Your search keyword '"W. Tyler"' showing total 2 results

1. Freshwater Sediment Toxicity Evaluation from Meso‐Scale Spill Tests of Diluted Bitumen and Conventional Crude.

Author

Mehler, W. Tyler, Xin, Qin, Giacomin, Marina, Dettman, Heather D., and Goss, Greg G.

Subjects

*OIL spill cleanup, *TOXICITY testing, *RIVER sediments, *OIL spills, *POLYCYCLIC aromatic hydrocarbons, *SEDIMENTS, *PETROLEUM, *TRICLOCARBAN

Abstract

Oil and gas development and transportation in many areas of the world, such as the oil sands region of Alberta, Canada, are heavily monitored to minimize the environmental impacts of development and the risk of oil spills. However, oil spills to aquatic environments still occur. Although the science of oil spills has received considerable attention of late, uncertainty still remains in evaluating the fate and transport of oil spills as well as the effects of those spills on aquatic biota. Experiments using meso‐scale spill tanks were used to examine the physical and chemical behavior of two types of oil, conventional crude (CC) and diluted bitumen (DB), under similar environmentally relevant scenarios (i.e., volume of spill, temperature, duration, wave action, and presence of river sediment). In addition, biological impact assessments via sediment toxicity testing collected from the oil spill tests were conducted. Sediments were evaluated for acute toxicity using three standard sediment test species: Hyalella azteca, Lumbriculus variegatus, and Chironomus dilutus. Sediments collected from the CC simulated spill showed a higher level of acute toxicity than sediments collected from spills with DB. Higher toxicity in the CC‐contaminated sediment was supported by higher concentrations of low molecular weight polycyclic aromatic hydrocarbons (PAHs) when compared with the DB‐contaminated sediment, while the remaining PAH profile was similar between the contaminated sediments. The use of a meso‐scale spill tank in combination with sediment bioassays allowed for the evaluation of oil spills under controlled and environmentally relevant conditions (e.g., nearshore high sediment loading river), and in turn provides assessors with additional information to identify the appropriate mitigation and remediation efforts needed in the event of future spills. Environ Toxicol Chem 2022;41:2797–2807. © 2022 SETAC [ABSTRACT FROM AUTHOR]

Published

2022

2. Understanding the effects of hydraulic fracturing flowback and produced water (FPW) to the aquatic invertebrate, Lumbriculus variegatus under various exposure regimes.

Author

Mehler, W. Tyler, Nagel, Andrew, Flynn, Shannon, Zhang, Yifeng, Sun, Chenxing, Martin, Jonathan, Alessi, Daniel, and Goss, Greg G.

Subjects

FLOWBACK (Hydraulic fracturing), LUMBRICULUS variegatus, AQUATIC invertebrates, HYDRAULIC fracturing, HORIZONTAL wells

Abstract

Hydraulic fracturing of horizontal wells is a cost effective means for extracting oil and gas from low permeability formations. Hydraulic fracturing often produces considerable volumes of flowback and produced water (FPW). FPW associated with hydraulic fracturing has been shown to be a complex, often brackish mixture containing a variety of anthropogenic and geogenic compounds. In the present study, the risk of FPW releases to aquatic systems was studied using the model benthic invertebrate, Lumbriculus variegatus and field-collected FPW from a fractured well in Alberta. Acute, chronic, and pulse toxicity were evaluated to better understand the implications of accidental FPW releases to aquatic environments. Although L. variegatus is thought to have a high tolerance to many stressors, acute toxicity was significant at low concentrations (i.e. high dilutions) of FPW (48 h LC50: 4–5%). Chronic toxicity (28 d)of FPW in this species was even more pronounced with LC50s (survival/reproduction) and EC50s (total mass) at dilutions as low as 0.22% FPW. Investigations evaluating pulse toxicity (6 h and 48 h exposure) showed a significant amount of latent mortality occurring when compared to the acute results. Additionally, causality in acute and chronic bioassays differed as acute toxicity appeared to be primarily driven by salinity, which was not the case for chronic toxicity, as other stressors appear to be important as well. The findings of this study show the importance of evaluating multiple exposure regimes, the complexity of FPW, and also shows the potential aquatic risk posed by FPW releases. Image 1 • FPW dilution >10% caused significant toxicity in minutes to L. variegatus. • Flowback and produced water toxicity change with exposure type. • Latent mortality to L. variegatus was observed in FPW pulse exposures. • Chronic effects to L. variegatus were evident at FPW concentrations as low as 0.1%. • High salinity and low dissolved oxygen are drivers of FPW chronic toxicity. Hydraulic fracturing waste showed significant toxicological effects to Lumbriculus variegatus under acute, pulse, and chronic exposures. [ABSTRACT FROM AUTHOR]

Published

2020