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Micron-size tire tread particles leach organic compounds at higher rates than centimeter-size particles: Compound identification and profile comparison.

TitleMicron-size tire tread particles leach organic compounds at higher rates than centimeter-size particles: Compound identification and profile comparison.
Publication TypeJournal Article
Year of Publication2023
AuthorsStack ME, Hollman K, Mladenov N, Harper B, Pinongcos F, Sant KE, Rochman CM, Richardot W, Dodder NG, Hoh E
JournalEnviron Pollut
Volume334
Pagination122116
Date Published2023 Oct 01
ISSN1873-6424
KeywordsDissolved Organic Matter, Gas Chromatography-Mass Spectrometry, Particle Size, Phenylenediamines, Plastics, Risk Assessment, Water Pollutants, Chemical
Abstract

Tire tread particles (TTP) are environmentally prevalent microplastics and generate toxic aqueous leachate. We determined the total carbon and nitrogen leachate concentrations and chemical profiles from micron (∼32 μm) and centimeter (∼1 cm) TTP leachate over 12 days. Dissolved organic carbon (DOC) and total dissolved nitrogen (TDN) were used to measure the concentration of leached compounds. Nontargeted chemical analysis by comprehensive two-dimensional gas chromatography coupled to time-of-flight mass spectrometry (GC×GC/TOF-MS) was used to compare the chemical profiles of leachates. After leaching for 12 days, DOC was 4.0 times higher in the micron TTP leachate than in the centimeter TTP leachate, and TDN was 2.6 times higher. The total GC×GC/TOF-MS chromatographic feature peak area was 2.9 times greater in the micron TTP leachate than the centimeter TTP leachate, and similarly, the total relative abundance of 54 tentatively identified compounds was 3.3 times greater. We identified frequently measured tire-related chemicals, such as 6PPD, N-cyclohexyl-N'-phenylurea (CPU), and hexa(methoxymethyl)melamine (HMMM), but nearly 50% of detected chemicals were not previously reported in tire literature or lacked toxicity information. Overall, the results demonstrate that smaller TTP have a greater potential to leach chemicals into aquatic systems, but a significant portion of these chemicals are not well-studied and require further risk assessment.

DOI10.1016/j.envpol.2023.122116
Alternate JournalEnviron Pollut
PubMed ID37394053
Project Reference: 
Nano-scale Plastic Aquatic Toxicology

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