Fragmentation Pattern-Based Screening Strategy Combining Diagnostic Ion and Neutral Loss Uncovered Novel <i>para</i>-Phenylenediamine Quinone Contaminants in the Environment
Wei Wang, Guodong Cao, Jing Zhang, Weixia Chang, Yuecheng Sang, Zongwei Cai
Abstract
High Resolution Image Download MS PowerPoint Slide Identifying transformed emerging contaminants in complex environmental compartments is a challenging but meaningful task. Substituted para -phenylenediamine quinones (PPD-quinones) are emerging contaminants originating from rubber antioxidants and have been proven to be toxic to the aquatic species, especially salmonids. The emergence of multiple PPD-quinones in various environmental matrices and evidence of their specific hazards underscore the need to understand their environmental occurrences. Here, we introduce a fragmentation pattern-based nontargeted screening strategy combining full MS/All ion fragmentation/neutral loss-ddMS 2 scans to identify potential unknown PPD-quinones in different environmental matrices. Using diagnostic fragments of m / z 170.0600, 139.0502, and characteristic neutral losses of 199.0633, 138.0429 Da, six known and three novel PPD-quinones were recognized in air particulates, surface soil, and tire tissue. Their specific structures were confirmed, and their environmental concentration and composition profiles were clarified with self-synthesized standards. N -(1-methylheptyl)- N ′-phenyl-1,4-benzenediamine quinone (8PPD-Q) and N, N ′-di(1,3-dimethylbutyl)- p -phenylenediamine quinone (66PD-Q) were identified and quantified for the first time, with their median concentrations found to be 0.02–0.21 μg·g –1 in tire tissue, 0.40–2.76 pg·m –3 in air particles, and 0.23–1.02 ng·g –1 in surface soil. This work provides new evidence for the presence of unknown PPD-quinones in the environment, showcasing a potential strategy for screening emerging transformed contaminants in the environment.