
Rômulo A. Ando,
Rômulo A. Ando,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Rômulo A. Ando,
Beatriz Rocha de Moraes,
Rômulo A. Ando,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Rômulo A. Ando,
Rômulo A. Ando,
Rômulo A. Ando,
Rômulo A. Ando,
Lucas Gonçalves Queiroz
Lucas Gonçalves Queiroz
Marcelo Pompêo,
Marcelo Pompêo,
Beatriz Rocha de Moraes,
Beatriz Rocha de Moraes,
Beatriz Rocha de Moraes,
Marcelo Pompêo,
Bárbara Rani-Borges,
Rômulo A. Ando,
Rômulo A. Ando,
Rômulo A. Ando,
Beatriz Rocha de Moraes,
Rômulo A. Ando,
Beatriz Rocha de Moraes,
Beatriz Rocha de Moraes,
Rômulo A. Ando,
Rômulo A. Ando,
Lucas Gonçalves Queiroz
Bárbara Rani-Borges,
Beatriz Rocha de Moraes,
Rômulo A. Ando,
Rômulo A. Ando,
Rômulo A. Ando,
Rômulo A. Ando,
Rômulo A. Ando,
Rômulo A. Ando,
Rômulo A. Ando,
Marcelo Pompêo,
Rômulo A. Ando,
Rômulo A. Ando,
Marcelo Pompêo,
Beatriz Rocha de Moraes,
Rômulo A. Ando,
Beatriz Rocha de Moraes,
Beatriz Rocha de Moraes,
Rômulo A. Ando,
Rômulo A. Ando,
Bárbara Rani-Borges,
Rômulo A. Ando,
Bárbara Rani-Borges,
Rômulo A. Ando,
Bárbara Rani-Borges,
Rômulo A. Ando,
Marcelo Pompêo,
Marcelo Pompêo,
Rômulo A. Ando,
Rômulo A. Ando,
Marcelo Pompêo,
Marcelo Pompêo,
Marcelo Pompêo,
Marcelo Pompêo,
Marcelo Pompêo,
Marcelo Pompêo,
Rômulo A. Ando,
Rômulo A. Ando,
Rômulo A. Ando,
Marcelo Pompêo,
Marcelo Pompêo,
Bárbara Rani-Borges,
Bárbara Rani-Borges,
Rômulo A. Ando,
Bárbara Rani-Borges,
Marcelo Pompêo,
Rômulo A. Ando,
Lucas Gonçalves Queiroz
Bárbara Rani-Borges,
Lucas Gonçalves Queiroz
Summary
Researchers developed a simplified protocol for extracting microplastics from organic-rich clayey freshwater sediments. The method achieved recovery rates exceeding 83% for five common plastic types and minimized particle loss by reducing container transfers, offering a practical and effective approach for environmental monitoring.
Extracting microplastics from sediment is critical in assessing pollution in freshwater environments. However, this process can be particularly challenging for clayey sediments with a significant organic matter content. This study proposes a simplified method for extracting microplastics from organic-rich clayey sediments and a complete protocol for sediment processing. To evaluate the extraction method, calcined clayey sediment was artificially enriched with varying organic content (20, 40, and 60%). Known quantities of plastic particles with distinct characteristics and compositions (PET, HDPE, PP, PE, and PS) were introduced into these artificial organic sediments, mixed with a saline solution, centrifuged, and then assessed the recovery rate. The recovery rate exceeded 83% for the five selected plastic types. Additionally, the method minimized particle loss by reducing the number of transfers between containers, a common issue in other microplastic extraction protocols. Based on the efficiency of the extraction method, we proposed and applied a protocol for environmental samples. The protocol comprises five key steps: (1) drying sediment samples, (2) density separation, (3) filtering, (4) digestion of organic matter, and (5) visual analysis. This protocol extracted a wide variety of microplastics with diverse shapes, colors, sizes, and polymeric compositions. These results demonstrate that the proposed protocol is both straightforward and effective in extracting plastic particles commonly found in clayey sediments of freshwater systems. Moreover, the protocol employs inexpensive, readily available, and environmentally friendly reagents, making it a more sustainable alternative to other methodologies for extracting microplastics from environmental matrices.