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Microfibers in oceanic surface waters: A global characterization

Science Advances 2020 481 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani, Stefano Aliani, Peter G. Ryan Peter G. Ryan Peter G. Ryan Giuseppe Suaria, Peter G. Ryan Peter G. Ryan Peter G. Ryan Peter G. Ryan Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Vonica Perold, Vonica Perold, Vonica Perold, Giuseppe Suaria, Peter G. Ryan Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani, Giuseppe Suaria, Stefano Aliani, Giuseppe Suaria, Stefano Aliani, Giuseppe Suaria, Peter G. Ryan Giuseppe Suaria, Aikaterini Achtypi, Aikaterini Achtypi, Vonica Perold, Peter G. Ryan Giuseppe Suaria, Stefano Aliani, Stefano Aliani, Giuseppe Suaria, Peter G. Ryan Peter G. Ryan Peter G. Ryan Jasmine Lee, Vonica Perold, Vonica Perold, Vonica Perold, Vonica Perold, Vonica Perold, Vonica Perold, Aikaterini Achtypi, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani, Stefano Aliani, Andrea Pierucci, Stefano Aliani, Jasmine Lee, Peter G. Ryan Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani, Stefano Aliani, Stefano Aliani, Thomas G. Bornman, Stefano Aliani, Andrea Pierucci, Stefano Aliani, Stefano Aliani, Jasmine Lee, Peter G. Ryan Andrea Pierucci, Stefano Aliani, Stefano Aliani, Stefano Aliani, Peter G. Ryan Thomas G. Bornman, Peter G. Ryan Thomas G. Bornman, Stefano Aliani, Giuseppe Suaria, Jasmine Lee, Peter G. Ryan Giuseppe Suaria, Stefano Aliani, Giuseppe Suaria, Stefano Aliani, Peter G. Ryan Peter G. Ryan Peter G. Ryan Stefano Aliani, Stefano Aliani, Stefano Aliani, Peter G. Ryan Stefano Aliani, Peter G. Ryan Stefano Aliani, Stefano Aliani, Stefano Aliani, Stefano Aliani, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani, Stefano Aliani, Stefano Aliani, Stefano Aliani, Peter G. Ryan Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Giuseppe Suaria, Stefano Aliani, Stefano Aliani, Peter G. Ryan Giuseppe Suaria, Peter G. Ryan Peter G. Ryan Giuseppe Suaria, Stefano Aliani, Peter G. Ryan

Summary

A global analysis of 916 seawater samples from six ocean basins characterized microfibers as ubiquitous contaminants, finding that many are not synthetic textiles but natural or semi-synthetic materials, questioning the assumption that all environmental fibers are microplastic.

Study Type Environmental

Microfibers are ubiquitous contaminants of emerging concern. Traditionally ascribed to the "microplastics" family, their widespread occurrence in the natural environment is commonly reported in plastic pollution studies, based on the assumption that fibers largely derive from wear and tear of synthetic textiles. By compiling a global dataset from 916 seawater samples collected in six ocean basins, we show that although synthetic polymers currently account for two-thirds of global fiber production, oceanic fibers are mainly composed of natural polymers. µFT-IR characterization of ~2000 fibers revealed that only 8.2% of oceanic fibers are synthetic, with most being cellulosic (79.5%) or of animal origin (12.3%). The widespread occurrence of natural fibers throughout marine environments emphasizes the necessity of chemically identifying microfibers before classifying them as microplastics. Our results highlight a considerable mismatch between the global production of synthetic fibers and the current composition of marine fibers, a finding that clearly deserves further attention.

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