Surface‐Dwelling Aquatic Insects in Low‐Energy Freshwater Environments Are Highly Impacted by Oil Spills and the Surface Washing Agent Corexit EC9580A Used in Oil Spill Response

Physical impacts of diluted bitumen (dilbit) and the application of surface washing agents (SWAs) in freshwater have not been characterized for aquatic invertebrates. These compounds are known to reduce surface tension in feather and fur microstructures of birds and mammals, and are thus likely to a...

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Veröffentlicht in:	Environmental toxicology and chemistry 2021-05, Vol.40 (5), p.1298-1307
Hauptverfasser:	Black, Tyler A., Hanson, Mark L., Palace, Vince P., Rodriguez‐Gil, Jose Luis
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Sprache:	eng
Schlagworte:	Animals Aquatic insects Aquatic invertebrates Aquatic organisms Buoyancy Evaluation Freshwater environments Gloss Insecta Insects Invertebrate toxicology Invertebrates Lakes Oil spills Petroleum Petroleum Pollution - analysis Physical toxicity Pleuston Surface tension Surface washing agent Thickness Toxicity testing Washing Water Pollutants, Chemical - analysis Water Pollutants, Chemical - toxicity
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creator	Black, Tyler A. Hanson, Mark L. Palace, Vince P. Rodriguez‐Gil, Jose Luis
description	Physical impacts of diluted bitumen (dilbit) and the application of surface washing agents (SWAs) in freshwater have not been characterized for aquatic invertebrates. These compounds are known to reduce surface tension in feather and fur microstructures of birds and mammals, and are thus likely to affect the buoyancy of surface‐dwelling aquatic insects. We evaluated impacts of fresh dilbit and a SWA on water striders (Metrobates sp.), which are surface‐dwelling organisms that rely on fine‐hair microstructures to remain buoyant. We report nominal sheen thickness values that cause 50% immobility in 48 h as determined from exposure studies in outdoor tanks. A comparison of our data with those from historic oil spill volumes in Canada and the United States in the past 12 yr indicates that our reported nominal sheen thicknesses could have been reached or exceeded in 99% of historic spills when scaled to a small reference lake. The addition of Corexit EC9580A, a SWA approved for marine use in Canada, led to 100% immobility in striders within minutes, both in combination with oil and alone. Our study reveals an acute sensitivity to Corexit EC9580A and dilbit by surface‐dwelling insects and may be driven by disruption of mechanisms of buoyancy. We highlight a need to evaluate physical impacts, typically excluded from standard toxicity testing, within the context of spill impact mitigation assessments. Environ Toxicol Chem 2021;40:1298–1307. © 2020 SETAC Water strider response to diluted bitumen and to Corexit EC9580A.
doi_str_mv	10.1002/etc.4976
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subjects	Animals Aquatic insects Aquatic invertebrates Aquatic organisms Buoyancy Evaluation Freshwater environments Gloss Insecta Insects Invertebrate toxicology Invertebrates Lakes Oil spills Petroleum Petroleum Pollution - analysis Physical toxicity Pleuston Surface tension Surface washing agent Thickness Toxicity testing Washing Water Pollutants, Chemical - analysis Water Pollutants, Chemical - toxicity
title	Surface‐Dwelling Aquatic Insects in Low‐Energy Freshwater Environments Are Highly Impacted by Oil Spills and the Surface Washing Agent Corexit EC9580A Used in Oil Spill Response
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