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Onboard measurement of polyethylene microplastics on a research vessel using Raman micro-spectroscopy: A preliminary study for testing feasibility

Marine Pollution Bulletin 2025 2 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 48 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Zijiang Yang, Zijiang Yang, Zijiang Yang, Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Zijiang Yang, Hiroya Nagashima, Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Yoshikazu Koike, Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hiroya Nagashima, Hiroya Nagashima, Hiroya Nagashima, Hisayuki Arakawa Hisayuki Arakawa Hiroya Nagashima, Hiroya Nagashima, N Hasegawa, Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Yoshikazu Koike, Hisayuki Arakawa N Hasegawa, Hisayuki Arakawa Yoshikazu Koike, Nobuyuki Futai, Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Nobuyuki Futai, Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Yoshikazu Koike, Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa Hisayuki Arakawa

Summary

Researchers developed and validated an onboard Raman spectroscopy system for measuring polyethylene microplastic concentrations from a research vessel during cruises, testing two concentration estimation approaches. The system achieved a recovery rate of 94.8% ± 10.4% on artificial samples and estimated PE concentrations of 583–1,453 pieces/m³ in environmental water samples, with results validated against conventional FTIR analysis.

Polymers

Microplastic pollution in marine environments poses significant environmental risks due to its widespread presence. Traditional micro-imaging measurement of microplastics often rely on post-cruise laboratory analyses. In this study, we explored the feasibility of onboard microplastic measurement using Raman spectroscopy, with a focus on polyethylene (PE). A measurement system was developed, and two concentration estimation approaches were proposed. To evaluate recovery and validate the methodology, artificial microplastic samples were prepared, yielding a recovery rate of 94.8 % ± 10.4 %. Environmental samples were then analyzed using the developed system, with results validated against conventional Fourier-transform infrared (FTIR) spectroscopy. The estimated PE concentration was 583 pieces/m (95% confidence interval: [2, 1542] pieces/m) using the direct approach and 1453 pieces/m (95% credible interval: [291, 92,837] pieces/m) using the Bayesian approach. Both estimates were consistent with the 333 pieces/m obtained through validation with FTIR, indicating adequate accuracy. However, the wide confidence intervals highlight the need for improved precision. While challenges remain, this study provides a comprehensive experimental procedure and introduces a robust data analysis framework, which could offer a foundational methodology for future onboard microplastic measurement research.

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