Terrestrial Toxicity of Synthetic Gas-to-Liquid versus Crude Oil–Derived Drilling Fluids in Soil

Abstract

Unlike most other conventional petroleum products that are derived from crude oil, gas-to-liquids (GTLs) are petroleum products that are synthesized from natural gas (methane). This process results in GTL products having no sulfur and low aromatic content, so they should have less impact on human health and the environment compared with crude oil–derived products. The GTL have been registered for use as nonaqueous base fluids (NABF) in drilling muds, which help in the process of drilling wells for oil and gas extraction. It is through these uses and others that they enter terrestrial environments. This study aims to determine whether GTL were less toxic to terrestrial soil biota than conventional NABF used for land-based drilling, e.g., as diesel and low-toxicity mineral oil (LTMO). The fate and impact of these fluids under more realistic soil and aging conditions of a common west Texas (USA) oil-producing region (i.e., sandy loam soil with low organic matter and a hot arid climate) were assessed. Acute terrestrial toxicity studies were conducted on the soft-bodied terrestrial invertebrate earthworm (Eisenia fetida) along with three plant species, alfalfa (Medicago stavia), thickspike wheatgrass (Elymus lanceolatus), and fourwing saltbrush (Atriplex canescens). Changes in microbial community structure of the soils following additions of NABF were examined. The GTL NABF had lower toxicity compared with conventional NABF like diesel and LTMO, as measured by invertebrate toxicity, plant seed germination, and impact on the microbial community.

Description

cc-by

Rights

Availability

Keywords

Gas-to-liquids, Nonaqueous base fluid, Sandy loam, Terrestrial toxicity

Citation

Arneson, Westbrook, L., Chase, D.A., Mudge, J., Hughes, S.A., Lyon, D., Dong, M., Carr, D., & Anderson, T.A.. 2020. Terrestrial Toxicity of Synthetic Gas-to-Liquid versus Crude Oil–Derived Drilling Fluids in Soil. Environmental Toxicology and Chemistry, 39(3). https://doi.org/10.1002/etc.4658

Collections