Journal
CHEMOSPHERE
Volume 298, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.chemosphere.2022.134282
Keywords
Microplastic; Method; Monitoring; Spectroscopy; Microscopy
Categories
Funding
- California State Water Resources Control Board
- SCCWRP
Ask authors/readers for more resources
California Senate Bill 1422 requires the development of State-approved standardized methods for quantifying and characterizing microplastics in drinking water. A study was conducted involving 22 laboratories from six countries to evaluate widely used methods for microplastic analysis. The study found that FTIR and Raman spectroscopy were effective in identifying microplastics by polymer type, and participants demonstrated good recovery and chemical identification for particles larger than 50 μm.
California Senate Bill 1422 requires the development of State-approved standardized methods for quantifying and characterizing microplastics in drinking water. Accordingly, we led an interlaboratory microplastic method evaluation study, with 22 participating laboratories from six countries, to evaluate the performance of widely used methods: sample extraction via filtering/sieving, optical microscopy, FTIR spectroscopy, and Raman spectroscopy. Three spiked samples of simulated clean water and a laboratory blank were sent to each laboratory with a prescribed standard operating procedure for particle extraction, quantification, and characterization. The samples contained known amounts of microparticles within four size fractions (1-20 mu m, 20-212 mu m, 212-500 mu m, > 500 mu m), four polymer types (PE, PS, PVC, and PET), and six colors (clear, white, green, blue, red, and orange). They also included false positives (natural hair, fibers, and shells) that may be mistaken for micro plastics. Among laboratories, mean particle recovery using stereomicroscopy was 76% +/- 10% (SE). For particles in the three largest size fractions, mean recovery was 92% +/- 12% SD. On average, laboratory contamination from blank samples was 91 particles (+/- 141 SD). FTIR and Raman spectroscopy accurately identified microplastics by polymer type for 95% and 91% of particles analyzed, respectively. Per particle, FTIR spectroscopy required the longest time for analysis (12 min +/- 9 SD). Participants demonstrated excellent recovery and chemical identification for particles greater than 50 mu m in size, with opportunity for increased accuracy and precision through training and further method refinement. This work has informed methods and QA/QC for microplastics monitoring in drinking water in the State of California.
Authors
I am an author on this paper
Click your name to claim this paper and add it to your profile.
Reviews
Recommended
No Data Available