Toxicity identification evaluation techniques isolate zinc and 6PPD-Q as causes of acute lethality to rainbow trout in road runoff
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Issue Date
2025-10-30
Editor
Authors
Baker, Josh A.
Cronshaw, Ian
Monaghan, Joseph
Jaeger, Angelina
Bailey, Howard C.
Krogh, Erik T.
Subject
Abstract
The buildup of pollutants on impervious surfaces, and their subsequent flush into the environment within stormwater, could worsen with expected increases in prolonged dry periods and extreme rain events due to climate change. As such, the monitoring and treatment of urban stormwaters is becoming a high priority. Of particular interest is road runoff in urban areas, which has been found to be acutely lethal to salmonids and frequently contains elevated concentrations of metals and organic contaminants. In this study, samples of road runoff were collected in the Metro Vancouver area of British Columbia, Canada, and assessed for acute lethality to rainbow trout (Oncorhynchus mykiss). Three of the four stormwaters tested exhibited 100% mortality in the 96-hr test. Stormwater toxicity was demonstrated to be reduced by treatment in a rain garden. Phase I Toxicity Identification Evaluation (TIE) techniques initially identified a metal as the cause of toxicity in one stormwater, which was determined to be zinc after Phase II/III TIE testing. The second stormwater sample revealed an organic constituent to be responsible for toxicity, and subsequent TIE testing implicated N‐(1,3‐dimethylbutyl)‐N′‐phenyl‐p‐phenylenediamine‐quinone (6PPD-Q). The potential contribution of 6PPD-Q to toxicity was assessed by performing TIE techniques on a standard solution of 6PPD-Q in parallel with the stormwater. Chemical analysis of 6PPD-Q using Condensed-Phase Membrane Introduction Mass Spectrometry was used to support toxicity assessments. This is the first study to use the TIE approach to provide a toxicity profile for 6PPD-Q.
Description
This article was originally published as: Baker, J.A., Cronshaw, I., Monaghan, J., Jaeger, A., Bailey, H.C., & Krogh, E.T. (2025). Toxicity identification evaluation techniques isolate zinc and 6PPD-Q as causes of acute lethality to rainbow trout in road runoff. Environmental Toxicology and Chemistry. https://doi.org/10.1093/etojnl/vgaf269